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|
/* -*- 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 "config.h"
#include <stdlib.h>
#include <errno.h>
#include <unistd.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <string.h>
#include <netlink/route/addr.h>
#include "gsystem-local-alloc.h"
#include "NetworkManagerUtils.h"
#include "nm-utils.h"
#include "nm-platform.h"
#include "NetworkManagerUtils.h"
#include "nm-logging.h"
#include "nm-enum-types.h"
#define debug(...) nm_log_dbg (LOGD_PLATFORM, __VA_ARGS__)
#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)
/* NMPlatform signals */
enum {
SIGNAL_LINK_CHANGED,
SIGNAL_IP4_ADDRESS_CHANGED,
SIGNAL_IP6_ADDRESS_CHANGED,
SIGNAL_IP4_ROUTE_CHANGED,
SIGNAL_IP6_ROUTE_CHANGED,
LAST_SIGNAL
};
static guint signals[LAST_SIGNAL] = { 0 };
/******************************************************************/
/* Singleton NMPlatform subclass instance and cached class object */
static NMPlatform *platform = NULL;
static NMPlatformClass *klass = NULL;
/**
* nm_platform_setup:
* @type: The #GType for a subclass of #NMPlatform
*
* Do not use this function directly, it is intended to be called by
* NMPlatform subclasses. For the linux platform initialization use
* nm_linux_platform_setup() instead.
*
* 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. This is done with a combination of nm_platform_free() and
* nm_*_platform_setup().
*/
void
nm_platform_setup (GType type)
{
gboolean status;
g_assert (platform == NULL);
platform = g_object_new (type, NULL);
g_assert (NM_IS_PLATFORM (platform));
klass = NM_PLATFORM_GET_CLASS (platform);
g_assert (klass->setup);
status = klass->setup (platform);
g_assert (status);
}
/**
* nm_platform_free:
*
* Free #NMPlatform singleton created by nm_*_platform_setup().
*/
void
nm_platform_free (void)
{
g_assert (platform);
g_object_unref (platform);
platform = NULL;
}
/**
* nm_platform_get:
*
* Retrieve #NMPlatform singleton. Use this whenever you want to connect to
* #NMPlatform signals. It is an error to call it before nm_*_platform_setup()
* or after nm_platform_free().
*
* Returns: (transfer none): The #NMPlatform singleton reference.
*/
NMPlatform *
nm_platform_get (void)
{
g_assert (platform);
return platform;
}
/******************************************************************/
/**
* nm_platform_set_error:
* @error: The error code
*
* Convenience function to falsify platform->error. It can be used for example
* by functions that want to save the error, execute some operations and
* restore it.
*/
void nm_platform_set_error (NMPlatformError error)
{
platform->error = error;
}
/**
* nm_platform_get_error:
*
* Convenience function to quickly retrieve the error code of the last
* operation.
*
* Returns: Integer error code.
*/
NMPlatformError
nm_platform_get_error (void)
{
g_assert (platform);
return platform->error;
}
/**
* nm_platform_get_error_message:
*
* Returns: Static human-readable string for the error. Don't free.
*/
const char *
nm_platform_get_error_msg (void)
{
g_assert (platform);
switch (platform->error) {
case NM_PLATFORM_ERROR_NONE:
return "unknown error";
case NM_PLATFORM_ERROR_NOT_FOUND:
return "object not found";
case NM_PLATFORM_ERROR_EXISTS:
return "object already exists";
case NM_PLATFORM_ERROR_WRONG_TYPE:
return "object is wrong type";
case NM_PLATFORM_ERROR_NOT_SLAVE:
return "link not a slave";
case NM_PLATFORM_ERROR_NO_FIRMWARE:
return "firmware not found";
default:
return "invalid error number";
}
}
static void
reset_error (void)
{
g_assert (platform);
platform->error = NM_PLATFORM_ERROR_NONE;
}
#define IFA_F_MANAGETEMPADDR_STR "mngtmpaddr"
#define IFA_F_NOPREFIXROUTE_STR "noprefixroute"
gboolean
nm_platform_check_support_libnl_extended_ifa_flags ()
{
static int supported = -1;
/* support for extended ifa-flags was added together
* with the IFA_F_MANAGETEMPADDR flag. So, check if libnl
* is able to parse this flag. */
if (supported == -1)
supported = rtnl_addr_str2flags (IFA_F_MANAGETEMPADDR_STR) == IFA_F_MANAGETEMPADDR;
return supported;
}
gboolean
nm_platform_check_support_kernel_extended_ifa_flags ()
{
g_return_val_if_fail (NM_IS_PLATFORM (platform), FALSE);
if (!klass->check_support_kernel_extended_ifa_flags)
return FALSE;
return klass->check_support_kernel_extended_ifa_flags (platform);
}
gboolean
nm_platform_check_support_user_ipv6ll (void)
{
static int supported = -1;
g_return_val_if_fail (NM_IS_PLATFORM (platform), FALSE);
if (!klass->check_support_user_ipv6ll)
return FALSE;
if (supported < 0)
supported = klass->check_support_user_ipv6ll (platform) ? 1 : 0;
return !!supported;
}
/******************************************************************/
/**
* nm_platform_sysctl_set:
* @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 (const char *path, const char *value)
{
reset_error ();
g_return_val_if_fail (path, FALSE);
g_return_val_if_fail (value, FALSE);
g_return_val_if_fail (klass->sysctl_set, FALSE);
return klass->sysctl_set (platform, path, value);
}
gboolean
nm_platform_sysctl_set_ip6_hop_limit_safe (const char *iface, int value)
{
const char *path;
gint64 cur;
/* 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 (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 (path, svalue);
}
return TRUE;
}
/**
* nm_platform_sysctl_get:
* @path: Absolute path to sysctl
*
* Returns: (transfer full): Contents of the virtual sysctl file.
*/
char *
nm_platform_sysctl_get (const char *path)
{
reset_error ();
g_return_val_if_fail (path, NULL);
g_return_val_if_fail (klass->sysctl_get, NULL);
return klass->sysctl_get (platform, path);
}
/**
* nm_platform_sysctl_get_int32:
* @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 (const char *path, gint32 fallback)
{
return nm_platform_sysctl_get_int_checked (path, 10, G_MININT32, G_MAXINT32, fallback);
}
/**
* nm_platform_sysctl_get_int_checked:
* @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 (const char *path, guint base, gint64 min, gint64 max, gint64 fallback)
{
char *value = NULL;
gint32 ret;
g_return_val_if_fail (path, fallback);
if (path)
value = nm_platform_sysctl_get (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_query_devices:
*
* Emit #NMPlatform:link-changed ADDED signals for all currently-known links.
* Should only be called at startup.
*/
void
nm_platform_query_devices (void)
{
GArray *links_array;
NMPlatformLink *links;
int i;
links_array = nm_platform_link_get_all ();
links = (NMPlatformLink *) links_array->data;
for (i = 0; i < links_array->len; i++) {
g_signal_emit (platform, signals[SIGNAL_LINK_CHANGED], 0,
links[i].ifindex, &links[i], NM_PLATFORM_SIGNAL_ADDED,
NM_PLATFORM_REASON_INTERNAL);
}
g_array_unref (links_array);
}
/**
* nm_platform_link_get_all:
*
* 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 (void)
{
GArray *links, *result;
guint i, j, nresult;
GHashTable *unseen;
NMPlatformLink *item;
reset_error ();
g_return_val_if_fail (klass->link_get_all, NULL);
links = klass->link_get_all (platform);
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);
if (item->ifindex <= 0 || g_hash_table_contains (unseen, GINT_TO_POINTER (item->ifindex))) {
g_warn_if_reached ();
item->ifindex = 0;
continue;
}
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) {
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;
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 circle, pop the first (remaining) element from the list */
g_warn_if_reached ();
item = &g_array_index (links, NMPlatformLink, first_idx);
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:
* @ifindex: ifindex of the link
* @link: (out): output NMPlatformLink structure.
*
* If a link with given @ifindex exists, fill the given NMPlatformLink
* structure.
*
* Returns: %TRUE, if such a link exists, %FALSE otherwise.
* If the link does not exist, the content of @link is undefined.
**/
gboolean
nm_platform_link_get (int ifindex, NMPlatformLink *link)
{
g_return_val_if_fail (ifindex > 0, FALSE);
g_return_val_if_fail (link, FALSE);
g_return_val_if_fail (klass->link_get, FALSE);
return !!klass->link_get (platform, ifindex, link);
}
/**
* nm_platform_link_add:
* @name: Interface name
* @type: Interface type
* @address: (allow-none): set the mac address of the link
* @address_len: the length of the @address
*
* Add a software interface. Sets platform->error to NM_PLATFORM_ERROR_EXISTS
* if interface is already already exists. Any link-changed ADDED signal will be
* emitted directly, before this function finishes.
*/
static gboolean
nm_platform_link_add (const char *name, NMLinkType type, const void *address, size_t address_len)
{
reset_error ();
g_return_val_if_fail (name, FALSE);
g_return_val_if_fail (klass->link_add, FALSE);
g_return_val_if_fail ( (address != NULL) ^ (address_len == 0) , FALSE);
if (nm_platform_link_exists (name)) {
debug ("link: already exists");
platform->error = NM_PLATFORM_ERROR_EXISTS;
return FALSE;
}
return klass->link_add (platform, name, type, address, address_len);
}
/**
* nm_platform_dummy_add:
* @name: New interface name
*
* Create a software ethernet-like interface
*/
gboolean
nm_platform_dummy_add (const char *name)
{
g_return_val_if_fail (name, FALSE);
debug ("link: adding dummy '%s'", name);
return nm_platform_link_add (name, NM_LINK_TYPE_DUMMY, NULL, 0);
}
/**
* nm_platform_link_exists:
* @name: Interface name
*
* Returns: %TRUE if an interface of this name exists, %FALSE otherwise.
*/
gboolean
nm_platform_link_exists (const char *name)
{
int ifindex = nm_platform_link_get_ifindex (name);
reset_error();
return ifindex > 0;
}
/**
* nm_platform_link_delete:
* @ifindex: Interface index
*
* Delete a software interface. Sets platform->error to
* NM_PLATFORM_ERROR_NOT_FOUND if ifindex not available.
*/
gboolean
nm_platform_link_delete (int ifindex)
{
const char *name;
reset_error ();
g_return_val_if_fail (klass->link_delete, FALSE);
name = nm_platform_link_get_name (ifindex);
if (!name)
return FALSE;
debug ("link: deleting '%s' (%d)", name, ifindex);
return klass->link_delete (platform, ifindex);
}
/**
* nm_platform_link_get_index:
* @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 (const char *name)
{
int ifindex;
reset_error ();
g_return_val_if_fail (name, 0);
g_return_val_if_fail (klass->link_get_ifindex, 0);
ifindex = klass->link_get_ifindex (platform, name);
if (!ifindex) {
debug ("link not found: %s", name);
platform->error = NM_PLATFORM_ERROR_NOT_FOUND;
}
return ifindex;
}
/**
* nm_platform_link_get_name:
* @name: Interface name
*
* Returns: The interface name corresponding to the given interface index
* or %NULL.
*/
const char *
nm_platform_link_get_name (int ifindex)
{
const char *name;
reset_error ();
g_return_val_if_fail (klass->link_get_name, NULL);
name = klass->link_get_name (platform, ifindex);
if (!name) {
debug ("link not found: %d", ifindex);
platform->error = NM_PLATFORM_ERROR_NOT_FOUND;
return FALSE;
}
return name;
}
/**
* nm_platform_link_get_type:
* @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 (int ifindex)
{
reset_error ();
g_return_val_if_fail (klass->link_get_type, NM_LINK_TYPE_NONE);
return klass->link_get_type (platform, ifindex);
}
/**
* nm_platform_link_get_type_name:
* @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 (int ifindex)
{
reset_error ();
g_return_val_if_fail (klass->link_get_type_name, NULL);
return klass->link_get_type_name (platform, ifindex);
}
/**
* nm_platform_link_is_software:
* @ifindex: Interface index.
*
* Returns: %TRUE if ifindex belongs to a software interface, not backed by
* a physical device.
*/
gboolean
nm_platform_link_is_software (int ifindex)
{
return (nm_platform_link_get_type (ifindex) & 0x10000);
}
/**
* nm_platform_link_supports_slaves:
* @ifindex: Interface index.
*
* Returns: %TRUE if ifindex belongs to an interface capable of enslaving
* other interfaces.
*/
gboolean
nm_platform_link_supports_slaves (int ifindex)
{
return (nm_platform_link_get_type (ifindex) & 0x20000);
}
/**
* nm_platform_link_refresh:
* @ifindex: Interface index
*
* Reload the cache for ifindex synchronously.
*/
gboolean
nm_platform_link_refresh (int ifindex)
{
reset_error ();
g_return_val_if_fail (ifindex > 0, FALSE);
if (klass->link_refresh)
return klass->link_refresh (platform, ifindex);
return TRUE;
}
/**
* nm_platform_link_is_up:
* @ifindex: Interface index
*
* Check if the interface is up.
*/
gboolean
nm_platform_link_is_up (int ifindex)
{
reset_error ();
g_return_val_if_fail (ifindex >= 0, FALSE);
g_return_val_if_fail (klass->link_is_up, FALSE);
return klass->link_is_up (platform, ifindex);
}
/**
* nm_platform_link_is_connected:
* @ifindex: Interface index
*
* Check if the interface is connected.
*/
gboolean
nm_platform_link_is_connected (int ifindex)
{
reset_error ();
g_return_val_if_fail (ifindex >= 0, FALSE);
g_return_val_if_fail (klass->link_is_connected, FALSE);
return klass->link_is_connected (platform, ifindex);
}
/**
* nm_platform_link_uses_arp:
* @ifindex: Interface index
*
* Check if the interface is configured to use ARP.
*/
gboolean
nm_platform_link_uses_arp (int ifindex)
{
reset_error ();
g_return_val_if_fail (ifindex >= 0, FALSE);
g_return_val_if_fail (klass->link_uses_arp, FALSE);
return klass->link_uses_arp (platform, ifindex);
}
/**
* nm_platform_link_get_user_ip6vll_enabled:
* @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 (int ifindex)
{
reset_error ();
g_return_val_if_fail (ifindex >= 0, FALSE);
g_return_val_if_fail (klass->check_support_user_ipv6ll, FALSE);
if (klass->link_get_user_ipv6ll_enabled)
return klass->link_get_user_ipv6ll_enabled (platform, ifindex);
return FALSE;
}
/**
* nm_platform_link_set_user_ip6vll_enabled:
* @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 (int ifindex, gboolean enabled)
{
reset_error ();
g_return_val_if_fail (ifindex >= 0, FALSE);
g_return_val_if_fail (klass->check_support_user_ipv6ll, FALSE);
if (klass->link_set_user_ipv6ll_enabled)
return klass->link_set_user_ipv6ll_enabled (platform, ifindex, enabled);
return FALSE;
}
/**
* nm_platform_link_set_address:
* @ifindex: Interface index
* @address: The new MAC address
*
* Set interface MAC address.
*/
gboolean
nm_platform_link_set_address (int ifindex, gconstpointer address, size_t length)
{
reset_error ();
g_return_val_if_fail (ifindex > 0, FALSE);
g_return_val_if_fail (address, FALSE);
g_return_val_if_fail (length > 0, FALSE);
g_return_val_if_fail (klass->link_set_address, FALSE);
debug ("link: setting '%s' (%d) hardware address", nm_platform_link_get_name (ifindex), ifindex);
return klass->link_set_address (platform, ifindex, address, length);
}
/**
* nm_platform_link_get_address:
* @ifindex: Interface index
* @length: Pointer to a variable to store address length
*
* Saves interface hardware address to @address.
*/
gconstpointer
nm_platform_link_get_address (int ifindex, size_t *length)
{
reset_error ();
if (length)
*length = 0;
g_return_val_if_fail (ifindex > 0, NULL);
g_return_val_if_fail (klass->link_get_address, NULL);
return klass->link_get_address (platform, ifindex, length);
}
gboolean
nm_platform_link_supports_carrier_detect (int ifindex)
{
g_return_val_if_fail (ifindex >= 0, FALSE);
g_return_val_if_fail (klass->link_supports_carrier_detect, FALSE);
return klass->link_supports_carrier_detect (platform, ifindex);
}
gboolean
nm_platform_link_supports_vlans (int ifindex)
{
g_return_val_if_fail (ifindex >= 0, FALSE);
g_return_val_if_fail (klass->link_supports_vlans, FALSE);
return klass->link_supports_vlans (platform, ifindex);
}
/**
* nm_platform_link_set_up:
* @ifindex: Interface index
*
* Bring the interface up.
*/
gboolean
nm_platform_link_set_up (int ifindex)
{
reset_error ();
g_return_val_if_fail (ifindex > 0, FALSE);
g_return_val_if_fail (klass->link_set_up, FALSE);
debug ("link: setting up '%s' (%d)", nm_platform_link_get_name (ifindex), ifindex);
return klass->link_set_up (platform, ifindex);
}
/**
* nm_platform_link_set_down:
* @ifindex: Interface index
*
* Take the interface down.
*/
gboolean
nm_platform_link_set_down (int ifindex)
{
reset_error ();
g_return_val_if_fail (ifindex > 0, FALSE);
g_return_val_if_fail (klass->link_set_down, FALSE);
debug ("link: setting down '%s' (%d)", nm_platform_link_get_name (ifindex), ifindex);
return klass->link_set_down (platform, ifindex);
}
/**
* nm_platform_link_set_arp:
* @ifindex: Interface index
*
* Enable ARP on the interface.
*/
gboolean
nm_platform_link_set_arp (int ifindex)
{
reset_error ();
g_return_val_if_fail (ifindex >= 0, FALSE);
g_return_val_if_fail (klass->link_set_arp, FALSE);
debug ("link: setting arp '%s' (%d)", nm_platform_link_get_name (ifindex), ifindex);
return klass->link_set_arp (platform, ifindex);
}
/**
* nm_platform_link_set_noarp:
* @ifindex: Interface index
*
* Disable ARP on the interface.
*/
gboolean
nm_platform_link_set_noarp (int ifindex)
{
reset_error ();
g_return_val_if_fail (ifindex >= 0, FALSE);
g_return_val_if_fail (klass->link_set_noarp, FALSE);
debug ("link: setting noarp '%s' (%d)", nm_platform_link_get_name (ifindex), ifindex);
return klass->link_set_noarp (platform, ifindex);
}
/**
* nm_platform_link_set_mtu:
* @ifindex: Interface index
* @mtu: The new MTU value
*
* Set interface MTU.
*/
gboolean
nm_platform_link_set_mtu (int ifindex, guint32 mtu)
{
reset_error ();
g_return_val_if_fail (ifindex >= 0, FALSE);
g_return_val_if_fail (mtu > 0, FALSE);
g_return_val_if_fail (klass->link_set_mtu, FALSE);
debug ("link: setting '%s' (%d) mtu %"G_GUINT32_FORMAT, nm_platform_link_get_name (ifindex), ifindex, mtu);
return klass->link_set_mtu (platform, ifindex, mtu);
}
/**
* nm_platform_link_get_mtu:
* @ifindex: Interface index
*
* Returns: MTU value for the interface or 0 on error.
*/
guint32
nm_platform_link_get_mtu (int ifindex)
{
reset_error ();
g_return_val_if_fail (ifindex >= 0, 0);
g_return_val_if_fail (klass->link_get_mtu, 0);
return klass->link_get_mtu (platform, ifindex);
}
/**
* nm_platform_link_get_physical_port_id:
* @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 (int ifindex)
{
reset_error ();
g_return_val_if_fail (ifindex >= 0, NULL);
g_return_val_if_fail (klass->link_get_physical_port_id, NULL);
return klass->link_get_physical_port_id (platform, ifindex);
}
/**
* nm_platform_link_get_dev_id:
* @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 (int ifindex)
{
reset_error ();
g_return_val_if_fail (ifindex >= 0, 0);
g_return_val_if_fail (klass->link_get_dev_id, 0);
return klass->link_get_dev_id (platform, ifindex);
}
/**
* nm_platform_link_get_wake_onlan:
* @ifindex: Interface index
*
* Returns: the "Wake-on-LAN" status for @ifindex.
*/
gboolean
nm_platform_link_get_wake_on_lan (int ifindex)
{
reset_error ();
g_return_val_if_fail (ifindex >= 0, FALSE);
g_return_val_if_fail (klass->link_get_wake_on_lan, FALSE);
return klass->link_get_wake_on_lan (platform, ifindex);
}
/**
* nm_platform_link_enslave:
* @master: Interface index of the master
* @slave: Interface index of the slave
*
* Enslave @slave to @master.
*/
gboolean
nm_platform_link_enslave (int master, int slave)
{
reset_error ();
g_assert (platform);
g_return_val_if_fail (master > 0, FALSE);
g_return_val_if_fail (slave> 0, FALSE);
g_return_val_if_fail (klass->link_enslave, FALSE);
debug ("link: enslaving '%s' (%d) to master '%s' (%d)",
nm_platform_link_get_name (slave), slave,
nm_platform_link_get_name (master), master);
return klass->link_enslave (platform, master, slave);
}
/**
* nm_platform_link_release:
* @master: Interface index of the master
* @slave: Interface index of the slave
*
* Release @slave from @master.
*/
gboolean
nm_platform_link_release (int master, int slave)
{
reset_error ();
g_assert (platform);
g_return_val_if_fail (master > 0, FALSE);
g_return_val_if_fail (slave > 0, FALSE);
g_return_val_if_fail (klass->link_release, FALSE);
if (nm_platform_link_get_master (slave) != master) {
platform->error = NM_PLATFORM_ERROR_NOT_SLAVE;
return FALSE;
}
debug ("link: releasing '%s' (%d) from master '%s' (%d)",
nm_platform_link_get_name (slave), slave,
nm_platform_link_get_name (master), master);
return klass->link_release (platform, master, slave);
}
/**
* nm_platform_link_get_master:
* @slave: Interface index of the slave.
*
* Returns: Interfase index of the slave's master.
*/
int
nm_platform_link_get_master (int slave)
{
reset_error ();
g_assert (platform);
g_return_val_if_fail (slave >= 0, FALSE);
g_return_val_if_fail (klass->link_get_master, FALSE);
if (!nm_platform_link_get_name (slave)) {
platform->error = NM_PLATFORM_ERROR_NOT_FOUND;
return 0;
}
return klass->link_get_master (platform, slave);
}
/**
* nm_platform_bridge_add:
* @name: New interface name
* @address: (allow-none): set the mac address of the new bridge
* @address_len: the length of the @address
*
* Create a software bridge.
*/
gboolean
nm_platform_bridge_add (const char *name, const void *address, size_t address_len)
{
debug ("link: adding bridge '%s'", name);
return nm_platform_link_add (name, NM_LINK_TYPE_BRIDGE, address, address_len);
}
/**
* nm_platform_bond_add:
* @name: New interface name
*
* Create a software bonding device.
*/
gboolean
nm_platform_bond_add (const char *name)
{
debug ("link: adding bond '%s'", name);
return nm_platform_link_add (name, NM_LINK_TYPE_BOND, NULL, 0);
}
/**
* nm_platform_team_add:
* @name: New interface name
*
* Create a software teaming device.
*/
gboolean
nm_platform_team_add (const char *name)
{
debug ("link: adding team '%s'", name);
return nm_platform_link_add (name, NM_LINK_TYPE_TEAM, NULL, 0);
}
/**
* nm_platform_vlan_add:
* @name: New interface name
* @vlanid: VLAN identifier
* @vlanflags: VLAN flags from libnm
*
* Create a software VLAN device.
*/
gboolean
nm_platform_vlan_add (const char *name, int parent, int vlanid, guint32 vlanflags)
{
reset_error ();
g_assert (platform);
g_return_val_if_fail (parent >= 0, FALSE);
g_return_val_if_fail (vlanid >= 0, FALSE);
g_return_val_if_fail (name, FALSE);
g_return_val_if_fail (klass->vlan_add, FALSE);
if (nm_platform_link_exists (name)) {
debug ("link already exists: %s", name);
platform->error = NM_PLATFORM_ERROR_EXISTS;
return FALSE;
}
debug ("link: adding vlan '%s' parent %d vlanid %d vlanflags %x",
name, parent, vlanid, vlanflags);
return klass->vlan_add (platform, name, parent, vlanid, vlanflags);
}
gboolean
nm_platform_master_set_option (int ifindex, const char *option, const char *value)
{
reset_error ();
g_return_val_if_fail (ifindex > 0, FALSE);
g_return_val_if_fail (option, FALSE);
g_return_val_if_fail (value, FALSE);
g_return_val_if_fail (klass->master_set_option, FALSE);
return klass->master_set_option (platform, ifindex, option, value);
}
char *
nm_platform_master_get_option (int ifindex, const char *option)
{
reset_error ();
g_return_val_if_fail (ifindex > 0, FALSE);
g_return_val_if_fail (option, FALSE);
g_return_val_if_fail (klass->master_set_option, FALSE);
return klass->master_get_option (platform, ifindex, option);
}
gboolean
nm_platform_slave_set_option (int ifindex, const char *option, const char *value)
{
reset_error ();
g_return_val_if_fail (ifindex > 0, FALSE);
g_return_val_if_fail (option, FALSE);
g_return_val_if_fail (value, FALSE);
g_return_val_if_fail (klass->slave_set_option, FALSE);
return klass->slave_set_option (platform, ifindex, option, value);
}
char *
nm_platform_slave_get_option (int ifindex, const char *option)
{
reset_error ();
g_return_val_if_fail (ifindex > 0, FALSE);
g_return_val_if_fail (option, FALSE);
g_return_val_if_fail (klass->slave_set_option, FALSE);
return klass->slave_get_option (platform, ifindex, option);
}
gboolean
nm_platform_vlan_get_info (int ifindex, int *parent, int *vlanid)
{
reset_error ();
g_assert (platform);
g_return_val_if_fail (klass->vlan_get_info, FALSE);
if (parent)
*parent = 0;
if (vlanid)
*vlanid = 0;
if (nm_platform_link_get_type (ifindex) != NM_LINK_TYPE_VLAN)
return FALSE;
return klass->vlan_get_info (platform, ifindex, parent, vlanid);
}
gboolean
nm_platform_vlan_set_ingress_map (int ifindex, int from, int to)
{
reset_error ();
g_assert (platform);
g_return_val_if_fail (klass->vlan_set_ingress_map, FALSE);
debug ("link: setting vlan ingress map for %d from %d to %d", ifindex, from, to);
return klass->vlan_set_ingress_map (platform, ifindex, from, to);
}
gboolean
nm_platform_vlan_set_egress_map (int ifindex, int from, int to)
{
reset_error ();
g_assert (platform);
g_return_val_if_fail (klass->vlan_set_egress_map, FALSE);
debug ("link: setting vlan egress map for %d from %d to %d", ifindex, from, to);
return klass->vlan_set_egress_map (platform, ifindex, from, to);
}
gboolean
nm_platform_infiniband_partition_add (int parent, int p_key)
{
const char *parent_name;
char *name;
reset_error ();
g_return_val_if_fail (parent >= 0, FALSE);
g_return_val_if_fail (p_key >= 0, FALSE);
g_return_val_if_fail (klass->infiniband_partition_add, FALSE);
if (nm_platform_link_get_type (parent) != NM_LINK_TYPE_INFINIBAND) {
platform->error = NM_PLATFORM_ERROR_WRONG_TYPE;
return FALSE;
}
parent_name = nm_platform_link_get_name (parent);
name = g_strdup_printf ("%s.%04x", parent_name, p_key);
if (nm_platform_link_exists (name)) {
debug ("infiniband: already exists");
platform->error = NM_PLATFORM_ERROR_EXISTS;
g_free (name);
return FALSE;
}
g_free (name);
return klass->infiniband_partition_add (platform, parent, p_key);
}
gboolean
nm_platform_veth_get_properties (int ifindex, NMPlatformVethProperties *props)
{
reset_error ();
g_return_val_if_fail (ifindex > 0, FALSE);
g_return_val_if_fail (props != NULL, FALSE);
return klass->veth_get_properties (platform, ifindex, props);
}
gboolean
nm_platform_tun_get_properties (int ifindex, NMPlatformTunProperties *props)
{
reset_error ();
g_return_val_if_fail (ifindex > 0, FALSE);
g_return_val_if_fail (props != NULL, FALSE);
return klass->tun_get_properties (platform, ifindex, props);
}
gboolean
nm_platform_macvlan_get_properties (int ifindex, NMPlatformMacvlanProperties *props)
{
reset_error ();
g_return_val_if_fail (ifindex > 0, FALSE);
g_return_val_if_fail (props != NULL, FALSE);
return klass->macvlan_get_properties (platform, ifindex, props);
}
gboolean
nm_platform_vxlan_get_properties (int ifindex, NMPlatformVxlanProperties *props)
{
reset_error ();
g_return_val_if_fail (ifindex > 0, FALSE);
g_return_val_if_fail (props != NULL, FALSE);
return klass->vxlan_get_properties (platform, ifindex, props);
}
gboolean
nm_platform_gre_get_properties (int ifindex, NMPlatformGreProperties *props)
{
reset_error ();
g_return_val_if_fail (ifindex > 0, FALSE);
g_return_val_if_fail (props != NULL, FALSE);
return klass->gre_get_properties (platform, ifindex, props);
}
gboolean
nm_platform_wifi_get_capabilities (int ifindex, NMDeviceWifiCapabilities *caps)
{
reset_error ();
g_return_val_if_fail (ifindex > 0, FALSE);
return klass->wifi_get_capabilities (platform, ifindex, caps);
}
gboolean
nm_platform_wifi_get_bssid (int ifindex, guint8 *bssid)
{
reset_error ();
g_return_val_if_fail (ifindex > 0, FALSE);
return klass->wifi_get_bssid (platform, ifindex, bssid);
}
GByteArray *
nm_platform_wifi_get_ssid (int ifindex)
{
reset_error ();
g_return_val_if_fail (ifindex > 0, NULL);
return klass->wifi_get_ssid (platform, ifindex);
}
guint32
nm_platform_wifi_get_frequency (int ifindex)
{
reset_error ();
g_return_val_if_fail (ifindex > 0, 0);
return klass->wifi_get_frequency (platform, ifindex);
}
int
nm_platform_wifi_get_quality (int ifindex)
{
reset_error ();
g_return_val_if_fail (ifindex > 0, 0);
return klass->wifi_get_quality (platform, ifindex);
}
guint32
nm_platform_wifi_get_rate (int ifindex)
{
reset_error ();
g_return_val_if_fail (ifindex > 0, 0);
return klass->wifi_get_rate (platform, ifindex);
}
NM80211Mode
nm_platform_wifi_get_mode (int ifindex)
{
reset_error ();
g_return_val_if_fail (ifindex > 0, NM_802_11_MODE_UNKNOWN);
return klass->wifi_get_mode (platform, ifindex);
}
void
nm_platform_wifi_set_mode (int ifindex, NM80211Mode mode)
{
reset_error ();
g_return_if_fail (ifindex > 0);
klass->wifi_set_mode (platform, ifindex, mode);
}
guint32
nm_platform_wifi_find_frequency (int ifindex, const guint32 *freqs)
{
reset_error ();
g_return_val_if_fail (ifindex > 0, 0);
g_return_val_if_fail (freqs != NULL, 0);
return klass->wifi_find_frequency (platform, ifindex, freqs);
}
void
nm_platform_wifi_indicate_addressing_running (int ifindex, gboolean running)
{
reset_error ();
g_return_if_fail (ifindex > 0);
klass->wifi_indicate_addressing_running (platform, ifindex, running);
}
guint32
nm_platform_mesh_get_channel (int ifindex)
{
reset_error ();
g_return_val_if_fail (ifindex > 0, 0);
return klass->mesh_get_channel (platform, ifindex);
}
gboolean
nm_platform_mesh_set_channel (int ifindex, guint32 channel)
{
reset_error ();
g_return_val_if_fail (ifindex > 0, FALSE);
return klass->mesh_set_channel (platform, ifindex, channel);
}
gboolean
nm_platform_mesh_set_ssid (int ifindex, const guint8 *ssid, gsize len)
{
reset_error ();
g_return_val_if_fail (ifindex > 0, FALSE);
g_return_val_if_fail (ssid != NULL, FALSE);
return klass->mesh_set_ssid (platform, ifindex, ssid, len);
}
#define TO_STRING_DEV_BUF_SIZE (5+15+1)
static const char *
_to_string_dev (int ifindex, char *buf, size_t size)
{
g_assert (buf && size >= TO_STRING_DEV_BUF_SIZE);
if (ifindex) {
const char *name = ifindex > 0 ? nm_platform_link_get_name (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;
}
/******************************************************************/
GArray *
nm_platform_ip4_address_get_all (int ifindex)
{
reset_error ();
g_return_val_if_fail (ifindex > 0, NULL);
g_return_val_if_fail (klass->ip4_address_get_all, NULL);
return klass->ip4_address_get_all (platform, ifindex);
}
GArray *
nm_platform_ip6_address_get_all (int ifindex)
{
reset_error ();
g_return_val_if_fail (ifindex > 0, NULL);
g_return_val_if_fail (klass->ip6_address_get_all, NULL);
return klass->ip6_address_get_all (platform, ifindex);
}
gboolean
nm_platform_ip4_address_add (int ifindex,
in_addr_t address,
in_addr_t peer_address,
int plen,
guint32 lifetime,
guint32 preferred,
const char *label)
{
reset_error ();
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 (klass->ip4_address_add, FALSE);
g_return_val_if_fail (!label || strlen (label) < sizeof (((NMPlatformIP4Address *) NULL)->label), FALSE);
if (nm_logging_enabled (LOGL_DEBUG, LOGD_PLATFORM)) {
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));
debug ("address: adding or updating IPv4 address: %s", nm_platform_ip4_address_to_string (&addr));
}
return klass->ip4_address_add (platform, ifindex, address, peer_address, plen, lifetime, preferred, label);
}
gboolean
nm_platform_ip6_address_add (int ifindex,
struct in6_addr address,
struct in6_addr peer_address,
int plen,
guint32 lifetime,
guint32 preferred,
guint flags)
{
reset_error ();
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 (klass->ip6_address_add, FALSE);
if (nm_logging_enabled (LOGL_DEBUG, LOGD_PLATFORM)) {
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;
debug ("address: adding or updating IPv6 address: %s", nm_platform_ip6_address_to_string (&addr));
}
return klass->ip6_address_add (platform, ifindex, address, peer_address, plen, lifetime, preferred, flags);
}
gboolean
nm_platform_ip4_address_delete (int ifindex, in_addr_t address, int plen, in_addr_t peer_address)
{
char str_dev[TO_STRING_DEV_BUF_SIZE];
char str_peer[NM_UTILS_INET_ADDRSTRLEN];
reset_error ();
g_return_val_if_fail (ifindex > 0, FALSE);
g_return_val_if_fail (plen > 0, FALSE);
g_return_val_if_fail (klass->ip4_address_delete, FALSE);
debug ("address: deleting IPv4 address %s/%d, %s%s%sifindex %d%s",
nm_utils_inet4_ntop (address, NULL), plen,
peer_address ? "peer " : "",
peer_address ? nm_utils_inet4_ntop (peer_address, str_peer) : "",
peer_address ? ", " : "",
ifindex,
_to_string_dev (ifindex, str_dev, sizeof (str_dev)));
return klass->ip4_address_delete (platform, ifindex, address, plen, peer_address);
}
gboolean
nm_platform_ip6_address_delete (int ifindex, struct in6_addr address, int plen)
{
char str_dev[TO_STRING_DEV_BUF_SIZE];
reset_error ();
g_return_val_if_fail (ifindex > 0, FALSE);
g_return_val_if_fail (plen > 0, FALSE);
g_return_val_if_fail (klass->ip6_address_delete, FALSE);
debug ("address: deleting IPv6 address %s/%d, ifindex %d%s",
nm_utils_inet6_ntop (&address, NULL), plen, ifindex,
_to_string_dev (ifindex, str_dev, sizeof (str_dev)));
return klass->ip6_address_delete (platform, ifindex, address, plen);
}
gboolean
nm_platform_ip4_address_exists (int ifindex, in_addr_t address, int plen)
{
reset_error ();
g_return_val_if_fail (plen > 0, FALSE);
g_return_val_if_fail (klass->ip4_address_exists, FALSE);
return klass->ip4_address_exists (platform, ifindex, address, plen);
}
gboolean
nm_platform_ip6_address_exists (int ifindex, struct in6_addr address, int plen)
{
reset_error ();
g_return_val_if_fail (plen > 0, FALSE);
g_return_val_if_fail (klass->ip6_address_exists, FALSE);
return klass->ip6_address_exists (platform, ifindex, address, plen);
}
static gboolean
array_contains_ip4_address (const GArray *addresses, const NMPlatformIP4Address *address)
{
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)
return TRUE;
}
return FALSE;
}
static gboolean
array_contains_ip6_address (const GArray *addresses, const NMPlatformIP6Address *address)
{
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)
return TRUE;
}
return FALSE;
}
/**
* Takes a pair @timestamp and @duration, and returns the remaining duration based
* on the new timestamp @now.
*/
static guint32
_rebase_relative_time_on_now (guint32 timestamp, guint32 duration, guint32 now, guint32 padding)
{
gint64 t;
if (duration == NM_PLATFORM_LIFETIME_PERMANENT)
return NM_PLATFORM_LIFETIME_PERMANENT;
if (timestamp == 0) {
/* if the @timestamp is zero, assume it was just left unset and that the relative
* @duration starts counting from @now. This is convenient to construct an address
* and print it in nm_platform_ip4_address_to_string().
*
* In general it does not make sense to set the @duration without anchoring at
* @timestamp because you don't know the absolute expiration time when looking
* at the address at a later moment. */
timestamp = now;
}
/* For timestamp > now, just accept it and calculate the expected(?) result. */
t = (gint64) timestamp + (gint64) duration - (gint64) now;
/* Optional padding to avoid potential races. */
t += (gint64) padding;
if (t <= 0)
return 0;
if (t >= NM_PLATFORM_LIFETIME_PERMANENT)
return NM_PLATFORM_LIFETIME_PERMANENT - 1;
return t;
}
static gboolean
_address_get_lifetime (const NMPlatformIPAddress *address, guint32 now, guint32 padding, guint32 *out_lifetime, guint32 *out_preferred)
{
guint32 lifetime, preferred;
if (address->lifetime == 0) {
*out_lifetime = NM_PLATFORM_LIFETIME_PERMANENT;
*out_preferred = NM_PLATFORM_LIFETIME_PERMANENT;
/* We treat lifetime==0 as permanent addresses to allow easy creation of such addresses
* (without requiring to set the lifetime fields to NM_PLATFORM_LIFETIME_PERMANENT).
* In that case we also expect that the other fields (timestamp and preferred) are left unset. */
g_return_val_if_fail (address->timestamp == 0 && address->preferred == 0, TRUE);
} else {
lifetime = _rebase_relative_time_on_now (address->timestamp, address->lifetime, now, padding);
if (!lifetime)
return FALSE;
preferred = _rebase_relative_time_on_now (address->timestamp, address->preferred, now, padding);
*out_lifetime = lifetime;
*out_preferred = MIN (preferred, lifetime);
/* Assert that non-permanent addresses have a (positive) @timestamp. _rebase_relative_time_on_now()
* treats addresses with timestamp 0 as *now*. Addresses passed to _address_get_lifetime() always
* should have a valid @timestamp, otherwise on every re-sync, their lifetime will be extended anew.
*/
g_return_val_if_fail ( address->timestamp != 0
|| ( address->lifetime == NM_PLATFORM_LIFETIME_PERMANENT
&& address->preferred == NM_PLATFORM_LIFETIME_PERMANENT), TRUE);
g_return_val_if_fail (preferred <= lifetime, TRUE);
}
return TRUE;
}
gboolean
nm_platform_ip4_check_reinstall_device_route (int ifindex, const NMPlatformIP4Address *address, guint32 device_route_metric)
{
g_return_val_if_fail (address, FALSE);
if ( ifindex <= 0
|| address->plen <= 0
|| address->plen >= 32)
return FALSE;
if (device_route_metric == NM_PLATFORM_ROUTE_METRIC_IP4_DEVICE_ROUTE) {
/* The automatically added route would be already our desired priority.
* Nothing to do. */
return FALSE;
}
return klass->ip4_check_reinstall_device_route (platform, ifindex, address, device_route_metric);
}
/**
* nm_platform_ip4_address_sync:
* @ifindex: Interface index
* @known_addresses: List of addresses
* @device_route_metric: the route metric for adding subnet routes (replaces
* the kernel added routes).
*
* 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 (int ifindex, const GArray *known_addresses, guint32 device_route_metric)
{
GArray *addresses;
NMPlatformIP4Address *address;
guint32 now = nm_utils_get_monotonic_timestamp_s ();
int i;
/* Delete unknown addresses */
addresses = nm_platform_ip4_address_get_all (ifindex);
for (i = 0; i < addresses->len; i++) {
address = &g_array_index (addresses, NMPlatformIP4Address, i);
if (!array_contains_ip4_address (known_addresses, address))
nm_platform_ip4_address_delete (ifindex, address->address, address->plen, address->peer_address);
}
g_array_free (addresses, TRUE);
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;
guint32 network;
gboolean reinstall_device_route = FALSE;
/* add a padding of 5 seconds to avoid potential races. */
if (!_address_get_lifetime ((NMPlatformIPAddress *) known_address, now, 5, &lifetime, &preferred))
continue;
if (nm_platform_ip4_check_reinstall_device_route (ifindex, known_address, device_route_metric))
reinstall_device_route = TRUE;
if (!nm_platform_ip4_address_add (ifindex, known_address->address, known_address->peer_address, known_address->plen, lifetime, preferred, known_address->label))
return FALSE;
if (reinstall_device_route) {
/* Kernel automatically adds a device route for us with metric 0. That is not what we want.
* Remove it, and re-add it.
*
* In face of having the same subnets on two different interfaces with the same metric,
* this is a problem. Surprisingly, kernel is able to add two routes for the same subnet/prefix,metric
* to different interfaces. We cannot. Adding one, would replace the other. This is avoided
* by the above nm_platform_ip4_check_reinstall_device_route() check.
*/
network = nm_utils_ip4_address_clear_host_address (known_address->address, known_address->plen);
(void) nm_platform_ip4_route_add (ifindex, NM_IP_CONFIG_SOURCE_KERNEL, network, known_address->plen,
0, known_address->address, device_route_metric, 0);
(void) nm_platform_ip4_route_delete (ifindex, network, known_address->plen,
NM_PLATFORM_ROUTE_METRIC_IP4_DEVICE_ROUTE);
}
}
return TRUE;
}
/**
* nm_platform_ip6_address_sync:
* @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 (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 (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))
nm_platform_ip6_address_delete (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;
/* add a padding of 5 seconds to avoid potential races. */
if (!_address_get_lifetime ((NMPlatformIPAddress *) known_address, now, 5, &lifetime, &preferred))
continue;
if (!nm_platform_ip6_address_add (ifindex, known_address->address,
known_address->peer_address, known_address->plen,
lifetime, preferred, known_address->flags))
return FALSE;
}
return TRUE;
}
gboolean
nm_platform_address_flush (int ifindex)
{
return nm_platform_ip4_address_sync (ifindex, NULL, 0)
&& nm_platform_ip6_address_sync (ifindex, NULL, FALSE);
}
/******************************************************************/
GArray *
nm_platform_ip4_route_get_all (int ifindex, NMPlatformGetRouteMode mode)
{
reset_error ();
g_return_val_if_fail (ifindex >= 0, NULL);
g_return_val_if_fail (klass->ip4_route_get_all, NULL);
return klass->ip4_route_get_all (platform, ifindex, mode);
}
GArray *
nm_platform_ip6_route_get_all (int ifindex, NMPlatformGetRouteMode mode)
{
reset_error ();
g_return_val_if_fail (ifindex >= 0, NULL);
g_return_val_if_fail (klass->ip6_route_get_all, NULL);
return klass->ip6_route_get_all (platform, ifindex, mode);
}
gboolean
nm_platform_ip4_route_add (int ifindex, NMIPConfigSource source,
in_addr_t network, int plen,
in_addr_t gateway, guint32 pref_src,
guint32 metric, guint32 mss)
{
reset_error ();
g_return_val_if_fail (platform, FALSE);
g_return_val_if_fail (0 <= plen && plen <= 32, FALSE);
g_return_val_if_fail (klass->ip4_route_add, FALSE);
if (nm_logging_enabled (LOGL_DEBUG, LOGD_PLATFORM)) {
NMPlatformIP4Route route = { 0 };
char pref_src_buf[NM_UTILS_INET_ADDRSTRLEN];
route.ifindex = ifindex;
route.source = source;
route.network = network;
route.plen = plen;
route.gateway = gateway;
route.metric = metric;
route.mss = mss;
debug ("route: adding or updating IPv4 route: %s%s%s%s", nm_platform_ip4_route_to_string (&route),
pref_src ? " (src: " : "",
pref_src ? nm_utils_inet4_ntop (pref_src, pref_src_buf) : "",
pref_src ? ")" : "");
}
return klass->ip4_route_add (platform, ifindex, source, network, plen, gateway, pref_src, metric, mss);
}
gboolean
nm_platform_ip6_route_add (int ifindex, NMIPConfigSource source,
struct in6_addr network, int plen, struct in6_addr gateway,
guint32 metric, guint32 mss)
{
g_return_val_if_fail (platform, FALSE);
g_return_val_if_fail (0 <= plen && plen <= 128, FALSE);
g_return_val_if_fail (klass->ip6_route_add, FALSE);
if (nm_logging_enabled (LOGL_DEBUG, LOGD_PLATFORM)) {
NMPlatformIP6Route route = { 0 };
route.ifindex = ifindex;
route.source = source;
route.network = network;
route.plen = plen;
route.gateway = gateway;
route.metric = metric;
route.mss = mss;
debug ("route: adding or updating IPv6 route: %s", nm_platform_ip6_route_to_string (&route));
}
return klass->ip6_route_add (platform, ifindex, source, network, plen, gateway, metric, mss);
}
gboolean
nm_platform_ip4_route_delete (int ifindex, in_addr_t network, int plen, guint32 metric)
{
char str_dev[TO_STRING_DEV_BUF_SIZE];
reset_error ();
g_return_val_if_fail (platform, FALSE);
g_return_val_if_fail (klass->ip4_route_delete, FALSE);
debug ("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 (ifindex, str_dev, sizeof (str_dev)));
return klass->ip4_route_delete (platform, ifindex, network, plen, metric);
}
gboolean
nm_platform_ip6_route_delete (int ifindex, struct in6_addr network, int plen, guint32 metric)
{
char str_dev[TO_STRING_DEV_BUF_SIZE];
reset_error ();
g_return_val_if_fail (platform, FALSE);
g_return_val_if_fail (klass->ip6_route_delete, FALSE);
debug ("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 (ifindex, str_dev, sizeof (str_dev)));
return klass->ip6_route_delete (platform, ifindex, network, plen, metric);
}
gboolean
nm_platform_ip4_route_exists (int ifindex, in_addr_t network, int plen, guint32 metric)
{
reset_error ();
g_return_val_if_fail (platform, FALSE);
g_return_val_if_fail (klass->ip4_route_exists, FALSE);
return klass->ip4_route_exists (platform,ifindex, network, plen, metric);
}
gboolean
nm_platform_ip6_route_exists (int ifindex, struct in6_addr network, int plen, guint32 metric)
{
reset_error ();
g_return_val_if_fail (platform, FALSE);
g_return_val_if_fail (klass->ip6_route_exists, FALSE);
return klass->ip6_route_exists (platform, ifindex, network, plen, metric);
}
static gboolean
array_contains_ip4_route (const GArray *routes, const NMPlatformIP4Route *route)
{
guint len = routes ? routes->len : 0;
guint i;
for (i = 0; i < len; i++) {
NMPlatformIP4Route *c = &g_array_index (routes, NMPlatformIP4Route, i);
if (route->network == c->network &&
route->plen == c->plen &&
route->gateway == c->gateway &&
route->metric == c->metric)
return TRUE;
}
return FALSE;
}
static gboolean
array_contains_ip6_route (const GArray *routes, const NMPlatformIP6Route *route)
{
guint len = routes ? routes->len : 0;
guint i;
for (i = 0; i < len; i++) {
NMPlatformIP6Route *c = &g_array_index (routes, NMPlatformIP6Route, i);
if (IN6_ARE_ADDR_EQUAL (&route->network, &c->network) &&
route->plen == c->plen &&
IN6_ARE_ADDR_EQUAL (&route->gateway, &c->gateway) &&
route->metric == c->metric)
return TRUE;
}
return FALSE;
}
/**
* nm_platform_ip4_route_sync:
* @ifindex: Interface index
* @known_routes: List of routes
*
* A convenience function to synchronize routes for a specific interface
* with the least possible disturbance. It simply removes routes that are
* not listed and adds routes that are.
* Default routes are ignored (both in @known_routes and those already
* configured on the device).
*
* Returns: %TRUE on success.
*/
gboolean
nm_platform_ip4_route_sync (int ifindex, const GArray *known_routes)
{
GArray *routes;
NMPlatformIP4Route *route;
const NMPlatformIP4Route *known_route;
gboolean success;
int i, i_type;
/* Delete unknown routes */
routes = nm_platform_ip4_route_get_all (ifindex, NM_PLATFORM_GET_ROUTE_MODE_NO_DEFAULT);
for (i = 0; i < routes->len; i++) {
route = &g_array_index (routes, NMPlatformIP4Route, i);
if (!array_contains_ip4_route (known_routes, route))
(void) nm_platform_ip4_route_delete (ifindex, route->network, route->plen, route->metric);
}
if (!known_routes) {
g_array_free (routes, TRUE);
return TRUE;
}
/* Add missing routes */
for (i_type = 0, success = TRUE; i_type < 2 && success; i_type++) {
for (i = 0; i < known_routes->len && success; i++) {
known_route = &g_array_index (known_routes, NMPlatformIP4Route, i);
if (NM_PLATFORM_IP_ROUTE_IS_DEFAULT (known_route))
continue;
if ( (i_type == 0 && known_route->gateway != 0)
|| (i_type == 1 && known_route->gateway == 0)) {
/* Make two runs over the list of routes. On the first, only add
* device routes, on the second the others (gateway routes). */
continue;
}
/* Ignore routes that already exist */
if (!array_contains_ip4_route (routes, known_route)) {
success = nm_platform_ip4_route_add (ifindex,
known_route->source,
known_route->network,
known_route->plen,
known_route->gateway,
0,
known_route->metric,
known_route->mss);
if (!success && known_route->source < NM_IP_CONFIG_SOURCE_USER) {
nm_log_dbg (LOGD_PLATFORM, "ignore error adding IPv4 route to kernel: %s",
nm_platform_ip4_route_to_string (known_route));
success = TRUE;
}
}
}
}
g_array_free (routes, TRUE);
return success;
}
/**
* nm_platform_ip6_route_sync:
* @ifindex: Interface index
* @known_routes: List of routes
*
* A convenience function to synchronize routes for a specific interface
* with the least possible disturbance. It simply removes routes that are
* not listed and adds routes that are.
* Default routes are ignored (both in @known_routes and those already
* configured on the device).
*
* Returns: %TRUE on success.
*/
gboolean
nm_platform_ip6_route_sync (int ifindex, const GArray *known_routes)
{
GArray *routes;
NMPlatformIP6Route *route;
const NMPlatformIP6Route *known_route;
gboolean success;
int i, i_type;
/* Delete unknown routes */
routes = nm_platform_ip6_route_get_all (ifindex, NM_PLATFORM_GET_ROUTE_MODE_NO_DEFAULT);
for (i = 0; i < routes->len; i++) {
route = &g_array_index (routes, NMPlatformIP6Route, i);
route->ifindex = 0;
if (!array_contains_ip6_route (known_routes, route))
nm_platform_ip6_route_delete (ifindex, route->network, route->plen, route->metric);
}
if (!known_routes) {
g_array_free (routes, TRUE);
return TRUE;
}
/* Add missing routes */
for (i_type = 0, success = TRUE; i_type < 2 && success; i_type++) {
for (i = 0; i < known_routes->len && success; i++) {
known_route = &g_array_index (known_routes, NMPlatformIP6Route, i);
if (NM_PLATFORM_IP_ROUTE_IS_DEFAULT (known_route))
continue;
if ( (i_type == 0 && !IN6_IS_ADDR_UNSPECIFIED (&known_route->gateway))
|| (i_type == 1 && IN6_IS_ADDR_UNSPECIFIED (&known_route->gateway))) {
/* Make two runs over the list of routes. On the first, only add
* device routes, on the second the others (gateway routes). */
continue;
}
/* Ignore routes that already exist */
if (!array_contains_ip6_route (routes, known_route)) {
success = nm_platform_ip6_route_add (ifindex,
known_route->source,
known_route->network,
known_route->plen,
known_route->gateway,
known_route->metric,
known_route->mss);
if (!success && known_route->source < NM_IP_CONFIG_SOURCE_USER) {
nm_log_dbg (LOGD_PLATFORM, "ignore error adding IPv6 route to kernel: %s",
nm_platform_ip6_route_to_string (known_route));
success = TRUE;
}
}
}
}
g_array_free (routes, TRUE);
return success;
}
gboolean
nm_platform_route_flush (int ifindex)
{
return nm_platform_ip4_route_sync (ifindex, NULL)
&& nm_platform_ip6_route_sync (ifindex, NULL);
}
/******************************************************************/
static const char *
source_to_string (NMIPConfigSource source)
{
switch (source) {
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",
_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;
}
static char to_string_buffer[256];
const char *
nm_platform_link_to_string (const NMPlatformLink *link)
{
char master[20];
char parent[20];
char *driver, *udi, *type;
GString *str;
if (!link)
return "(unknown link)";
str = g_string_new (NULL);
if (!link->arp)
g_string_append (str, "NOARP,");
if (link->up)
g_string_append (str, "UP");
else
g_string_append (str, "DOWN");
if (link->connected)
g_string_append (str, ",LOWER_UP");
if (link->master)
g_snprintf (master, sizeof (master), " master %d", link->master);
else
master[0] = 0;
if (link->parent)
g_snprintf (parent, sizeof (master), "@%d", link->parent);
else
parent[0] = 0;
driver = link->driver ? g_strdup_printf (" driver '%s'", link->driver) : NULL;
udi = link->udi ? g_strdup_printf (" udi '%s'", link->udi) : NULL;
type = link->type_name ? NULL : g_strdup_printf ("(%d)", link->type);
g_snprintf (to_string_buffer, sizeof (to_string_buffer), "%d: %s%s <%s> mtu %d%s %s%s%s",
link->ifindex, link->name, parent, str->str,
link->mtu, master, link->type_name ? link->type_name : type,
driver ? driver : "", udi ? udi : "");
g_string_free (str, TRUE);
g_free (driver);
g_free (udi);
g_free (type);
return to_string_buffer;
}
/**
* nm_platform_ip4_address_to_string:
* @route: pointer to NMPlatformIP4Address address structure
*
* A method for converting an address struct into a string representation.
*
* Example output: ""
*
* Returns: a string representation of the address. The returned string
* is an internal buffer, so do not keep or free the returned string.
* Also, this function is not thread safe.
*/
const char *
nm_platform_ip4_address_to_string (const NMPlatformIP4Address *address)
{
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 ();
g_return_val_if_fail (address, "(unknown)");
inet_ntop (AF_INET, &address->address, s_address, sizeof (s_address));
if (address->peer_address) {
inet_ntop (AF_INET, &address->peer_address, s_peer, sizeof (s_peer));
str_peer = g_strconcat (" ptp ", s_peer, NULL);
}
_to_string_dev (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 (to_string_buffer, sizeof (to_string_buffer), "%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 to_string_buffer;
}
/**
* nm_platform_addr_flags2str: wrapper for rtnl_addr_flags2str(),
* which might not yet support some recent address flags.
**/
void
nm_platform_addr_flags2str (int flags, char *buf, size_t size)
{
rtnl_addr_flags2str(flags, buf, size);
/* There are two recent flags IFA_F_MANAGETEMPADDR and IFA_F_NOPREFIXROUTE.
* If libnl does not yet support them, add them by hand.
* These two flags were introduced together with the extended ifa_flags,
* so, check for that.
*/
if ((flags & IFA_F_MANAGETEMPADDR) && !nm_platform_check_support_libnl_extended_ifa_flags ()) {
strncat (buf, buf[0] ? "," IFA_F_MANAGETEMPADDR_STR : IFA_F_MANAGETEMPADDR_STR,
size - strlen (buf) - 1);
}
if ((flags & IFA_F_NOPREFIXROUTE) && !nm_platform_check_support_libnl_extended_ifa_flags ()) {
strncat (buf, buf[0] ? "," IFA_F_NOPREFIXROUTE_STR : IFA_F_NOPREFIXROUTE_STR,
size - strlen (buf) - 1);
}
}
/**
* nm_platform_ip6_address_to_string:
* @route: pointer to NMPlatformIP6Address address structure
*
* 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. The returned string
* is an internal buffer, so do not keep or free the returned string.
* Also, this function is not thread safe.
*/
const char *
nm_platform_ip6_address_to_string (const NMPlatformIP6Address *address)
{
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_flags;
char *str_peer = NULL;
const char *str_lft_p, *str_pref_p, *str_time_p;
gint32 now = nm_utils_get_monotonic_timestamp_s ();
g_return_val_if_fail (address, "(unknown)");
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 (address->ifindex, str_dev, sizeof (str_dev));
nm_platform_addr_flags2str (address->flags, s_flags, sizeof (s_flags));
str_flags = s_flags[0] ? g_strconcat (" flags ", s_flags, NULL) : NULL;
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 (to_string_buffer, sizeof (to_string_buffer), "%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_flags ? str_flags : "",
source_to_string (address->source));
g_free (str_flags);
g_free (str_peer);
return to_string_buffer;
}
/**
* nm_platform_ip4_route_to_string:
* @route: pointer to NMPlatformIP4Route route structure
*
* 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. The returned string
* is an internal buffer, so do not keep or free the returned string.
* Also, this function is not thread safe.
*/
const char *
nm_platform_ip4_route_to_string (const NMPlatformIP4Route *route)
{
char s_network[INET_ADDRSTRLEN], s_gateway[INET_ADDRSTRLEN];
char str_dev[TO_STRING_DEV_BUF_SIZE];
g_return_val_if_fail (route, "(unknown)");
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 (route->ifindex, str_dev, sizeof (str_dev));
g_snprintf (to_string_buffer, sizeof (to_string_buffer), "%s/%d via %s%s metric %"G_GUINT32_FORMAT" mss %"G_GUINT32_FORMAT" src %s",
s_network, route->plen, s_gateway,
str_dev,
route->metric, route->mss,
source_to_string (route->source));
return to_string_buffer;
}
/**
* nm_platform_ip6_route_to_string:
* @route: pointer to NMPlatformIP6Route route structure
*
* 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. The returned string
* is an internal buffer, so do not keep or free the returned string.
* Also, this function is not thread safe.
*/
const char *
nm_platform_ip6_route_to_string (const NMPlatformIP6Route *route)
{
char s_network[INET6_ADDRSTRLEN], s_gateway[INET6_ADDRSTRLEN];
char str_dev[TO_STRING_DEV_BUF_SIZE];
g_return_val_if_fail (route, "(unknown)");
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 (route->ifindex, str_dev, sizeof (str_dev));
g_snprintf (to_string_buffer, sizeof (to_string_buffer), "%s/%d via %s%s metric %"G_GUINT32_FORMAT" mss %"G_GUINT32_FORMAT" src %s",
s_network, route->plen, s_gateway,
str_dev,
route->metric, route->mss,
source_to_string (route->source));
return to_string_buffer;
}
#define _CMP_POINTER(a, b) \
G_STMT_START { \
if ((a) == (b)) \
return 0; \
if (!(a)) \
return -1; \
if (!(b)) \
return 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_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_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(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_POINTER (a, b);
_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, up);
_CMP_FIELD (a, b, connected);
_CMP_FIELD (a, b, arp);
_CMP_FIELD (a, b, mtu);
_CMP_FIELD_STR0 (a, b, type_name);
_CMP_FIELD_STR0 (a, b, udi);
_CMP_FIELD_STR0 (a, b, driver);
return 0;
}
int
nm_platform_ip4_address_cmp (const NMPlatformIP4Address *a, const NMPlatformIP4Address *b)
{
_CMP_POINTER (a, b);
_CMP_FIELD (a, b, ifindex);
_CMP_FIELD (a, b, source);
_CMP_FIELD (a, b, address);
_CMP_FIELD (a, b, peer_address);
_CMP_FIELD (a, b, plen);
_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)
{
_CMP_POINTER (a, b);
_CMP_FIELD (a, b, ifindex);
_CMP_FIELD (a, b, source);
_CMP_FIELD_MEMCMP (a, b, address);
_CMP_FIELD_MEMCMP (a, b, peer_address);
_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_POINTER (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);
return 0;
}
int
nm_platform_ip6_route_cmp (const NMPlatformIP6Route *a, const NMPlatformIP6Route *b)
{
_CMP_POINTER (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;
}
#undef _CMP_FIELD
#undef _CMP_FIELD_MEMCMP
/**
* 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_POINTER (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;
}
#undef _CMP_POINTER
static const char *
_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 *p, int ifindex, NMPlatformLink *device, NMPlatformSignalChangeType change_type, gpointer user_data)
{
debug ("signal: link %7s: %s", _change_type_to_string (change_type), nm_platform_link_to_string (device));
}
static void
log_ip4_address (NMPlatform *p, int ifindex, NMPlatformIP4Address *address, NMPlatformSignalChangeType change_type, gpointer user_data)
{
debug ("signal: address 4 %7s: %s", _change_type_to_string (change_type), nm_platform_ip4_address_to_string (address));
}
static void
log_ip6_address (NMPlatform *p, int ifindex, NMPlatformIP6Address *address, NMPlatformSignalChangeType change_type, gpointer user_data)
{
debug ("signal: address 6 %7s: %s", _change_type_to_string (change_type), nm_platform_ip6_address_to_string (address));
}
static void
log_ip4_route (NMPlatform *p, int ifindex, NMPlatformIP4Route *route, NMPlatformSignalChangeType change_type, gpointer user_data)
{
debug ("signal: route 4 %7s: %s", _change_type_to_string (change_type), nm_platform_ip4_route_to_string (route));
}
static void
log_ip6_route (NMPlatform *p, int ifindex, NMPlatformIP6Route *route, NMPlatformSignalChangeType change_type, gpointer user_data)
{
debug ("signal: route 6 %7s: %s", _change_type_to_string (change_type), nm_platform_ip6_route_to_string (route));
}
/******************************************************************/
static gboolean
_vtr_v4_route_add (int ifindex, const NMPlatformIPXRoute *route, guint32 v4_pref_src)
{
return nm_platform_ip4_route_add (ifindex > 0 ? ifindex : route->rx.ifindex,
route->rx.source,
route->r4.network,
route->rx.plen,
route->r4.gateway,
v4_pref_src,
route->rx.metric,
route->rx.mss);
}
static gboolean
_vtr_v6_route_add (int ifindex, const NMPlatformIPXRoute *route, guint32 v4_pref_src)
{
return nm_platform_ip6_route_add (ifindex > 0 ? ifindex : route->rx.ifindex,
route->rx.source,
route->r6.network,
route->rx.plen,
route->r6.gateway,
route->rx.metric,
route->rx.mss);
}
static gboolean
_vtr_v4_route_delete (int ifindex, const NMPlatformIPXRoute *route)
{
return nm_platform_ip4_route_delete (ifindex > 0 ? ifindex : route->rx.ifindex,
route->r4.network,
route->rx.plen,
route->rx.metric);
}
static gboolean
_vtr_v6_route_delete (int ifindex, const NMPlatformIPXRoute *route)
{
return nm_platform_ip6_route_delete (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 (int ifindex, guint32 metric)
{
return nm_platform_ip4_route_delete (ifindex, 0, 0, metric);
}
static gboolean
_vtr_v6_route_delete_default (int ifindex, guint32 metric)
{
return nm_platform_ip6_route_delete (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)) 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)) 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
nm_platform_init (NMPlatform *object)
{
}
#define SIGNAL(signal_id, method) signals[signal_id] = \
g_signal_new_class_handler (NM_PLATFORM_ ## signal_id, \
G_OBJECT_CLASS_TYPE (object_class), \
G_SIGNAL_RUN_FIRST, \
G_CALLBACK (method), \
NULL, NULL, NULL, \
G_TYPE_NONE, 4, G_TYPE_INT, G_TYPE_POINTER, NM_TYPE_PLATFORM_SIGNAL_CHANGE_TYPE, NM_TYPE_PLATFORM_REASON);
static void
nm_platform_class_init (NMPlatformClass *platform_class)
{
GObjectClass *object_class = G_OBJECT_CLASS (platform_class);
/* Signals */
SIGNAL (SIGNAL_LINK_CHANGED, log_link)
SIGNAL (SIGNAL_IP4_ADDRESS_CHANGED, log_ip4_address)
SIGNAL (SIGNAL_IP6_ADDRESS_CHANGED, log_ip6_address)
SIGNAL (SIGNAL_IP4_ROUTE_CHANGED, log_ip4_route)
SIGNAL (SIGNAL_IP6_ROUTE_CHANGED, log_ip6_route)
}
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