/* SPDX-License-Identifier: GPL-2.0-or-later */
/*
* Copyright (C) 2005 - 2014 Red Hat, Inc.
* Copyright (C) 2006 - 2008 Novell, Inc.
*/
#include "src/core/nm-default-daemon.h"
#include "nm-device-ethernet.h"
#include <netinet/in.h>
#include <stdlib.h>
#include <unistd.h>
#include <libudev.h>
#include <linux/if_ether.h>
#include "nm-device-private.h"
#include "nm-act-request.h"
#include "nm-ip4-config.h"
#include "NetworkManagerUtils.h"
#include "supplicant/nm-supplicant-manager.h"
#include "supplicant/nm-supplicant-interface.h"
#include "supplicant/nm-supplicant-config.h"
#include "ppp/nm-ppp-manager.h"
#include "ppp/nm-ppp-manager-call.h"
#include "ppp/nm-ppp-status.h"
#include "libnm-platform/nm-platform.h"
#include "libnm-platform/nm-platform-utils.h"
#include "nm-dcb.h"
#include "settings/nm-settings-connection.h"
#include "nm-config.h"
#include "nm-device-ethernet-utils.h"
#include "settings/nm-settings.h"
#include "nm-device-factory.h"
#include "libnm-core-intern/nm-core-internal.h"
#include "NetworkManagerUtils.h"
#include "libnm-udev-aux/nm-udev-utils.h"
#include "nm-device-veth.h"
#define _NMLOG_DEVICE_TYPE NMDeviceEthernet
#include "nm-device-logging.h"
/*****************************************************************************/
#define PPPOE_RECONNECT_DELAY 7
#define PPPOE_ENCAP_OVERHEAD 8 /* 2 bytes for PPP, 6 for PPPoE */
#define SUPPLICANT_LNK_TIMEOUT_SEC 15
/*****************************************************************************/
typedef enum {
DCB_WAIT_UNKNOWN = 0,
/* Ensure carrier is up before enabling DCB */
DCB_WAIT_CARRIER_PREENABLE_UP,
/* Wait for carrier down when device starts enabling */
DCB_WAIT_CARRIER_PRECONFIG_DOWN,
/* Wait for carrier up when device has finished enabling */
DCB_WAIT_CARRIER_PRECONFIG_UP,
/* Wait carrier down when device starts configuring */
DCB_WAIT_CARRIER_POSTCONFIG_DOWN,
/* Wait carrier up when device has finished configuring */
DCB_WAIT_CARRIER_POSTCONFIG_UP,
} DcbWait;
typedef struct _NMDeviceEthernetPrivate {
/* s390 */
char * subchan1;
char * subchan2;
char * subchan3;
char * subchannels; /* Composite used for checking unmanaged specs */
char ** subchannels_dbus; /* Array exported on D-Bus */
char * s390_nettype;
GHashTable *s390_options;
guint32 speed;
gulong carrier_id;
struct {
NMSupplicantManager * mgr;
NMSupplMgrCreateIfaceHandle *create_handle;
NMSupplicantInterface * iface;
gulong iface_state_id;
gulong auth_state_id;
guint con_timeout_id;
guint lnk_timeout_id;
bool is_associated : 1;
} supplicant;
NMActRequestGetSecretsCallId *wired_secrets_id;
/* PPPoE */
NMPPPManager *ppp_manager;
gint32 last_pppoe_time;
guint pppoe_wait_id;
/* DCB */
DcbWait dcb_wait;
guint dcb_timeout_id;
guint32 ethtool_prev_speed;
NMPlatformLinkDuplexType ethtool_prev_duplex : 3;
bool dcb_handle_carrier_changes : 1;
bool ethtool_prev_set : 1;
bool ethtool_prev_autoneg : 1;
} NMDeviceEthernetPrivate;
NM_GOBJECT_PROPERTIES_DEFINE(NMDeviceEthernet, PROP_SPEED, PROP_S390_SUBCHANNELS, );
/*****************************************************************************/
G_DEFINE_TYPE(NMDeviceEthernet, nm_device_ethernet, NM_TYPE_DEVICE)
#define NM_DEVICE_ETHERNET_GET_PRIVATE(self) \
_NM_GET_PRIVATE_PTR(self, NMDeviceEthernet, NM_IS_DEVICE_ETHERNET, NMDevice)
/*****************************************************************************/
static void wired_secrets_cancel(NMDeviceEthernet *self);
/*****************************************************************************/
static char *
get_link_basename(const char *parent_path, const char *name, GError **error)
{
char *link_dest, *path;
char *result = NULL;
path = g_strdup_printf("%s/%s", parent_path, name);
link_dest = g_file_read_link(path, error);
if (link_dest) {
result = g_path_get_basename(link_dest);
g_free(link_dest);
}
g_free(path);
return result;
}
static void
_update_s390_subchannels(NMDeviceEthernet *self)
{
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
struct udev_device * dev = NULL;
struct udev_device * parent = NULL;
const char * parent_path, *item;
int ifindex;
GDir * dir;
GError * error = NULL;
if (priv->subchannels) {
/* only read the subchannels once. For one, we don't expect them to change
* on multiple invocations. Second, we didn't implement proper reloading.
* Proper reloading might also be complicated, because the subchannels are
* used to match on devices based on a device-spec. Thus, it's not clear
* what it means to change afterwards. */
return;
}
ifindex = nm_device_get_ifindex((NMDevice *) self);
dev = nm_platform_link_get_udev_device(nm_device_get_platform(NM_DEVICE(self)), ifindex);
if (!dev)
return;
/* Try for the "ccwgroup" parent */
parent = udev_device_get_parent_with_subsystem_devtype(dev, "ccwgroup", NULL);
if (!parent) {
/* FIXME: whatever 'lcs' devices' subsystem is here... */
/* Not an s390 device */
return;
}
parent_path = udev_device_get_syspath(parent);
dir = g_dir_open(parent_path, 0, &error);
if (!dir) {
_LOGW(LOGD_DEVICE | LOGD_PLATFORM,
"update-s390: failed to open directory '%s': %s",
parent_path,
error->message);
g_clear_error(&error);
return;
}
while ((item = g_dir_read_name(dir))) {
if (!strcmp(item, "cdev0")) {
priv->subchan1 = get_link_basename(parent_path, "cdev0", &error);
} else if (!strcmp(item, "cdev1")) {
priv->subchan2 = get_link_basename(parent_path, "cdev1", &error);
} else if (!strcmp(item, "cdev2")) {
priv->subchan3 = get_link_basename(parent_path, "cdev2", &error);
} else if (!strcmp(item, "driver")) {
priv->s390_nettype = get_link_basename(parent_path, "driver", &error);
} else if (!strcmp(item, "layer2") || !strcmp(item, "portname")
|| !strcmp(item, "portno")) {
gs_free char *path = NULL, *value = NULL;
path = g_strdup_printf("%s/%s", parent_path, item);
value = nm_platform_sysctl_get(nm_device_get_platform(NM_DEVICE(self)),
NMP_SYSCTL_PATHID_ABSOLUTE(path));
if (!strcmp(item, "portname") && !g_strcmp0(value, "no portname required")) {
/* Do nothing */
} else if (value && *value) {
g_hash_table_insert(priv->s390_options, g_strdup(item), value);
value = NULL;
} else
_LOGW(LOGD_DEVICE | LOGD_PLATFORM, "update-s390: error reading %s", path);
}
if (error) {
_LOGW(LOGD_DEVICE | LOGD_PLATFORM,
"update-s390: failed reading sysfs for %s (%s)",
item,
error->message);
g_clear_error(&error);
}
}
g_dir_close(dir);
if (priv->subchan3) {
priv->subchannels =
g_strdup_printf("%s,%s,%s", priv->subchan1, priv->subchan2, priv->subchan3);
} else if (priv->subchan2) {
priv->subchannels = g_strdup_printf("%s,%s", priv->subchan1, priv->subchan2);
} else
priv->subchannels = g_strdup(priv->subchan1);
priv->subchannels_dbus = g_new(char *, 3 + 1);
priv->subchannels_dbus[0] = g_strdup(priv->subchan1);
priv->subchannels_dbus[1] = g_strdup(priv->subchan2);
priv->subchannels_dbus[2] = g_strdup(priv->subchan3);
priv->subchannels_dbus[3] = NULL;
_LOGI(LOGD_DEVICE | LOGD_PLATFORM,
"update-s390: found s390 '%s' subchannels [%s]",
nm_device_get_driver((NMDevice *) self) ?: "(unknown driver)",
priv->subchannels);
_notify(self, PROP_S390_SUBCHANNELS);
}
static void
device_state_changed(NMDevice * device,
NMDeviceState new_state,
NMDeviceState old_state,
NMDeviceStateReason reason)
{
if (new_state > NM_DEVICE_STATE_ACTIVATED)
wired_secrets_cancel(NM_DEVICE_ETHERNET(device));
}
static void
nm_device_ethernet_init(NMDeviceEthernet *self)
{
NMDeviceEthernetPrivate *priv;
priv = G_TYPE_INSTANCE_GET_PRIVATE(self, NM_TYPE_DEVICE_ETHERNET, NMDeviceEthernetPrivate);
self->_priv = priv;
priv->s390_options = g_hash_table_new_full(nm_str_hash, g_str_equal, g_free, g_free);
}
static NMDeviceCapabilities
get_generic_capabilities(NMDevice *device)
{
NMDeviceEthernet *self = NM_DEVICE_ETHERNET(device);
int ifindex = nm_device_get_ifindex(device);
if (ifindex > 0) {
if (nm_platform_link_supports_carrier_detect(nm_device_get_platform(device), ifindex))
return NM_DEVICE_CAP_CARRIER_DETECT;
else {
_LOGI(LOGD_PLATFORM,
"driver '%s' does not support carrier detection.",
nm_device_get_driver(device));
}
}
return NM_DEVICE_CAP_NONE;
}
static guint32
_subchannels_count_num(const char *const *array)
{
int i;
if (!array)
return 0;
for (i = 0; array[i]; i++)
/* NOP */;
return i;
}
static gboolean
match_subchans(NMDeviceEthernet *self, NMSettingWired *s_wired, gboolean *try_mac)
{
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
const char *const * subchans;
guint32 num1, num2;
int i;
*try_mac = TRUE;
subchans = nm_setting_wired_get_s390_subchannels(s_wired);
num1 = _subchannels_count_num(subchans);
num2 = _subchannels_count_num((const char *const *) priv->subchannels_dbus);
/* connection has no subchannels */
if (num1 == 0)
return TRUE;
/* connection requires subchannels but the device has none */
if (num2 == 0)
return FALSE;
/* number of subchannels differ */
if (num1 != num2)
return FALSE;
/* Make sure each subchannel in the connection is a subchannel of this device */
for (i = 0; subchans[i]; i++) {
const char *candidate = subchans[i];
if ((priv->subchan1 && !strcmp(priv->subchan1, candidate))
|| (priv->subchan2 && !strcmp(priv->subchan2, candidate))
|| (priv->subchan3 && !strcmp(priv->subchan3, candidate)))
continue;
return FALSE; /* a subchannel was not found */
}
*try_mac = FALSE;
return TRUE;
}
static gboolean
check_connection_compatible(NMDevice *device, NMConnection *connection, GError **error)
{
NMDeviceEthernet *self = NM_DEVICE_ETHERNET(device);
NMSettingWired * s_wired;
if (!NM_DEVICE_CLASS(nm_device_ethernet_parent_class)
->check_connection_compatible(device, connection, error))
return FALSE;
if (nm_connection_is_type(connection, NM_SETTING_PPPOE_SETTING_NAME)
|| (nm_connection_is_type(connection, NM_SETTING_VETH_SETTING_NAME)
&& NM_IS_DEVICE_VETH(device))) {
s_wired = nm_connection_get_setting_wired(connection);
} else {
s_wired =
_nm_connection_check_main_setting(connection, NM_SETTING_WIRED_SETTING_NAME, error);
if (!s_wired)
return FALSE;
}
if (s_wired) {
const char * mac, *perm_hw_addr;
gboolean try_mac = TRUE;
const char *const *mac_blacklist;
int i;
if (!match_subchans(self, s_wired, &try_mac)) {
nm_utils_error_set_literal(error,
NM_UTILS_ERROR_CONNECTION_AVAILABLE_TEMPORARY,
"s390 subchannels don't match");
return FALSE;
}
perm_hw_addr = nm_device_get_permanent_hw_address(device);
mac = nm_setting_wired_get_mac_address(s_wired);
if (perm_hw_addr) {
if (try_mac && mac && !nm_utils_hwaddr_matches(mac, -1, perm_hw_addr, -1)) {
nm_utils_error_set_literal(error,
NM_UTILS_ERROR_CONNECTION_AVAILABLE_TEMPORARY,
"permanent MAC address doesn't match");
return FALSE;
}
/* Check for MAC address blacklist */
mac_blacklist = nm_setting_wired_get_mac_address_blacklist(s_wired);
for (i = 0; mac_blacklist[i]; i++) {
if (!nm_utils_hwaddr_valid(mac_blacklist[i], ETH_ALEN)) {
nm_utils_error_set_literal(error,
NM_UTILS_ERROR_CONNECTION_AVAILABLE_TEMPORARY,
"invalid MAC in blacklist");
return FALSE;
}
if (nm_utils_hwaddr_matches(mac_blacklist[i], -1, perm_hw_addr, -1)) {
nm_utils_error_set_literal(error,
NM_UTILS_ERROR_CONNECTION_AVAILABLE_TEMPORARY,
"permanent MAC address of device blacklisted");
return FALSE;
}
}
} else if (mac) {
nm_utils_error_set_literal(error,
NM_UTILS_ERROR_CONNECTION_AVAILABLE_TEMPORARY,
"device has no permanent MAC address to match");
return FALSE;
}
}
return TRUE;
}
/*****************************************************************************/
/* 802.1X */
static void
supplicant_interface_release(NMDeviceEthernet *self)
{
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
nm_clear_pointer(&priv->supplicant.create_handle,
nm_supplicant_manager_create_interface_cancel);
nm_clear_g_source(&priv->supplicant.lnk_timeout_id);
nm_clear_g_source(&priv->supplicant.con_timeout_id);
nm_clear_g_signal_handler(priv->supplicant.iface, &priv->supplicant.iface_state_id);
nm_clear_g_signal_handler(priv->supplicant.iface, &priv->supplicant.auth_state_id);
if (priv->supplicant.iface) {
nm_supplicant_interface_disconnect(priv->supplicant.iface);
g_clear_object(&priv->supplicant.iface);
}
}
static void
supplicant_auth_state_changed(NMSupplicantInterface *iface,
GParamSpec * pspec,
NMDeviceEthernet * self)
{
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
NMSupplicantAuthState state;
state = nm_supplicant_interface_get_auth_state(priv->supplicant.iface);
_LOGD(LOGD_CORE, "supplicant auth state changed to %u", (unsigned) state);
if (state == NM_SUPPLICANT_AUTH_STATE_SUCCESS) {
nm_clear_g_signal_handler(priv->supplicant.iface, &priv->supplicant.iface_state_id);
nm_device_update_dynamic_ip_setup(NM_DEVICE(self));
}
}
static gboolean
wired_auth_is_optional(NMDeviceEthernet *self)
{
NMSetting8021x *s_8021x;
s_8021x = nm_device_get_applied_setting(NM_DEVICE(self), NM_TYPE_SETTING_802_1X);
g_return_val_if_fail(s_8021x, FALSE);
return nm_setting_802_1x_get_optional(s_8021x);
}
static void
wired_auth_cond_fail(NMDeviceEthernet *self, NMDeviceStateReason reason)
{
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
NMDevice * device = NM_DEVICE(self);
if (wired_auth_is_optional(self)) {
_LOGI(
LOGD_DEVICE | LOGD_ETHER,
"Activation: (ethernet) 802.1X authentication is optional, continuing after a failure");
if (NM_IN_SET(nm_device_get_state(device),
NM_DEVICE_STATE_CONFIG,
NM_DEVICE_STATE_NEED_AUTH))
nm_device_activate_schedule_stage3_ip_config_start(device);
if (!priv->supplicant.auth_state_id) {
priv->supplicant.auth_state_id =
g_signal_connect(priv->supplicant.iface,
"notify::" NM_SUPPLICANT_INTERFACE_AUTH_STATE,
G_CALLBACK(supplicant_auth_state_changed),
self);
}
return;
}
supplicant_interface_release(self);
nm_device_state_changed(NM_DEVICE(self), NM_DEVICE_STATE_FAILED, reason);
}
static void
wired_secrets_cb(NMActRequest * req,
NMActRequestGetSecretsCallId *call_id,
NMSettingsConnection * connection,
GError * error,
gpointer user_data)
{
NMDeviceEthernet * self = user_data;
NMDevice * device = user_data;
NMDeviceEthernetPrivate *priv;
g_return_if_fail(NM_IS_DEVICE_ETHERNET(self));
g_return_if_fail(NM_IS_ACT_REQUEST(req));
priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
g_return_if_fail(priv->wired_secrets_id == call_id);
priv->wired_secrets_id = NULL;
if (g_error_matches(error, G_IO_ERROR, G_IO_ERROR_CANCELLED))
return;
g_return_if_fail(req == nm_device_get_act_request(device));
g_return_if_fail(nm_device_get_state(device) == NM_DEVICE_STATE_NEED_AUTH);
g_return_if_fail(nm_act_request_get_settings_connection(req) == connection);
if (error) {
_LOGW(LOGD_ETHER, "%s", error->message);
wired_auth_cond_fail(self, NM_DEVICE_STATE_REASON_NO_SECRETS);
return;
}
supplicant_interface_release(self);
nm_device_activate_schedule_stage1_device_prepare(device, FALSE);
}
static void
wired_secrets_cancel(NMDeviceEthernet *self)
{
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
if (priv->wired_secrets_id)
nm_act_request_cancel_secrets(NULL, priv->wired_secrets_id);
nm_assert(!priv->wired_secrets_id);
}
static void
wired_secrets_get_secrets(NMDeviceEthernet * self,
const char * setting_name,
NMSecretAgentGetSecretsFlags flags)
{
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
NMActRequest * req;
wired_secrets_cancel(self);
req = nm_device_get_act_request(NM_DEVICE(self));
g_return_if_fail(NM_IS_ACT_REQUEST(req));
priv->wired_secrets_id =
nm_act_request_get_secrets(req, TRUE, setting_name, flags, NULL, wired_secrets_cb, self);
g_return_if_fail(priv->wired_secrets_id);
}
static gboolean
supplicant_lnk_timeout_cb(gpointer user_data)
{
NMDeviceEthernet * self = NM_DEVICE_ETHERNET(user_data);
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
NMDevice * device = NM_DEVICE(self);
NMActRequest * req;
NMConnection * applied_connection;
const char * setting_name;
priv->supplicant.lnk_timeout_id = 0;
req = nm_device_get_act_request(device);
if (nm_device_get_state(device) == NM_DEVICE_STATE_ACTIVATED) {
wired_auth_cond_fail(self, NM_DEVICE_STATE_REASON_SUPPLICANT_TIMEOUT);
return G_SOURCE_REMOVE;
}
/* Disconnect event during initial authentication and credentials
* ARE checked - we are likely to have wrong key. Ask the user for
* another one.
*/
if (nm_device_get_state(device) != NM_DEVICE_STATE_CONFIG)
goto time_out;
nm_active_connection_clear_secrets(NM_ACTIVE_CONNECTION(req));
applied_connection = nm_act_request_get_applied_connection(req);
setting_name = nm_connection_need_secrets(applied_connection, NULL);
if (!setting_name)
goto time_out;
_LOGI(LOGD_DEVICE | LOGD_ETHER,
"Activation: (ethernet) disconnected during authentication, asking for new key.");
if (!wired_auth_is_optional(self))
supplicant_interface_release(self);
nm_device_state_changed(device,
NM_DEVICE_STATE_NEED_AUTH,
NM_DEVICE_STATE_REASON_SUPPLICANT_DISCONNECT);
wired_secrets_get_secrets(self, setting_name, NM_SECRET_AGENT_GET_SECRETS_FLAG_REQUEST_NEW);
return G_SOURCE_REMOVE;
time_out:
_LOGW(LOGD_DEVICE | LOGD_ETHER, "link timed out.");
wired_auth_cond_fail(self, NM_DEVICE_STATE_REASON_SUPPLICANT_DISCONNECT);
return G_SOURCE_REMOVE;
}
static NMSupplicantConfig *
build_supplicant_config(NMDeviceEthernet *self, GError **error)
{
const char * con_uuid;
NMSupplicantConfig *config = NULL;
NMSetting8021x * security;
NMConnection * connection;
guint32 mtu;
connection = nm_device_get_applied_connection(NM_DEVICE(self));
g_return_val_if_fail(connection, NULL);
con_uuid = nm_connection_get_uuid(connection);
mtu = nm_platform_link_get_mtu(nm_device_get_platform(NM_DEVICE(self)),
nm_device_get_ifindex(NM_DEVICE(self)));
config = nm_supplicant_config_new(NM_SUPPL_CAP_MASK_NONE);
security = nm_connection_get_setting_802_1x(connection);
if (!nm_supplicant_config_add_setting_8021x(config, security, con_uuid, mtu, TRUE, error)) {
g_prefix_error(error, "802-1x-setting: ");
g_clear_object(&config);
}
return config;
}
static void
supplicant_iface_state_is_completed(NMDeviceEthernet *self, NMSupplicantInterfaceState state)
{
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
if (state == NM_SUPPLICANT_INTERFACE_STATE_COMPLETED) {
nm_clear_g_source(&priv->supplicant.lnk_timeout_id);
nm_clear_g_source(&priv->supplicant.con_timeout_id);
/* If this is the initial association during device activation,
* schedule the next activation stage.
*/
if (nm_device_get_state(NM_DEVICE(self)) == NM_DEVICE_STATE_CONFIG) {
_LOGI(LOGD_DEVICE | LOGD_ETHER,
"Activation: (ethernet) Stage 2 of 5 (Device Configure) successful.");
nm_device_activate_schedule_stage3_ip_config_start(NM_DEVICE(self));
}
return;
}
if (!priv->supplicant.lnk_timeout_id && !priv->supplicant.con_timeout_id)
priv->supplicant.lnk_timeout_id =
g_timeout_add_seconds(SUPPLICANT_LNK_TIMEOUT_SEC, supplicant_lnk_timeout_cb, self);
}
static void
supplicant_iface_assoc_cb(NMSupplicantInterface *iface, GError *error, gpointer user_data)
{
NMDeviceEthernet * self;
NMDeviceEthernetPrivate *priv;
if (nm_utils_error_is_cancelled_or_disposing(error))
return;
self = NM_DEVICE_ETHERNET(user_data);
priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
if (error) {
supplicant_interface_release(self);
nm_device_queue_state(NM_DEVICE(self),
NM_DEVICE_STATE_FAILED,
NM_DEVICE_STATE_REASON_SUPPLICANT_CONFIG_FAILED);
return;
}
nm_assert(!priv->supplicant.lnk_timeout_id);
nm_assert(!priv->supplicant.is_associated);
priv->supplicant.is_associated = TRUE;
supplicant_iface_state_is_completed(self,
nm_supplicant_interface_get_state(priv->supplicant.iface));
}
static gboolean
supplicant_iface_start(NMDeviceEthernet *self)
{
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
gs_unref_object NMSupplicantConfig *config = NULL;
gs_free_error GError *error = NULL;
config = build_supplicant_config(self, &error);
if (!config) {
_LOGE(LOGD_DEVICE | LOGD_ETHER,
"Activation: (ethernet) couldn't build security configuration: %s",
error->message);
supplicant_interface_release(self);
nm_device_state_changed(NM_DEVICE(self),
NM_DEVICE_STATE_FAILED,
NM_DEVICE_STATE_REASON_SUPPLICANT_CONFIG_FAILED);
return FALSE;
}
nm_supplicant_interface_disconnect(priv->supplicant.iface);
nm_supplicant_interface_assoc(priv->supplicant.iface, config, supplicant_iface_assoc_cb, self);
return TRUE;
}
static void
supplicant_iface_state_cb(NMSupplicantInterface *iface,
int new_state_i,
int old_state_i,
int disconnect_reason,
gpointer user_data)
{
NMDeviceEthernet * self = NM_DEVICE_ETHERNET(user_data);
NMDeviceEthernetPrivate * priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
NMSupplicantInterfaceState new_state = new_state_i;
NMSupplicantInterfaceState old_state = old_state_i;
_LOGI(LOGD_DEVICE | LOGD_ETHER,
"supplicant interface state: %s -> %s",
nm_supplicant_interface_state_to_string(old_state),
nm_supplicant_interface_state_to_string(new_state));
if (new_state == NM_SUPPLICANT_INTERFACE_STATE_DOWN) {
supplicant_interface_release(self);
nm_device_state_changed(NM_DEVICE(self),
NM_DEVICE_STATE_FAILED,
NM_DEVICE_STATE_REASON_SUPPLICANT_FAILED);
return;
}
if (old_state == NM_SUPPLICANT_INTERFACE_STATE_STARTING) {
if (!supplicant_iface_start(self))
return;
}
if (priv->supplicant.is_associated)
supplicant_iface_state_is_completed(self, new_state);
}
static gboolean
handle_auth_or_fail(NMDeviceEthernet *self, NMActRequest *req, gboolean new_secrets)
{
const char * setting_name;
NMConnection *applied_connection;
if (!nm_device_auth_retries_try_next(NM_DEVICE(self)))
return FALSE;
nm_device_state_changed(NM_DEVICE(self),
NM_DEVICE_STATE_NEED_AUTH,
NM_DEVICE_STATE_REASON_NONE);
nm_active_connection_clear_secrets(NM_ACTIVE_CONNECTION(req));
applied_connection = nm_act_request_get_applied_connection(req);
setting_name = nm_connection_need_secrets(applied_connection, NULL);
if (!setting_name) {
_LOGI(LOGD_DEVICE, "Cleared secrets, but setting didn't need any secrets.");
return FALSE;
}
_LOGI(LOGD_DEVICE | LOGD_ETHER, "Activation: (ethernet) asking for new secrets");
/* Don't tear down supplicant if the authentication is optional
* because in case of a failure in getting new secrets we want to
* keep the supplicant alive.
*/
if (!wired_auth_is_optional(self))
supplicant_interface_release(self);
wired_secrets_get_secrets(
self,
setting_name,
NM_SECRET_AGENT_GET_SECRETS_FLAG_ALLOW_INTERACTION
| (new_secrets ? NM_SECRET_AGENT_GET_SECRETS_FLAG_REQUEST_NEW : 0));
return TRUE;
}
static gboolean
supplicant_connection_timeout_cb(gpointer user_data)
{
NMDeviceEthernet * self = NM_DEVICE_ETHERNET(user_data);
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
NMDevice * device = NM_DEVICE(self);
NMActRequest * req;
NMSettingsConnection * connection;
guint64 timestamp = 0;
gboolean new_secrets = TRUE;
priv->supplicant.con_timeout_id = 0;
/* Authentication failed; either driver problems, the encryption key is
* wrong, the passwords or certificates were wrong or the Ethernet switch's
* port is not configured for 802.1x. */
_LOGW(LOGD_DEVICE | LOGD_ETHER, "Activation: (ethernet) association took too long.");
req = nm_device_get_act_request(device);
connection = nm_act_request_get_settings_connection(req);
/* Ask for new secrets only if we've never activated this connection
* before. If we've connected before, don't bother the user with dialogs,
* just retry or fail, and if we never connect the user can fix the
* password somewhere else. */
if (nm_settings_connection_get_timestamp(connection, ×tamp))
new_secrets = !timestamp;
if (!handle_auth_or_fail(self, req, new_secrets)) {
wired_auth_cond_fail(self, NM_DEVICE_STATE_REASON_NO_SECRETS);
return G_SOURCE_REMOVE;
}
if (!priv->supplicant.lnk_timeout_id && priv->supplicant.iface) {
NMSupplicantInterfaceState state;
state = nm_supplicant_interface_get_state(priv->supplicant.iface);
if (state != NM_SUPPLICANT_INTERFACE_STATE_COMPLETED
&& nm_supplicant_interface_state_is_operational(state))
priv->supplicant.lnk_timeout_id =
g_timeout_add_seconds(SUPPLICANT_LNK_TIMEOUT_SEC, supplicant_lnk_timeout_cb, self);
}
return G_SOURCE_REMOVE;
}
static void
supplicant_interface_create_cb(NMSupplicantManager * supplicant_manager,
NMSupplMgrCreateIfaceHandle *handle,
NMSupplicantInterface * iface,
GError * error,
gpointer user_data)
{
NMDeviceEthernet * self;
NMDeviceEthernetPrivate *priv;
guint timeout;
if (nm_utils_error_is_cancelled(error))
return;
self = user_data;
priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
nm_assert(priv->supplicant.create_handle == handle);
priv->supplicant.create_handle = NULL;
if (error) {
_LOGE(LOGD_DEVICE | LOGD_ETHER,
"Couldn't initialize supplicant interface: %s",
error->message);
supplicant_interface_release(self);
nm_device_state_changed(NM_DEVICE(self),
NM_DEVICE_STATE_FAILED,
NM_DEVICE_STATE_REASON_SUPPLICANT_FAILED);
return;
}
priv->supplicant.iface = g_object_ref(iface);
priv->supplicant.is_associated = FALSE;
priv->supplicant.iface_state_id = g_signal_connect(priv->supplicant.iface,
NM_SUPPLICANT_INTERFACE_STATE,
G_CALLBACK(supplicant_iface_state_cb),
self);
timeout = nm_device_get_supplicant_timeout(NM_DEVICE(self));
priv->supplicant.con_timeout_id =
g_timeout_add_seconds(timeout, supplicant_connection_timeout_cb, self);
if (nm_supplicant_interface_state_is_operational(nm_supplicant_interface_get_state(iface)))
supplicant_iface_start(self);
}
static NMPlatformLinkDuplexType
link_duplex_to_platform(const char *duplex)
{
if (!duplex)
return NM_PLATFORM_LINK_DUPLEX_UNKNOWN;
if (nm_streq(duplex, "full"))
return NM_PLATFORM_LINK_DUPLEX_FULL;
if (nm_streq(duplex, "half"))
return NM_PLATFORM_LINK_DUPLEX_HALF;
g_return_val_if_reached(NM_PLATFORM_LINK_DUPLEX_UNKNOWN);
}
static void
link_negotiation_set(NMDevice *device)
{
NMDeviceEthernet * self = NM_DEVICE_ETHERNET(device);
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
NMSettingWired * s_wired;
gboolean autoneg = TRUE;
gboolean link_autoneg;
NMPlatformLinkDuplexType duplex = NM_PLATFORM_LINK_DUPLEX_UNKNOWN;
NMPlatformLinkDuplexType link_duplex = NM_PLATFORM_LINK_DUPLEX_UNKNOWN;
guint32 speed = 0;
guint32 link_speed;
s_wired = nm_device_get_applied_setting(device, NM_TYPE_SETTING_WIRED);
if (s_wired) {
autoneg = nm_setting_wired_get_auto_negotiate(s_wired);
speed = nm_setting_wired_get_speed(s_wired);
duplex = link_duplex_to_platform(nm_setting_wired_get_duplex(s_wired));
if (!autoneg && !speed && !duplex) {
_LOGD(LOGD_DEVICE, "set-link: ignore link negotiation");
return;
}
}
if (!nm_platform_ethtool_get_link_settings(nm_device_get_platform(device),
nm_device_get_ifindex(device),
&link_autoneg,
&link_speed,
&link_duplex)) {
_LOGW(LOGD_DEVICE, "set-link: unable to retrieve link negotiation");
return;
}
/* If link negotiation setting are already in place do nothing and return with success */
if (!!autoneg == !!link_autoneg && speed == link_speed && duplex == link_duplex) {
_LOGD(LOGD_DEVICE, "set-link: link negotiation is already configured");
return;
}
if (autoneg && !speed && !duplex)
_LOGD(LOGD_DEVICE, "set-link: configure auto-negotiation");
else {
_LOGD(LOGD_DEVICE,
"set-link: configure %snegotiation (%u Mbit%s, %s duplex%s)",
autoneg ? "auto-" : "static ",
speed ?: link_speed,
speed ? "" : "*",
duplex ? nm_platform_link_duplex_type_to_string(duplex)
: nm_platform_link_duplex_type_to_string(link_duplex),
duplex ? "" : "*");
}
if (!priv->ethtool_prev_set) {
/* remember the values we had before setting it. */
priv->ethtool_prev_autoneg = link_autoneg;
priv->ethtool_prev_speed = link_speed;
priv->ethtool_prev_duplex = link_duplex;
priv->ethtool_prev_set = TRUE;
}
if (!nm_platform_ethtool_set_link_settings(nm_device_get_platform(device),
nm_device_get_ifindex(device),
autoneg,
speed,
duplex)) {
_LOGW(LOGD_DEVICE, "set-link: failure to set link negotiation");
return;
}
}
static gboolean
pppoe_reconnect_delay(gpointer user_data)
{
NMDeviceEthernet * self = NM_DEVICE_ETHERNET(user_data);
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
priv->pppoe_wait_id = 0;
priv->last_pppoe_time = 0;
_LOGI(LOGD_DEVICE, "PPPoE reconnect delay complete, resuming connection...");
nm_device_activate_schedule_stage1_device_prepare(NM_DEVICE(self), FALSE);
return G_SOURCE_REMOVE;
}
static NMActStageReturn
act_stage1_prepare(NMDevice *device, NMDeviceStateReason *out_failure_reason)
{
NMDeviceEthernet * self = NM_DEVICE_ETHERNET(device);
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
if (nm_device_sys_iface_state_is_external_or_assume(device)) {
if (!priv->ethtool_prev_set && !nm_device_sys_iface_state_is_external(device)) {
NMSettingWired *s_wired;
/* During restart of NetworkManager service we forget the original auto
* negotiation settings. When taking over a device, remember to reset
* the "default" during deactivate. */
s_wired = nm_device_get_applied_setting(device, NM_TYPE_SETTING_WIRED);
if (s_wired
&& (nm_setting_wired_get_auto_negotiate(s_wired)
|| nm_setting_wired_get_speed(s_wired)
|| nm_setting_wired_get_duplex(s_wired))) {
priv->ethtool_prev_set = TRUE;
priv->ethtool_prev_autoneg = TRUE;
priv->ethtool_prev_speed = 0;
priv->ethtool_prev_duplex = NM_PLATFORM_LINK_DUPLEX_UNKNOWN;
}
}
return NM_ACT_STAGE_RETURN_SUCCESS;
}
link_negotiation_set(device);
/* If we're re-activating a PPPoE connection a short while after
* a previous PPPoE connection was torn down, wait a bit to allow the
* remote side to handle the disconnection. Otherwise, the peer may
* get confused and fail to negotiate the new connection. (rh #1023503)
*
* FIXME(shutdown): when exiting, we also need to wait before quitting,
* at least for additional NM_SHUTDOWN_TIMEOUT_MS seconds because
* otherwise after restart the device won't work for the first seconds.
*/
if (priv->last_pppoe_time != 0) {
gint32 delay = nm_utils_get_monotonic_timestamp_sec() - priv->last_pppoe_time;
if (delay < PPPOE_RECONNECT_DELAY
&& nm_device_get_applied_setting(device, NM_TYPE_SETTING_PPPOE)) {
if (priv->pppoe_wait_id == 0) {
_LOGI(LOGD_DEVICE,
"delaying PPPoE reconnect for %d seconds to ensure peer is ready...",
delay);
priv->pppoe_wait_id = g_timeout_add_seconds(delay, pppoe_reconnect_delay, self);
}
return NM_ACT_STAGE_RETURN_POSTPONE;
}
nm_clear_g_source(&priv->pppoe_wait_id);
priv->last_pppoe_time = 0;
}
return NM_ACT_STAGE_RETURN_SUCCESS;
}
static NMActStageReturn
supplicant_check_secrets_needed(NMDeviceEthernet *self, NMDeviceStateReason *out_failure_reason)
{
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
NMConnection * connection;
NMSetting8021x * security;
const char * setting_name;
connection = nm_device_get_applied_connection(NM_DEVICE(self));
g_return_val_if_fail(connection, NM_ACT_STAGE_RETURN_FAILURE);
security = nm_connection_get_setting_802_1x(connection);
if (!security) {
_LOGE(LOGD_DEVICE, "Invalid or missing 802.1X security");
NM_SET_OUT(out_failure_reason, NM_DEVICE_STATE_REASON_CONFIG_FAILED);
return NM_ACT_STAGE_RETURN_FAILURE;
}
if (!priv->supplicant.mgr)
priv->supplicant.mgr = g_object_ref(nm_supplicant_manager_get());
/* If we need secrets, get them */
setting_name = nm_connection_need_secrets(connection, NULL);
if (setting_name) {
NMActRequest *req = nm_device_get_act_request(NM_DEVICE(self));
_LOGI(LOGD_DEVICE | LOGD_ETHER,
"Activation: (ethernet) connection '%s' has security, but secrets are required.",
nm_connection_get_id(connection));
if (!handle_auth_or_fail(self, req, FALSE)) {
NM_SET_OUT(out_failure_reason, NM_DEVICE_STATE_REASON_NO_SECRETS);
return NM_ACT_STAGE_RETURN_FAILURE;
}
return NM_ACT_STAGE_RETURN_POSTPONE;
}
_LOGI(LOGD_DEVICE | LOGD_ETHER,
"Activation: (ethernet) connection '%s' requires no security. No secrets needed.",
nm_connection_get_id(connection));
supplicant_interface_release(self);
priv->supplicant.create_handle =
nm_supplicant_manager_create_interface(priv->supplicant.mgr,
nm_device_get_ifindex(NM_DEVICE(self)),
NM_SUPPLICANT_DRIVER_WIRED,
supplicant_interface_create_cb,
self);
return NM_ACT_STAGE_RETURN_POSTPONE;
}
static void
carrier_changed(NMSupplicantInterface *iface, GParamSpec *pspec, NMDeviceEthernet *self)
{
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
NMDeviceStateReason reason;
NMActStageReturn ret;
if (!nm_device_has_carrier(NM_DEVICE(self)))
return;
_LOGD(LOGD_DEVICE | LOGD_ETHER, "got carrier, initializing supplicant");
nm_clear_g_signal_handler(self, &priv->carrier_id);
ret = supplicant_check_secrets_needed(self, &reason);
if (ret == NM_ACT_STAGE_RETURN_FAILURE) {
nm_device_state_changed(NM_DEVICE(self), NM_DEVICE_STATE_FAILED, reason);
}
}
/*****************************************************************************/
/* PPPoE */
static void
ppp_state_changed(NMPPPManager *ppp_manager, NMPPPStatus status, gpointer user_data)
{
NMDevice *device = NM_DEVICE(user_data);
switch (status) {
case NM_PPP_STATUS_DISCONNECT:
nm_device_state_changed(device,
NM_DEVICE_STATE_FAILED,
NM_DEVICE_STATE_REASON_PPP_DISCONNECT);
break;
case NM_PPP_STATUS_DEAD:
nm_device_state_changed(device, NM_DEVICE_STATE_FAILED, NM_DEVICE_STATE_REASON_PPP_FAILED);
break;
default:
break;
}
}
static void
ppp_ifindex_set(NMPPPManager *ppp_manager, int ifindex, const char *iface, gpointer user_data)
{
NMDevice *device = NM_DEVICE(user_data);
if (!nm_device_set_ip_ifindex(device, ifindex)) {
nm_device_state_changed(device,
NM_DEVICE_STATE_FAILED,
NM_DEVICE_STATE_REASON_IP_CONFIG_UNAVAILABLE);
}
}
static void
ppp_ip4_config(NMPPPManager *ppp_manager, NMIP4Config *config, gpointer user_data)
{
NMDevice *device = NM_DEVICE(user_data);
/* Ignore PPP IP4 events that come in after initial configuration */
if (nm_device_activate_ip4_state_in_conf(device))
nm_device_activate_schedule_ip_config_result(device, AF_INET, NM_IP_CONFIG_CAST(config));
}
static NMActStageReturn
pppoe_stage3_ip4_config_start(NMDeviceEthernet *self, NMDeviceStateReason *out_failure_reason)
{
NMDevice * device = NM_DEVICE(self);
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
NMSettingPppoe * s_pppoe;
NMActRequest * req;
GError * err = NULL;
req = nm_device_get_act_request(device);
g_return_val_if_fail(req, NM_ACT_STAGE_RETURN_FAILURE);
s_pppoe = nm_device_get_applied_setting(device, NM_TYPE_SETTING_PPPOE);
g_return_val_if_fail(s_pppoe, NM_ACT_STAGE_RETURN_FAILURE);
priv->ppp_manager = nm_ppp_manager_create(nm_device_get_iface(device), &err);
if (priv->ppp_manager) {
nm_ppp_manager_set_route_parameters(priv->ppp_manager,
nm_device_get_route_table(device, AF_INET),
nm_device_get_route_metric(device, AF_INET),
nm_device_get_route_table(device, AF_INET6),
nm_device_get_route_metric(device, AF_INET6));
}
if (!priv->ppp_manager
|| !nm_ppp_manager_start(priv->ppp_manager,
req,
nm_setting_pppoe_get_username(s_pppoe),
30,
0,
&err)) {
_LOGW(LOGD_DEVICE, "PPPoE failed to start: %s", err->message);
g_error_free(err);
g_clear_object(&priv->ppp_manager);
NM_SET_OUT(out_failure_reason, NM_DEVICE_STATE_REASON_PPP_START_FAILED);
return NM_ACT_STAGE_RETURN_FAILURE;
}
g_signal_connect(priv->ppp_manager,
NM_PPP_MANAGER_SIGNAL_STATE_CHANGED,
G_CALLBACK(ppp_state_changed),
self);
g_signal_connect(priv->ppp_manager,
NM_PPP_MANAGER_SIGNAL_IFINDEX_SET,
G_CALLBACK(ppp_ifindex_set),
self);
g_signal_connect(priv->ppp_manager,
NM_PPP_MANAGER_SIGNAL_IP4_CONFIG,
G_CALLBACK(ppp_ip4_config),
self);
return NM_ACT_STAGE_RETURN_POSTPONE;
}
/*****************************************************************************/
static void dcb_state(NMDevice *device, gboolean timeout);
static gboolean
dcb_carrier_timeout(gpointer user_data)
{
NMDeviceEthernet * self = NM_DEVICE_ETHERNET(user_data);
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
NMDevice * device = NM_DEVICE(user_data);
g_return_val_if_fail(nm_device_get_state(device) == NM_DEVICE_STATE_CONFIG, G_SOURCE_REMOVE);
priv->dcb_timeout_id = 0;
if (priv->dcb_wait != DCB_WAIT_CARRIER_POSTCONFIG_DOWN) {
_LOGW(LOGD_DCB, "DCB: timed out waiting for carrier (step %d)", priv->dcb_wait);
}
dcb_state(device, TRUE);
return G_SOURCE_REMOVE;
}
static gboolean
dcb_configure(NMDevice *device)
{
NMDeviceEthernet * self = (NMDeviceEthernet *) device;
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
NMSettingDcb * s_dcb;
GError * error = NULL;
nm_clear_g_source(&priv->dcb_timeout_id);
s_dcb = nm_device_get_applied_setting(device, NM_TYPE_SETTING_DCB);
g_return_val_if_fail(s_dcb, FALSE);
if (!nm_dcb_setup(nm_device_get_iface(device), s_dcb, &error)) {
_LOGW(LOGD_DCB, "Activation: (ethernet) failed to enable DCB/FCoE: %s", error->message);
g_clear_error(&error);
return FALSE;
}
/* Pause again just in case the device takes the carrier down when
* setting specific DCB attributes.
*/
_LOGD(LOGD_DCB, "waiting for carrier (postconfig down)");
priv->dcb_wait = DCB_WAIT_CARRIER_POSTCONFIG_DOWN;
priv->dcb_timeout_id = g_timeout_add_seconds(3, dcb_carrier_timeout, device);
return TRUE;
}
static gboolean
dcb_enable(NMDevice *device)
{
NMDeviceEthernet * self = NM_DEVICE_ETHERNET(device);
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
GError * error = NULL;
nm_clear_g_source(&priv->dcb_timeout_id);
if (!nm_dcb_enable(nm_device_get_iface(device), TRUE, &error)) {
_LOGW(LOGD_DCB, "Activation: (ethernet) failed to enable DCB/FCoE: %s", error->message);
g_clear_error(&error);
return FALSE;
}
/* Pause for 3 seconds after enabling DCB to let the card reconfigure
* itself. Drivers will often re-initialize internal settings which
* takes the carrier down for 2 or more seconds. During this time,
* lldpad will refuse to do anything else with the card since the carrier
* is down. But NM might get the carrier-down signal long after calling
* "dcbtool dcb on", so we have to first wait for the carrier to go down.
*/
_LOGD(LOGD_DCB, "waiting for carrier (preconfig down)");
priv->dcb_wait = DCB_WAIT_CARRIER_PRECONFIG_DOWN;
priv->dcb_timeout_id = g_timeout_add_seconds(3, dcb_carrier_timeout, device);
return TRUE;
}
static void
dcb_state(NMDevice *device, gboolean timeout)
{
NMDeviceEthernet * self = NM_DEVICE_ETHERNET(device);
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
gboolean carrier;
g_return_if_fail(nm_device_get_state(device) == NM_DEVICE_STATE_CONFIG);
carrier = nm_platform_link_is_connected(nm_device_get_platform(device),
nm_device_get_ifindex(device));
_LOGD(LOGD_DCB, "dcb_state() wait %d carrier %d timeout %d", priv->dcb_wait, carrier, timeout);
switch (priv->dcb_wait) {
case DCB_WAIT_CARRIER_PREENABLE_UP:
if (timeout || carrier) {
_LOGD(LOGD_DCB, "dcb_state() enabling DCB");
nm_clear_g_source(&priv->dcb_timeout_id);
if (!dcb_enable(device)) {
priv->dcb_handle_carrier_changes = FALSE;
nm_device_state_changed(device,
NM_DEVICE_STATE_FAILED,
NM_DEVICE_STATE_REASON_DCB_FCOE_FAILED);
}
}
break;
case DCB_WAIT_CARRIER_PRECONFIG_DOWN:
nm_clear_g_source(&priv->dcb_timeout_id);
priv->dcb_wait = DCB_WAIT_CARRIER_PRECONFIG_UP;
if (!carrier) {
/* Wait for the carrier to come back up */
_LOGD(LOGD_DCB, "waiting for carrier (preconfig up)");
priv->dcb_timeout_id = g_timeout_add_seconds(5, dcb_carrier_timeout, device);
break;
}
_LOGD(LOGD_DCB, "dcb_state() preconfig down falling through");
/* fall-through */
case DCB_WAIT_CARRIER_PRECONFIG_UP:
if (timeout || carrier) {
_LOGD(LOGD_DCB, "dcb_state() preconfig up configuring DCB");
nm_clear_g_source(&priv->dcb_timeout_id);
if (!dcb_configure(device)) {
priv->dcb_handle_carrier_changes = FALSE;
nm_device_state_changed(device,
NM_DEVICE_STATE_FAILED,
NM_DEVICE_STATE_REASON_DCB_FCOE_FAILED);
}
}
break;
case DCB_WAIT_CARRIER_POSTCONFIG_DOWN:
nm_clear_g_source(&priv->dcb_timeout_id);
priv->dcb_wait = DCB_WAIT_CARRIER_POSTCONFIG_UP;
if (!carrier) {
/* Wait for the carrier to come back up */
_LOGD(LOGD_DCB, "waiting for carrier (postconfig up)");
priv->dcb_timeout_id = g_timeout_add_seconds(5, dcb_carrier_timeout, device);
break;
}
_LOGD(LOGD_DCB, "dcb_state() postconfig down falling through");
/* fall-through */
case DCB_WAIT_CARRIER_POSTCONFIG_UP:
if (timeout || carrier) {
_LOGD(LOGD_DCB, "dcb_state() postconfig up starting IP");
nm_clear_g_source(&priv->dcb_timeout_id);
priv->dcb_handle_carrier_changes = FALSE;
priv->dcb_wait = DCB_WAIT_UNKNOWN;
nm_device_activate_schedule_stage3_ip_config_start(device);
}
break;
default:
g_assert_not_reached();
}
}
/*****************************************************************************/
static gboolean
wake_on_lan_enable(NMDevice *device)
{
NMSettingWiredWakeOnLan wol;
NMSettingWired * s_wired;
const char * password = NULL;
s_wired = nm_device_get_applied_setting(device, NM_TYPE_SETTING_WIRED);
if (NM_IS_DEVICE_VETH(device))
return FALSE;
if (s_wired) {
wol = nm_setting_wired_get_wake_on_lan(s_wired);
password = nm_setting_wired_get_wake_on_lan_password(s_wired);
if (wol != NM_SETTING_WIRED_WAKE_ON_LAN_DEFAULT)
goto found;
}
wol = nm_config_data_get_connection_default_int64(NM_CONFIG_GET_DATA,
NM_CON_DEFAULT("ethernet.wake-on-lan"),
device,
NM_SETTING_WIRED_WAKE_ON_LAN_NONE,
G_MAXINT32,
NM_SETTING_WIRED_WAKE_ON_LAN_DEFAULT);
if (NM_FLAGS_ANY(wol, NM_SETTING_WIRED_WAKE_ON_LAN_EXCLUSIVE_FLAGS)
&& !nm_utils_is_power_of_two(wol)) {
nm_log_dbg(LOGD_ETHER, "invalid default value %u for wake-on-lan", (guint) wol);
wol = NM_SETTING_WIRED_WAKE_ON_LAN_DEFAULT;
}
if (wol != NM_SETTING_WIRED_WAKE_ON_LAN_DEFAULT)
goto found;
wol = NM_SETTING_WIRED_WAKE_ON_LAN_IGNORE;
found:
return nm_platform_ethtool_set_wake_on_lan(nm_device_get_platform(device),
nm_device_get_ifindex(device),
_NM_SETTING_WIRED_WAKE_ON_LAN_CAST(wol),
password);
}
/*****************************************************************************/
static NMActStageReturn
act_stage2_config(NMDevice *device, NMDeviceStateReason *out_failure_reason)
{
NMDeviceEthernet * self = (NMDeviceEthernet *) device;
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
NMSettingConnection * s_con;
const char * connection_type;
gboolean do_postpone = FALSE;
NMSettingDcb * s_dcb;
s_con = nm_device_get_applied_setting(device, NM_TYPE_SETTING_CONNECTION);
g_return_val_if_fail(s_con, NM_ACT_STAGE_RETURN_FAILURE);
nm_clear_g_source(&priv->dcb_timeout_id);
priv->dcb_handle_carrier_changes = FALSE;
/* 802.1x has to run before any IP configuration since the 802.1x auth
* process opens the port up for normal traffic.
*/
connection_type = nm_setting_connection_get_connection_type(s_con);
if (nm_streq(connection_type, NM_SETTING_WIRED_SETTING_NAME)) {
NMSetting8021x *security;
security = nm_device_get_applied_setting(device, NM_TYPE_SETTING_802_1X);
if (security) {
/* FIXME: for now 802.1x is mutually exclusive with DCB */
if (!nm_device_has_carrier(NM_DEVICE(self))) {
_LOGD(LOGD_DEVICE | LOGD_ETHER,
"delay supplicant initialization until carrier goes up");
priv->carrier_id = g_signal_connect(self,
"notify::" NM_DEVICE_CARRIER,
G_CALLBACK(carrier_changed),
self);
return NM_ACT_STAGE_RETURN_POSTPONE;
}
return supplicant_check_secrets_needed(self, out_failure_reason);
}
}
wake_on_lan_enable(device);
/* DCB and FCoE setup */
s_dcb = nm_device_get_applied_setting(device, NM_TYPE_SETTING_DCB);
if (s_dcb) {
/* lldpad really really wants the carrier to be up */
if (nm_platform_link_is_connected(nm_device_get_platform(device),
nm_device_get_ifindex(device))) {
if (!dcb_enable(device)) {
NM_SET_OUT(out_failure_reason, NM_DEVICE_STATE_REASON_DCB_FCOE_FAILED);
return NM_ACT_STAGE_RETURN_FAILURE;
}
} else {
_LOGD(LOGD_DCB, "waiting for carrier (preenable up)");
priv->dcb_wait = DCB_WAIT_CARRIER_PREENABLE_UP;
priv->dcb_timeout_id = g_timeout_add_seconds(4, dcb_carrier_timeout, device);
}
priv->dcb_handle_carrier_changes = TRUE;
do_postpone = TRUE;
}
/* PPPoE setup */
if (nm_connection_is_type(nm_device_get_applied_connection(device),
NM_SETTING_PPPOE_SETTING_NAME)) {
NMSettingPpp *s_ppp;
s_ppp = nm_device_get_applied_setting(device, NM_TYPE_SETTING_PPP);
if (s_ppp) {
guint32 mtu;
guint32 mru;
guint32 mxu;
mtu = nm_setting_ppp_get_mtu(s_ppp);
mru = nm_setting_ppp_get_mru(s_ppp);
mxu = MAX(mru, mtu);
if (mxu) {
_LOGD(LOGD_PPP,
"set MTU to %u (PPP interface MRU %u, MTU %u)",
mxu + PPPOE_ENCAP_OVERHEAD,
mru,
mtu);
nm_platform_link_set_mtu(nm_device_get_platform(device),
nm_device_get_ifindex(device),
mxu + PPPOE_ENCAP_OVERHEAD);
}
}
}
return do_postpone ? NM_ACT_STAGE_RETURN_POSTPONE : NM_ACT_STAGE_RETURN_SUCCESS;
}
static NMActStageReturn
act_stage3_ip_config_start(NMDevice * device,
int addr_family,
gpointer * out_config,
NMDeviceStateReason *out_failure_reason)
{
NMSettingConnection *s_con;
const char * connection_type;
int ifindex;
ifindex = nm_device_get_ifindex(device);
if (ifindex <= 0)
return NM_ACT_STAGE_RETURN_FAILURE;
if (addr_family == AF_INET) {
s_con = nm_device_get_applied_setting(device, NM_TYPE_SETTING_CONNECTION);
g_return_val_if_fail(s_con, NM_ACT_STAGE_RETURN_FAILURE);
connection_type = nm_setting_connection_get_connection_type(s_con);
if (!strcmp(connection_type, NM_SETTING_PPPOE_SETTING_NAME))
return pppoe_stage3_ip4_config_start(NM_DEVICE_ETHERNET(device), out_failure_reason);
}
return NM_DEVICE_CLASS(nm_device_ethernet_parent_class)
->act_stage3_ip_config_start(device, addr_family, out_config, out_failure_reason);
}
static guint32
get_configured_mtu(NMDevice *device, NMDeviceMtuSource *out_source, gboolean *out_force)
{
/* MTU only set for plain ethernet */
if (NM_DEVICE_ETHERNET_GET_PRIVATE(device)->ppp_manager)
return 0;
return nm_device_get_configured_mtu_for_wired(device, out_source, out_force);
}
static void
deactivate(NMDevice *device)
{
NMDeviceEthernet * self = NM_DEVICE_ETHERNET(device);
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
NMSettingDcb * s_dcb;
GError * error = NULL;
int ifindex;
nm_clear_g_source(&priv->pppoe_wait_id);
nm_clear_g_signal_handler(self, &priv->carrier_id);
if (priv->ppp_manager) {
nm_ppp_manager_stop(priv->ppp_manager, NULL, NULL, NULL);
g_clear_object(&priv->ppp_manager);
}
supplicant_interface_release(self);
priv->dcb_wait = DCB_WAIT_UNKNOWN;
nm_clear_g_source(&priv->dcb_timeout_id);
priv->dcb_handle_carrier_changes = FALSE;
/* Tear down DCB/FCoE if it was enabled */
s_dcb = nm_device_get_applied_setting(device, NM_TYPE_SETTING_DCB);
if (s_dcb) {
if (!nm_dcb_cleanup(nm_device_get_iface(device), &error)) {
_LOGW(LOGD_DEVICE | LOGD_PLATFORM, "failed to disable DCB/FCoE: %s", error->message);
g_clear_error(&error);
}
}
/* Set last PPPoE connection time */
if (nm_device_get_applied_setting(device, NM_TYPE_SETTING_PPPOE))
priv->last_pppoe_time = nm_utils_get_monotonic_timestamp_sec();
ifindex = nm_device_get_ifindex(device);
if (ifindex > 0 && priv->ethtool_prev_set) {
priv->ethtool_prev_set = FALSE;
_LOGD(LOGD_DEVICE,
"set-link: reset %snegotiation (%u Mbit, %s duplex)",
priv->ethtool_prev_autoneg ? "auto-" : "static ",
priv->ethtool_prev_speed,
nm_platform_link_duplex_type_to_string(priv->ethtool_prev_duplex));
if (!nm_platform_ethtool_set_link_settings(nm_device_get_platform(device),
ifindex,
priv->ethtool_prev_autoneg,
priv->ethtool_prev_speed,
priv->ethtool_prev_duplex)) {
_LOGW(LOGD_DEVICE, "set-link: failure to reset link negotiation");
return;
}
}
}
static gboolean
complete_connection(NMDevice * device,
NMConnection * connection,
const char * specific_object,
NMConnection *const *existing_connections,
GError ** error)
{
NMSettingWired *s_wired;
NMSettingPppoe *s_pppoe;
if (nm_streq0(nm_connection_get_connection_type(connection), NM_SETTING_VETH_SETTING_NAME)) {
NMSettingVeth *s_veth;
const char * peer_name = NULL;
const char * con_peer_name = NULL;
int ifindex;
nm_utils_complete_generic(nm_device_get_platform(device),
connection,
NM_SETTING_VETH_SETTING_NAME,
existing_connections,
NULL,
_("Veth connection"),
"veth",
NULL,
TRUE);
s_veth = _nm_connection_get_setting(connection, NM_TYPE_SETTING_VETH);
if (!s_veth) {
s_veth = (NMSettingVeth *) nm_setting_veth_new();
nm_connection_add_setting(connection, NM_SETTING(s_veth));
}
ifindex = nm_device_get_ip_ifindex(device);
if (ifindex > 0) {
const NMPlatformLink *pllink;
pllink = nm_platform_link_get(nm_device_get_platform(device), ifindex);
if (pllink && pllink->type == NM_LINK_TYPE_VETH && pllink->parent > 0) {
pllink = nm_platform_link_get(nm_device_get_platform(device), pllink->parent);
if (pllink && pllink->type == NM_LINK_TYPE_VETH) {
peer_name = pllink->name;
}
}
}
if (!peer_name) {
nm_utils_error_set(error, NM_UTILS_ERROR_UNKNOWN, "cannot find peer for veth device");
return FALSE;
}
con_peer_name = nm_setting_veth_get_peer(s_veth);
if (con_peer_name) {
nm_utils_error_set(error,
NM_UTILS_ERROR_UNKNOWN,
"mismatching veth peer \"%s\"",
con_peer_name);
return FALSE;
} else
g_object_set(s_veth, NM_SETTING_VETH_PEER, peer_name, NULL);
return TRUE;
}
s_pppoe = nm_connection_get_setting_pppoe(connection);
/* We can't telepathically figure out the service name or username, so if
* those weren't given, we can't complete the connection.
*/
if (s_pppoe && !nm_setting_verify(NM_SETTING(s_pppoe), NULL, error))
return FALSE;
s_wired = nm_connection_get_setting_wired(connection);
if (!s_wired) {
s_wired = (NMSettingWired *) nm_setting_wired_new();
nm_connection_add_setting(connection, NM_SETTING(s_wired));
}
/* Default to an ethernet-only connection, but if a PPPoE setting was given
* then PPPoE should be our connection type.
*/
nm_utils_complete_generic(
nm_device_get_platform(device),
connection,
s_pppoe ? NM_SETTING_PPPOE_SETTING_NAME : NM_SETTING_WIRED_SETTING_NAME,
existing_connections,
NULL,
s_pppoe ? _("PPPoE connection") : _("Wired connection"),
NULL,
nm_setting_wired_get_mac_address(s_wired) ? NULL : nm_device_get_iface(device),
s_pppoe ? FALSE : TRUE); /* No IPv6 by default yet for PPPoE */
return TRUE;
}
static NMConnection *
new_default_connection(NMDevice *self)
{
NMConnection * connection;
NMSettingsConnection *const *connections;
NMSetting * setting;
gs_unref_hashtable GHashTable *existing_ids = NULL;
struct udev_device * dev;
const char * perm_hw_addr;
const char * iface;
const char * uprop = "0";
gs_free char * defname = NULL;
gs_free char * uuid = NULL;
guint i, n_connections;
perm_hw_addr = nm_device_get_permanent_hw_address(self);
iface = nm_device_get_iface(self);
connection = nm_simple_connection_new();
setting = nm_setting_connection_new();
nm_connection_add_setting(connection, setting);
connections = nm_settings_get_connections(nm_device_get_settings(self), &n_connections);
if (n_connections > 0) {
existing_ids = g_hash_table_new(nm_str_hash, g_str_equal);
for (i = 0; i < n_connections; i++)
g_hash_table_add(existing_ids, (char *) nm_settings_connection_get_id(connections[i]));
}
defname = nm_device_ethernet_utils_get_default_wired_name(existing_ids);
if (!defname)
return NULL;
/* Create a stable UUID. The UUID is also the Network_ID for stable-privacy addr-gen-mode,
* thus when it changes we will also generate different IPv6 addresses. */
uuid = _nm_utils_uuid_generate_from_strings("default-wired",
nm_utils_machine_id_str(),
defname,
perm_hw_addr ?: iface,
NULL);
g_object_set(setting,
NM_SETTING_CONNECTION_ID,
defname,
NM_SETTING_CONNECTION_TYPE,
NM_SETTING_WIRED_SETTING_NAME,
NM_SETTING_CONNECTION_AUTOCONNECT,
TRUE,
NM_SETTING_CONNECTION_AUTOCONNECT_PRIORITY,
NM_SETTING_CONNECTION_AUTOCONNECT_PRIORITY_MIN,
NM_SETTING_CONNECTION_UUID,
uuid,
NM_SETTING_CONNECTION_TIMESTAMP,
(guint64) time(NULL),
NM_SETTING_CONNECTION_INTERFACE_NAME,
iface,
NULL);
/* Check if we should create a Link-Local only connection */
dev = nm_platform_link_get_udev_device(nm_device_get_platform(NM_DEVICE(self)),
nm_device_get_ip_ifindex(self));
if (dev)
uprop = udev_device_get_property_value(dev, "NM_AUTO_DEFAULT_LINK_LOCAL_ONLY");
if (nm_udev_utils_property_as_boolean(uprop)) {
setting = nm_setting_ip4_config_new();
g_object_set(setting,
NM_SETTING_IP_CONFIG_METHOD,
NM_SETTING_IP4_CONFIG_METHOD_LINK_LOCAL,
NULL);
nm_connection_add_setting(connection, setting);
setting = nm_setting_ip6_config_new();
g_object_set(setting,
NM_SETTING_IP_CONFIG_METHOD,
NM_SETTING_IP6_CONFIG_METHOD_LINK_LOCAL,
NM_SETTING_IP_CONFIG_MAY_FAIL,
TRUE,
NULL);
nm_connection_add_setting(connection, setting);
}
return connection;
}
static const char *
get_s390_subchannels(NMDevice *device)
{
nm_assert(NM_IS_DEVICE_ETHERNET(device));
return NM_DEVICE_ETHERNET_GET_PRIVATE(device)->subchannels;
}
static void
update_connection(NMDevice *device, NMConnection *connection)
{
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(device);
NMSettingWired * s_wired = nm_connection_get_setting_wired(connection);
gboolean perm_hw_addr_is_fake;
const char * perm_hw_addr;
const char * mac = nm_device_get_hw_address(device);
const char * mac_prop = NM_SETTING_WIRED_MAC_ADDRESS;
GHashTableIter iter;
const char * key;
const char * value;
if (!s_wired) {
s_wired = (NMSettingWired *) nm_setting_wired_new();
nm_connection_add_setting(connection, (NMSetting *) s_wired);
}
g_object_set(nm_connection_get_setting_connection(connection),
NM_SETTING_CONNECTION_TYPE,
nm_connection_get_setting_pppoe(connection) ? NM_SETTING_PPPOE_SETTING_NAME
: NM_SETTING_WIRED_SETTING_NAME,
NULL);
/* If the device reports a permanent address, use that for the MAC address
* and the current MAC, if different, is the cloned MAC.
*/
perm_hw_addr = nm_device_get_permanent_hw_address_full(device, TRUE, &perm_hw_addr_is_fake);
if (perm_hw_addr && !perm_hw_addr_is_fake) {
g_object_set(s_wired, NM_SETTING_WIRED_MAC_ADDRESS, perm_hw_addr, NULL);
mac_prop = NULL;
if (mac && !nm_utils_hwaddr_matches(perm_hw_addr, -1, mac, -1))
mac_prop = NM_SETTING_WIRED_CLONED_MAC_ADDRESS;
}
if (mac_prop && mac && nm_utils_hwaddr_valid(mac, ETH_ALEN))
g_object_set(s_wired, mac_prop, mac, NULL);
/* We don't set the MTU as we don't know whether it was set explicitly */
/* s390 */
if (priv->subchannels_dbus)
g_object_set(s_wired, NM_SETTING_WIRED_S390_SUBCHANNELS, priv->subchannels_dbus, NULL);
if (priv->s390_nettype)
g_object_set(s_wired, NM_SETTING_WIRED_S390_NETTYPE, priv->s390_nettype, NULL);
_nm_setting_wired_clear_s390_options(s_wired);
g_hash_table_iter_init(&iter, priv->s390_options);
while (g_hash_table_iter_next(&iter, (gpointer *) &key, (gpointer *) &value))
nm_setting_wired_add_s390_option(s_wired, key, value);
}
static void
link_speed_update(NMDevice *device)
{
NMDeviceEthernet * self = NM_DEVICE_ETHERNET(device);
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
guint32 speed;
if (!nm_platform_ethtool_get_link_settings(nm_device_get_platform(device),
nm_device_get_ifindex(device),
NULL,
&speed,
NULL))
return;
if (priv->speed == speed)
return;
priv->speed = speed;
_LOGD(LOGD_PLATFORM | LOGD_ETHER, "speed is now %d Mb/s", speed);
_notify(self, PROP_SPEED);
}
static void
carrier_changed_notify(NMDevice *device, gboolean carrier)
{
NMDeviceEthernet * self = NM_DEVICE_ETHERNET(device);
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
if (priv->dcb_handle_carrier_changes) {
nm_assert(nm_device_get_state(device) == NM_DEVICE_STATE_CONFIG);
if (priv->dcb_timeout_id) {
_LOGD(LOGD_DCB, "carrier_changed() calling dcb_state()");
dcb_state(device, FALSE);
}
}
if (carrier)
link_speed_update(device);
NM_DEVICE_CLASS(nm_device_ethernet_parent_class)->carrier_changed_notify(device, carrier);
}
static void
link_changed(NMDevice *device, const NMPlatformLink *pllink)
{
NM_DEVICE_CLASS(nm_device_ethernet_parent_class)->link_changed(device, pllink);
if (!NM_IS_DEVICE_VETH(device) && pllink->initialized)
_update_s390_subchannels((NMDeviceEthernet *) device);
}
static gboolean
is_available(NMDevice *device, NMDeviceCheckDevAvailableFlags flags)
{
if (!NM_DEVICE_CLASS(nm_device_ethernet_parent_class)->is_available(device, flags))
return FALSE;
return !!nm_device_get_initial_hw_address(device);
}
static gboolean
can_reapply_change(NMDevice * device,
const char *setting_name,
NMSetting * s_old,
NMSetting * s_new,
GHashTable *diffs,
GError ** error)
{
NMDeviceClass *device_class;
/* Only handle wired setting here, delegate other settings to parent class */
if (nm_streq(setting_name, NM_SETTING_WIRED_SETTING_NAME)) {
return nm_device_hash_check_invalid_keys(
diffs,
NM_SETTING_WIRED_SETTING_NAME,
error,
NM_SETTING_WIRED_MTU, /* reapplied with IP config */
NM_SETTING_WIRED_SPEED,
NM_SETTING_WIRED_DUPLEX,
NM_SETTING_WIRED_AUTO_NEGOTIATE,
NM_SETTING_WIRED_WAKE_ON_LAN,
NM_SETTING_WIRED_WAKE_ON_LAN_PASSWORD);
}
device_class = NM_DEVICE_CLASS(nm_device_ethernet_parent_class);
return device_class->can_reapply_change(device, setting_name, s_old, s_new, diffs, error);
}
static void
reapply_connection(NMDevice *device, NMConnection *con_old, NMConnection *con_new)
{
NMDeviceEthernet *self = NM_DEVICE_ETHERNET(device);
NMDeviceState state = nm_device_get_state(device);
NM_DEVICE_CLASS(nm_device_ethernet_parent_class)->reapply_connection(device, con_old, con_new);
_LOGD(LOGD_DEVICE, "reapplying wired settings");
if (state >= NM_DEVICE_STATE_PREPARE)
link_negotiation_set(device);
if (state >= NM_DEVICE_STATE_CONFIG)
wake_on_lan_enable(device);
}
static void
dispose(GObject *object)
{
NMDeviceEthernet * self = NM_DEVICE_ETHERNET(object);
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
wired_secrets_cancel(self);
supplicant_interface_release(self);
nm_clear_g_source(&priv->pppoe_wait_id);
nm_clear_g_source(&priv->dcb_timeout_id);
nm_clear_g_signal_handler(self, &priv->carrier_id);
G_OBJECT_CLASS(nm_device_ethernet_parent_class)->dispose(object);
}
static void
finalize(GObject *object)
{
NMDeviceEthernet * self = NM_DEVICE_ETHERNET(object);
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
g_clear_object(&priv->supplicant.mgr);
g_free(priv->subchan1);
g_free(priv->subchan2);
g_free(priv->subchan3);
g_free(priv->subchannels);
g_strfreev(priv->subchannels_dbus);
g_free(priv->s390_nettype);
g_hash_table_destroy(priv->s390_options);
G_OBJECT_CLASS(nm_device_ethernet_parent_class)->finalize(object);
}
static void
get_property(GObject *object, guint prop_id, GValue *value, GParamSpec *pspec)
{
NMDeviceEthernet * self = NM_DEVICE_ETHERNET(object);
NMDeviceEthernetPrivate *priv = NM_DEVICE_ETHERNET_GET_PRIVATE(self);
switch (prop_id) {
case PROP_SPEED:
g_value_set_uint(value, priv->speed);
break;
case PROP_S390_SUBCHANNELS:
g_value_set_boxed(value, priv->subchannels_dbus);
break;
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID(object, prop_id, pspec);
break;
}
}
static void
set_property(GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec)
{
switch (prop_id) {
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID(object, prop_id, pspec);
break;
}
}
static const NMDBusInterfaceInfoExtended interface_info_device_wired = {
.parent = NM_DEFINE_GDBUS_INTERFACE_INFO_INIT(
NM_DBUS_INTERFACE_DEVICE_WIRED,
.signals = NM_DEFINE_GDBUS_SIGNAL_INFOS(&nm_signal_info_property_changed_legacy, ),
.properties = NM_DEFINE_GDBUS_PROPERTY_INFOS(
NM_DEFINE_DBUS_PROPERTY_INFO_EXTENDED_READABLE_L("HwAddress",
"s",
NM_DEVICE_HW_ADDRESS),
NM_DEFINE_DBUS_PROPERTY_INFO_EXTENDED_READABLE_L("PermHwAddress",
"s",
NM_DEVICE_PERM_HW_ADDRESS),
NM_DEFINE_DBUS_PROPERTY_INFO_EXTENDED_READABLE_L("Speed",
"u",
NM_DEVICE_ETHERNET_SPEED),
NM_DEFINE_DBUS_PROPERTY_INFO_EXTENDED_READABLE_L("S390Subchannels",
"as",
NM_DEVICE_ETHERNET_S390_SUBCHANNELS),
NM_DEFINE_DBUS_PROPERTY_INFO_EXTENDED_READABLE_L("Carrier",
"b",
NM_DEVICE_CARRIER), ), ),
.legacy_property_changed = TRUE,
};
static void
nm_device_ethernet_class_init(NMDeviceEthernetClass *klass)
{
GObjectClass * object_class = G_OBJECT_CLASS(klass);
NMDBusObjectClass *dbus_object_class = NM_DBUS_OBJECT_CLASS(klass);
NMDeviceClass * device_class = NM_DEVICE_CLASS(klass);
g_type_class_add_private(object_class, sizeof(NMDeviceEthernetPrivate));
object_class->dispose = dispose;
object_class->finalize = finalize;
object_class->get_property = get_property;
object_class->set_property = set_property;
dbus_object_class->interface_infos = NM_DBUS_INTERFACE_INFOS(&interface_info_device_wired);
device_class->connection_type_supported = NM_SETTING_WIRED_SETTING_NAME;
device_class->link_types = NM_DEVICE_DEFINE_LINK_TYPES(NM_LINK_TYPE_ETHERNET);
device_class->get_generic_capabilities = get_generic_capabilities;
device_class->check_connection_compatible = check_connection_compatible;
device_class->complete_connection = complete_connection;
device_class->new_default_connection = new_default_connection;
device_class->act_stage1_prepare_also_for_external_or_assume = TRUE;
device_class->act_stage1_prepare = act_stage1_prepare;
device_class->act_stage1_prepare_set_hwaddr_ethernet = TRUE;
device_class->act_stage2_config = act_stage2_config;
device_class->act_stage3_ip_config_start = act_stage3_ip_config_start;
device_class->get_configured_mtu = get_configured_mtu;
device_class->deactivate = deactivate;
device_class->get_s390_subchannels = get_s390_subchannels;
device_class->update_connection = update_connection;
device_class->carrier_changed_notify = carrier_changed_notify;
device_class->link_changed = link_changed;
device_class->is_available = is_available;
device_class->can_reapply_change = can_reapply_change;
device_class->reapply_connection = reapply_connection;
device_class->state_changed = device_state_changed;
obj_properties[PROP_SPEED] = g_param_spec_uint(NM_DEVICE_ETHERNET_SPEED,
"",
"",
0,
G_MAXUINT32,
0,
G_PARAM_READABLE | G_PARAM_STATIC_STRINGS);
obj_properties[PROP_S390_SUBCHANNELS] =
g_param_spec_boxed(NM_DEVICE_ETHERNET_S390_SUBCHANNELS,
"",
"",
G_TYPE_STRV,
G_PARAM_READABLE | G_PARAM_STATIC_STRINGS);
g_object_class_install_properties(object_class, _PROPERTY_ENUMS_LAST, obj_properties);
}
/*****************************************************************************/
#define NM_TYPE_ETHERNET_DEVICE_FACTORY (nm_ethernet_device_factory_get_type())
#define NM_ETHERNET_DEVICE_FACTORY(obj) \
(G_TYPE_CHECK_INSTANCE_CAST((obj), NM_TYPE_ETHERNET_DEVICE_FACTORY, NMEthernetDeviceFactory))
static NMDevice *
create_device(NMDeviceFactory * factory,
const char * iface,
const NMPlatformLink *plink,
NMConnection * connection,
gboolean * out_ignore)
{
return g_object_new(NM_TYPE_DEVICE_ETHERNET,
NM_DEVICE_IFACE,
iface,
NM_DEVICE_TYPE_DESC,
"Ethernet",
NM_DEVICE_DEVICE_TYPE,
NM_DEVICE_TYPE_ETHERNET,
NM_DEVICE_LINK_TYPE,
NM_LINK_TYPE_ETHERNET,
NULL);
}
static gboolean
match_connection(NMDeviceFactory *factory, NMConnection *connection)
{
const char * type = nm_connection_get_connection_type(connection);
NMSettingPppoe *s_pppoe;
if (nm_streq(type, NM_SETTING_WIRED_SETTING_NAME))
return TRUE;
nm_assert(nm_streq(type, NM_SETTING_PPPOE_SETTING_NAME));
s_pppoe = nm_connection_get_setting_pppoe(connection);
return !nm_setting_pppoe_get_parent(s_pppoe);
}
NM_DEVICE_FACTORY_DEFINE_INTERNAL(
ETHERNET,
Ethernet,
ethernet,
NM_DEVICE_FACTORY_DECLARE_LINK_TYPES(NM_LINK_TYPE_ETHERNET)
NM_DEVICE_FACTORY_DECLARE_SETTING_TYPES(NM_SETTING_WIRED_SETTING_NAME,
NM_SETTING_PPPOE_SETTING_NAME),
factory_class->create_device = create_device;
factory_class->match_connection = match_connection;);