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|
/* -*- Mode: C; tab-width: 4; indent-tabs-mode: t; c-basic-offset: 4 -*- */
/* NetworkManager -- Network link manager
*
* 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 of the License, 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) 2006 - 2012 Red Hat, Inc.
* Copyright (C) 2007 - 2008 Novell, Inc.
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <string.h>
#include <stdlib.h>
#include <glib.h>
#include <netinet/ether.h>
#include <dbus/dbus-glib.h>
#include "nm-supplicant-config.h"
#include "nm-supplicant-settings-verify.h"
#include "nm-logging.h"
#include "nm-setting.h"
#include "NetworkManagerUtils.h"
#include "nm-utils.h"
#define NM_SUPPLICANT_CONFIG_GET_PRIVATE(o) (G_TYPE_INSTANCE_GET_PRIVATE ((o), \
NM_TYPE_SUPPLICANT_CONFIG, \
NMSupplicantConfigPrivate))
G_DEFINE_TYPE (NMSupplicantConfig, nm_supplicant_config, G_TYPE_OBJECT)
typedef struct {
char *value;
guint32 len;
OptType type;
} ConfigOption;
typedef struct
{
GHashTable *config;
GHashTable *blobs;
guint32 ap_scan;
gboolean fast_required;
gboolean dispose_has_run;
} NMSupplicantConfigPrivate;
NMSupplicantConfig *
nm_supplicant_config_new (void)
{
return g_object_new (NM_TYPE_SUPPLICANT_CONFIG, NULL);
}
static void
config_option_free (ConfigOption *opt)
{
g_free (opt->value);
g_slice_free (ConfigOption, opt);
}
static void
blob_free (GByteArray *array)
{
g_byte_array_free (array, TRUE);
}
static void
nm_supplicant_config_init (NMSupplicantConfig * self)
{
NMSupplicantConfigPrivate *priv = NM_SUPPLICANT_CONFIG_GET_PRIVATE (self);
priv->config = g_hash_table_new_full (g_str_hash, g_str_equal,
(GDestroyNotify) g_free,
(GDestroyNotify) config_option_free);
priv->blobs = g_hash_table_new_full (g_str_hash, g_str_equal,
(GDestroyNotify) g_free,
(GDestroyNotify) blob_free);
priv->ap_scan = 1;
priv->dispose_has_run = FALSE;
}
static gboolean
nm_supplicant_config_add_option_with_type (NMSupplicantConfig *self,
const char *key,
const char *value,
gint32 len,
OptType opt_type,
gboolean secret)
{
NMSupplicantConfigPrivate *priv;
ConfigOption *old_opt;
ConfigOption *opt;
OptType type;
g_return_val_if_fail (NM_IS_SUPPLICANT_CONFIG (self), FALSE);
g_return_val_if_fail (key != NULL, FALSE);
g_return_val_if_fail (value != NULL, FALSE);
priv = NM_SUPPLICANT_CONFIG_GET_PRIVATE (self);
if (len < 0)
len = strlen (value);
if (opt_type != TYPE_INVALID)
type = opt_type;
else {
type = nm_supplicant_settings_verify_setting (key, value, len);
if (type == TYPE_INVALID) {
char buf[255];
memset (&buf[0], 0, sizeof (buf));
memcpy (&buf[0], value, len > 254 ? 254 : len);
nm_log_warn (LOGD_SUPPLICANT, "Key '%s' and/or value '%s' invalid.", key, secret ? "<omitted>" : buf);
return FALSE;
}
}
old_opt = (ConfigOption *) g_hash_table_lookup (priv->config, key);
if (old_opt) {
nm_log_warn (LOGD_SUPPLICANT, "Key '%s' already in table.", key);
return FALSE;
}
opt = g_slice_new0 (ConfigOption);
opt->value = g_malloc0 ((sizeof (char) * len) + 1);
memcpy (opt->value, value, len);
opt->len = len;
opt->type = type;
{
char buf[255];
memset (&buf[0], 0, sizeof (buf));
memcpy (&buf[0], opt->value, opt->len > 254 ? 254 : opt->len);
nm_log_info (LOGD_SUPPLICANT, "Config: added '%s' value '%s'", key, secret ? "<omitted>" : &buf[0]);
}
g_hash_table_insert (priv->config, g_strdup (key), opt);
return TRUE;
}
static gboolean
nm_supplicant_config_add_option (NMSupplicantConfig *self,
const char *key,
const char *value,
gint32 len,
gboolean secret)
{
return nm_supplicant_config_add_option_with_type (self, key, value, len, TYPE_INVALID, secret);
}
static gboolean
nm_supplicant_config_add_blob (NMSupplicantConfig *self,
const char *key,
const GByteArray *value,
const char *blobid)
{
NMSupplicantConfigPrivate *priv;
ConfigOption *old_opt;
ConfigOption *opt;
OptType type;
GByteArray *blob;
g_return_val_if_fail (NM_IS_SUPPLICANT_CONFIG (self), FALSE);
g_return_val_if_fail (key != NULL, FALSE);
g_return_val_if_fail (value != NULL, FALSE);
g_return_val_if_fail (value->len > 0, FALSE);
g_return_val_if_fail (blobid != NULL, FALSE);
priv = NM_SUPPLICANT_CONFIG_GET_PRIVATE (self);
type = nm_supplicant_settings_verify_setting (key, (const char *) value->data, value->len);
if (type == TYPE_INVALID) {
nm_log_warn (LOGD_SUPPLICANT, "Key '%s' and/or it's contained value is invalid.", key);
return FALSE;
}
old_opt = (ConfigOption *) g_hash_table_lookup (priv->config, key);
if (old_opt) {
nm_log_warn (LOGD_SUPPLICANT, "Key '%s' already in table.", key);
return FALSE;
}
blob = g_byte_array_sized_new (value->len);
g_byte_array_append (blob, value->data, value->len);
opt = g_slice_new0 (ConfigOption);
opt->value = g_strdup_printf ("blob://%s", blobid);
opt->len = strlen (opt->value);
opt->type = type;
nm_log_info (LOGD_SUPPLICANT, "Config: added '%s' value '%s'", key, opt->value);
g_hash_table_insert (priv->config, g_strdup (key), opt);
g_hash_table_insert (priv->blobs, g_strdup (blobid), blob);
return TRUE;
}
static void
nm_supplicant_config_finalize (GObject *object)
{
/* Complete object destruction */
g_hash_table_destroy (NM_SUPPLICANT_CONFIG_GET_PRIVATE (object)->config);
g_hash_table_destroy (NM_SUPPLICANT_CONFIG_GET_PRIVATE (object)->blobs);
/* Chain up to the parent class */
G_OBJECT_CLASS (nm_supplicant_config_parent_class)->finalize (object);
}
static void
nm_supplicant_config_class_init (NMSupplicantConfigClass *klass)
{
GObjectClass *object_class = G_OBJECT_CLASS (klass);
object_class->finalize = nm_supplicant_config_finalize;
g_type_class_add_private (object_class, sizeof (NMSupplicantConfigPrivate));
}
guint32
nm_supplicant_config_get_ap_scan (NMSupplicantConfig * self)
{
g_return_val_if_fail (NM_IS_SUPPLICANT_CONFIG (self), 1);
return NM_SUPPLICANT_CONFIG_GET_PRIVATE (self)->ap_scan;
}
void
nm_supplicant_config_set_ap_scan (NMSupplicantConfig * self,
guint32 ap_scan)
{
g_return_if_fail (NM_IS_SUPPLICANT_CONFIG (self));
g_return_if_fail (ap_scan <= 2);
NM_SUPPLICANT_CONFIG_GET_PRIVATE (self)->ap_scan = ap_scan;
}
gboolean
nm_supplicant_config_fast_required (NMSupplicantConfig *self)
{
g_return_val_if_fail (NM_IS_SUPPLICANT_CONFIG (self), FALSE);
return NM_SUPPLICANT_CONFIG_GET_PRIVATE (self)->fast_required;
}
static void
get_hash_cb (gpointer key, gpointer value, gpointer user_data)
{
ConfigOption *opt = (ConfigOption *) value;
GValue *variant;
GByteArray *array;
variant = g_slice_new0 (GValue);
switch (opt->type) {
case TYPE_INT:
g_value_init (variant, G_TYPE_INT);
g_value_set_int (variant, atoi (opt->value));
break;
case TYPE_BYTES:
case TYPE_UTF8:
array = g_byte_array_sized_new (opt->len);
g_byte_array_append (array, (const guint8 *) opt->value, opt->len);
g_value_init (variant, DBUS_TYPE_G_UCHAR_ARRAY);
g_value_set_boxed (variant, array);
g_byte_array_free (array, TRUE);
break;
case TYPE_KEYWORD:
case TYPE_STRING:
g_value_init (variant, G_TYPE_STRING);
g_value_set_string (variant, opt->value);
break;
default:
g_slice_free (GValue, variant);
return;
}
g_hash_table_insert ((GHashTable *) user_data, g_strdup (key), variant);
}
static void
destroy_hash_value (gpointer data)
{
GValue *value = (GValue *) data;
g_value_unset (value);
g_slice_free (GValue, value);
}
GHashTable *
nm_supplicant_config_get_hash (NMSupplicantConfig * self)
{
NMSupplicantConfigPrivate *priv;
GHashTable *hash;
g_return_val_if_fail (NM_IS_SUPPLICANT_CONFIG (self), NULL);
hash = g_hash_table_new_full (g_str_hash, g_str_equal,
(GDestroyNotify) g_free,
destroy_hash_value);
priv = NM_SUPPLICANT_CONFIG_GET_PRIVATE (self);
g_hash_table_foreach (priv->config, get_hash_cb, hash);
return hash;
}
GHashTable *
nm_supplicant_config_get_blobs (NMSupplicantConfig * self)
{
g_return_val_if_fail (NM_IS_SUPPLICANT_CONFIG (self), NULL);
return NM_SUPPLICANT_CONFIG_GET_PRIVATE (self)->blobs;
}
#define MAC_FMT "%02x:%02x:%02x:%02x:%02x:%02x"
#define MAC_ARG(x) ((guint8*)(x))[0],((guint8*)(x))[1],((guint8*)(x))[2],((guint8*)(x))[3],((guint8*)(x))[4],((guint8*)(x))[5]
#define TWO_GHZ_FREQS "2412,2417,2422,2427,2432,2437,2442,2447,2452,2457,2462,2467,2472,2484"
#define FIVE_GHZ_FREQS "4915,4920,4925,4935,4940,4945,4960,4980,5035,5040,5045,5055,5060,5080," \
"5170,5180,5190,5200,5210,5220,5230,5240,5260,5280,5300,5320,5500," \
"5520,5540,5560,5580,5600,5620,5640,5660,5680,5700,5745,5765,5785," \
"5805,5825"
gboolean
nm_supplicant_config_add_setting_wireless (NMSupplicantConfig * self,
NMSettingWireless * setting,
guint32 fixed_freq)
{
NMSupplicantConfigPrivate *priv;
gboolean is_adhoc, is_ap;
const char *mode, *band;
const GByteArray *id;
g_return_val_if_fail (NM_IS_SUPPLICANT_CONFIG (self), FALSE);
g_return_val_if_fail (setting != NULL, FALSE);
priv = NM_SUPPLICANT_CONFIG_GET_PRIVATE (self);
mode = nm_setting_wireless_get_mode (setting);
is_adhoc = (mode && !strcmp (mode, "adhoc")) ? TRUE : FALSE;
is_ap = (mode && !strcmp (mode, "ap")) ? TRUE : FALSE;
if (is_adhoc || is_ap)
priv->ap_scan = 2;
else
priv->ap_scan = 1;
id = nm_setting_wireless_get_ssid (setting);
if (!nm_supplicant_config_add_option (self, "ssid", (char *) id->data, id->len, FALSE)) {
nm_log_warn (LOGD_SUPPLICANT, "Error adding SSID to supplicant config.");
return FALSE;
}
if (is_adhoc) {
if (!nm_supplicant_config_add_option (self, "mode", "1", -1, FALSE)) {
nm_log_warn (LOGD_SUPPLICANT, "Error adding mode=1 (adhoc) to supplicant config.");
return FALSE;
}
}
if (is_ap) {
if (!nm_supplicant_config_add_option (self, "mode", "2", -1, FALSE)) {
nm_log_warn (LOGD_SUPPLICANT, "Error adding mode=2 (ap) to supplicant config.");
return FALSE;
}
}
if ((is_adhoc || is_ap) && fixed_freq) {
char *str_freq;
str_freq = g_strdup_printf ("%u", fixed_freq);
if (!nm_supplicant_config_add_option (self, "frequency", str_freq, -1, FALSE)) {
g_free (str_freq);
nm_log_warn (LOGD_SUPPLICANT, "Error adding Ad-Hoc/AP frequency to supplicant config.");
return FALSE;
}
g_free (str_freq);
}
/* Except for Ad-Hoc and Hotspot, request that the driver probe for the
* specific SSID we want to associate with.
*/
if (!(is_adhoc || is_ap)) {
if (!nm_supplicant_config_add_option (self, "scan_ssid", "1", -1, FALSE))
return FALSE;
}
id = nm_setting_wireless_get_bssid (setting);
if (id && id->len) {
char *str_bssid;
str_bssid = g_strdup_printf (MAC_FMT, MAC_ARG (id->data));
if (!nm_supplicant_config_add_option (self, "bssid",
str_bssid, strlen (str_bssid),
FALSE)) {
g_free (str_bssid);
nm_log_warn (LOGD_SUPPLICANT, "Error adding BSSID to supplicant config.");
return FALSE;
}
g_free (str_bssid);
}
band = nm_setting_wireless_get_band (setting);
if (band) {
const char *freqs = NULL;
if (!strcmp (band, "a"))
freqs = FIVE_GHZ_FREQS;
else if (!strcmp (band, "bg"))
freqs = TWO_GHZ_FREQS;
if (freqs && !nm_supplicant_config_add_option (self, "freq_list", freqs, strlen (freqs), FALSE)) {
nm_log_warn (LOGD_SUPPLICANT, "Error adding frequency list/band to supplicant config.");
return FALSE;
}
}
// FIXME: channel config item
return TRUE;
}
static gboolean
add_string_val (NMSupplicantConfig *self,
const char *field,
const char *name,
gboolean ucase,
gboolean secret)
{
gboolean success;
char *value;
if (!field)
return TRUE;
value = ucase ? g_ascii_strup (field, -1) : g_strdup (field);
success = nm_supplicant_config_add_option (self, name, value, strlen (field), secret);
if (!success)
nm_log_warn (LOGD_SUPPLICANT, "Error adding %s to supplicant config.", name);
g_free (value);
return success;
}
#define ADD_STRING_LIST_VAL(setting, setting_name, field, field_plural, name, separator, ucase, secret) \
if (nm_setting_##setting_name##_get_num_##field_plural (setting)) { \
guint32 k; \
GString *str = g_string_new (NULL); \
for (k = 0; k < nm_setting_##setting_name##_get_num_##field_plural (setting); k++) { \
const char *item = nm_setting_##setting_name##_get_##field (setting, k); \
if (!str->len) { \
g_string_append (str, item); \
} else { \
g_string_append_c (str, separator); \
g_string_append (str, item); \
} \
} \
if (ucase) \
g_string_ascii_up (str); \
if (str->len) \
success = nm_supplicant_config_add_option (self, name, str->str, -1, secret); \
else \
success = TRUE; \
g_string_free (str, TRUE); \
if (!success) { \
nm_log_warn (LOGD_SUPPLICANT, "Error adding %s to supplicant config.", name); \
return FALSE; \
} \
}
static char *
get_blob_id (const char *name, const char *seed_uid)
{
char *uid = g_strdup_printf ("%s-%s", seed_uid, name);
char *p = uid;
while (*p) {
if (*p == '/') *p = '-';
p++;
}
return uid;
}
#define ADD_BLOB_VAL(field, name, con_uid) \
if (field && field->len) { \
char *uid = get_blob_id (name, con_uid); \
success = nm_supplicant_config_add_blob (self, name, field, uid); \
g_free (uid); \
if (!success) { \
nm_log_warn (LOGD_SUPPLICANT, "Error adding %s to supplicant config.", name); \
return FALSE; \
} \
}
static gboolean
wep128_passphrase_hash (const char *input,
size_t input_len,
guint8 *out_digest,
size_t *out_digest_len)
{
GChecksum *sum;
guint8 data[64];
int i;
g_return_val_if_fail (out_digest != NULL, FALSE);
g_return_val_if_fail (out_digest_len != NULL, FALSE);
g_return_val_if_fail (*out_digest_len >= 16, FALSE);
/* Get at least 64 bytes by repeating the passphrase into the buffer */
for (i = 0; i < sizeof (data); i++)
data[i] = input[i % input_len];
sum = g_checksum_new (G_CHECKSUM_MD5);
g_assert (sum);
g_checksum_update (sum, data, sizeof (data));
g_checksum_get_digest (sum, out_digest, out_digest_len);
g_checksum_free (sum);
g_assert (*out_digest_len == 16);
/* WEP104 keys are 13 bytes in length (26 hex characters) */
*out_digest_len = 13;
return TRUE;
}
static gboolean
add_wep_key (NMSupplicantConfig *self,
const char *key,
const char *name,
NMWepKeyType wep_type)
{
char *value;
gboolean success;
size_t key_len = key ? strlen (key) : 0;
if (!key || !key_len)
return TRUE;
if ( (wep_type == NM_WEP_KEY_TYPE_UNKNOWN)
|| (wep_type == NM_WEP_KEY_TYPE_KEY)) {
if ((key_len == 10) || (key_len == 26)) {
value = nm_utils_hexstr2bin (key, strlen (key));
success = nm_supplicant_config_add_option (self, name, value, key_len / 2, TRUE);
g_free (value);
if (!success) {
nm_log_warn (LOGD_SUPPLICANT, "Error adding %s to supplicant config.", name);
return FALSE;
}
} else if ((key_len == 5) || (key_len == 13)) {
if (!nm_supplicant_config_add_option (self, name, key, key_len, TRUE)) {
nm_log_warn (LOGD_SUPPLICANT, "Error adding %s to supplicant config.", name);
return FALSE;
}
} else {
nm_log_warn (LOGD_SUPPLICANT, "Invalid WEP key '%s'", name);
return FALSE;
}
} else if (wep_type == NM_WEP_KEY_TYPE_PASSPHRASE) {
guint8 digest[16];
size_t digest_len = sizeof (digest);
success = wep128_passphrase_hash (key, key_len, digest, &digest_len);
if (success)
success = nm_supplicant_config_add_option (self, name, (const char *) digest, digest_len, TRUE);
if (!success) {
nm_log_warn (LOGD_SUPPLICANT, "Error adding %s to supplicant config.", name);
return FALSE;
}
}
return TRUE;
}
gboolean
nm_supplicant_config_add_setting_wireless_security (NMSupplicantConfig *self,
NMSettingWirelessSecurity *setting,
NMSetting8021x *setting_8021x,
const char *con_uuid)
{
char *value;
gboolean success;
const char *key_mgmt, *auth_alg;
const char *psk;
g_return_val_if_fail (NM_IS_SUPPLICANT_CONFIG (self), FALSE);
g_return_val_if_fail (setting != NULL, FALSE);
g_return_val_if_fail (con_uuid != NULL, FALSE);
key_mgmt = nm_setting_wireless_security_get_key_mgmt (setting);
if (!add_string_val (self, key_mgmt, "key_mgmt", TRUE, FALSE))
return FALSE;
auth_alg = nm_setting_wireless_security_get_auth_alg (setting);
if (!add_string_val (self, auth_alg, "auth_alg", TRUE, FALSE))
return FALSE;
psk = nm_setting_wireless_security_get_psk (setting);
if (psk) {
size_t psk_len = strlen (psk);
if (psk_len == 64) {
/* Hex PSK */
value = nm_utils_hexstr2bin (psk, psk_len);
success = nm_supplicant_config_add_option (self, "psk", value, psk_len / 2, TRUE);
g_free (value);
if (!success) {
nm_log_warn (LOGD_SUPPLICANT, "Error adding 'psk' to supplicant config.");
return FALSE;
}
} else if (psk_len >= 8 && psk_len <= 63) {
/* Use TYPE_STRING here so that it gets pushed to the
* supplicant as a string, and therefore gets quoted,
* and therefore the supplicant will interpret it as a
* passphrase and not a hex key.
*/
if (!nm_supplicant_config_add_option_with_type (self, "psk", psk, -1, TYPE_STRING, TRUE)) {
nm_log_warn (LOGD_SUPPLICANT, "Error adding 'psk' to supplicant config.");
return FALSE;
}
} else {
/* Invalid PSK */
nm_log_warn (LOGD_SUPPLICANT, "Invalid PSK length %u: not between 8 and 63 characters inclusive.", (guint32) psk_len);
return FALSE;
}
}
/* Only WPA-specific things when using WPA */
if ( !strcmp (key_mgmt, "wpa-none")
|| !strcmp (key_mgmt, "wpa-psk")
|| !strcmp (key_mgmt, "wpa-eap")) {
ADD_STRING_LIST_VAL (setting, wireless_security, proto, protos, "proto", ' ', TRUE, FALSE);
ADD_STRING_LIST_VAL (setting, wireless_security, pairwise, pairwise, "pairwise", ' ', TRUE, FALSE);
ADD_STRING_LIST_VAL (setting, wireless_security, group, groups, "group", ' ', TRUE, FALSE);
}
/* WEP keys if required */
if (!strcmp (key_mgmt, "none")) {
NMWepKeyType wep_type = nm_setting_wireless_security_get_wep_key_type (setting);
const char *wep0 = nm_setting_wireless_security_get_wep_key (setting, 0);
const char *wep1 = nm_setting_wireless_security_get_wep_key (setting, 1);
const char *wep2 = nm_setting_wireless_security_get_wep_key (setting, 2);
const char *wep3 = nm_setting_wireless_security_get_wep_key (setting, 3);
if (!add_wep_key (self, wep0, "wep_key0", wep_type))
return FALSE;
if (!add_wep_key (self, wep1, "wep_key1", wep_type))
return FALSE;
if (!add_wep_key (self, wep2, "wep_key2", wep_type))
return FALSE;
if (!add_wep_key (self, wep3, "wep_key3", wep_type))
return FALSE;
if (wep0 || wep1 || wep2 || wep3) {
value = g_strdup_printf ("%d", nm_setting_wireless_security_get_wep_tx_keyidx (setting));
success = nm_supplicant_config_add_option (self, "wep_tx_keyidx", value, -1, FALSE);
g_free (value);
if (!success) {
nm_log_warn (LOGD_SUPPLICANT, "Error adding wep_tx_keyidx to supplicant config.");
return FALSE;
}
}
}
if (auth_alg && !strcmp (auth_alg, "leap")) {
/* LEAP */
if (!strcmp (key_mgmt, "ieee8021x")) {
const char *tmp;
tmp = nm_setting_wireless_security_get_leap_username (setting);
if (!add_string_val (self, tmp, "identity", FALSE, FALSE))
return FALSE;
tmp = nm_setting_wireless_security_get_leap_password (setting);
if (!add_string_val (self, tmp, "password", FALSE, TRUE))
return FALSE;
if (!add_string_val (self, "leap", "eap", TRUE, FALSE))
return FALSE;
} else {
return FALSE;
}
} else {
/* 802.1x for Dynamic WEP and WPA-Enterprise */
if (!strcmp (key_mgmt, "ieee8021x") || !strcmp (key_mgmt, "wpa-eap")) {
if (!setting_8021x)
return FALSE;
if (!nm_supplicant_config_add_setting_8021x (self, setting_8021x, con_uuid, FALSE))
return FALSE;
}
if (!strcmp (key_mgmt, "wpa-eap")) {
/* If using WPA Enterprise, enable optimized background scanning
* to ensure roaming within an ESS works well.
*/
if (!nm_supplicant_config_add_option (self, "bgscan", "simple:30:-65:300", -1, FALSE))
nm_log_warn (LOGD_SUPPLICANT, "Error enabling background scanning for ESS roaming");
/* When using WPA-Enterprise, we want to use Proactive Key Caching (also
* called Opportunistic Key Caching) to avoid full EAP exchanges when
* roaming between access points in the same mobility group.
*/
if (!nm_supplicant_config_add_option (self, "proactive_key_caching", "1", -1, FALSE))
return FALSE;
}
}
return TRUE;
}
gboolean
nm_supplicant_config_add_setting_8021x (NMSupplicantConfig *self,
NMSetting8021x *setting,
const char *con_uuid,
gboolean wired)
{
NMSupplicantConfigPrivate *priv;
char *tmp;
const char *peapver, *value, *path;
gboolean success, added;
GString *phase1, *phase2;
const GByteArray *array;
gboolean fast = FALSE;
guint32 i, num_eap;
gboolean fast_provisoning_allowed = FALSE;
g_return_val_if_fail (NM_IS_SUPPLICANT_CONFIG (self), FALSE);
g_return_val_if_fail (setting != NULL, FALSE);
g_return_val_if_fail (con_uuid != NULL, FALSE);
priv = NM_SUPPLICANT_CONFIG_GET_PRIVATE (self);
value = nm_setting_802_1x_get_password (setting);
if (value) {
if (!add_string_val (self, value, "password", FALSE, TRUE))
return FALSE;
} else {
array = nm_setting_802_1x_get_password_raw (setting);
if (array) {
success = nm_supplicant_config_add_option (self,
"password",
(const char *)array->data,
array->len,
TRUE);
if (!success) {
nm_log_warn (LOGD_SUPPLICANT, "Error adding password-raw to supplicant config.");
return FALSE;
}
}
}
value = nm_setting_802_1x_get_pin (setting);
if (!add_string_val (self, value, "pin", FALSE, TRUE))
return FALSE;
if (wired) {
if (!add_string_val (self, "IEEE8021X", "key_mgmt", FALSE, FALSE))
return FALSE;
/* Wired 802.1x must always use eapol_flags=0 */
if (!add_string_val (self, "0", "eapol_flags", FALSE, FALSE))
return FALSE;
nm_supplicant_config_set_ap_scan (self, 0);
}
ADD_STRING_LIST_VAL (setting, 802_1x, eap_method, eap_methods, "eap", ' ', TRUE, FALSE);
/* Check EAP method for special handling: PEAP + GTC, FAST */
num_eap = nm_setting_802_1x_get_num_eap_methods (setting);
for (i = 0; i < num_eap; i++) {
const char *method = nm_setting_802_1x_get_eap_method (setting, i);
if (method && (strcasecmp (method, "fast") == 0)) {
fast = TRUE;
priv->fast_required = TRUE;
}
}
/* Drop the fragment size a bit for better compatibility */
if (!nm_supplicant_config_add_option (self, "fragment_size", "1300", -1, FALSE))
return FALSE;
phase1 = g_string_new (NULL);
peapver = nm_setting_802_1x_get_phase1_peapver (setting);
if (peapver) {
if (!strcmp (peapver, "0"))
g_string_append (phase1, "peapver=0");
else if (!strcmp (peapver, "1"))
g_string_append (phase1, "peapver=1");
}
if (nm_setting_802_1x_get_phase1_peaplabel (setting)) {
if (phase1->len)
g_string_append_c (phase1, ' ');
g_string_append_printf (phase1, "peaplabel=%s", nm_setting_802_1x_get_phase1_peaplabel (setting));
}
value = nm_setting_802_1x_get_phase1_fast_provisioning (setting);
if (value) {
if (phase1->len)
g_string_append_c (phase1, ' ');
g_string_append_printf (phase1, "fast_provisioning=%s", value);
if (strcmp (value, "0") != 0)
fast_provisoning_allowed = TRUE;
}
if (phase1->len) {
if (!add_string_val (self, phase1->str, "phase1", FALSE, FALSE)) {
g_string_free (phase1, TRUE);
return FALSE;
}
}
g_string_free (phase1, TRUE);
phase2 = g_string_new (NULL);
if (nm_setting_802_1x_get_phase2_auth (setting) && !fast_provisoning_allowed) {
tmp = g_ascii_strup (nm_setting_802_1x_get_phase2_auth (setting), -1);
g_string_append_printf (phase2, "auth=%s", tmp);
g_free (tmp);
}
if (nm_setting_802_1x_get_phase2_autheap (setting)) {
if (phase2->len)
g_string_append_c (phase2, ' ');
tmp = g_ascii_strup (nm_setting_802_1x_get_phase2_autheap (setting), -1);
g_string_append_printf (phase2, "autheap=%s", tmp);
g_free (tmp);
}
if (phase2->len) {
if (!add_string_val (self, phase2->str, "phase2", FALSE, FALSE)) {
g_string_free (phase2, TRUE);
return FALSE;
}
}
g_string_free (phase2, TRUE);
/* PAC file */
path = nm_setting_802_1x_get_pac_file (setting);
if (path) {
if (!add_string_val (self, path, "pac_file", FALSE, FALSE))
return FALSE;
} else {
/* PAC file is not specified.
* If provisioning is allowed, use an blob format.
*/
if (fast_provisoning_allowed) {
char *blob_name = g_strdup_printf ("blob://pac-blob-%s", con_uuid);
if (!add_string_val (self, blob_name, "pac_file", FALSE, FALSE)) {
g_free (blob_name);
return FALSE;
}
g_free (blob_name);
} else {
/* This is only error for EAP-FAST; don't disturb other methods. */
if (fast) {
nm_log_err (LOGD_SUPPLICANT, "EAP-FAST error: no PAC file provided and "
"automatic PAC provisioning is disabled.");
return FALSE;
}
}
}
/* CA path */
path = nm_setting_802_1x_get_ca_path (setting);
if (nm_setting_802_1x_get_system_ca_certs (setting))
path = SYSTEM_CA_PATH;
if (path) {
if (!add_string_val (self, path, "ca_path", FALSE, FALSE))
return FALSE;
}
/* Phase2 CA path */
path = nm_setting_802_1x_get_phase2_ca_path (setting);
if (nm_setting_802_1x_get_system_ca_certs (setting))
path = SYSTEM_CA_PATH;
if (path) {
if (!add_string_val (self, path, "ca_path2", FALSE, FALSE))
return FALSE;
}
/* CA certificate */
switch (nm_setting_802_1x_get_ca_cert_scheme (setting)) {
case NM_SETTING_802_1X_CK_SCHEME_BLOB:
array = nm_setting_802_1x_get_ca_cert_blob (setting);
ADD_BLOB_VAL (array, "ca_cert", con_uuid);
break;
case NM_SETTING_802_1X_CK_SCHEME_PATH:
path = nm_setting_802_1x_get_ca_cert_path (setting);
if (!add_string_val (self, path, "ca_cert", FALSE, FALSE))
return FALSE;
break;
default:
break;
}
/* Phase 2 CA certificate */
switch (nm_setting_802_1x_get_phase2_ca_cert_scheme (setting)) {
case NM_SETTING_802_1X_CK_SCHEME_BLOB:
array = nm_setting_802_1x_get_phase2_ca_cert_blob (setting);
ADD_BLOB_VAL (array, "ca_cert2", con_uuid);
break;
case NM_SETTING_802_1X_CK_SCHEME_PATH:
path = nm_setting_802_1x_get_phase2_ca_cert_path (setting);
if (!add_string_val (self, path, "ca_cert2", FALSE, FALSE))
return FALSE;
break;
default:
break;
}
/* Subject match */
value = nm_setting_802_1x_get_subject_match (setting);
if (!add_string_val (self, value, "subject_match", FALSE, FALSE))
return FALSE;
value = nm_setting_802_1x_get_phase2_subject_match (setting);
if (!add_string_val (self, value, "subject_match2", FALSE, FALSE))
return FALSE;
/* altSubjectName match */
ADD_STRING_LIST_VAL (setting, 802_1x, altsubject_match, altsubject_matches, "altsubject_match", ';', FALSE, FALSE);
ADD_STRING_LIST_VAL (setting, 802_1x, phase2_altsubject_match, phase2_altsubject_matches, "altsubject_match2", ';', FALSE, FALSE);
/* Private key */
added = FALSE;
switch (nm_setting_802_1x_get_private_key_scheme (setting)) {
case NM_SETTING_802_1X_CK_SCHEME_BLOB:
array = nm_setting_802_1x_get_private_key_blob (setting);
ADD_BLOB_VAL (array, "private_key", con_uuid);
added = TRUE;
break;
case NM_SETTING_802_1X_CK_SCHEME_PATH:
path = nm_setting_802_1x_get_private_key_path (setting);
if (!add_string_val (self, path, "private_key", FALSE, FALSE))
return FALSE;
added = TRUE;
break;
default:
break;
}
if (added) {
NMSetting8021xCKFormat format;
NMSetting8021xCKScheme scheme;
format = nm_setting_802_1x_get_private_key_format (setting);
scheme = nm_setting_802_1x_get_private_key_scheme (setting);
if ( scheme == NM_SETTING_802_1X_CK_SCHEME_PATH
|| format == NM_SETTING_802_1X_CK_FORMAT_PKCS12) {
/* Only add the private key password for PKCS#12 blobs and
* all path schemes, since in both of these cases the private key
* isn't decrypted at all.
*/
value = nm_setting_802_1x_get_private_key_password (setting);
if (!add_string_val (self, value, "private_key_passwd", FALSE, TRUE))
return FALSE;
}
if (format != NM_SETTING_802_1X_CK_FORMAT_PKCS12) {
/* Only add the client cert if the private key is not PKCS#12, as
* wpa_supplicant configuration directs us to do.
*/
switch (nm_setting_802_1x_get_client_cert_scheme (setting)) {
case NM_SETTING_802_1X_CK_SCHEME_BLOB:
array = nm_setting_802_1x_get_client_cert_blob (setting);
ADD_BLOB_VAL (array, "client_cert", con_uuid);
break;
case NM_SETTING_802_1X_CK_SCHEME_PATH:
path = nm_setting_802_1x_get_client_cert_path (setting);
if (!add_string_val (self, path, "client_cert", FALSE, FALSE))
return FALSE;
break;
default:
break;
}
}
}
/* Phase 2 private key */
added = FALSE;
switch (nm_setting_802_1x_get_phase2_private_key_scheme (setting)) {
case NM_SETTING_802_1X_CK_SCHEME_BLOB:
array = nm_setting_802_1x_get_phase2_private_key_blob (setting);
ADD_BLOB_VAL (array, "private_key2", con_uuid);
added = TRUE;
break;
case NM_SETTING_802_1X_CK_SCHEME_PATH:
path = nm_setting_802_1x_get_phase2_private_key_path (setting);
if (!add_string_val (self, path, "private_key2", FALSE, FALSE))
return FALSE;
added = TRUE;
break;
default:
break;
}
if (added) {
NMSetting8021xCKFormat format;
NMSetting8021xCKScheme scheme;
format = nm_setting_802_1x_get_phase2_private_key_format (setting);
scheme = nm_setting_802_1x_get_phase2_private_key_scheme (setting);
if ( scheme == NM_SETTING_802_1X_CK_SCHEME_PATH
|| format == NM_SETTING_802_1X_CK_FORMAT_PKCS12) {
/* Only add the private key password for PKCS#12 blobs and
* all path schemes, since in both of these cases the private key
* isn't decrypted at all.
*/
value = nm_setting_802_1x_get_phase2_private_key_password (setting);
if (!add_string_val (self, value, "private_key_passwd2", FALSE, TRUE))
return FALSE;
}
if (format != NM_SETTING_802_1X_CK_FORMAT_PKCS12) {
/* Only add the client cert if the private key is not PKCS#12, as
* wpa_supplicant configuration directs us to do.
*/
switch (nm_setting_802_1x_get_phase2_client_cert_scheme (setting)) {
case NM_SETTING_802_1X_CK_SCHEME_BLOB:
array = nm_setting_802_1x_get_phase2_client_cert_blob (setting);
ADD_BLOB_VAL (array, "client_cert2", con_uuid);
break;
case NM_SETTING_802_1X_CK_SCHEME_PATH:
path = nm_setting_802_1x_get_phase2_client_cert_path (setting);
if (!add_string_val (self, path, "client_cert2", FALSE, FALSE))
return FALSE;
break;
default:
break;
}
}
}
value = nm_setting_802_1x_get_identity (setting);
if (!add_string_val (self, value, "identity", FALSE, FALSE))
return FALSE;
value = nm_setting_802_1x_get_anonymous_identity (setting);
if (!add_string_val (self, value, "anonymous_identity", FALSE, FALSE))
return FALSE;
return TRUE;
}
gboolean
nm_supplicant_config_add_no_security (NMSupplicantConfig *self)
{
return nm_supplicant_config_add_option (self, "key_mgmt", "NONE", -1, FALSE);
}
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