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mirror of https://git.kernel.org/pub/scm/network/wireless/iwd.git synced 2024-11-22 23:09:34 +01:00
iwd/src/eap-tls-common.c
Denis Kenzior fe95cbe077 treewide: Various style fixups
- Mostly problems with whitespace:
	- Use of spaces instead of tabs
	- Stray spaces before closing ')
	- Missing spaces

- Missing 'void' from function declarations & definitions that
  take no arguments.

- Wrong indentation level
2022-01-11 11:07:05 -06:00

1080 lines
25 KiB
C

/*
*
* Wireless daemon for Linux
*
* Copyright (C) 2018-2019 Intel Corporation. All rights reserved.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <stdio.h>
#include <errno.h>
#include <ell/ell.h>
#include "src/missing.h"
#include "src/eap.h"
#include "src/eap-private.h"
#include "src/eap-tls-common.h"
struct databuf {
uint8_t *data;
size_t len;
size_t capacity;
};
static struct databuf *databuf_new(size_t capacity)
{
struct databuf *databuf;
if (!capacity)
return NULL;
databuf = l_new(struct databuf, 1);
databuf->data = l_malloc(capacity);
databuf->capacity = capacity;
return databuf;
}
static void databuf_append(struct databuf *databuf, const uint8_t *data,
size_t data_len)
{
size_t new_len;
if (!databuf)
return;
new_len = databuf->len + data_len;
if (new_len > databuf->capacity) {
databuf->capacity = new_len * 2;
databuf->data = l_realloc(databuf->data, databuf->capacity);
}
memcpy(databuf->data + databuf->len, data, data_len);
databuf->len = new_len;
}
static void databuf_free(struct databuf *databuf)
{
if (!databuf)
return;
l_free(databuf->data);
l_free(databuf);
}
#define EAP_TLS_PDU_MAX_LEN 65536
#define EAP_TLS_HEADER_LEN 6
#define EAP_TLS_HEADER_OCTET_FLAGS 5
#define EAP_TLS_HEADER_OCTET_FRAG_LEN 6
enum eap_tls_flag {
/* Reserved = 0x00, */
EAP_TLS_FLAG_S = 0x20,
EAP_TLS_FLAG_M = 0x40,
EAP_TLS_FLAG_L = 0x80,
};
struct eap_tls_state {
enum eap_tls_version version_negotiated;
struct l_tls *tunnel;
bool method_completed:1;
bool phase2_failed:1;
struct databuf *plain_buf;
struct databuf *tx_pdu_buf;
struct databuf *rx_pdu_buf;
size_t tx_frag_offset;
size_t tx_frag_last_len;
bool expecting_frag_ack:1;
bool tunnel_ready:1;
struct l_queue *ca_cert;
struct l_certchain *client_cert;
struct l_key *client_key;
char **domain_mask;
const struct eap_tls_variant_ops *variant_ops;
void *variant_data;
};
static void __eap_tls_common_state_reset(struct eap_tls_state *eap_tls)
{
eap_tls->version_negotiated = EAP_TLS_VERSION_NOT_NEGOTIATED;
eap_tls->method_completed = false;
eap_tls->phase2_failed = false;
eap_tls->expecting_frag_ack = false;
eap_tls->tunnel_ready = false;
if (eap_tls->tunnel) {
l_tls_free(eap_tls->tunnel);
eap_tls->tunnel = NULL;
}
eap_tls->tx_frag_offset = 0;
eap_tls->tx_frag_last_len = 0;
if (eap_tls->plain_buf) {
databuf_free(eap_tls->plain_buf);
eap_tls->plain_buf = NULL;
}
if (eap_tls->tx_pdu_buf) {
databuf_free(eap_tls->tx_pdu_buf);
eap_tls->tx_pdu_buf = NULL;
}
if (eap_tls->rx_pdu_buf) {
databuf_free(eap_tls->rx_pdu_buf);
eap_tls->rx_pdu_buf = NULL;
}
}
static void __eap_tls_common_state_free(struct eap_tls_state *eap_tls)
{
if (eap_tls->ca_cert)
l_queue_destroy(eap_tls->ca_cert,
(l_queue_destroy_func_t)l_cert_free);
if (eap_tls->client_cert)
l_certchain_free(eap_tls->client_cert);
if (eap_tls->client_key)
l_key_free(eap_tls->client_key);
l_strv_free(eap_tls->domain_mask);
l_free(eap_tls);
}
bool eap_tls_common_state_reset(struct eap_state *eap)
{
struct eap_tls_state *eap_tls = eap_get_data(eap);
__eap_tls_common_state_reset(eap_tls);
if (eap_tls->variant_ops->reset)
eap_tls->variant_ops->reset(eap_tls->variant_data);
return true;
}
void eap_tls_common_state_free(struct eap_state *eap)
{
struct eap_tls_state *eap_tls = eap_get_data(eap);
__eap_tls_common_state_reset(eap_tls);
eap_set_data(eap, NULL);
if (eap_tls->variant_ops->destroy)
eap_tls->variant_ops->destroy(eap_tls->variant_data);
__eap_tls_common_state_free(eap_tls);
}
static void eap_tls_tunnel_debug(const char *str, void *user_data)
{
struct eap_state *eap = user_data;
l_info("%s: %s", eap_get_method_name(eap), str);
}
static void eap_tls_tunnel_data_send(const uint8_t *data, size_t data_len,
void *user_data)
{
struct eap_state *eap = user_data;
struct eap_tls_state *eap_tls = eap_get_data(eap);
if (!eap_tls->tx_pdu_buf)
eap_tls->tx_pdu_buf = databuf_new(data_len);
databuf_append(eap_tls->tx_pdu_buf, data, data_len);
}
static void eap_tls_tunnel_data_received(const uint8_t *data, size_t data_len,
void *user_data)
{
struct eap_state *eap = user_data;
struct eap_tls_state *eap_tls = eap_get_data(eap);
if (!eap_tls->plain_buf)
eap_tls->plain_buf = databuf_new(data_len);
databuf_append(eap_tls->plain_buf, data, data_len);
}
static void eap_tls_tunnel_ready(const char *peer_identity, void *user_data)
{
struct eap_state *eap = user_data;
struct eap_tls_state *eap_tls = eap_get_data(eap);
if (eap_tls->ca_cert && !peer_identity) {
l_error("%s: TLS did not verify AP identity",
eap_get_method_name(eap));
eap_method_error(eap);
return;
}
/*
* Since authenticator may not send us EAP-Success/EAP-Failure
* in cleartext for the outer EAP method, we reinforce
* the completion with a timer.
*/
eap_start_complete_timeout(eap);
eap_tls->tunnel_ready = true;
if (!eap_tls->variant_ops->tunnel_ready)
return;
if (!eap_tls->variant_ops->tunnel_ready(eap, peer_identity))
l_tls_close(eap_tls->tunnel);
}
static void eap_tls_debug_hint(void)
{
if (!getenv("IWD_TLS_DEBUG"))
l_debug("set the IWD_TLS_DEBUG environment variable to see "
"more information");
}
static void eap_tls_tunnel_disconnected(enum l_tls_alert_desc reason,
bool remote, void *user_data)
{
struct eap_state *eap = user_data;
struct eap_tls_state *eap_tls = eap_get_data(eap);
l_info("%s: Tunnel has disconnected with alert: %s",
eap_get_method_name(eap), l_tls_alert_to_str(reason));
eap_tls->method_completed = true;
eap_tls->tunnel_ready = false;
}
static bool eap_tls_validate_version(struct eap_state *eap,
uint8_t flags_version)
{
struct eap_tls_state *eap_tls = eap_get_data(eap);
enum eap_tls_version version_proposed =
flags_version & EAP_TLS_VERSION_MASK;
if (eap_tls->version_negotiated == version_proposed)
return true;
if (!(flags_version & EAP_TLS_FLAG_S) ||
eap_tls->version_negotiated !=
EAP_TLS_VERSION_NOT_NEGOTIATED)
return false;
if (version_proposed < eap_tls->variant_ops->version_max_supported)
eap_tls->version_negotiated = version_proposed;
else
eap_tls->version_negotiated =
eap_tls->variant_ops->version_max_supported;
return true;
}
static void eap_tls_send_fragment(struct eap_state *eap)
{
struct eap_tls_state *eap_tls = eap_get_data(eap);
size_t mtu = eap_get_mtu(eap);
uint8_t buf[mtu];
size_t len = eap_tls->tx_pdu_buf->len - eap_tls->tx_frag_offset;
size_t header_len = EAP_TLS_HEADER_LEN;
uint8_t position = 0;
if (eap_get_method_type(eap) == EAP_TYPE_EXPANDED) {
header_len += 7;
position += 7;
}
buf[EAP_TLS_HEADER_OCTET_FLAGS + position] =
eap_tls->version_negotiated;
if (len > mtu - EAP_TLS_HEADER_LEN - position) {
len = mtu - EAP_TLS_HEADER_LEN - position;
buf[EAP_TLS_HEADER_OCTET_FLAGS + position] |= EAP_TLS_FLAG_M;
eap_tls->expecting_frag_ack = true;
}
if (!eap_tls->tx_frag_offset) {
buf[EAP_TLS_HEADER_OCTET_FLAGS + position] |= EAP_TLS_FLAG_L;
l_put_be32(eap_tls->tx_pdu_buf->len,
&buf[EAP_TLS_HEADER_OCTET_FRAG_LEN + position]);
len -= 4;
header_len += 4;
}
memcpy(buf + header_len,
eap_tls->tx_pdu_buf->data + eap_tls->tx_frag_offset, len);
eap_method_respond(eap, buf, header_len + len);
eap_tls->tx_frag_last_len = len;
}
static bool needs_workaround(struct eap_state *eap)
{
struct eap_tls_state *eap_tls = eap_get_data(eap);
/*
* Windows Server 2008 - Network Policy Server (NPS) generates an
* invalid Compound MAC for Cryptobinding TLV when is used within PEAPv0
* due to incorrect parsing of the message containing TLS Client Hello.
* Setting L bit and including TLS Message Length field, even for the
* packets that do not require fragmentation, corrects the issue. The
* redundant TLS Message Length field in unfragmented packets doesn't
* seem to effect the other server implementations.
*/
return eap_get_method_type(eap) == EAP_TYPE_PEAP &&
eap_tls->version_negotiated == EAP_TLS_VERSION_0 &&
!eap_tls->tunnel_ready;
}
static void eap_tls_send_response(struct eap_state *eap,
const uint8_t *pdu, size_t pdu_len)
{
struct eap_tls_state *eap_tls = eap_get_data(eap);
size_t msg_len = EAP_TLS_HEADER_LEN + pdu_len;
bool set_tls_msg_len = needs_workaround(eap);
msg_len += set_tls_msg_len ? 4 : 0;
if (msg_len <= eap_get_mtu(eap)) {
uint8_t *buf;
uint8_t extra = 0;
if (eap_get_method_type(eap) == EAP_TYPE_EXPANDED) {
extra += 7;
msg_len += 7;
}
buf = l_malloc(msg_len);
buf[EAP_TLS_HEADER_OCTET_FLAGS + extra] =
eap_tls->version_negotiated;
if (set_tls_msg_len) {
buf[extra + EAP_TLS_HEADER_OCTET_FLAGS] |=
EAP_TLS_FLAG_L;
l_put_be32(pdu_len,
&buf[extra + EAP_TLS_HEADER_OCTET_FRAG_LEN]);
extra += 4;
}
memcpy(buf + EAP_TLS_HEADER_LEN + extra, pdu, pdu_len);
eap_method_respond(eap, buf, msg_len);
l_free(buf);
return;
}
eap_tls->tx_frag_offset = 0;
eap_tls_send_fragment(eap);
}
void eap_tls_common_send_empty_response(struct eap_state *eap)
{
struct eap_tls_state *eap_tls = eap_get_data(eap);
uint8_t buf[EAP_TLS_HEADER_LEN + 7];
uint8_t position = 0;
if (eap_get_method_type(eap) == EAP_TYPE_EXPANDED)
position += 7;
buf[EAP_TLS_HEADER_OCTET_FLAGS + position] = eap_tls->version_negotiated;
eap_method_respond(eap, buf, EAP_TLS_HEADER_LEN + position);
}
static int eap_tls_init_request_assembly(struct eap_state *eap,
const uint8_t *pkt, size_t len,
uint8_t flags)
{
struct eap_tls_state *eap_tls = eap_get_data(eap);
size_t tls_msg_len;
if (eap_tls->rx_pdu_buf) {
/*
* EAP-TLS: RFC 5216 Section 3.1
*
* The L bit (length included) is set to indicate the presence
* of the four-octet TLS Message Length field, and MUST be set
* for the first fragment of a fragmented TLS message or set of
* messages.
*/
l_debug("%s: Server has set the L bit in the fragment other "
"than the first of a fragmented TLS message.",
eap_get_method_name(eap));
return 0;
}
if (len < 4)
return -EINVAL;
tls_msg_len = l_get_be32(pkt);
len -= 4;
if (!tls_msg_len || tls_msg_len > EAP_TLS_PDU_MAX_LEN) {
l_warn("%s: Fragmented pkt size is outside of allowed"
" boundaries [1, %u]", eap_get_method_name(eap),
EAP_TLS_PDU_MAX_LEN);
return -EINVAL;
}
if (tls_msg_len == len) {
/*
* EAP-TLS: RFC 5216 Section 3.1
*
* The L bit (length included) is set to indicate the presence
* of the four-octet TLS Message Length field, and MUST be set
* for the first fragment of a fragmented TLS message or set of
* messages.
*
* EAP-TTLSv0: RFC 5281, Section 9.2.2:
* "Unfragmented messages MAY have the L bit set and include
* the length of the message (though this information is
* redundant)."
*
* Some of the PEAP server implementations set the L flag along
* with redundant TLS Message Length field for the un-fragmented
* packets.
*/
l_debug("%s: Server has set the redundant TLS Message Length "
"field for the un-fragmented packet.",
eap_get_method_name(eap));
return -ENOMSG;
}
if (tls_msg_len < len) {
l_warn("%s: Fragmented pkt size is smaller than the received "
"packet.", eap_get_method_name(eap));
return -EINVAL;
}
eap_tls->rx_pdu_buf = databuf_new(tls_msg_len);
if (!(flags & EAP_TLS_FLAG_M)) {
/*
* EAP-TLS: RFC 5216 Section 3.1
*
* The M bit (more fragments) is set on all but the last
* fragment.
*
* Note: Some of the EAP-TLS based server implementations break
* the protocol and do not set the M flag for the first packet
* during the fragmented transmission. To stay compatible with
* such devices, we have relaxed this requirement.
*/
l_debug("%s: Server has failed to set the M flag in the first"
" packet of the fragmented transmission.",
eap_get_method_name(eap));
return -EAGAIN;
}
return 0;
}
static void eap_tls_send_fragmented_request_ack(struct eap_state *eap)
{
eap_tls_common_send_empty_response(eap);
}
static bool eap_tls_handle_fragmented_response_ack(struct eap_state *eap,
size_t len)
{
struct eap_tls_state *eap_tls = eap_get_data(eap);
if (len)
return false;
if (!eap_tls->tx_frag_last_len)
return false;
eap_tls->tx_frag_offset += eap_tls->tx_frag_last_len;
eap_tls->tx_frag_last_len = 0;
eap_tls->expecting_frag_ack = false;
eap_tls_send_fragment(eap);
return true;
}
static int eap_tls_handle_fragmented_request(struct eap_state *eap,
const uint8_t *pkt,
size_t len,
uint8_t flags_version)
{
struct eap_tls_state *eap_tls = eap_get_data(eap);
int r = 0;
if (flags_version & EAP_TLS_FLAG_L) {
r = eap_tls_init_request_assembly(eap, pkt, len, flags_version);
if (r && r != -EAGAIN)
return r;
pkt += 4;
len -= 4;
}
if (!eap_tls->rx_pdu_buf)
return -EINVAL;
if (eap_tls->rx_pdu_buf->capacity < eap_tls->rx_pdu_buf->len + len) {
l_error("%s: Request fragment pkt size mismatch.",
eap_get_method_name(eap));
return -EINVAL;
}
databuf_append(eap_tls->rx_pdu_buf, pkt, len);
if (flags_version & EAP_TLS_FLAG_M)
return -EAGAIN;
return r;
}
static bool eap_tls_tunnel_init(struct eap_state *eap)
{
struct eap_tls_state *eap_tls = eap_get_data(eap);
if (eap_tls->tunnel)
return false;
eap_tls->tunnel = l_tls_new(false, eap_tls_tunnel_data_received,
eap_tls_tunnel_data_send,
eap_tls_tunnel_ready,
eap_tls_tunnel_disconnected,
eap);
if (!eap_tls->tunnel) {
l_error("%s: Failed to create a TLS instance.",
eap_get_method_name(eap));
return false;
}
if (getenv("IWD_TLS_DEBUG")) {
l_tls_set_debug(eap_tls->tunnel, eap_tls_tunnel_debug, eap,
NULL);
l_tls_set_cert_dump_path(eap_tls->tunnel,
"/tmp/iwd-tls-debug-server-cert.pem");
}
if (eap_tls->client_cert || eap_tls->client_key) {
if (!l_tls_set_auth_data(eap_tls->tunnel, eap_tls->client_cert,
eap_tls->client_key)) {
l_certchain_free(eap_tls->client_cert);
eap_tls->client_cert = NULL;
l_key_free(eap_tls->client_key);
eap_tls->client_key = NULL;
l_error("%s: Failed to set auth data.",
eap_get_method_name(eap));
eap_tls_debug_hint();
return false;
}
eap_tls->client_cert = NULL;
eap_tls->client_key = NULL;
}
if (eap_tls->ca_cert) {
if (!l_tls_set_cacert(eap_tls->tunnel, eap_tls->ca_cert)) {
l_queue_destroy(eap_tls->ca_cert,
(l_queue_destroy_func_t)l_cert_free);
eap_tls->ca_cert = NULL;
l_error("%s: Error settings CA certificates.",
eap_get_method_name(eap));
eap_tls_debug_hint();
return false;
}
eap_tls->ca_cert = NULL;
}
if (eap_tls->domain_mask)
l_tls_set_domain_mask(eap_tls->tunnel, eap_tls->domain_mask);
if (!l_tls_start(eap_tls->tunnel)) {
l_error("%s: Failed to start the TLS client",
eap_get_method_name(eap));
eap_tls_debug_hint();
return false;
}
return true;
}
static void eap_tls_handle_phase2_payload(struct eap_state *eap,
const uint8_t *pkt,
size_t pkt_len)
{
struct eap_tls_state *eap_tls = eap_get_data(eap);
if (!eap_tls->variant_ops->tunnel_handle_request)
return;
if (!eap_tls->variant_ops->tunnel_handle_request(eap, pkt, pkt_len))
/*
* The tunneled packet payload that violates the protocol or
* fails a method-specific integrity check result in tunnel
* shutdown.
*/
l_tls_close(eap_tls->tunnel);
}
void eap_tls_common_handle_request(struct eap_state *eap,
const uint8_t *pkt, size_t len)
{
struct eap_tls_state *eap_tls = eap_get_data(eap);
uint8_t flags_version;
if (eap_tls->method_completed)
return;
if (len < 1) {
l_error("%s: Request packet is too short.",
eap_get_method_name(eap));
goto error;
}
flags_version = pkt[0];
if (!eap_tls_validate_version(eap, flags_version)) {
l_error("%s: Version negotiation has failed.",
eap_get_method_name(eap));
goto error;
}
pkt += 1;
len -= 1;
if (eap_tls->expecting_frag_ack) {
if (!eap_tls_handle_fragmented_response_ack(eap, len))
goto error;
return;
}
if (flags_version & EAP_TLS_FLAG_L || eap_tls->rx_pdu_buf) {
int r = eap_tls_handle_fragmented_request(eap, pkt, len,
flags_version);
if (r == -EAGAIN) {
/* Expecting more fragments. */
eap_tls_send_fragmented_request_ack(eap);
return;
}
if (r == -ENOMSG) {
/*
* Redundant usage of the L flag, no packet reassembly
* is required.
*/
pkt += 4;
len -= 4;
goto proceed;
}
if (r < 0)
goto error;
if (eap_tls->rx_pdu_buf->capacity != eap_tls->rx_pdu_buf->len) {
l_error("%s: Request fragment packet size mismatch",
eap_get_method_name(eap));
goto error;
}
pkt = eap_tls->rx_pdu_buf->data;
len = eap_tls->rx_pdu_buf->len;
}
proceed:
if (eap_tls->tx_pdu_buf) {
/*
* tx_pdu_buf is used for the re-transmission and needs to be
* cleared on a new request.
*/
databuf_free(eap_tls->tx_pdu_buf);
eap_tls->tx_pdu_buf = NULL;
}
if (flags_version & EAP_TLS_FLAG_S) {
if (!eap_tls_tunnel_init(eap))
goto error;
}
if (len)
l_tls_handle_rx(eap_tls->tunnel, pkt, len);
if (eap_tls->plain_buf) {
/*
* An existence of the plain_buf indicates that the TLS tunnel
* has been established and Phase 2 payload was transmitted
* through it.
*/
eap_tls_handle_phase2_payload(eap, eap_tls->plain_buf->data,
eap_tls->plain_buf->len);
databuf_free(eap_tls->plain_buf);
eap_tls->plain_buf = NULL;
}
if (eap_tls->rx_pdu_buf) {
databuf_free(eap_tls->rx_pdu_buf);
eap_tls->rx_pdu_buf = NULL;
}
if (!eap_tls->tx_pdu_buf) {
if (eap_tls->phase2_failed)
goto error;
return;
}
eap_tls_send_response(eap, eap_tls->tx_pdu_buf->data,
eap_tls->tx_pdu_buf->len);
if (eap_tls->phase2_failed)
goto error;
return;
error:
eap_method_error(eap);
}
void eap_tls_common_handle_retransmit(struct eap_state *eap,
const uint8_t *pkt, size_t len)
{
struct eap_tls_state *eap_tls = eap_get_data(eap);
uint8_t flags_version;
if (len < 1) {
l_error("%s: Request packet is too short.",
eap_get_method_name(eap));
goto error;
}
flags_version = pkt[0];
if (!eap_tls_validate_version(eap, flags_version)) {
l_error("%s: Version negotiation has failed.",
eap_get_method_name(eap));
goto error;
}
if (flags_version & EAP_TLS_FLAG_M) {
if (!eap_tls->rx_pdu_buf)
goto error;
eap_tls_send_fragmented_request_ack(eap);
return;
}
if (!eap_tls->tx_pdu_buf || !eap_tls->tx_pdu_buf->data ||
!eap_tls->tx_pdu_buf->len)
goto error;
if (EAP_TLS_HEADER_LEN + eap_tls->tx_pdu_buf->len > eap_get_mtu(eap))
eap_tls_send_fragment(eap);
else
eap_tls_send_response(eap, eap_tls->tx_pdu_buf->data,
eap_tls->tx_pdu_buf->len);
return;
error:
eap_method_error(eap);
}
static const char *load_embedded_pem(struct l_settings *settings,
const char *name)
{
const char *pem;
const char *type;
pem = l_settings_get_embedded_value(settings, name + 6, &type);
if (!pem)
return NULL;
if (strcmp(type, "pem"))
return NULL;
return pem;
}
static bool is_embedded(const char *str)
{
if (!str)
return false;
if (strlen(str) < 6)
return false;
if (!strncmp("embed:", str, 6))
return true;
return false;
}
static struct l_queue *eap_tls_load_ca_cert(struct l_settings *settings,
const char *value)
{
const char *pem;
if (!is_embedded(value))
return l_pem_load_certificate_list(value);
pem = load_embedded_pem(settings, value);
if (!pem)
return NULL;
return l_pem_load_certificate_list_from_data(pem, strlen(pem));
}
struct l_certchain *eap_tls_load_client_cert(struct l_settings *settings,
const char *value,
const char *passphrase,
bool *out_is_encrypted)
{
const char *pem;
if (!is_embedded(value)) {
struct l_certchain *certchain;
if (l_cert_load_container_file(value, passphrase,
&certchain, NULL,
out_is_encrypted))
return certchain;
if (out_is_encrypted)
*out_is_encrypted = false;
return NULL;
}
pem = load_embedded_pem(settings, value);
if (!pem)
return NULL;
return l_pem_load_certificate_chain_from_data(pem, strlen(pem));
}
struct l_key *eap_tls_load_priv_key(struct l_settings *settings,
const char *value,
const char *passphrase,
bool *out_is_encrypted)
{
const char *pem;
if (!is_embedded(value)) {
struct l_key *key;
if (l_cert_load_container_file(value, passphrase, NULL, &key,
out_is_encrypted))
return key;
if (out_is_encrypted)
*out_is_encrypted = false;
return NULL;
}
pem = load_embedded_pem(settings, value);
if (!pem)
return NULL;
return l_pem_load_private_key_from_data(pem, strlen(pem),
passphrase, out_is_encrypted);
}
int eap_tls_common_settings_check(struct l_settings *settings,
struct l_queue *secrets,
const char *prefix,
struct l_queue **out_missing)
{
char setting_key[72];
bool have_cacerts = false;
const char *domain_mask_str;
L_AUTO_FREE_VAR(char *, value);
snprintf(setting_key, sizeof(setting_key), "%sCACert", prefix);
value = l_settings_get_string(settings, "Security", setting_key);
if (value) {
struct l_queue *cacerts = eap_tls_load_ca_cert(settings, value);
if (!cacerts) {
l_error("Failed to load %s", value);
return -EIO;
}
l_queue_destroy(cacerts,
(l_queue_destroy_func_t) l_cert_free);
have_cacerts = true;
}
/*
* Require CACert if ServerDomainMask is present. If the server
* certificate is not being checked against any trusted certificates
* there's no point validating its contents and we wouldn't even
* receive the subject DN from ell, because it may be freely made up.
*/
snprintf(setting_key, sizeof(setting_key), "%sServerDomainMask",
prefix);
domain_mask_str = l_settings_get_value(settings, "Security",
setting_key);
if (domain_mask_str && !have_cacerts) {
l_error("%s was set but no CA Certificates given", setting_key);
return -EINVAL;
}
return 0;
}
bool eap_tls_common_settings_load(struct eap_state *eap,
struct l_settings *settings, const char *prefix,
const struct eap_tls_variant_ops *variant_ops,
void *variant_data)
{
struct eap_tls_state *eap_tls;
char setting_key[72];
char *domain_mask_str;
L_AUTO_FREE_VAR(char *, value) = NULL;
eap_tls = l_new(struct eap_tls_state, 1);
eap_tls->version_negotiated = EAP_TLS_VERSION_NOT_NEGOTIATED;
eap_tls->variant_ops = variant_ops;
eap_tls->variant_data = variant_data;
snprintf(setting_key, sizeof(setting_key), "%sCACert", prefix);
value = l_settings_get_string(settings, "Security", setting_key);
if (value) {
eap_tls->ca_cert = eap_tls_load_ca_cert(settings, value);
if (!eap_tls->ca_cert) {
l_error("Could not load CACert %s", value);
goto load_error;
}
}
snprintf(setting_key, sizeof(setting_key), "%sServerDomainMask",
prefix);
domain_mask_str = l_settings_get_string(settings, "Security",
setting_key);
if (domain_mask_str) {
eap_tls->domain_mask = l_strsplit(domain_mask_str, ';');
l_free(domain_mask_str);
}
eap_set_data(eap, eap_tls);
return true;
load_error:
__eap_tls_common_state_free(eap_tls);
return false;
}
void eap_tls_common_set_keys(struct eap_state *eap,
struct l_certchain *client_cert,
struct l_key *client_key)
{
struct eap_tls_state *eap_tls = eap_get_data(eap);
eap_tls->client_cert = client_cert;
eap_tls->client_key = client_key;
}
void eap_tls_common_set_completed(struct eap_state *eap)
{
struct eap_tls_state *eap_tls = eap_get_data(eap);
eap_tls->method_completed = true;
}
void eap_tls_common_set_phase2_failed(struct eap_state *eap)
{
struct eap_tls_state *eap_tls = eap_get_data(eap);
eap_tls->phase2_failed = true;
}
enum eap_tls_version eap_tls_common_get_negotiated_version(
struct eap_state *eap)
{
struct eap_tls_state *eap_tls = eap_get_data(eap);
return eap_tls->version_negotiated;
}
void *eap_tls_common_get_variant_data(struct eap_state *eap)
{
struct eap_tls_state *eap_tls = eap_get_data(eap);
return eap_tls->variant_data;
}
bool eap_tls_common_tunnel_prf_get_bytes(struct eap_state *eap,
bool use_master_secret,
const char *label, uint8_t *buf,
size_t buf_len)
{
struct eap_tls_state *eap_tls = eap_get_data(eap);
return l_tls_prf_get_bytes(eap_tls->tunnel, use_master_secret,
label, buf, buf_len);
}
void eap_tls_common_tunnel_send(struct eap_state *eap, const uint8_t *data,
size_t data_len)
{
struct eap_tls_state *eap_tls = eap_get_data(eap);
l_tls_write(eap_tls->tunnel, data, data_len);
}
void eap_tls_common_tunnel_close(struct eap_state *eap)
{
struct eap_tls_state *eap_tls = eap_get_data(eap);
l_tls_close(eap_tls->tunnel);
}