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|
/*
* OpenVPN -- An application to securely tunnel IP networks
* over a single TCP/UDP port, with support for SSL/TLS-based
* session authentication and key exchange,
* packet encryption, packet authentication, and
* packet compression.
*
* Copyright (C) 2016-2021 Fox Crypto B.V. <openvpn@foxcrypto.com>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2
* as published by the Free Software Foundation.
*
* 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.
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#elif defined(_MSC_VER)
#include "config-msvc.h"
#endif
#include "syshead.h"
#include "argv.h"
#include "base64.h"
#include "crypto.h"
#include "platform.h"
#include "run_command.h"
#include "session_id.h"
#include "ssl.h"
#include "tls_crypt.h"
const char *tls_crypt_v2_cli_pem_name = "OpenVPN tls-crypt-v2 client key";
const char *tls_crypt_v2_srv_pem_name = "OpenVPN tls-crypt-v2 server key";
/** Metadata contains user-specified data */
static const uint8_t TLS_CRYPT_METADATA_TYPE_USER = 0x00;
/** Metadata contains a 64-bit unix timestamp in network byte order */
static const uint8_t TLS_CRYPT_METADATA_TYPE_TIMESTAMP = 0x01;
static struct key_type
tls_crypt_kt(void)
{
struct key_type kt;
kt.cipher = cipher_kt_get("AES-256-CTR");
kt.digest = md_kt_get("SHA256");
if (!kt.cipher)
{
msg(M_WARN, "ERROR: --tls-crypt requires AES-256-CTR support.");
return (struct key_type) { 0 };
}
if (!kt.digest)
{
msg(M_WARN, "ERROR: --tls-crypt requires HMAC-SHA-256 support.");
return (struct key_type) { 0 };
}
kt.cipher_length = cipher_kt_key_size(kt.cipher);
kt.hmac_length = md_kt_size(kt.digest);
return kt;
}
int
tls_crypt_buf_overhead(void)
{
return packet_id_size(true) + TLS_CRYPT_TAG_SIZE + TLS_CRYPT_BLOCK_SIZE;
}
void
tls_crypt_init_key(struct key_ctx_bi *key, const char *key_file,
bool key_inline, bool tls_server)
{
const int key_direction = tls_server ?
KEY_DIRECTION_NORMAL : KEY_DIRECTION_INVERSE;
struct key_type kt = tls_crypt_kt();
if (!kt.cipher || !kt.digest)
{
msg(M_FATAL, "ERROR: --tls-crypt not supported");
}
crypto_read_openvpn_key(&kt, key, key_file, key_inline, key_direction,
"Control Channel Encryption", "tls-crypt");
}
void
tls_crypt_adjust_frame_parameters(struct frame *frame)
{
frame_add_to_extra_frame(frame, tls_crypt_buf_overhead());
msg(D_MTU_DEBUG, "%s: Adjusting frame parameters for tls-crypt by %i bytes",
__func__, tls_crypt_buf_overhead());
}
bool
tls_crypt_wrap(const struct buffer *src, struct buffer *dst,
struct crypto_options *opt)
{
const struct key_ctx *ctx = &opt->key_ctx_bi.encrypt;
struct gc_arena gc;
/* IV, packet-ID and implicit IV required for this mode. */
ASSERT(ctx->cipher);
ASSERT(ctx->hmac);
ASSERT(packet_id_initialized(&opt->packet_id));
ASSERT(hmac_ctx_size(ctx->hmac) == 256/8);
gc_init(&gc);
dmsg(D_PACKET_CONTENT, "TLS-CRYPT WRAP FROM: %s",
format_hex(BPTR(src), BLEN(src), 80, &gc));
/* Get packet ID */
if (!packet_id_write(&opt->packet_id.send, dst, true, false))
{
msg(D_CRYPT_ERRORS, "TLS-CRYPT ERROR: packet ID roll over.");
goto err;
}
dmsg(D_PACKET_CONTENT, "TLS-CRYPT WRAP AD: %s",
format_hex(BPTR(dst), BLEN(dst), 0, &gc));
/* Buffer overflow check */
if (!buf_safe(dst, BLEN(src) + TLS_CRYPT_BLOCK_SIZE + TLS_CRYPT_TAG_SIZE))
{
msg(D_CRYPT_ERRORS, "TLS-CRYPT WRAP: buffer size error, "
"sc=%d so=%d sl=%d dc=%d do=%d dl=%d", src->capacity, src->offset,
src->len, dst->capacity, dst->offset, dst->len);
goto err;
}
/* Calculate auth tag and synthetic IV */
{
uint8_t *tag = NULL;
hmac_ctx_reset(ctx->hmac);
hmac_ctx_update(ctx->hmac, BPTR(dst), BLEN(dst));
hmac_ctx_update(ctx->hmac, BPTR(src), BLEN(src));
ASSERT(tag = buf_write_alloc(dst, TLS_CRYPT_TAG_SIZE));
hmac_ctx_final(ctx->hmac, tag);
dmsg(D_PACKET_CONTENT, "TLS-CRYPT WRAP TAG: %s",
format_hex(tag, TLS_CRYPT_TAG_SIZE, 0, &gc));
/* Use the 128 most significant bits of the tag as IV */
ASSERT(cipher_ctx_reset(ctx->cipher, tag));
}
/* Encrypt src */
{
int outlen = 0;
ASSERT(cipher_ctx_update(ctx->cipher, BEND(dst), &outlen,
BPTR(src), BLEN(src)));
ASSERT(buf_inc_len(dst, outlen));
ASSERT(cipher_ctx_final(ctx->cipher, BPTR(dst), &outlen));
ASSERT(buf_inc_len(dst, outlen));
}
dmsg(D_PACKET_CONTENT, "TLS-CRYPT WRAP TO: %s",
format_hex(BPTR(dst), BLEN(dst), 80, &gc));
gc_free(&gc);
return true;
err:
crypto_clear_error();
dst->len = 0;
gc_free(&gc);
return false;
}
bool
tls_crypt_unwrap(const struct buffer *src, struct buffer *dst,
struct crypto_options *opt)
{
static const char error_prefix[] = "tls-crypt unwrap error";
const struct key_ctx *ctx = &opt->key_ctx_bi.decrypt;
struct gc_arena gc;
gc_init(&gc);
ASSERT(opt);
ASSERT(src->len > 0);
ASSERT(ctx->cipher);
ASSERT(packet_id_initialized(&opt->packet_id)
|| (opt->flags & CO_IGNORE_PACKET_ID));
dmsg(D_PACKET_CONTENT, "TLS-CRYPT UNWRAP FROM: %s",
format_hex(BPTR(src), BLEN(src), 80, &gc));
if (buf_len(src) < TLS_CRYPT_OFF_CT)
{
CRYPT_ERROR("packet too short");
}
/* Decrypt cipher text */
{
int outlen = 0;
/* Buffer overflow check (should never fail) */
if (!buf_safe(dst, BLEN(src) - TLS_CRYPT_OFF_CT + TLS_CRYPT_BLOCK_SIZE))
{
CRYPT_ERROR("potential buffer overflow");
}
if (!cipher_ctx_reset(ctx->cipher, BPTR(src) + TLS_CRYPT_OFF_TAG))
{
CRYPT_ERROR("cipher reset failed");
}
if (!cipher_ctx_update(ctx->cipher, BPTR(dst), &outlen,
BPTR(src) + TLS_CRYPT_OFF_CT, BLEN(src) - TLS_CRYPT_OFF_CT))
{
CRYPT_ERROR("cipher update failed");
}
ASSERT(buf_inc_len(dst, outlen));
if (!cipher_ctx_final(ctx->cipher, BPTR(dst), &outlen))
{
CRYPT_ERROR("cipher final failed");
}
ASSERT(buf_inc_len(dst, outlen));
}
/* Check authentication */
{
const uint8_t *tag = BPTR(src) + TLS_CRYPT_OFF_TAG;
uint8_t tag_check[TLS_CRYPT_TAG_SIZE] = { 0 };
dmsg(D_PACKET_CONTENT, "TLS-CRYPT UNWRAP AD: %s",
format_hex(BPTR(src), TLS_CRYPT_OFF_TAG, 0, &gc));
dmsg(D_PACKET_CONTENT, "TLS-CRYPT UNWRAP TO: %s",
format_hex(BPTR(dst), BLEN(dst), 80, &gc));
hmac_ctx_reset(ctx->hmac);
hmac_ctx_update(ctx->hmac, BPTR(src), TLS_CRYPT_OFF_TAG);
hmac_ctx_update(ctx->hmac, BPTR(dst), BLEN(dst));
hmac_ctx_final(ctx->hmac, tag_check);
if (memcmp_constant_time(tag, tag_check, sizeof(tag_check)))
{
dmsg(D_CRYPTO_DEBUG, "tag : %s",
format_hex(tag, sizeof(tag_check), 0, &gc));
dmsg(D_CRYPTO_DEBUG, "tag_check: %s",
format_hex(tag_check, sizeof(tag_check), 0, &gc));
CRYPT_ERROR("packet authentication failed");
}
}
/* Check replay */
if (!(opt->flags & CO_IGNORE_PACKET_ID))
{
struct packet_id_net pin;
struct buffer tmp = *src;
ASSERT(buf_advance(&tmp, TLS_CRYPT_OFF_PID));
ASSERT(packet_id_read(&pin, &tmp, true));
if (!crypto_check_replay(opt, &pin, error_prefix, &gc))
{
CRYPT_ERROR("packet replay");
}
}
gc_free(&gc);
return true;
error_exit:
crypto_clear_error();
dst->len = 0;
gc_free(&gc);
return false;
}
static inline void
tls_crypt_v2_load_client_key(struct key_ctx_bi *key, const struct key2 *key2,
bool tls_server)
{
const int key_direction = tls_server ?
KEY_DIRECTION_NORMAL : KEY_DIRECTION_INVERSE;
struct key_type kt = tls_crypt_kt();
if (!kt.cipher || !kt.digest)
{
msg(M_FATAL, "ERROR: --tls-crypt-v2 not supported");
}
init_key_ctx_bi(key, key2, key_direction, &kt,
"Control Channel Encryption");
}
void
tls_crypt_v2_init_client_key(struct key_ctx_bi *key, struct buffer *wkc_buf,
const char *key_file, bool key_inline)
{
struct buffer client_key = alloc_buf(TLS_CRYPT_V2_CLIENT_KEY_LEN
+ TLS_CRYPT_V2_MAX_WKC_LEN);
if (!read_pem_key_file(&client_key, tls_crypt_v2_cli_pem_name,
key_file, key_inline))
{
msg(M_FATAL, "ERROR: invalid tls-crypt-v2 client key format");
}
struct key2 key2;
if (!buf_read(&client_key, &key2.keys, sizeof(key2.keys)))
{
msg(M_FATAL, "ERROR: not enough data in tls-crypt-v2 client key");
}
tls_crypt_v2_load_client_key(key, &key2, false);
secure_memzero(&key2, sizeof(key2));
*wkc_buf = client_key;
}
void
tls_crypt_v2_init_server_key(struct key_ctx *key_ctx, bool encrypt,
const char *key_file, bool key_inline)
{
struct key srv_key;
struct buffer srv_key_buf;
buf_set_write(&srv_key_buf, (void *)&srv_key, sizeof(srv_key));
if (!read_pem_key_file(&srv_key_buf, tls_crypt_v2_srv_pem_name,
key_file, key_inline))
{
msg(M_FATAL, "ERROR: invalid tls-crypt-v2 server key format");
}
struct key_type kt = tls_crypt_kt();
if (!kt.cipher || !kt.digest)
{
msg(M_FATAL, "ERROR: --tls-crypt-v2 not supported");
}
init_key_ctx(key_ctx, &srv_key, &kt, encrypt, "tls-crypt-v2 server key");
secure_memzero(&srv_key, sizeof(srv_key));
}
static bool
tls_crypt_v2_wrap_client_key(struct buffer *wkc,
const struct key2 *src_key,
const struct buffer *src_metadata,
struct key_ctx *server_key, struct gc_arena *gc)
{
cipher_ctx_t *cipher_ctx = server_key->cipher;
struct buffer work = alloc_buf_gc(TLS_CRYPT_V2_MAX_WKC_LEN
+ cipher_ctx_block_size(cipher_ctx), gc);
/* Calculate auth tag and synthetic IV */
uint8_t *tag = buf_write_alloc(&work, TLS_CRYPT_TAG_SIZE);
if (!tag)
{
msg(M_WARN, "ERROR: could not write tag");
return false;
}
uint16_t net_len = htons(sizeof(src_key->keys) + BLEN(src_metadata)
+ TLS_CRYPT_V2_TAG_SIZE + sizeof(uint16_t));
hmac_ctx_t *hmac_ctx = server_key->hmac;
hmac_ctx_reset(hmac_ctx);
hmac_ctx_update(hmac_ctx, (void *)&net_len, sizeof(net_len));
hmac_ctx_update(hmac_ctx, (void *)src_key->keys, sizeof(src_key->keys));
hmac_ctx_update(hmac_ctx, BPTR(src_metadata), BLEN(src_metadata));
hmac_ctx_final(hmac_ctx, tag);
dmsg(D_CRYPTO_DEBUG, "TLS-CRYPT WRAP TAG: %s",
format_hex(tag, TLS_CRYPT_TAG_SIZE, 0, gc));
/* Use the 128 most significant bits of the tag as IV */
ASSERT(cipher_ctx_reset(cipher_ctx, tag));
/* Overflow check (OpenSSL requires an extra block in the dst buffer) */
if (buf_forward_capacity(&work) < (sizeof(src_key->keys)
+ BLEN(src_metadata)
+ sizeof(net_len)
+ cipher_ctx_block_size(cipher_ctx)))
{
msg(M_WARN, "ERROR: could not crypt: insufficient space in dst");
return false;
}
/* Encrypt */
int outlen = 0;
ASSERT(cipher_ctx_update(cipher_ctx, BEND(&work), &outlen,
(void *)src_key->keys, sizeof(src_key->keys)));
ASSERT(buf_inc_len(&work, outlen));
ASSERT(cipher_ctx_update(cipher_ctx, BEND(&work), &outlen,
BPTR(src_metadata), BLEN(src_metadata)));
ASSERT(buf_inc_len(&work, outlen));
ASSERT(cipher_ctx_final(cipher_ctx, BEND(&work), &outlen));
ASSERT(buf_inc_len(&work, outlen));
ASSERT(buf_write(&work, &net_len, sizeof(net_len)));
return buf_copy(wkc, &work);
}
static bool
tls_crypt_v2_unwrap_client_key(struct key2 *client_key, struct buffer *metadata,
struct buffer wrapped_client_key,
struct key_ctx *server_key)
{
const char *error_prefix = __func__;
bool ret = false;
struct gc_arena gc = gc_new();
/* The crypto API requires one extra cipher block of buffer head room when
* decrypting, which nicely matches the tag size of WKc. So
* TLS_CRYPT_V2_MAX_WKC_LEN is always large enough for the plaintext. */
uint8_t plaintext_buf_data[TLS_CRYPT_V2_MAX_WKC_LEN] = { 0 };
struct buffer plaintext = { 0 };
dmsg(D_TLS_DEBUG_MED, "%s: unwrapping client key (len=%d): %s", __func__,
BLEN(&wrapped_client_key), format_hex(BPTR(&wrapped_client_key),
BLEN(&wrapped_client_key),
0, &gc));
if (TLS_CRYPT_V2_MAX_WKC_LEN < BLEN(&wrapped_client_key))
{
CRYPT_ERROR("wrapped client key too big");
}
/* Decrypt client key and metadata */
uint16_t net_len = 0;
const uint8_t *tag = BPTR(&wrapped_client_key);
if (BLEN(&wrapped_client_key) < sizeof(net_len))
{
CRYPT_ERROR("failed to read length");
}
memcpy(&net_len, BEND(&wrapped_client_key) - sizeof(net_len),
sizeof(net_len));
if (ntohs(net_len) != BLEN(&wrapped_client_key))
{
dmsg(D_TLS_DEBUG_LOW, "%s: net_len=%u, BLEN=%i", __func__,
ntohs(net_len), BLEN(&wrapped_client_key));
CRYPT_ERROR("invalid length");
}
buf_inc_len(&wrapped_client_key, -(int)sizeof(net_len));
if (!buf_advance(&wrapped_client_key, TLS_CRYPT_TAG_SIZE))
{
CRYPT_ERROR("failed to read tag");
}
if (!cipher_ctx_reset(server_key->cipher, tag))
{
CRYPT_ERROR("failed to initialize IV");
}
buf_set_write(&plaintext, plaintext_buf_data, sizeof(plaintext_buf_data));
int outlen = 0;
if (!cipher_ctx_update(server_key->cipher, BPTR(&plaintext), &outlen,
BPTR(&wrapped_client_key),
BLEN(&wrapped_client_key)))
{
CRYPT_ERROR("could not decrypt client key");
}
ASSERT(buf_inc_len(&plaintext, outlen));
if (!cipher_ctx_final(server_key->cipher, BEND(&plaintext), &outlen))
{
CRYPT_ERROR("cipher final failed");
}
ASSERT(buf_inc_len(&plaintext, outlen));
/* Check authentication */
uint8_t tag_check[TLS_CRYPT_TAG_SIZE] = { 0 };
hmac_ctx_reset(server_key->hmac);
hmac_ctx_update(server_key->hmac, (void *)&net_len, sizeof(net_len));
hmac_ctx_update(server_key->hmac, BPTR(&plaintext),
BLEN(&plaintext));
hmac_ctx_final(server_key->hmac, tag_check);
if (memcmp_constant_time(tag, tag_check, sizeof(tag_check)))
{
dmsg(D_CRYPTO_DEBUG, "tag : %s",
format_hex(tag, sizeof(tag_check), 0, &gc));
dmsg(D_CRYPTO_DEBUG, "tag_check: %s",
format_hex(tag_check, sizeof(tag_check), 0, &gc));
CRYPT_ERROR("client key authentication error");
}
if (buf_len(&plaintext) < sizeof(client_key->keys))
{
CRYPT_ERROR("failed to read client key");
}
memcpy(&client_key->keys, BPTR(&plaintext), sizeof(client_key->keys));
ASSERT(buf_advance(&plaintext, sizeof(client_key->keys)));
if (!buf_copy(metadata, &plaintext))
{
CRYPT_ERROR("metadata too large for supplied buffer");
}
ret = true;
error_exit:
if (!ret)
{
secure_memzero(client_key, sizeof(*client_key));
}
buf_clear(&plaintext);
gc_free(&gc);
return ret;
}
static bool
tls_crypt_v2_verify_metadata(const struct tls_wrap_ctx *ctx,
const struct tls_options *opt)
{
bool ret = false;
struct gc_arena gc = gc_new();
const char *tmp_file = NULL;
struct buffer metadata = ctx->tls_crypt_v2_metadata;
int metadata_type = buf_read_u8(&metadata);
if (metadata_type < 0)
{
msg(M_WARN, "ERROR: no metadata type");
goto cleanup;
}
tmp_file = platform_create_temp_file(opt->tmp_dir, "tls_crypt_v2_metadata_",
&gc);
if (!tmp_file || !buffer_write_file(tmp_file, &metadata))
{
msg(M_WARN, "ERROR: could not write metadata to file");
goto cleanup;
}
char metadata_type_str[4] = { 0 }; /* Max value: 255 */
openvpn_snprintf(metadata_type_str, sizeof(metadata_type_str),
"%i", metadata_type);
struct env_set *es = env_set_create(NULL);
setenv_str(es, "script_type", "tls-crypt-v2-verify");
setenv_str(es, "metadata_type", metadata_type_str);
setenv_str(es, "metadata_file", tmp_file);
struct argv argv = argv_new();
argv_parse_cmd(&argv, opt->tls_crypt_v2_verify_script);
argv_msg_prefix(D_TLS_DEBUG, &argv, "Executing tls-crypt-v2-verify");
ret = openvpn_run_script(&argv, es, 0, "--tls-crypt-v2-verify");
argv_free(&argv);
env_set_destroy(es);
if (!platform_unlink(tmp_file))
{
msg(M_WARN, "WARNING: failed to remove temp file '%s", tmp_file);
}
if (ret)
{
msg(D_HANDSHAKE, "TLS CRYPT V2 VERIFY SCRIPT OK");
}
else
{
msg(D_HANDSHAKE, "TLS CRYPT V2 VERIFY SCRIPT ERROR");
}
cleanup:
gc_free(&gc);
return ret;
}
bool
tls_crypt_v2_extract_client_key(struct buffer *buf,
struct tls_wrap_ctx *ctx,
const struct tls_options *opt)
{
if (!ctx->tls_crypt_v2_server_key.cipher)
{
msg(D_TLS_ERRORS,
"Client wants tls-crypt-v2, but no server key present.");
return false;
}
msg(D_HANDSHAKE, "Control Channel: using tls-crypt-v2 key");
struct buffer wrapped_client_key = *buf;
uint16_t net_len = 0;
if (BLEN(&wrapped_client_key) < sizeof(net_len))
{
msg(D_TLS_ERRORS, "failed to read length");
}
memcpy(&net_len, BEND(&wrapped_client_key) - sizeof(net_len),
sizeof(net_len));
size_t wkc_len = ntohs(net_len);
if (!buf_advance(&wrapped_client_key, BLEN(&wrapped_client_key) - wkc_len))
{
msg(D_TLS_ERRORS, "Can not locate tls-crypt-v2 client key");
return false;
}
struct key2 client_key = { 0 };
ctx->tls_crypt_v2_metadata = alloc_buf(TLS_CRYPT_V2_MAX_METADATA_LEN);
if (!tls_crypt_v2_unwrap_client_key(&client_key,
&ctx->tls_crypt_v2_metadata,
wrapped_client_key,
&ctx->tls_crypt_v2_server_key))
{
msg(D_TLS_ERRORS, "Can not unwrap tls-crypt-v2 client key");
secure_memzero(&client_key, sizeof(client_key));
return false;
}
/* Load the decrypted key */
ctx->mode = TLS_WRAP_CRYPT;
ctx->cleanup_key_ctx = true;
ctx->opt.flags |= CO_PACKET_ID_LONG_FORM;
memset(&ctx->opt.key_ctx_bi, 0, sizeof(ctx->opt.key_ctx_bi));
tls_crypt_v2_load_client_key(&ctx->opt.key_ctx_bi, &client_key, true);
secure_memzero(&client_key, sizeof(client_key));
/* Remove client key from buffer so tls-crypt code can unwrap message */
ASSERT(buf_inc_len(buf, -(BLEN(&wrapped_client_key))));
if (opt && opt->tls_crypt_v2_verify_script)
{
return tls_crypt_v2_verify_metadata(ctx, opt);
}
return true;
}
void
tls_crypt_v2_write_server_key_file(const char *filename)
{
write_pem_key_file(filename, tls_crypt_v2_srv_pem_name);
}
void
tls_crypt_v2_write_client_key_file(const char *filename,
const char *b64_metadata,
const char *server_key_file,
bool server_key_inline)
{
struct gc_arena gc = gc_new();
struct key_ctx server_key = { 0 };
struct buffer client_key_pem = { 0 };
struct buffer dst = alloc_buf_gc(TLS_CRYPT_V2_CLIENT_KEY_LEN
+ TLS_CRYPT_V2_MAX_WKC_LEN, &gc);
struct key2 client_key = { 2 };
if (!rand_bytes((void *)client_key.keys, sizeof(client_key.keys)))
{
msg(M_FATAL, "ERROR: could not generate random key");
goto cleanup;
}
ASSERT(buf_write(&dst, client_key.keys, sizeof(client_key.keys)));
struct buffer metadata = alloc_buf_gc(TLS_CRYPT_V2_MAX_METADATA_LEN, &gc);
if (b64_metadata)
{
if (TLS_CRYPT_V2_MAX_B64_METADATA_LEN < strlen(b64_metadata))
{
msg(M_FATAL,
"ERROR: metadata too long (%d bytes, max %u bytes)",
(int)strlen(b64_metadata), TLS_CRYPT_V2_MAX_B64_METADATA_LEN);
}
ASSERT(buf_write(&metadata, &TLS_CRYPT_METADATA_TYPE_USER, 1));
int decoded_len = openvpn_base64_decode(b64_metadata, BEND(&metadata),
BCAP(&metadata));
if (decoded_len < 0)
{
msg(M_FATAL, "ERROR: failed to base64 decode provided metadata");
goto cleanup;
}
ASSERT(buf_inc_len(&metadata, decoded_len));
}
else
{
int64_t timestamp = htonll((uint64_t)now);
ASSERT(buf_write(&metadata, &TLS_CRYPT_METADATA_TYPE_TIMESTAMP, 1));
ASSERT(buf_write(&metadata, ×tamp, sizeof(timestamp)));
}
tls_crypt_v2_init_server_key(&server_key, true, server_key_file,
server_key_inline);
if (!tls_crypt_v2_wrap_client_key(&dst, &client_key, &metadata, &server_key,
&gc))
{
msg(M_FATAL, "ERROR: could not wrap generated client key");
goto cleanup;
}
/* PEM-encode Kc || WKc */
if (!crypto_pem_encode(tls_crypt_v2_cli_pem_name, &client_key_pem, &dst,
&gc))
{
msg(M_FATAL, "ERROR: could not PEM-encode client key");
goto cleanup;
}
const char *client_file = filename;
bool client_inline = false;
if (!filename || streq(filename, ""))
{
printf("%.*s\n", BLEN(&client_key_pem), BPTR(&client_key_pem));
client_file = (const char *)BPTR(&client_key_pem);
client_inline = true;
}
else if (!buffer_write_file(filename, &client_key_pem))
{
msg(M_FATAL, "ERROR: could not write client key file");
goto cleanup;
}
/* Sanity check: load client key (as "client") */
struct key_ctx_bi test_client_key;
struct buffer test_wrapped_client_key;
msg(D_GENKEY, "Testing client-side key loading...");
tls_crypt_v2_init_client_key(&test_client_key, &test_wrapped_client_key,
client_file, client_inline);
free_key_ctx_bi(&test_client_key);
/* Sanity check: unwrap and load client key (as "server") */
struct buffer test_metadata = alloc_buf_gc(TLS_CRYPT_V2_MAX_METADATA_LEN,
&gc);
struct key2 test_client_key2 = { 0 };
free_key_ctx(&server_key);
tls_crypt_v2_init_server_key(&server_key, false, server_key_file,
server_key_inline);
msg(D_GENKEY, "Testing server-side key loading...");
ASSERT(tls_crypt_v2_unwrap_client_key(&test_client_key2, &test_metadata,
test_wrapped_client_key, &server_key));
secure_memzero(&test_client_key2, sizeof(test_client_key2));
free_buf(&test_wrapped_client_key);
cleanup:
secure_memzero(&client_key, sizeof(client_key));
free_key_ctx(&server_key);
buf_clear(&client_key_pem);
buf_clear(&dst);
gc_free(&gc);
}
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