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/*****************************************************************************
Copyright (C) 2013, 2015, Google Inc. All Rights Reserved.
Copyright (C) 2014, 2018, MariaDB Corporation.
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; version 2 of the License.
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 St, Fifth Floor, Boston, MA 02110-1301 USA
*****************************************************************************/
/**************************************************//**
@file log0crypt.cc
Innodb log encrypt/decrypt
Created 11/25/2013 Minli Zhu Google
Modified Jan Lindström jan.lindstrom@mariadb.com
MDEV-11782: Rewritten for MariaDB 10.2 by Marko Mäkelä, MariaDB Corporation.
*******************************************************/
#include <my_global.h>
#include "m_string.h"
#include "log0crypt.h"
#include <mysql/service_my_crypt.h>
#include "log0crypt.h"
#include "srv0start.h" // for srv_start_lsn
#include "log0recv.h" // for recv_sys
/** innodb_encrypt_log: whether to encrypt the redo log */
my_bool srv_encrypt_log;
/** Redo log encryption key ID */
#define LOG_DEFAULT_ENCRYPTION_KEY 1
typedef union {
uint32_t words[MY_AES_BLOCK_SIZE / sizeof(uint32_t)];
byte bytes[MY_AES_BLOCK_SIZE];
} aes_block_t;
struct crypt_info_t {
ulint checkpoint_no; /*!< checkpoint no; 32 bits */
uint key_version; /*!< mysqld key version */
/** random string for encrypting the key */
aes_block_t crypt_msg;
/** the secret key */
aes_block_t crypt_key;
/** a random string for the per-block initialization vector */
union {
uint32_t word;
byte bytes[4];
} crypt_nonce;
};
/** The crypt info */
static crypt_info_t info;
/** Crypt info when upgrading from 10.1 */
static crypt_info_t infos[5 * 2];
/** First unused slot in infos[] */
static size_t infos_used;
/*********************************************************************//**
Get a log block's start lsn.
@return a log block's start lsn */
static inline
lsn_t
log_block_get_start_lsn(
/*====================*/
lsn_t lsn, /*!< in: checkpoint lsn */
ulint log_block_no) /*!< in: log block number */
{
lsn_t start_lsn =
(lsn & (lsn_t)0xffffffff00000000ULL) |
(((log_block_no - 1) & (lsn_t)0x3fffffff) << 9);
return start_lsn;
}
/** Generate crypt key from crypt msg.
@param[in,out] info encryption key
@param[in] upgrade whether to use the key in MariaDB 10.1 format
@return whether the operation was successful */
static bool init_crypt_key(crypt_info_t* info, bool upgrade = false)
{
byte mysqld_key[MY_AES_MAX_KEY_LENGTH];
uint keylen = sizeof mysqld_key;
compile_time_assert(16 == sizeof info->crypt_key);
if (uint rc = encryption_key_get(LOG_DEFAULT_ENCRYPTION_KEY,
info->key_version, mysqld_key,
&keylen)) {
ib::error()
<< "Obtaining redo log encryption key version "
<< info->key_version << " failed (" << rc
<< "). Maybe the key or the required encryption "
"key management plugin was not found.";
return false;
}
if (upgrade) {
while (keylen < sizeof mysqld_key) {
mysqld_key[keylen++] = 0;
}
}
uint dst_len;
int err= my_aes_crypt(MY_AES_ECB,
ENCRYPTION_FLAG_NOPAD | ENCRYPTION_FLAG_ENCRYPT,
info->crypt_msg.bytes, sizeof info->crypt_msg,
info->crypt_key.bytes, &dst_len,
mysqld_key, keylen, NULL, 0);
if (err != MY_AES_OK || dst_len != MY_AES_BLOCK_SIZE) {
ib::error() << "Getting redo log crypto key failed: err = "
<< err << ", len = " << dst_len;
return false;
}
return true;
}
/** Encrypt or decrypt log blocks.
@param[in,out] buf log blocks to encrypt or decrypt
@param[in] lsn log sequence number of the start of the buffer
@param[in] size size of the buffer, in bytes
@param[in] op whether to decrypt, encrypt, or rotate key and encrypt
@return whether the operation succeeded (encrypt always does) */
bool log_crypt(byte* buf, lsn_t lsn, ulint size, log_crypt_t op)
{
ut_ad(size % OS_FILE_LOG_BLOCK_SIZE == 0);
ut_ad(ulint(buf) % OS_FILE_LOG_BLOCK_SIZE == 0);
ut_a(info.key_version);
uint32_t aes_ctr_iv[MY_AES_BLOCK_SIZE / sizeof(uint32_t)];
compile_time_assert(sizeof(uint32_t) == 4);
#define LOG_CRYPT_HDR_SIZE 4
lsn &= ~lsn_t(OS_FILE_LOG_BLOCK_SIZE - 1);
for (const byte* const end = buf + size; buf != end;
buf += OS_FILE_LOG_BLOCK_SIZE, lsn += OS_FILE_LOG_BLOCK_SIZE) {
uint32_t dst[(OS_FILE_LOG_BLOCK_SIZE - LOG_CRYPT_HDR_SIZE
- LOG_BLOCK_CHECKSUM)
/ sizeof(uint32_t)];
/* The log block number is not encrypted. */
*aes_ctr_iv =
#ifdef WORDS_BIGENDIAN
~LOG_BLOCK_FLUSH_BIT_MASK
#else
~(LOG_BLOCK_FLUSH_BIT_MASK >> 24)
#endif
& (*dst = *reinterpret_cast<const uint32_t*>(
buf + LOG_BLOCK_HDR_NO));
#if LOG_BLOCK_HDR_NO + 4 != LOG_CRYPT_HDR_SIZE
# error "LOG_BLOCK_HDR_NO has been moved; redo log format affected!"
#endif
aes_ctr_iv[1] = info.crypt_nonce.word;
mach_write_to_8(reinterpret_cast<byte*>(aes_ctr_iv + 2), lsn);
ut_ad(log_block_get_start_lsn(lsn,
log_block_get_hdr_no(buf))
== lsn);
byte* key_ver = &buf[OS_FILE_LOG_BLOCK_SIZE - LOG_BLOCK_KEY
- LOG_BLOCK_CHECKSUM];
const uint dst_size
= log_sys.log.format == LOG_HEADER_FORMAT_ENC_10_4
? sizeof dst - LOG_BLOCK_KEY
: sizeof dst;
if (log_sys.log.format == LOG_HEADER_FORMAT_ENC_10_4) {
const uint key_version = info.key_version;
switch (op) {
case LOG_ENCRYPT_ROTATE_KEY:
info.key_version
= encryption_key_get_latest_version(
LOG_DEFAULT_ENCRYPTION_KEY);
if (key_version != info.key_version
&& !init_crypt_key(&info)) {
info.key_version = key_version;
}
/* fall through */
case LOG_ENCRYPT:
mach_write_to_4(key_ver, info.key_version);
break;
case LOG_DECRYPT:
info.key_version = mach_read_from_4(key_ver);
if (key_version != info.key_version
&& !init_crypt_key(&info)) {
return false;
}
}
#ifndef DBUG_OFF
if (key_version != info.key_version) {
DBUG_PRINT("ib_log", ("key_version: %x -> %x",
key_version,
info.key_version));
}
#endif /* !DBUG_OFF */
}
ut_ad(LOG_CRYPT_HDR_SIZE + dst_size
== log_sys.trailer_offset());
uint dst_len;
int rc = encryption_crypt(
buf + LOG_CRYPT_HDR_SIZE, dst_size,
reinterpret_cast<byte*>(dst), &dst_len,
const_cast<byte*>(info.crypt_key.bytes),
sizeof info.crypt_key,
reinterpret_cast<byte*>(aes_ctr_iv), sizeof aes_ctr_iv,
op == LOG_DECRYPT
? ENCRYPTION_FLAG_DECRYPT | ENCRYPTION_FLAG_NOPAD
: ENCRYPTION_FLAG_ENCRYPT | ENCRYPTION_FLAG_NOPAD,
LOG_DEFAULT_ENCRYPTION_KEY,
info.key_version);
ut_a(rc == MY_AES_OK);
ut_a(dst_len == dst_size);
memcpy(buf + LOG_CRYPT_HDR_SIZE, dst, dst_size);
}
return true;
}
/** Initialize the redo log encryption key and random parameters
when creating a new redo log.
The random parameters will be persisted in the log checkpoint pages.
@see log_crypt_write_checkpoint_buf()
@see log_crypt_read_checkpoint_buf()
@return whether the operation succeeded */
UNIV_INTERN
bool
log_crypt_init()
{
ut_ad(log_mutex_own());
ut_ad(log_sys.is_encrypted());
info.key_version = encryption_key_get_latest_version(
LOG_DEFAULT_ENCRYPTION_KEY);
if (info.key_version == ENCRYPTION_KEY_VERSION_INVALID) {
ib::error() << "innodb_encrypt_log: cannot get key version";
info.key_version = 0;
return false;
}
if (my_random_bytes(info.crypt_msg.bytes, sizeof info.crypt_msg)
!= MY_AES_OK
|| my_random_bytes(info.crypt_nonce.bytes, sizeof info.crypt_nonce)
!= MY_AES_OK) {
ib::error() << "innodb_encrypt_log: my_random_bytes() failed";
return false;
}
return init_crypt_key(&info);
}
/** Read the MariaDB 10.1 checkpoint crypto (version, msg and iv) info.
@param[in] buf checkpoint buffer
@return whether the operation was successful */
UNIV_INTERN
bool
log_crypt_101_read_checkpoint(const byte* buf)
{
buf += 20 + 32 * 9;
const size_t n = *buf++ == 2 ? std::min(unsigned(*buf++), 5U) : 0;
for (size_t i = 0; i < n; i++) {
struct crypt_info_t& info = infos[infos_used];
unsigned checkpoint_no = mach_read_from_4(buf);
for (size_t j = 0; j < infos_used; j++) {
if (infos[j].checkpoint_no == checkpoint_no) {
/* Do not overwrite an existing slot. */
goto next_slot;
}
}
if (infos_used >= UT_ARR_SIZE(infos)) {
ut_ad(!"too many checkpoint pages");
goto next_slot;
}
infos_used++;
info.checkpoint_no = checkpoint_no;
info.key_version = mach_read_from_4(buf + 4);
memcpy(info.crypt_msg.bytes, buf + 8, sizeof info.crypt_msg);
memcpy(info.crypt_nonce.bytes, buf + 24,
sizeof info.crypt_nonce);
if (!init_crypt_key(&info, true)) {
return false;
}
next_slot:
buf += 4 + 4 + 2 * MY_AES_BLOCK_SIZE;
}
return true;
}
/** Decrypt a MariaDB 10.1 redo log block.
@param[in,out] buf log block
@return whether the decryption was successful */
UNIV_INTERN
bool
log_crypt_101_read_block(byte* buf)
{
ut_ad(log_block_calc_checksum_format_0(buf)
!= log_block_get_checksum(buf));
const uint32_t checkpoint_no
= uint32_t(log_block_get_checkpoint_no(buf));
const crypt_info_t* info = infos;
for (const crypt_info_t* const end = info + infos_used; info < end;
info++) {
if (info->key_version
&& info->checkpoint_no == checkpoint_no) {
goto found;
}
}
if (infos_used == 0) {
return false;
}
/* MariaDB Server 10.1 would use the first key if it fails to
find a key for the current checkpoint. */
info = infos;
found:
byte dst[OS_FILE_LOG_BLOCK_SIZE];
uint dst_len;
byte aes_ctr_iv[MY_AES_BLOCK_SIZE];
const uint src_len = OS_FILE_LOG_BLOCK_SIZE - LOG_BLOCK_HDR_SIZE;
ulint log_block_no = log_block_get_hdr_no(buf);
/* The log block header is not encrypted. */
memcpy(dst, buf, LOG_BLOCK_HDR_SIZE);
memcpy(aes_ctr_iv, info->crypt_nonce.bytes, 3);
mach_write_to_8(aes_ctr_iv + 3,
log_block_get_start_lsn(srv_start_lsn, log_block_no));
memcpy(aes_ctr_iv + 11, buf, 4);
aes_ctr_iv[11] &= ~(LOG_BLOCK_FLUSH_BIT_MASK >> 24);
aes_ctr_iv[15] = 0;
int rc = encryption_crypt(buf + LOG_BLOCK_HDR_SIZE, src_len,
dst + LOG_BLOCK_HDR_SIZE, &dst_len,
const_cast<byte*>(info->crypt_key.bytes),
MY_AES_BLOCK_SIZE,
aes_ctr_iv, MY_AES_BLOCK_SIZE,
ENCRYPTION_FLAG_DECRYPT
| ENCRYPTION_FLAG_NOPAD,
LOG_DEFAULT_ENCRYPTION_KEY,
info->key_version);
if (rc != MY_AES_OK || dst_len != src_len) {
return false;
}
memcpy(buf, dst, sizeof dst);
return true;
}
/** Add the encryption information to a redo log checkpoint buffer.
@param[in,out] buf checkpoint buffer */
UNIV_INTERN
void
log_crypt_write_checkpoint_buf(byte* buf)
{
ut_ad(info.key_version);
compile_time_assert(16 == sizeof info.crypt_msg);
compile_time_assert(LOG_CHECKPOINT_CRYPT_MESSAGE
- LOG_CHECKPOINT_CRYPT_NONCE
== sizeof info.crypt_nonce);
memcpy(buf + LOG_CHECKPOINT_CRYPT_MESSAGE, info.crypt_msg.bytes,
sizeof info.crypt_msg);
memcpy(buf + LOG_CHECKPOINT_CRYPT_NONCE, info.crypt_nonce.bytes,
sizeof info.crypt_nonce);
mach_write_to_4(buf + LOG_CHECKPOINT_CRYPT_KEY, info.key_version);
}
/** Read the checkpoint crypto (version, msg and iv) info.
@param[in] buf checkpoint buffer
@return whether the operation was successful */
UNIV_INTERN
bool
log_crypt_read_checkpoint_buf(const byte* buf)
{
info.checkpoint_no = mach_read_from_4(buf + (LOG_CHECKPOINT_NO + 4));
info.key_version = mach_read_from_4(buf + LOG_CHECKPOINT_CRYPT_KEY);
#if MY_AES_BLOCK_SIZE != 16
# error "MY_AES_BLOCK_SIZE != 16; redo log checkpoint format affected"
#endif
compile_time_assert(16 == sizeof info.crypt_msg);
compile_time_assert(LOG_CHECKPOINT_CRYPT_MESSAGE
- LOG_CHECKPOINT_CRYPT_NONCE
== sizeof info.crypt_nonce);
memcpy(info.crypt_msg.bytes, buf + LOG_CHECKPOINT_CRYPT_MESSAGE,
sizeof info.crypt_msg);
memcpy(info.crypt_nonce.bytes, buf + LOG_CHECKPOINT_CRYPT_NONCE,
sizeof info.crypt_nonce);
return init_crypt_key(&info);
}
/** Encrypt or decrypt a temporary file block.
@param[in] src block to encrypt or decrypt
@param[in] size size of the block
@param[out] dst destination block
@param[in] offs offset to block
@param[in] space_id tablespace id
@param[in] encrypt true=encrypt; false=decrypt
@return whether the operation succeeded */
UNIV_INTERN
bool
log_tmp_block_encrypt(
const byte* src,
ulint size,
byte* dst,
uint64_t offs,
ulint space_id,
bool encrypt)
{
uint dst_len;
uint64_t aes_ctr_iv[MY_AES_BLOCK_SIZE / sizeof(uint64_t)];
bzero(aes_ctr_iv, sizeof aes_ctr_iv);
aes_ctr_iv[0] = space_id;
aes_ctr_iv[1] = offs;
int rc = encryption_crypt(
src, (uint)size, dst, &dst_len,
const_cast<byte*>(info.crypt_key.bytes), (uint)(sizeof info.crypt_key),
reinterpret_cast<byte*>(aes_ctr_iv), (uint)(sizeof aes_ctr_iv),
encrypt
? ENCRYPTION_FLAG_ENCRYPT|ENCRYPTION_FLAG_NOPAD
: ENCRYPTION_FLAG_DECRYPT|ENCRYPTION_FLAG_NOPAD,
LOG_DEFAULT_ENCRYPTION_KEY, info.key_version);
if (rc != MY_AES_OK) {
ib::error() << (encrypt ? "Encryption" : "Decryption")
<< " failed for temporary file: " << rc;
}
return rc == MY_AES_OK;
}
|