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authorMaxim Levitsky <mlevitsk@redhat.com>2019-09-26 00:35:24 +0300
committerDaniel P. Berrangé <berrange@redhat.com>2019-09-26 16:34:02 +0100
commit3994a7c909a4579bd0a4f2867a47ac4c1ab35a36 (patch)
tree4d670baaf5cf84b09d1b8e45fef31f100dfd1f39 /crypto/block-luks.c
parent9fa9c1c28f349d0a9ffa6727c34e8cc06ad8049e (diff)
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qcrypto-luks: extract store key function
This function will be used later to store new keys to the luks metadata Signed-off-by: Maxim Levitsky <mlevitsk@redhat.com> Reviewed-by: Daniel P. Berrangé <berrange@redhat.com> Signed-off-by: Daniel P. Berrangé <berrange@redhat.com>
Diffstat (limited to 'crypto/block-luks.c')
-rw-r--r--crypto/block-luks.c304
1 files changed, 181 insertions, 123 deletions
diff --git a/crypto/block-luks.c b/crypto/block-luks.c
index fa799fd..6d4e9eb 100644
--- a/crypto/block-luks.c
+++ b/crypto/block-luks.c
@@ -624,6 +624,176 @@ qcrypto_block_luks_parse_header(QCryptoBlockLUKS *luks, Error **errp)
}
/*
+ * Given a key slot, user password, and the master key,
+ * will store the encrypted master key there, and update the
+ * in-memory header. User must then write the in-memory header
+ *
+ * Returns:
+ * 0 if the keyslot was written successfully
+ * with the provided password
+ * -1 if a fatal error occurred while storing the key
+ */
+static int
+qcrypto_block_luks_store_key(QCryptoBlock *block,
+ unsigned int slot_idx,
+ const char *password,
+ uint8_t *masterkey,
+ uint64_t iter_time,
+ QCryptoBlockWriteFunc writefunc,
+ void *opaque,
+ Error **errp)
+{
+ QCryptoBlockLUKS *luks = block->opaque;
+ QCryptoBlockLUKSKeySlot *slot = &luks->header.key_slots[slot_idx];
+ g_autofree uint8_t *splitkey = NULL;
+ size_t splitkeylen;
+ g_autofree uint8_t *slotkey = NULL;
+ g_autoptr(QCryptoCipher) cipher = NULL;
+ g_autoptr(QCryptoIVGen) ivgen = NULL;
+ Error *local_err = NULL;
+ uint64_t iters;
+ int ret = -1;
+
+ if (qcrypto_random_bytes(slot->salt,
+ QCRYPTO_BLOCK_LUKS_SALT_LEN,
+ errp) < 0) {
+ goto cleanup;
+ }
+
+ splitkeylen = luks->header.master_key_len * slot->stripes;
+
+ /*
+ * Determine how many iterations are required to
+ * hash the user password while consuming 1 second of compute
+ * time
+ */
+ iters = qcrypto_pbkdf2_count_iters(luks->hash_alg,
+ (uint8_t *)password, strlen(password),
+ slot->salt,
+ QCRYPTO_BLOCK_LUKS_SALT_LEN,
+ luks->header.master_key_len,
+ &local_err);
+ if (local_err) {
+ error_propagate(errp, local_err);
+ goto cleanup;
+ }
+
+ if (iters > (ULLONG_MAX / iter_time)) {
+ error_setg_errno(errp, ERANGE,
+ "PBKDF iterations %llu too large to scale",
+ (unsigned long long)iters);
+ goto cleanup;
+ }
+
+ /* iter_time was in millis, but count_iters reported for secs */
+ iters = iters * iter_time / 1000;
+
+ if (iters > UINT32_MAX) {
+ error_setg_errno(errp, ERANGE,
+ "PBKDF iterations %llu larger than %u",
+ (unsigned long long)iters, UINT32_MAX);
+ goto cleanup;
+ }
+
+ slot->iterations =
+ MAX(iters, QCRYPTO_BLOCK_LUKS_MIN_SLOT_KEY_ITERS);
+
+
+ /*
+ * Generate a key that we'll use to encrypt the master
+ * key, from the user's password
+ */
+ slotkey = g_new0(uint8_t, luks->header.master_key_len);
+ if (qcrypto_pbkdf2(luks->hash_alg,
+ (uint8_t *)password, strlen(password),
+ slot->salt,
+ QCRYPTO_BLOCK_LUKS_SALT_LEN,
+ slot->iterations,
+ slotkey, luks->header.master_key_len,
+ errp) < 0) {
+ goto cleanup;
+ }
+
+
+ /*
+ * Setup the encryption objects needed to encrypt the
+ * master key material
+ */
+ cipher = qcrypto_cipher_new(luks->cipher_alg,
+ luks->cipher_mode,
+ slotkey, luks->header.master_key_len,
+ errp);
+ if (!cipher) {
+ goto cleanup;
+ }
+
+ ivgen = qcrypto_ivgen_new(luks->ivgen_alg,
+ luks->ivgen_cipher_alg,
+ luks->ivgen_hash_alg,
+ slotkey, luks->header.master_key_len,
+ errp);
+ if (!ivgen) {
+ goto cleanup;
+ }
+
+ /*
+ * Before storing the master key, we need to vastly
+ * increase its size, as protection against forensic
+ * disk data recovery
+ */
+ splitkey = g_new0(uint8_t, splitkeylen);
+
+ if (qcrypto_afsplit_encode(luks->hash_alg,
+ luks->header.master_key_len,
+ slot->stripes,
+ masterkey,
+ splitkey,
+ errp) < 0) {
+ goto cleanup;
+ }
+
+ /*
+ * Now we encrypt the split master key with the key generated
+ * from the user's password, before storing it
+ */
+ if (qcrypto_block_cipher_encrypt_helper(cipher, block->niv, ivgen,
+ QCRYPTO_BLOCK_LUKS_SECTOR_SIZE,
+ 0,
+ splitkey,
+ splitkeylen,
+ errp) < 0) {
+ goto cleanup;
+ }
+
+ /* Write out the slot's master key material. */
+ if (writefunc(block,
+ slot->key_offset_sector *
+ QCRYPTO_BLOCK_LUKS_SECTOR_SIZE,
+ splitkey, splitkeylen,
+ opaque,
+ errp) != splitkeylen) {
+ goto cleanup;
+ }
+
+ slot->active = QCRYPTO_BLOCK_LUKS_KEY_SLOT_ENABLED;
+
+ if (qcrypto_block_luks_store_header(block, writefunc, opaque, errp) < 0) {
+ goto cleanup;
+ }
+
+ ret = 0;
+
+cleanup:
+ if (slotkey) {
+ memset(slotkey, 0, luks->header.master_key_len);
+ }
+ if (splitkey) {
+ memset(splitkey, 0, splitkeylen);
+ }
+ return ret;
+}
+
+/*
* Given a key slot, and user password, this will attempt to unlock
* the master encryption key from the key slot.
*
@@ -944,12 +1114,8 @@ qcrypto_block_luks_create(QCryptoBlock *block,
QCryptoBlockCreateOptionsLUKS luks_opts;
Error *local_err = NULL;
g_autofree uint8_t *masterkey = NULL;
- g_autofree uint8_t *slotkey = NULL;
- g_autofree uint8_t *splitkey = NULL;
size_t splitkeylen = 0;
size_t i;
- g_autoptr(QCryptoCipher) cipher = NULL;
- g_autoptr(QCryptoIVGen) ivgen = NULL;
g_autofree char *password = NULL;
const char *cipher_alg;
const char *cipher_mode;
@@ -1172,9 +1338,7 @@ qcrypto_block_luks_create(QCryptoBlock *block,
* to use the first key slot */
splitkeylen = luks->header.master_key_len * QCRYPTO_BLOCK_LUKS_STRIPES;
for (i = 0; i < QCRYPTO_BLOCK_LUKS_NUM_KEY_SLOTS; i++) {
- luks->header.key_slots[i].active = i == 0 ?
- QCRYPTO_BLOCK_LUKS_KEY_SLOT_ENABLED :
- QCRYPTO_BLOCK_LUKS_KEY_SLOT_DISABLED;
+ luks->header.key_slots[i].active = QCRYPTO_BLOCK_LUKS_KEY_SLOT_DISABLED;
luks->header.key_slots[i].stripes = QCRYPTO_BLOCK_LUKS_STRIPES;
/* This calculation doesn't match that shown in the spec,
@@ -1188,107 +1352,6 @@ qcrypto_block_luks_create(QCryptoBlock *block,
QCRYPTO_BLOCK_LUKS_SECTOR_SIZE)) * i);
}
- if (qcrypto_random_bytes(luks->header.key_slots[0].salt,
- QCRYPTO_BLOCK_LUKS_SALT_LEN,
- errp) < 0) {
- goto error;
- }
-
- /* Again we determine how many iterations are required to
- * hash the user password while consuming 1 second of compute
- * time */
- iters = qcrypto_pbkdf2_count_iters(luks_opts.hash_alg,
- (uint8_t *)password, strlen(password),
- luks->header.key_slots[0].salt,
- QCRYPTO_BLOCK_LUKS_SALT_LEN,
- luks->header.master_key_len,
- &local_err);
- if (local_err) {
- error_propagate(errp, local_err);
- goto error;
- }
-
- if (iters > (ULLONG_MAX / luks_opts.iter_time)) {
- error_setg_errno(errp, ERANGE,
- "PBKDF iterations %llu too large to scale",
- (unsigned long long)iters);
- goto error;
- }
-
- /* iter_time was in millis, but count_iters reported for secs */
- iters = iters * luks_opts.iter_time / 1000;
-
- if (iters > UINT32_MAX) {
- error_setg_errno(errp, ERANGE,
- "PBKDF iterations %llu larger than %u",
- (unsigned long long)iters, UINT32_MAX);
- goto error;
- }
-
- luks->header.key_slots[0].iterations =
- MAX(iters, QCRYPTO_BLOCK_LUKS_MIN_SLOT_KEY_ITERS);
-
-
- /* Generate a key that we'll use to encrypt the master
- * key, from the user's password
- */
- slotkey = g_new0(uint8_t, luks->header.master_key_len);
- if (qcrypto_pbkdf2(luks_opts.hash_alg,
- (uint8_t *)password, strlen(password),
- luks->header.key_slots[0].salt,
- QCRYPTO_BLOCK_LUKS_SALT_LEN,
- luks->header.key_slots[0].iterations,
- slotkey, luks->header.master_key_len,
- errp) < 0) {
- goto error;
- }
-
-
- /* Setup the encryption objects needed to encrypt the
- * master key material
- */
- cipher = qcrypto_cipher_new(luks_opts.cipher_alg,
- luks_opts.cipher_mode,
- slotkey, luks->header.master_key_len,
- errp);
- if (!cipher) {
- goto error;
- }
-
- ivgen = qcrypto_ivgen_new(luks_opts.ivgen_alg,
- luks->ivgen_cipher_alg,
- luks_opts.ivgen_hash_alg,
- slotkey, luks->header.master_key_len,
- errp);
- if (!ivgen) {
- goto error;
- }
-
- /* Before storing the master key, we need to vastly
- * increase its size, as protection against forensic
- * disk data recovery */
- splitkey = g_new0(uint8_t, splitkeylen);
-
- if (qcrypto_afsplit_encode(luks_opts.hash_alg,
- luks->header.master_key_len,
- luks->header.key_slots[0].stripes,
- masterkey,
- splitkey,
- errp) < 0) {
- goto error;
- }
-
- /* Now we encrypt the split master key with the key generated
- * from the user's password, before storing it */
- if (qcrypto_block_cipher_encrypt_helper(cipher, block->niv, ivgen,
- QCRYPTO_BLOCK_LUKS_SECTOR_SIZE,
- 0,
- splitkey,
- splitkeylen,
- errp) < 0) {
- goto error;
- }
-
/* The total size of the LUKS headers is the partition header + key
* slot headers, rounded up to the nearest sector, combined with
@@ -1313,23 +1376,21 @@ qcrypto_block_luks_create(QCryptoBlock *block,
goto error;
}
- if (qcrypto_block_luks_store_header(block, writefunc, opaque, errp) < 0) {
- goto error;
- }
- /* Write out the master key material, starting at the
- * sector immediately following the partition header. */
- if (writefunc(block,
- luks->header.key_slots[0].key_offset_sector *
- QCRYPTO_BLOCK_LUKS_SECTOR_SIZE,
- splitkey, splitkeylen,
- opaque,
- errp) != splitkeylen) {
+ /* populate the slot 0 with the password encrypted master key*/
+ /* This will also store the header */
+ if (qcrypto_block_luks_store_key(block,
+ 0,
+ password,
+ masterkey,
+ luks_opts.iter_time,
+ writefunc,
+ opaque,
+ errp) < 0) {
goto error;
}
memset(masterkey, 0, luks->header.master_key_len);
- memset(slotkey, 0, luks->header.master_key_len);
return 0;
@@ -1337,9 +1398,6 @@ qcrypto_block_luks_create(QCryptoBlock *block,
if (masterkey) {
memset(masterkey, 0, luks->header.master_key_len);
}
- if (slotkey) {
- memset(slotkey, 0, luks->header.master_key_len);
- }
qcrypto_block_free_cipher(block);
qcrypto_ivgen_free(block->ivgen);