VeraCrypt
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authorMounir IDRASSI <mounir.idrassi@idrix.fr>2021-08-07 20:44:00 +0200
committerMounir IDRASSI <mounir.idrassi@idrix.fr>2021-08-07 20:47:07 +0200
commit4b98ff0e9810a218f802d08cfd546c2fd67757dc (patch)
tree18b1aef253d7e626d2e3c078e477edc61bea13d9 /src
parentaeba32ba8b459a142ce2d92d8e89d70fbb25a92f (diff)
downloadVeraCrypt-4b98ff0e9810a218f802d08cfd546c2fd67757dc.tar.gz
VeraCrypt-4b98ff0e9810a218f802d08cfd546c2fd67757dc.zip
Windows: Better implementation of PRF autodetection optimization.
Diffstat (limited to 'src')
-rw-r--r--src/Common/EncryptionThreadPool.c45
-rw-r--r--src/Common/EncryptionThreadPool.h2
-rw-r--r--src/Common/Volumes.c87
3 files changed, 80 insertions, 54 deletions
diff --git a/src/Common/EncryptionThreadPool.c b/src/Common/EncryptionThreadPool.c
index f93bf269..3cb6b878 100644
--- a/src/Common/EncryptionThreadPool.c
+++ b/src/Common/EncryptionThreadPool.c
@@ -102,10 +102,10 @@ typedef struct EncryptionThreadPoolWorkItemStruct
int IterationCount;
TC_EVENT *NoOutstandingWorkItemEvent;
LONG *OutstandingWorkItemCount;
- CRYPTOPP_ALIGN_DATA(16) char Password[MAX_PASSWORD];
+ char *Password;
int PasswordLength;
int Pkcs5Prf;
- char Salt[PKCS5_SALT_SIZE];
+ char *Salt;
} KeyDerivation;
@@ -114,6 +114,8 @@ typedef struct EncryptionThreadPoolWorkItemStruct
TC_EVENT *KeyDerivationCompletedEvent;
TC_EVENT *NoOutstandingWorkItemEvent;
LONG *outstandingWorkItemCount;
+ void* keyInfoBuffer;
+ int keyInfoBufferSize;
void* keyDerivationWorkItems;
int keyDerivationWorkItemsSize;
@@ -275,12 +277,6 @@ static TC_THREAD_PROC EncryptionThreadProc (void *threadArg)
TC_THROW_FATAL_EXCEPTION;
}
-#if !defined(DEVICE_DRIVER)
- burn (workItem->KeyDerivation.Password, sizeof(workItem->KeyDerivation.Password));
- burn (workItem->KeyDerivation.Salt, sizeof(workItem->KeyDerivation.Salt));
- VirtualUnlock (&workItem->KeyDerivation, sizeof (workItem->KeyDerivation));
-#endif
-
InterlockedExchange (workItem->KeyDerivation.CompletionFlag, TRUE);
TC_SET_EVENT (*workItem->KeyDerivation.CompletionEvent);
@@ -297,9 +293,21 @@ static TC_THREAD_PROC EncryptionThreadProc (void *threadArg)
if (workItem->ReadVolumeHeaderFinalization.keyDerivationWorkItems)
{
burn (workItem->ReadVolumeHeaderFinalization.keyDerivationWorkItems, workItem->ReadVolumeHeaderFinalization.keyDerivationWorkItemsSize);
+#if !defined(DEVICE_DRIVER)
+ VirtualUnlock (workItem->ReadVolumeHeaderFinalization.keyDerivationWorkItems, workItem->ReadVolumeHeaderFinalization.keyDerivationWorkItemsSize);
+#endif
TCfree (workItem->ReadVolumeHeaderFinalization.keyDerivationWorkItems);
}
+ if (workItem->ReadVolumeHeaderFinalization.keyInfoBuffer)
+ {
+ burn (workItem->ReadVolumeHeaderFinalization.keyInfoBuffer, workItem->ReadVolumeHeaderFinalization.keyInfoBufferSize);
+#if !defined(DEVICE_DRIVER)
+ VirtualUnlock (workItem->ReadVolumeHeaderFinalization.keyInfoBuffer, workItem->ReadVolumeHeaderFinalization.keyInfoBufferSize);
+#endif
+ TCfree (workItem->ReadVolumeHeaderFinalization.keyInfoBuffer);
+ }
+
#if !defined(DEVICE_DRIVER)
CloseHandle (*(workItem->ReadVolumeHeaderFinalization.KeyDerivationCompletedEvent));
CloseHandle (*(workItem->ReadVolumeHeaderFinalization.NoOutstandingWorkItemEvent));
@@ -516,14 +524,6 @@ void EncryptionThreadPoolStop ()
for (i = 0; i < sizeof (WorkItemQueue) / sizeof (WorkItemQueue[0]); ++i)
{
-#if !defined(DEVICE_DRIVER)
- if (WorkItemQueue[i].Type == DeriveKeyWork)
- {
- burn (WorkItemQueue[i].KeyDerivation.Password, sizeof(WorkItemQueue[i].KeyDerivation.Password));
- burn (WorkItemQueue[i].KeyDerivation.Salt, sizeof(WorkItemQueue[i].KeyDerivation.Salt));
- VirtualUnlock (&WorkItemQueue[i].KeyDerivation, sizeof (WorkItemQueue[i].KeyDerivation));
- }
-#endif
if (WorkItemQueue[i].ItemCompletedEvent)
CloseHandle (WorkItemQueue[i].ItemCompletedEvent);
}
@@ -552,19 +552,16 @@ void EncryptionThreadPoolBeginKeyDerivation (TC_EVENT *completionEvent, TC_EVENT
}
workItem->Type = DeriveKeyWork;
-#if !defined(DEVICE_DRIVER)
- VirtualLock (&workItem->KeyDerivation, sizeof (workItem->KeyDerivation));
-#endif
workItem->KeyDerivation.CompletionEvent = completionEvent;
workItem->KeyDerivation.CompletionFlag = completionFlag;
workItem->KeyDerivation.DerivedKey = derivedKey;
workItem->KeyDerivation.IterationCount = iterationCount;
workItem->KeyDerivation.NoOutstandingWorkItemEvent = noOutstandingWorkItemEvent;
workItem->KeyDerivation.OutstandingWorkItemCount = outstandingWorkItemCount;
- memcpy (workItem->KeyDerivation.Password, password, passwordLength);
+ workItem->KeyDerivation.Password = password;
workItem->KeyDerivation.PasswordLength = passwordLength;
workItem->KeyDerivation.Pkcs5Prf = pkcs5Prf;
- memcpy (workItem->KeyDerivation.Salt, salt, PKCS5_SALT_SIZE);
+ workItem->KeyDerivation.Salt = salt;
InterlockedIncrement (outstandingWorkItemCount);
TC_CLEAR_EVENT (*noOutstandingWorkItemEvent);
@@ -574,7 +571,9 @@ void EncryptionThreadPoolBeginKeyDerivation (TC_EVENT *completionEvent, TC_EVENT
TC_RELEASE_MUTEX (&EnqueueMutex);
}
-void EncryptionThreadPoolBeginReadVolumeHeaderFinalization (TC_EVENT *keyDerivationCompletedEvent, TC_EVENT *noOutstandingWorkItemEvent, LONG* outstandingWorkItemCount, void* keyDerivationWorkItems, int keyDerivationWorkItemsSize)
+void EncryptionThreadPoolBeginReadVolumeHeaderFinalization (TC_EVENT *keyDerivationCompletedEvent, TC_EVENT *noOutstandingWorkItemEvent, LONG* outstandingWorkItemCount,
+ void* keyInfoBuffer, int keyInfoBufferSize,
+ void* keyDerivationWorkItems, int keyDerivationWorkItemsSize)
{
EncryptionThreadPoolWorkItem *workItem;
@@ -595,6 +594,8 @@ void EncryptionThreadPoolBeginReadVolumeHeaderFinalization (TC_EVENT *keyDerivat
workItem->Type = ReadVolumeHeaderFinalizationWork;
workItem->ReadVolumeHeaderFinalization.NoOutstandingWorkItemEvent = noOutstandingWorkItemEvent;
workItem->ReadVolumeHeaderFinalization.KeyDerivationCompletedEvent = keyDerivationCompletedEvent;
+ workItem->ReadVolumeHeaderFinalization.keyInfoBuffer = keyInfoBuffer;
+ workItem->ReadVolumeHeaderFinalization.keyInfoBufferSize = keyInfoBufferSize;
workItem->ReadVolumeHeaderFinalization.keyDerivationWorkItems = keyDerivationWorkItems;
workItem->ReadVolumeHeaderFinalization.keyDerivationWorkItemsSize = keyDerivationWorkItemsSize;
workItem->ReadVolumeHeaderFinalization.outstandingWorkItemCount = outstandingWorkItemCount;
diff --git a/src/Common/EncryptionThreadPool.h b/src/Common/EncryptionThreadPool.h
index 9cb3ffa7..053d4107 100644
--- a/src/Common/EncryptionThreadPool.h
+++ b/src/Common/EncryptionThreadPool.h
@@ -33,7 +33,7 @@ size_t GetCpuCount (WORD* pGroupCount);
#endif
void EncryptionThreadPoolBeginKeyDerivation (TC_EVENT *completionEvent, TC_EVENT *noOutstandingWorkItemEvent, LONG *completionFlag, LONG *outstandingWorkItemCount, int pkcs5Prf, char *password, int passwordLength, char *salt, int iterationCount, char *derivedKey);
-void EncryptionThreadPoolBeginReadVolumeHeaderFinalization (TC_EVENT *keyDerivationCompletedEvent, TC_EVENT *noOutstandingWorkItemEvent, LONG* outstandingWorkItemCount, void* keyDerivationWorkItems, int keyDerivationWorkItemsSize);
+void EncryptionThreadPoolBeginReadVolumeHeaderFinalization (TC_EVENT *keyDerivationCompletedEvent, TC_EVENT *noOutstandingWorkItemEvent, LONG* outstandingWorkItemCount, void* keyInfoBuffer, int keyInfoBufferSize, void* keyDerivationWorkItems, int keyDerivationWorkItemsSize);
void EncryptionThreadPoolDoWork (EncryptionThreadPoolWorkType type, byte *data, const UINT64_STRUCT *startUnitNo, uint32 unitCount, PCRYPTO_INFO cryptoInfo);
BOOL EncryptionThreadPoolStart (size_t encryptionFreeCpuCount);
void EncryptionThreadPoolStop ();
diff --git a/src/Common/Volumes.c b/src/Common/Volumes.c
index 37fa481c..7bfb8ec2 100644
--- a/src/Common/Volumes.c
+++ b/src/Common/Volumes.c
@@ -170,7 +170,10 @@ BOOL ReadVolumeHeaderRecoveryMode = FALSE;
int ReadVolumeHeader (BOOL bBoot, char *encryptedHeader, Password *password, int selected_pkcs5_prf, int pim, BOOL truecryptMode, PCRYPTO_INFO *retInfo, CRYPTO_INFO *retHeaderCryptoInfo)
{
char header[TC_VOLUME_HEADER_EFFECTIVE_SIZE];
- CRYPTOPP_ALIGN_DATA(16) KEY_INFO keyInfo;
+ unsigned char* keyInfoBuffer = NULL;
+ int keyInfoBufferSize = sizeof (KEY_INFO) + 16;
+ size_t keyInfoBufferOffset;
+ PKEY_INFO keyInfo;
PCRYPTO_INFO cryptoInfo;
CRYPTOPP_ALIGN_DATA(16) char dk[MASTER_KEYDATA_SIZE];
int enqPkcs5Prf, pkcs5_prf;
@@ -182,6 +185,7 @@ int ReadVolumeHeader (BOOL bBoot, char *encryptedHeader, Password *password, int
TC_EVENT *keyDerivationCompletedEvent = NULL;
TC_EVENT *noOutstandingWorkItemEvent = NULL;
KeyDerivationWorkItem *keyDerivationWorkItems = NULL;
+ int keyDerivationWorkItemsSize = 0;
KeyDerivationWorkItem *item;
size_t encryptionThreadCount = GetEncryptionThreadCount();
LONG *outstandingWorkItemCount = NULL;
@@ -189,6 +193,17 @@ int ReadVolumeHeader (BOOL bBoot, char *encryptedHeader, Password *password, int
#endif
size_t queuedWorkItems = 0;
+ // allocate 16-bytes aligned buffer to hold KEY_INFO in a portable way
+ keyInfoBuffer = TCalloc(keyInfoBufferSize);
+ if (!keyInfoBuffer)
+ return ERR_OUTOFMEMORY;
+ keyInfoBufferOffset = 16 - (((uint64) keyInfoBuffer) % 16);
+ keyInfo = (PKEY_INFO) (keyInfoBuffer + keyInfoBufferOffset);
+
+#if !defined(DEVICE_DRIVER) && !defined(_UEFI)
+ VirtualLock (keyInfoBuffer, keyInfoBufferSize);
+#endif
+
// if no PIM specified, use default value
if (pim < 0)
pim = 0;
@@ -237,7 +252,8 @@ int ReadVolumeHeader (BOOL bBoot, char *encryptedHeader, Password *password, int
return ERR_OUTOFMEMORY;
}
- keyDerivationWorkItems = TCalloc (sizeof (KeyDerivationWorkItem) * pkcs5PrfCount);
+ keyDerivationWorkItemsSize = sizeof (KeyDerivationWorkItem) * pkcs5PrfCount;
+ keyDerivationWorkItems = TCalloc (keyDerivationWorkItemsSize);
if (!keyDerivationWorkItems)
{
TCfree(keyDerivationCompletedEvent);
@@ -274,20 +290,21 @@ int ReadVolumeHeader (BOOL bBoot, char *encryptedHeader, Password *password, int
TCfree(outstandingWorkItemCount);
return ERR_OUTOFMEMORY;
}
+
+ VirtualLock (keyDerivationWorkItems, keyDerivationWorkItemsSize);
#endif
}
#if !defined(DEVICE_DRIVER)
- VirtualLock (&keyInfo, sizeof (keyInfo));
VirtualLock (&dk, sizeof (dk));
VirtualLock (&header, sizeof (header));
#endif
#endif // !defined(_UEFI)
- crypto_loadkey (&keyInfo, password->Text, (int) password->Length);
+ crypto_loadkey (keyInfo, password->Text, (int) password->Length);
// PKCS5 is used to derive the primary header key(s) and secondary header key(s) (XTS mode) from the password
- memcpy (keyInfo.salt, encryptedHeader + HEADER_SALT_OFFSET, PKCS5_SALT_SIZE);
+ memcpy (keyInfo->salt, encryptedHeader + HEADER_SALT_OFFSET, PKCS5_SALT_SIZE);
// Test all available PKCS5 PRFs
for (enqPkcs5Prf = FIRST_PRF_ID; enqPkcs5Prf <= LAST_PRF_ID || queuedWorkItems > 0; ++enqPkcs5Prf)
@@ -315,8 +332,8 @@ int ReadVolumeHeader (BOOL bBoot, char *encryptedHeader, Password *password, int
item->Pkcs5Prf = enqPkcs5Prf;
EncryptionThreadPoolBeginKeyDerivation (keyDerivationCompletedEvent, noOutstandingWorkItemEvent,
- &item->KeyReady, outstandingWorkItemCount, enqPkcs5Prf, keyInfo.userKey,
- keyInfo.keyLength, keyInfo.salt, get_pkcs5_iteration_count (enqPkcs5Prf, pim, truecryptMode, bBoot), item->DerivedKey);
+ &item->KeyReady, outstandingWorkItemCount, enqPkcs5Prf, keyInfo->userKey,
+ keyInfo->keyLength, keyInfo->salt, get_pkcs5_iteration_count (enqPkcs5Prf, pim, truecryptMode, bBoot), item->DerivedKey);
++queuedWorkItems;
break;
@@ -338,7 +355,7 @@ int ReadVolumeHeader (BOOL bBoot, char *encryptedHeader, Password *password, int
if (!item->Free && InterlockedExchangeAdd (&item->KeyReady, 0) == TRUE)
{
pkcs5_prf = item->Pkcs5Prf;
- keyInfo.noIterations = get_pkcs5_iteration_count (pkcs5_prf, pim, truecryptMode, bBoot);
+ keyInfo->noIterations = get_pkcs5_iteration_count (pkcs5_prf, pim, truecryptMode, bBoot);
memcpy (dk, item->DerivedKey, sizeof (dk));
item->Free = TRUE;
@@ -357,33 +374,33 @@ KeyReady: ;
#endif // !defined(_UEFI)
{
pkcs5_prf = enqPkcs5Prf;
- keyInfo.noIterations = get_pkcs5_iteration_count (enqPkcs5Prf, pim, truecryptMode, bBoot);
+ keyInfo->noIterations = get_pkcs5_iteration_count (enqPkcs5Prf, pim, truecryptMode, bBoot);
switch (pkcs5_prf)
{
case RIPEMD160:
- derive_key_ripemd160 (keyInfo.userKey, keyInfo.keyLength, keyInfo.salt,
- PKCS5_SALT_SIZE, keyInfo.noIterations, dk, GetMaxPkcs5OutSize());
+ derive_key_ripemd160 (keyInfo->userKey, keyInfo->keyLength, keyInfo->salt,
+ PKCS5_SALT_SIZE, keyInfo->noIterations, dk, GetMaxPkcs5OutSize());
break;
case SHA512:
- derive_key_sha512 (keyInfo.userKey, keyInfo.keyLength, keyInfo.salt,
- PKCS5_SALT_SIZE, keyInfo.noIterations, dk, GetMaxPkcs5OutSize());
+ derive_key_sha512 (keyInfo->userKey, keyInfo->keyLength, keyInfo->salt,
+ PKCS5_SALT_SIZE, keyInfo->noIterations, dk, GetMaxPkcs5OutSize());
break;
case WHIRLPOOL:
- derive_key_whirlpool (keyInfo.userKey, keyInfo.keyLength, keyInfo.salt,
- PKCS5_SALT_SIZE, keyInfo.noIterations, dk, GetMaxPkcs5OutSize());
+ derive_key_whirlpool (keyInfo->userKey, keyInfo->keyLength, keyInfo->salt,
+ PKCS5_SALT_SIZE, keyInfo->noIterations, dk, GetMaxPkcs5OutSize());
break;
case SHA256:
- derive_key_sha256 (keyInfo.userKey, keyInfo.keyLength, keyInfo.salt,
- PKCS5_SALT_SIZE, keyInfo.noIterations, dk, GetMaxPkcs5OutSize());
+ derive_key_sha256 (keyInfo->userKey, keyInfo->keyLength, keyInfo->salt,
+ PKCS5_SALT_SIZE, keyInfo->noIterations, dk, GetMaxPkcs5OutSize());
break;
case STREEBOG:
- derive_key_streebog(keyInfo.userKey, keyInfo.keyLength, keyInfo.salt,
- PKCS5_SALT_SIZE, keyInfo.noIterations, dk, GetMaxPkcs5OutSize());
+ derive_key_streebog(keyInfo->userKey, keyInfo->keyLength, keyInfo->salt,
+ PKCS5_SALT_SIZE, keyInfo->noIterations, dk, GetMaxPkcs5OutSize());
break;
default:
// Unknown/wrong ID
@@ -540,7 +557,7 @@ KeyReady: ;
if (retInfo == NULL)
{
cryptoInfo->pkcs5 = pkcs5_prf;
- cryptoInfo->noIterations = keyInfo.noIterations;
+ cryptoInfo->noIterations = keyInfo->noIterations;
cryptoInfo->bTrueCryptMode = truecryptMode;
cryptoInfo->volumePim = pim;
goto ret;
@@ -557,34 +574,34 @@ KeyReady: ;
}
// Master key data
- memcpy (keyInfo.master_keydata, header + HEADER_MASTER_KEYDATA_OFFSET, MASTER_KEYDATA_SIZE);
+ memcpy (keyInfo->master_keydata, header + HEADER_MASTER_KEYDATA_OFFSET, MASTER_KEYDATA_SIZE);
#ifdef TC_WINDOWS_DRIVER
{
RMD160_CTX ctx;
RMD160Init (&ctx);
- RMD160Update (&ctx, keyInfo.master_keydata, MASTER_KEYDATA_SIZE);
+ RMD160Update (&ctx, keyInfo->master_keydata, MASTER_KEYDATA_SIZE);
RMD160Update (&ctx, header, sizeof(header));
RMD160Final (cryptoInfo->master_keydata_hash, &ctx);
burn(&ctx, sizeof (ctx));
}
#else
- memcpy (cryptoInfo->master_keydata, keyInfo.master_keydata, MASTER_KEYDATA_SIZE);
+ memcpy (cryptoInfo->master_keydata, keyInfo->master_keydata, MASTER_KEYDATA_SIZE);
#endif
// PKCS #5
cryptoInfo->pkcs5 = pkcs5_prf;
- cryptoInfo->noIterations = keyInfo.noIterations;
+ cryptoInfo->noIterations = keyInfo->noIterations;
cryptoInfo->bTrueCryptMode = truecryptMode;
cryptoInfo->volumePim = pim;
// Init the cipher with the decrypted master key
- status = EAInit (cryptoInfo->ea, keyInfo.master_keydata + primaryKeyOffset, cryptoInfo->ks);
+ status = EAInit (cryptoInfo->ea, keyInfo->master_keydata + primaryKeyOffset, cryptoInfo->ks);
if (status == ERR_CIPHER_INIT_FAILURE)
goto err;
#ifndef TC_WINDOWS_DRIVER
// The secondary master key (if cascade, multiple concatenated)
- memcpy (cryptoInfo->k2, keyInfo.master_keydata + EAGetKeySize (cryptoInfo->ea), EAGetKeySize (cryptoInfo->ea));
+ memcpy (cryptoInfo->k2, keyInfo->master_keydata + EAGetKeySize (cryptoInfo->ea), EAGetKeySize (cryptoInfo->ea));
#endif
- if (!EAInitMode (cryptoInfo, keyInfo.master_keydata + EAGetKeySize (cryptoInfo->ea)))
+ if (!EAInitMode (cryptoInfo, keyInfo->master_keydata + EAGetKeySize (cryptoInfo->ea)))
{
status = ERR_MODE_INIT_FAILED;
goto err;
@@ -604,13 +621,11 @@ err:
*retInfo = NULL;
}
-ret:
- burn (&keyInfo, sizeof (keyInfo));
+ret:
burn (dk, sizeof(dk));
burn (header, sizeof(header));
#if !defined(DEVICE_DRIVER) && !defined(_UEFI)
- VirtualUnlock (&keyInfo, sizeof (keyInfo));
VirtualUnlock (&dk, sizeof (dk));
VirtualUnlock (&header, sizeof (header));
#endif
@@ -618,9 +633,19 @@ ret:
#if !defined(_UEFI)
if ((selected_pkcs5_prf == 0) && (encryptionThreadCount > 1))
{
- EncryptionThreadPoolBeginReadVolumeHeaderFinalization (keyDerivationCompletedEvent, noOutstandingWorkItemEvent, outstandingWorkItemCount, keyDerivationWorkItems, sizeof (KeyDerivationWorkItem) * pkcs5PrfCount);
+ EncryptionThreadPoolBeginReadVolumeHeaderFinalization (keyDerivationCompletedEvent, noOutstandingWorkItemEvent, outstandingWorkItemCount,
+ keyInfoBuffer, keyInfoBufferSize,
+ keyDerivationWorkItems, keyDerivationWorkItemsSize);
}
+ else
#endif
+ {
+ burn (keyInfo, sizeof (KEY_INFO));
+#if !defined(DEVICE_DRIVER) && !defined(_UEFI)
+ VirtualUnlock (keyInfoBuffer, keyInfoBufferSize);
+#endif
+ TCfree(keyInfoBuffer);
+ }
return status;
}