reactos/drivers/crypto/ksecdd/crypt.c

333 lines
8.5 KiB
C

/*
* PROJECT: ReactOS Drivers
* COPYRIGHT: See COPYING in the top level directory
* PURPOSE: Kernel Security Support Provider Interface Driver
*
* PROGRAMMERS: Timo Kreuzer (timo.kreuzer@reactos.org)
*/
/* INCLUDES *******************************************************************/
#include "ksecdd.h"
MD5_CTX KsecLoadTimeStartMd5s[2];
DES3_KEY KsecGlobalDes3Key;
AES_KEY KsecGlobalAesKey;
typedef struct _KSEC_PROCESS_DATA
{
PEPROCESS Process;
HANDLE ProcessId;
LONGLONG CreateTime;
ULONG_PTR DirectoryTableBase;
} KSEC_PROCESS_DATA, *PKSEC_PROCESS_DATA;
typedef struct _KSEC_LOGON_DATA
{
LUID LogonId;
} KSEC_LOGON_DATA, *PKSEC_LOGON_DATA;
VOID
NTAPI
KsecInitializeEncryptionSupport (
VOID)
{
KSEC_ENTROPY_DATA EntropyData;
MD5_CTX Md5Context;
UCHAR KeyDataBuffer[32];
KsecGatherEntropyData(&EntropyData);
MD5Init(&Md5Context);
MD5Update(&Md5Context, (PVOID)&EntropyData, sizeof(EntropyData));
KsecLoadTimeStartMd5s[0] = Md5Context;
MD5Final(&Md5Context);
RtlCopyMemory(KeyDataBuffer, &Md5Context.digest, 16);
KsecGatherEntropyData(&EntropyData);
Md5Context = KsecLoadTimeStartMd5s[0];
MD5Update(&Md5Context, (PVOID)&EntropyData, sizeof(EntropyData));
KsecLoadTimeStartMd5s[1] = Md5Context;
MD5Final(&Md5Context);
RtlCopyMemory(&KeyDataBuffer[16], &Md5Context.digest, 16);
/* Create the global keys */
aes_setup(KeyDataBuffer, 32, 0, &KsecGlobalAesKey);
des3_setup(KeyDataBuffer, 24, 0, &KsecGlobalDes3Key);
/* Erase the temp data */
RtlSecureZeroMemory(KeyDataBuffer, sizeof(KeyDataBuffer));
RtlSecureZeroMemory(&Md5Context, sizeof(Md5Context));
}
static
VOID
KsecGetKeyData (
_Out_ UCHAR KeyData[32],
_In_ ULONG OptionFlags)
{
MD5_CTX Md5Contexts[2];
KSEC_PROCESS_DATA ProcessData;
KSEC_LOGON_DATA LogonData;
PEPROCESS CurrentProcess;
PACCESS_TOKEN Token;
/* We need to generate the key, start with our load MD5s */
Md5Contexts[0] = KsecLoadTimeStartMd5s[0];
Md5Contexts[1] = KsecLoadTimeStartMd5s[1];
/* Get the current process */
CurrentProcess = PsGetCurrentProcess();
if (OptionFlags == RTL_ENCRYPT_OPTION_SAME_PROCESS)
{
ProcessData.Process = CurrentProcess;
ProcessData.ProcessId = CurrentProcess->UniqueProcessId;
ProcessData.CreateTime = PsGetProcessCreateTimeQuadPart(CurrentProcess);
ProcessData.DirectoryTableBase = CurrentProcess->Pcb.DirectoryTableBase[0];
MD5Update(&Md5Contexts[0], (PVOID)&ProcessData, sizeof(ProcessData));
MD5Update(&Md5Contexts[1], (PVOID)&ProcessData, sizeof(ProcessData));
}
else // if (OptionFlags == RTL_ENCRYPT_OPTION_SAME_LOGON)
{
Token = PsReferencePrimaryToken(CurrentProcess);
SeQueryAuthenticationIdToken(Token, &LogonData.LogonId);
PsDereferencePrimaryToken(Token);
MD5Update(&Md5Contexts[0], (PVOID)&LogonData, sizeof(LogonData));
MD5Update(&Md5Contexts[1], (PVOID)&LogonData, sizeof(LogonData));
}
/* Finalize the MD5s */
MD5Final(&Md5Contexts[0]);
MD5Final(&Md5Contexts[1]);
/* Copy the md5 data */
RtlCopyMemory(KeyData, &Md5Contexts[0].digest, 16);
RtlCopyMemory((PUCHAR)KeyData + 16, &Md5Contexts[1].digest, 16);
/* Erase the temp data */
RtlSecureZeroMemory(&Md5Contexts, sizeof(Md5Contexts));
}
static
VOID
KsecGetDes3Key (
_Out_ PDES3_KEY Des3Key,
_In_ ULONG OptionFlags)
{
UCHAR KeyDataBuffer[32];
/* Check if the caller allows cross process encryption */
if (OptionFlags == RTL_ENCRYPT_OPTION_CROSS_PROCESS)
{
/* Return our global cached DES3 key */
*Des3Key = KsecGlobalDes3Key;
}
else
{
/* Setup the key */
KsecGetKeyData(KeyDataBuffer, OptionFlags);
des3_setup(KeyDataBuffer, 24, 0, Des3Key);
/* Erase the temp data */
RtlSecureZeroMemory(KeyDataBuffer, sizeof(KeyDataBuffer));
}
}
static
VOID
KsecGetAesKey (
_Out_ PAES_KEY AesKey,
_In_ ULONG OptionFlags)
{
UCHAR KeyDataBuffer[32];
/* Check if the caller allows cross process encryption */
if (OptionFlags == RTL_ENCRYPT_OPTION_CROSS_PROCESS)
{
/* Return our global cached AES key */
*AesKey = KsecGlobalAesKey;
}
else
{
/* Setup the key */
KsecGetKeyData(KeyDataBuffer, OptionFlags);
aes_setup(KeyDataBuffer, 32, 0, AesKey);
/* Erase the temp data */
RtlSecureZeroMemory(KeyDataBuffer, sizeof(KeyDataBuffer));
}
}
static
VOID
KsecEncryptMemoryDes3 (
_Inout_ PVOID Buffer,
_In_ ULONG Length,
_In_ ULONG OptionFlags)
{
UCHAR EncryptedBlockData[8];
DES3_KEY Des3Key;
/* Get they triple DES key */
KsecGetDes3Key(&Des3Key, OptionFlags);
/* Do the triple DES encryption */
while (Length >= sizeof(EncryptedBlockData))
{
des3_ecb_encrypt(Buffer, EncryptedBlockData, &Des3Key);
RtlCopyMemory(Buffer, EncryptedBlockData, sizeof(EncryptedBlockData));
Buffer = (PUCHAR)Buffer + sizeof(EncryptedBlockData);
Length -= sizeof(EncryptedBlockData);
}
/* Erase the key data */
RtlSecureZeroMemory(&Des3Key, sizeof(Des3Key));
}
static
VOID
KsecDecryptMemoryDes3 (
_Inout_ PVOID Buffer,
_In_ ULONG Length,
_In_ ULONG OptionFlags)
{
UCHAR BlockData[8];
DES3_KEY Des3Key;
/* Get they triple DES key */
KsecGetDes3Key(&Des3Key, OptionFlags);
/* Do the triple DES decryption */
while (Length >= sizeof(BlockData))
{
des3_ecb_decrypt(Buffer, BlockData, &Des3Key);
RtlCopyMemory(Buffer, BlockData, sizeof(BlockData));
Buffer = (PUCHAR)Buffer + sizeof(BlockData);
Length -= sizeof(BlockData);
}
/* Erase the key data */
RtlSecureZeroMemory(&Des3Key, sizeof(Des3Key));
}
static
VOID
KsecEncryptMemoryAes (
_Inout_ PVOID Buffer,
_In_ ULONG Length,
_In_ ULONG OptionFlags)
{
UCHAR EncryptedBlockData[16];
AES_KEY AesKey;
/* Get they AES key */
KsecGetAesKey(&AesKey, OptionFlags);
/* Do the AES encryption */
while (Length >= sizeof(EncryptedBlockData))
{
aes_ecb_encrypt(Buffer, EncryptedBlockData, &AesKey);
RtlCopyMemory(Buffer, EncryptedBlockData, sizeof(EncryptedBlockData));
Buffer = (PUCHAR)Buffer + sizeof(EncryptedBlockData);
Length -= sizeof(EncryptedBlockData);
}
/* Erase the key data */
RtlSecureZeroMemory(&AesKey, sizeof(AesKey));
}
static
VOID
KsecDecryptMemoryAes (
_Inout_ PVOID Buffer,
_In_ ULONG Length,
_In_ ULONG OptionFlags)
{
UCHAR BlockData[16];
AES_KEY AesKey;
/* Get they AES key */
KsecGetAesKey(&AesKey, OptionFlags);
/* Do the AES decryption */
while (Length >= sizeof(BlockData))
{
aes_ecb_decrypt(Buffer, BlockData, &AesKey);
RtlCopyMemory(Buffer, BlockData, sizeof(BlockData));
Buffer = (PUCHAR)Buffer + sizeof(BlockData);
Length -= sizeof(BlockData);
}
/* Erase the key data */
RtlSecureZeroMemory(&AesKey, sizeof(AesKey));
}
NTSTATUS
NTAPI
KsecEncryptMemory (
_Inout_ PVOID Buffer,
_In_ ULONG Length,
_In_ ULONG OptionFlags)
{
/* Validate parameter */
if (OptionFlags > RTL_ENCRYPT_OPTION_SAME_LOGON)
{
return STATUS_INVALID_PARAMETER;
}
/* Check if the length is not 16 bytes aligned */
if (Length & 15)
{
/* Is it at least 8 bytes aligned? */
if (Length & 7)
{
/* No, we can't deal with it! */
return STATUS_INVALID_PARAMETER;
}
/* Use triple DES encryption */
KsecEncryptMemoryDes3(Buffer, Length, OptionFlags);
}
else
{
/* Use AES encryption */
KsecEncryptMemoryAes(Buffer, Length, OptionFlags);
}
return STATUS_SUCCESS;
}
NTSTATUS
NTAPI
KsecDecryptMemory (
_Inout_ PVOID Buffer,
_In_ ULONG Length,
_In_ ULONG OptionFlags)
{
/* Validate parameter */
if (OptionFlags > RTL_ENCRYPT_OPTION_SAME_LOGON)
{
return STATUS_INVALID_PARAMETER;
}
/* Check if the length is not 16 bytes aligned */
if (Length & 15)
{
/* Is it at least 8 bytes aligned? */
if (Length & 7)
{
/* No, we can't deal with it! */
return STATUS_INVALID_PARAMETER;
}
/* Use triple DES encryption */
KsecDecryptMemoryDes3(Buffer, Length, OptionFlags);
}
else
{
/* Use AES encryption */
KsecDecryptMemoryAes(Buffer, Length, OptionFlags);
}
return STATUS_SUCCESS;
}