/**************************************************************************** * * * cryptlib CAST-128 Encryption Routines * * Copyright Peter Gutmann 1997-2005 * * * ****************************************************************************/ #if defined( INC_ALL ) #include "crypt.h" #include "context.h" #include "cast.h" #else #include "crypt.h" #include "context/context.h" #include "crypt/cast.h" #endif /* Compiler-specific includes */ #ifdef USE_CAST /* Defines to map from EAY to native naming */ #define CAST_BLOCKSIZE CAST_BLOCK /* The size of the keyscheduled CAST key */ #define CAST_EXPANDED_KEYSIZE sizeof( CAST_KEY ) /**************************************************************************** * * * CAST Self-test Routines * * * ****************************************************************************/ /* CAST test vectors from CAST specification */ static const struct CAST_TEST { BYTE key[ CAST_KEY_LENGTH + 8 ]; BYTE plaintext[ CAST_BLOCKSIZE + 8 ]; BYTE ciphertext[ CAST_BLOCKSIZE + 8 ]; } FAR_BSS testCAST[] = { { { 0x01, 0x23, 0x45, 0x67, 0x12, 0x34, 0x56, 0x78, 0x23, 0x45, 0x67, 0x89, 0x34, 0x56, 0x78, 0x9A }, { 0x01, 0x23, 0x45, 0x67, 0x89, 0xAB, 0xCD, 0xEF }, { 0x23, 0x8B, 0x4F, 0xE5, 0x84, 0x7E, 0x44, 0xB2 } } }; /* Test the CAST code against the CAST test vectors */ static int selfTest( void ) { const CAPABILITY_INFO *capabilityInfo = getCASTCapability(); BYTE keyData[ CAST_EXPANDED_KEYSIZE + 8 ]; int i, status; for( i = 0; i < sizeof( testCAST ) / sizeof( struct CAST_TEST ); i++ ) { status = testCipher( capabilityInfo, keyData, testCAST[ i ].key, CAST_KEY_LENGTH, testCAST[ i ].plaintext, testCAST[ i ].ciphertext ); if( cryptStatusError( status ) ) return( status ); } return( CRYPT_OK ); } /**************************************************************************** * * * Control Routines * * * ****************************************************************************/ /* Return context subtype-specific information */ static int getInfo( const CAPABILITY_INFO_TYPE type, void *varParam, const int constParam ) { if( type == CAPABILITY_INFO_STATESIZE ) return( CAST_EXPANDED_KEYSIZE ); return( getDefaultInfo( type, varParam, constParam ) ); } /**************************************************************************** * * * CAST En/Decryption Routines * * * ****************************************************************************/ /* Encrypt/decrypt data in ECB mode */ static int encryptECB( CONTEXT_INFO *contextInfoPtr, BYTE *buffer, int noBytes ) { CONV_INFO *convInfo = contextInfoPtr->ctxConv; int blockCount = noBytes / CAST_BLOCKSIZE; while( blockCount-- > 0 ) { /* Encrypt a block of data */ CAST_ecb_encrypt( buffer, buffer, convInfo->key, CAST_ENCRYPT ); /* Move on to next block of data */ buffer += CAST_BLOCKSIZE; } return( CRYPT_OK ); } static int decryptECB( CONTEXT_INFO *contextInfoPtr, BYTE *buffer, int noBytes ) { CONV_INFO *convInfo = contextInfoPtr->ctxConv; int blockCount = noBytes / CAST_BLOCKSIZE; while( blockCount-- > 0 ) { /* Decrypt a block of data */ CAST_ecb_encrypt( buffer, buffer, convInfo->key, CAST_DECRYPT ); /* Move on to next block of data */ buffer += CAST_BLOCKSIZE; } return( CRYPT_OK ); } /* Encrypt/decrypt data in CBC mode */ static int encryptCBC( CONTEXT_INFO *contextInfoPtr, BYTE *buffer, int noBytes ) { CONV_INFO *convInfo = contextInfoPtr->ctxConv; CAST_cbc_encrypt( buffer, buffer, noBytes, convInfo->key, convInfo->currentIV, CAST_ENCRYPT ); return( CRYPT_OK ); } static int decryptCBC( CONTEXT_INFO *contextInfoPtr, BYTE *buffer, int noBytes ) { CONV_INFO *convInfo = contextInfoPtr->ctxConv; CAST_cbc_encrypt( buffer, buffer, noBytes, convInfo->key, convInfo->currentIV, CAST_DECRYPT ); return( CRYPT_OK ); } /* Encrypt/decrypt data in CFB mode */ static int encryptCFB( CONTEXT_INFO *contextInfoPtr, BYTE *buffer, int noBytes ) { CONV_INFO *convInfo = contextInfoPtr->ctxConv; int i, ivCount = convInfo->ivCount; /* If there's any encrypted material left in the IV, use it now */ if( ivCount > 0 ) { int bytesToUse; /* Find out how much material left in the encrypted IV we can use */ bytesToUse = CAST_BLOCKSIZE - ivCount; if( noBytes < bytesToUse ) bytesToUse = noBytes; /* Encrypt the data */ for( i = 0; i < bytesToUse; i++ ) buffer[ i ] ^= convInfo->currentIV[ i + ivCount ]; memcpy( convInfo->currentIV + ivCount, buffer, bytesToUse ); /* Adjust the byte count and buffer position */ noBytes -= bytesToUse; buffer += bytesToUse; ivCount += bytesToUse; } while( noBytes > 0 ) { ivCount = ( noBytes > CAST_BLOCKSIZE ) ? CAST_BLOCKSIZE : noBytes; /* Encrypt the IV */ CAST_ecb_encrypt( convInfo->currentIV, convInfo->currentIV, convInfo->key, CAST_ENCRYPT ); /* XOR the buffer contents with the encrypted IV */ for( i = 0; i < ivCount; i++ ) buffer[ i ] ^= convInfo->currentIV[ i ]; /* Shift the ciphertext into the IV */ memcpy( convInfo->currentIV, buffer, ivCount ); /* Move on to next block of data */ noBytes -= ivCount; buffer += ivCount; } /* Remember how much of the IV is still available for use */ convInfo->ivCount = ( ivCount % CAST_BLOCKSIZE ); return( CRYPT_OK ); } /* Decrypt data in CFB mode. Note that the transformation can be made faster (but less clear) with temp = buffer, buffer ^= iv, iv = temp all in one loop */ static int decryptCFB( CONTEXT_INFO *contextInfoPtr, BYTE *buffer, int noBytes ) { CONV_INFO *convInfo = contextInfoPtr->ctxConv; BYTE temp[ CAST_BLOCKSIZE + 8 ]; int i, ivCount = convInfo->ivCount; /* If there's any encrypted material left in the IV, use it now */ if( ivCount > 0 ) { int bytesToUse; /* Find out how much material left in the encrypted IV we can use */ bytesToUse = CAST_BLOCKSIZE - ivCount; if( noBytes < bytesToUse ) bytesToUse = noBytes; /* Decrypt the data */ memcpy( temp, buffer, bytesToUse ); for( i = 0; i < bytesToUse; i++ ) buffer[ i ] ^= convInfo->currentIV[ i + ivCount ]; memcpy( convInfo->currentIV + ivCount, temp, bytesToUse ); /* Adjust the byte count and buffer position */ noBytes -= bytesToUse; buffer += bytesToUse; ivCount += bytesToUse; } while( noBytes > 0 ) { ivCount = ( noBytes > CAST_BLOCKSIZE ) ? CAST_BLOCKSIZE : noBytes; /* Encrypt the IV */ CAST_ecb_encrypt( convInfo->currentIV, convInfo->currentIV, convInfo->key, CAST_ENCRYPT ); /* Save the ciphertext */ memcpy( temp, buffer, ivCount ); /* XOR the buffer contents with the encrypted IV */ for( i = 0; i < ivCount; i++ ) buffer[ i ] ^= convInfo->currentIV[ i ]; /* Shift the ciphertext into the IV */ memcpy( convInfo->currentIV, temp, ivCount ); /* Move on to next block of data */ noBytes -= ivCount; buffer += ivCount; } /* Remember how much of the IV is still available for use */ convInfo->ivCount = ( ivCount % CAST_BLOCKSIZE ); /* Clear the temporary buffer */ zeroise( temp, CAST_BLOCKSIZE ); return( CRYPT_OK ); } /* Encrypt/decrypt data in OFB mode */ static int encryptOFB( CONTEXT_INFO *contextInfoPtr, BYTE *buffer, int noBytes ) { CONV_INFO *convInfo = contextInfoPtr->ctxConv; int i, ivCount = convInfo->ivCount; /* If there's any encrypted material left in the IV, use it now */ if( ivCount > 0 ) { int bytesToUse; /* Find out how much material left in the encrypted IV we can use */ bytesToUse = CAST_BLOCKSIZE - ivCount; if( noBytes < bytesToUse ) bytesToUse = noBytes; /* Encrypt the data */ for( i = 0; i < bytesToUse; i++ ) buffer[ i ] ^= convInfo->currentIV[ i + ivCount ]; /* Adjust the byte count and buffer position */ noBytes -= bytesToUse; buffer += bytesToUse; ivCount += bytesToUse; } while( noBytes > 0 ) { ivCount = ( noBytes > CAST_BLOCKSIZE ) ? CAST_BLOCKSIZE : noBytes; /* Encrypt the IV */ CAST_ecb_encrypt( convInfo->currentIV, convInfo->currentIV, convInfo->key, CAST_ENCRYPT ); /* XOR the buffer contents with the encrypted IV */ for( i = 0; i < ivCount; i++ ) buffer[ i ] ^= convInfo->currentIV[ i ]; /* Move on to next block of data */ noBytes -= ivCount; buffer += ivCount; } /* Remember how much of the IV is still available for use */ convInfo->ivCount = ( ivCount % CAST_BLOCKSIZE ); return( CRYPT_OK ); } /* Decrypt data in OFB mode */ static int decryptOFB( CONTEXT_INFO *contextInfoPtr, BYTE *buffer, int noBytes ) { CONV_INFO *convInfo = contextInfoPtr->ctxConv; int i, ivCount = convInfo->ivCount; /* If there's any encrypted material left in the IV, use it now */ if( ivCount > 0 ) { int bytesToUse; /* Find out how much material left in the encrypted IV we can use */ bytesToUse = CAST_BLOCKSIZE - ivCount; if( noBytes < bytesToUse ) bytesToUse = noBytes; /* Decrypt the data */ for( i = 0; i < bytesToUse; i++ ) buffer[ i ] ^= convInfo->currentIV[ i + ivCount ]; /* Adjust the byte count and buffer position */ noBytes -= bytesToUse; buffer += bytesToUse; ivCount += bytesToUse; } while( noBytes > 0 ) { ivCount = ( noBytes > CAST_BLOCKSIZE ) ? CAST_BLOCKSIZE : noBytes; /* Encrypt the IV */ CAST_ecb_encrypt( convInfo->currentIV, convInfo->currentIV, convInfo->key, CAST_ENCRYPT ); /* XOR the buffer contents with the encrypted IV */ for( i = 0; i < ivCount; i++ ) buffer[ i ] ^= convInfo->currentIV[ i ]; /* Move on to next block of data */ noBytes -= ivCount; buffer += ivCount; } /* Remember how much of the IV is still available for use */ convInfo->ivCount = ( ivCount % CAST_BLOCKSIZE ); return( CRYPT_OK ); } /**************************************************************************** * * * CAST Key Management Routines * * * ****************************************************************************/ /* Key schedule an CAST key */ static int initKey( CONTEXT_INFO *contextInfoPtr, const void *key, const int keyLength ) { CONV_INFO *convInfo = contextInfoPtr->ctxConv; /* Copy the key to internal storage */ if( convInfo->userKey != key ) memcpy( convInfo->userKey, key, keyLength ); convInfo->userKeyLength = keyLength; CAST_set_key( convInfo->key, CAST_KEY_LENGTH, ( BYTE * ) key ); return( CRYPT_OK ); } /**************************************************************************** * * * Capability Access Routines * * * ****************************************************************************/ static const CAPABILITY_INFO FAR_BSS capabilityInfo = { CRYPT_ALGO_CAST, bitsToBytes( 64 ), "CAST-128", MIN_KEYSIZE, bitsToBytes( 128 ), bitsToBytes( 128 ), selfTest, getInfo, NULL, initKeyParams, initKey, NULL, encryptECB, decryptECB, encryptCBC, decryptCBC, encryptCFB, decryptCFB, encryptOFB, decryptOFB }; const CAPABILITY_INFO *getCASTCapability( void ) { return( &capabilityInfo ); } #endif /* USE_CAST */