1 /**************************************************************************/ 2 /* */ 3 /* Copyright (c) Microsoft Corporation. All rights reserved. */ 4 /* */ 5 /* This software is licensed under the Microsoft Software License */ 6 /* Terms for Microsoft Azure RTOS. Full text of the license can be */ 7 /* found in the LICENSE file at https://aka.ms/AzureRTOS_EULA */ 8 /* and in the root directory of this software. */ 9 /* */ 10 /**************************************************************************/ 11 12 13 /**************************************************************************/ 14 /**************************************************************************/ 15 /** */ 16 /** NetX Crypto Component */ 17 /** */ 18 /** CBC Mode */ 19 /** */ 20 /**************************************************************************/ 21 /**************************************************************************/ 22 23 24 /**************************************************************************/ 25 /* */ 26 /* APPLICATION INTERFACE DEFINITION RELEASE */ 27 /* */ 28 /* nx_crypto_cbc.h PORTABLE C */ 29 /* 6.1 */ 30 /* AUTHOR */ 31 /* */ 32 /* Timothy Stapko, Microsoft Corporation */ 33 /* */ 34 /* DESCRIPTION */ 35 /* */ 36 /* This file defines the basic Application Interface (API) to the */ 37 /* NetX Crypto CBC module. */ 38 /* */ 39 /* RELEASE HISTORY */ 40 /* */ 41 /* DATE NAME DESCRIPTION */ 42 /* */ 43 /* 05-19-2020 Timothy Stapko Initial Version 6.0 */ 44 /* 09-30-2020 Timothy Stapko Modified comment(s), */ 45 /* resulting in version 6.1 */ 46 /* */ 47 /**************************************************************************/ 48 49 #ifndef NX_CRYPTO_CBC_H 50 #define NX_CRYPTO_CBC_H 51 52 /* Determine if a C++ compiler is being used. If so, ensure that standard 53 C is used to process the API information. */ 54 #ifdef __cplusplus 55 56 /* Yes, C++ compiler is present. Use standard C. */ 57 extern "C" { 58 59 #endif 60 61 /* Include the ThreadX and port-specific data type file. */ 62 63 #include "nx_crypto.h" 64 65 #ifndef NX_CRYPTO_CBC_MAX_BLOCK_SIZE 66 #define NX_CRYPTO_CBC_MAX_BLOCK_SIZE 16 67 #endif /* NX_CRYPTO_CBC_MAX_BLOCK_SIZE */ 68 69 typedef struct NX_CRYPTO_CBC_STRUCT 70 { 71 72 /* Initial Vector for next round. */ 73 UCHAR nx_crypto_cbc_last_block[NX_CRYPTO_CBC_MAX_BLOCK_SIZE]; 74 } NX_CRYPTO_CBC; 75 76 NX_CRYPTO_KEEP UINT _nx_crypto_cbc_encrypt(VOID *crypto_metadata, NX_CRYPTO_CBC *cbc_metadata, 77 UINT (*crypto_function)(VOID *, UCHAR *, UCHAR *, UINT), 78 UCHAR *input, UCHAR *output, UINT length, UCHAR block_size); 79 80 NX_CRYPTO_KEEP UINT _nx_crypto_cbc_decrypt(VOID *crypto_metadata, NX_CRYPTO_CBC *cbc_metadata, 81 UINT (*crypto_function)(VOID *, UCHAR *, UCHAR *, UINT), 82 UCHAR *input, UCHAR *output, UINT length, UCHAR block_size); 83 84 NX_CRYPTO_KEEP UINT _nx_crypto_cbc_encrypt_init(NX_CRYPTO_CBC *cbc_metadata, UCHAR *iv, UINT iv_len); 85 86 #define _nx_crypto_cbc_decrypt_init _nx_crypto_cbc_encrypt_init 87 88 #ifdef __cplusplus 89 } 90 #endif 91 92 93 #endif /* NX_CRYPTO_CBC_H */ 94 95
