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SPDK fork of Intel(R) Multi-Buffer Crypto for IPSec
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======================================================================== README for Intel(R) Multi-Buffer Crypto for IPsec Library March 2018 ======================================================================== Contents ======== - Overview - Processor Extensions - Recommendations - Package Content - Compilation - Installation - Legal Disclaimer Overview ======== Intel Multi-Buffer Crypto for IPsec Library is highly-optimized software implementations of the core cryptographic processing for IPsec, which provides industry-leading performance on a range of Intel(R) Processors. For information on how to build and use this library, see the Intel White Paper: "Fast Multi-buffer IPsec Implementations on Intel Architecture Processors". Jim Guilford, Sean Gulley, et. al. The easiest way to find it is to search the Internet for the title and Intel White Paper. Table 1. List of supported cipher algorithms and their implementations. +---------------------------------------------------------------------+ | | Implementation | | Encryption +-----------------------------------------------------| | | x86_64 | SSE | AVX | AVX2 | AVX512 | VAES(6)| |---------------+--------+--------+--------+--------+--------+--------| | AES128-GCM | N | Y by8 | Y by8 | Y by8 | Y by8 | Y x4by8| | AES192-GCM | N | Y by8 | Y by8 | Y by8 | Y by8 | Y x4by8| | AES256-GCM | N | Y by8 | Y by8 | Y by8 | Y by8 | Y x4by8| | AES128-CCM | Y(1) | Y by4 | Y by8 | N | N | N | | AES128-CBC | N | Y(2) | Y(4) | N | N | N | | AES192-CBC | N | Y(2) | Y(4) | N | N | N | | AES256-CBC | N | Y(2) | Y(4) | N | N | N | | AES128-CTR | N | Y by4 | Y by8 | N | N | N | | AES192-CTR | N | Y by4 | Y by8 | N | N | N | | AES256-CTR | N | Y by4 | Y by8 | N | N | N | | NULL | Y | N | N | N | N | N | | AES128-DOCSIS | N | Y(3) | Y(5) | N | N | N | | DES-DOCSIS | Y | N | N | N | Y x16 | N | | 3DES | Y | N | N | N | Y x16 | N | | DES | Y | N | N | N | Y x16 | N | +---------------------------------------------------------------------+ Notes: (1) - AES128-CCM scheduler code is implemented in C at the moment. Underlaying AES128-CTR algorithm utlizes SSE and AVX. (2,3) - decryption is by4 and encryption is x4 (4,5) - decryption is by8 and encryption is x8 (6) - AVX512 plus VAES and VPCLMULQDQ extensions Legend: byY - single buffer Y blocks at a time xY - Y buffers at a time As an example of how to read table 1 and 2, if one uses AVX512 interface to perform AES128-CBC encryption then there is no native AVX512 implementation for this cipher. In such case, the library uses best available implementation which is AVX for AES128-CBC. Table 2. List of supported integrity algorithms and their implementations. +-------------------------------------------------------------------------+ | | Implementation | | Integrity +-----------------------------------------------------| | | x86_64 | SSE | AVX | AVX2 | AVX512 | VAES(4)| |-------------------+--------+--------+--------+--------+--------+--------| | AES-XCBC-96 | N | Y x4 | Y x8 | N | N | N | | HMAC-MD5-96 | Y(1) | Y x4x2 | Y x4x2 | Y x8x2 | N | N | | HMAC-SHA1-96 | N | Y(3)x4 | Y x4 | Y x8 | Y x16 | N | | HMAC-SHA2-224_112 | N | Y(3)x4 | Y x4 | Y x8 | Y x16 | N | | HMAC-SHA2-256_128 | N | Y(3)x4 | Y x4 | Y x8 | Y x16 | N | | HMAC-SHA2-384_192 | N | Y x2 | Y x2 | Y x4 | Y x8 | N | | HMAC-SHA2-512_256 | N | Y x2 | Y x2 | Y x4 | Y x8 | N | | AES128-GMAC | N | Y by8 | Y by8 | Y by8 | Y by8 | Y x4by8| | AES192-GMAC | N | Y by8 | Y by8 | Y by8 | Y by8 | Y x4by8| | AES256-GMAC | N | Y by8 | Y by8 | Y by8 | Y by8 | Y x4by8| | NULL | N | N | N | N | N | N | | AES128-CCM | Y(2) | Y x4 | Y x8 | N | N | N | | AES128-CMAC-96 | Y | Y x4 | Y x8 | N | N | N | +-------------------------------------------------------------------------+ Notes: (1) - MD5 over one block implemented in C (2) - AES128-CCM scheduler code is implemented in C. Underlaying AES128-CBC algorithm utlizes SSE and AVX. (3) - Implementation using SHANI extentions is x2 (4) - AVX512 plus VAES and VPCLMULQDQ extensions Legend: byY - single buffer Y blocks at a time xY - Y buffers at a time Table 3. Encryption and integrity algorithm combinations +---------------------------------------------------------------------+ | Encryption | Allowed Integrity Algorithms | |---------------+-----------------------------------------------------| | AES128-GCM | AES128-GMAC | |---------------+-----------------------------------------------------| | AES192-GCM | AES192-GMAC | |---------------+-----------------------------------------------------| | AES256-GCM | AES256-GMAC | |---------------+-----------------------------------------------------| | AES128-CCM | AES128-CCM | |---------------+-----------------------------------------------------| | AES128-CBC, | AES-XCBC-96, | | AES192-CBC, | HMAC-SHA1-96, HMAC-SHA2-224_112, HMAC-SHA2-256_128, | | AES256-CBC, | HMAC-SHA2-384_192, HMAC-SHA2-512_256, | | AES128-CTR, | AES128-CMAC-96, | | AES192-CTR, | NULL | | AES256-CTR, | | | NULL, | | | AES128-DOCSIS,| | | DES-DOCSIS, | | | 3DES, | | | DES, | | +---------------+-----------------------------------------------------+ Processor Extensions ==================== Table 4. Processor extensions used in the library +-------------------------------------------------------------------------+ | Algorithm | Interface | Extensions | |-------------------+-----------+-----------------------------------------| | HMAC-SHA1-96, | AVX512 | AVX512F, AVX512BW, AVX512VL | | HMAC-SHA2-224_112,| | | | HMAC-SHA2-256_128,| | | | HMAC-SHA2-384_192,| | | | HMAC-SHA2-512_256 | | | |-------------------+-----------+-----------------------------------------| | DES, 3DES, | AVX512 | AVX512F, AVX512BW | | DOCSIS-DES | | | |-------------------+-----------+-----------------------------------------| | HMAC-SHA1-96, | SSE | SHANI | | HMAC-SHA2-224_112,| | - presence is autodetected and library | | HMAC-SHA2-256_128,| | falls back to SSE implementation | | HMAC-SHA2-384_192,| | if not present | | HMAC-SHA2-512_256 | | | |-------------------+-----------+-----------------------------------------| Recommendations =============== Legacy or to be avoided algorithms listed in the table below are implemented in the library in order to support legacy applications. Please use corresponding alternative algorithms instead. +----------------------------------------------------------+ | # | Algorithm | Recommendation | Alternative | |---+--------------------+----------------+----------------| | 1 | DES encryption | Avoid | AES encryption | |---+--------------------+----------------+----------------| | 2 | 3DES encryption | Avoid | AES encryption | |---+--------------------+----------------+----------------| | 3 | HMAC-MD5 integrity | Legacy | HMAC-SHA1 | +----------------------------------------------------------+ Package Content =============== LibTestApp - Library test application LibPerfApp - Library performance application sse - Intel(R) SSE optimized routines avx - Intel(R) AVX optimized routines avx2 - Intel(R) AVX2 optimized routines avx512 - Intel(R) AVX512 optimized routines no-aesni - Non-AESNI accelerated routines Compilation =========== Linux (64-bit only) ------------------- Required tools: - GNU make - NASM version 2.13.03 (or newer) - gcc (GCC) 4.8.3 (or newer) Shared library: > make Static library: > make SHARED=n Clean the build: > make clean or > make clean SHARED=n Build with debugging information: > make DEBUG=y Note: Building with debugging information is not advised for production use. Windows (x64 only) ------------------ Required tools: - Microsoft (R) Visual Studio 2010: - NMAKE: Microsoft (R) Program Maintenance Utility Version 10.00.30319.01 - CL: Microsoft (R) C/C++ Optimizing Compiler Version 16.00.30319.01 for x64 - LIB: Microsoft (R) Library Manager Version 10.00.30319.01 - LINK: Microsoft (R) Incremental Linker Version 10.00.30319.01 - NASM version 2.13.03 (or newer) Shared library (DLL): > nmake /f win_x64.mak Static library: > nmake /f win_x64.mak SHARED=n Clean the build: > nmake /f win_x64.mak clean or > nmake /f win_x64.mak clean SHARED=n Build with debugging information: > nmake /f win_x64.mak DEBUG=y Note: Building with debugging information is not advised for production use. Installation ============ Linux (64-bit only) ------------------- First compile the library and then install: > make > sudo make install To uninstall the library run: > sudo make uninstall If you want to change install location then define PREFIX > sudo make install PREFIX=<path> If there is no need to run ldconfig at install stage please use NOLDCONFIG=y option. > sudo make install NOLDCONFIG=y If library was compiled as an archive (not a default option) then install it using SHARED=n option: > sudo make install SHARED=n Windows (x64 only) ------------------ First compile the library and then install from a command prompt in administrator mode: > nmake /f win_x64.mak > nmake /f win_x64.mak install To uninstall the library run: > nmake /f win_x64.mak uninstall If you want to change install location then define PREFIX (default C:\Program Files) > nmake /f win_x64.mak install PREFIX=<path> If library was compiled as a static library (not a default option) then install it using SHARED=n option: > nmake /f win_x64.mak install SHARED=n Legal Disclaimer ================ THIS SOFTWARE IS PROVIDED BY INTEL"AS IS". NO LICENSE, EXPRESS OR IMPLIED, BY ESTOPPEL OR OTHERWISE, TO ANY INTELLECTUAL PROPERTY RIGHTS ARE GRANTED THROUGH USE. EXCEPT AS PROVIDED IN INTEL'S TERMS AND CONDITIONS OF SALE, INTEL ASSUMES NO LIABILITY WHATSOEVER AND INTEL DISCLAIMS ANY EXPRESS OR IMPLIED WARRANTY, RELATING TO SALE AND/OR USE OF INTEL PRODUCTS INCLUDING LIABILITY OR WARRANTIES RELATING TO FITNESS FOR A PARTICULAR PURPOSE, MERCHANTABILITY, OR INFRINGEMENT OF ANY PATENT, COPYRIGHT OR OTHER INTELLECTUAL PROPERTY RIGHT.
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