35cb5bd236
Updated AESNI MB and AESNI GCM, KASUMI, ZUC and SNOW3G PMD documentation guides with information about the latest Intel IPSec Multi-buffer library supported. Signed-off-by: Pablo de Lara <pablo.de.lara.guarch@intel.com>
132 lines
4.6 KiB
ReStructuredText
132 lines
4.6 KiB
ReStructuredText
.. SPDX-License-Identifier: BSD-3-Clause
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Copyright(c) 2016-2019 Intel Corporation.
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KASUMI Crypto Poll Mode Driver
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===============================
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The KASUMI PMD (**librte_crypto_kasumi**) provides poll mode crypto driver support for
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utilizing `Intel IPSec Multi-buffer library <https://github.com/01org/intel-ipsec-mb>`_
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which implements F8 and F9 functions for KASUMI UEA1 cipher and UIA1 hash algorithms.
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Features
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--------
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KASUMI PMD has support for:
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Cipher algorithm:
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* RTE_CRYPTO_CIPHER_KASUMI_F8
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Authentication algorithm:
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* RTE_CRYPTO_AUTH_KASUMI_F9
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Limitations
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-----------
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* Chained mbufs are not supported.
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* KASUMI(F9) supported only if hash offset and length field is byte-aligned.
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* In-place bit-level operations for KASUMI(F8) are not supported
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(if length and/or offset of data to be ciphered is not byte-aligned).
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Installation
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------------
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To build DPDK with the KASUMI_PMD the user is required to download the multi-buffer
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library from `here <https://github.com/01org/intel-ipsec-mb>`_
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and compile it on their user system before building DPDK.
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The latest version of the library supported by this PMD is v1.2, which
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can be downloaded from `<https://github.com/01org/intel-ipsec-mb/archive/v1.2.zip>`_.
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After downloading the library, the user needs to unpack and compile it
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on their system before building DPDK:
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.. code-block:: console
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make
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make install
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The library requires NASM to be built. Depending on the library version, it might
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require a minimum NASM version (e.g. v0.54 requires at least NASM 2.14).
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NASM is packaged for different OS. However, on some OS the version is too old,
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so a manual installation is required. In that case, NASM can be downloaded from
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`NASM website <https://www.nasm.us/pub/nasm/releasebuilds/?C=M;O=D>`_.
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Once it is downloaded, extract it and follow these steps:
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.. code-block:: console
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./configure
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make
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make install
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.. note::
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Compilation of the Multi-Buffer library is broken when GCC < 5.0, if library <= v0.53.
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If a lower GCC version than 5.0, the workaround proposed by the following link
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should be used: `<https://github.com/intel/intel-ipsec-mb/issues/40>`_.
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As a reference, the following table shows a mapping between the past DPDK versions
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and the external crypto libraries supported by them:
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.. _table_kasumi_versions:
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.. table:: DPDK and external crypto library version compatibility
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============= ================================
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DPDK version Crypto library version
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============= ================================
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16.11 - 19.11 LibSSO KASUMI
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20.02 - 21.08 Multi-buffer library 0.53 - 1.2*
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21.11+ Multi-buffer library 1.0 - 1.2*
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============= ================================
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\* Multi-buffer library 1.0 or newer only works for Meson but not Make build system.
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Initialization
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--------------
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In order to enable this virtual crypto PMD, user must:
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* Build the multi buffer library (explained in Installation section).
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To use the PMD in an application, user must:
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* Call rte_vdev_init("crypto_kasumi") within the application.
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* Use --vdev="crypto_kasumi" in the EAL options, which will call rte_vdev_init() internally.
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The following parameters (all optional) can be provided in the previous two calls:
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* socket_id: Specify the socket where the memory for the device is going to be allocated
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(by default, socket_id will be the socket where the core that is creating the PMD is running on).
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* max_nb_queue_pairs: Specify the maximum number of queue pairs in the device (8 by default).
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* max_nb_sessions: Specify the maximum number of sessions that can be created (2048 by default).
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Example:
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.. code-block:: console
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./dpdk-l2fwd-crypto -l 1 -n 4 --vdev="crypto_kasumi,socket_id=0,max_nb_sessions=128" \
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-- -p 1 --cdev SW --chain CIPHER_ONLY --cipher_algo "kasumi-f8"
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Extra notes on KASUMI F9
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------------------------
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When using KASUMI F9 authentication algorithm, the input buffer must be
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constructed according to the 3GPP KASUMI specifications (section 4.4, page 13):
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`<http://cryptome.org/3gpp/35201-900.pdf>`_.
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Input buffer has to have COUNT (4 bytes), FRESH (4 bytes), MESSAGE and DIRECTION (1 bit)
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concatenated. After the DIRECTION bit, a single '1' bit is appended, followed by
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between 0 and 7 '0' bits, so that the total length of the buffer is multiple of 8 bits.
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Note that the actual message can be any length, specified in bits.
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Once this buffer is passed this way, when creating the crypto operation,
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length of data to authenticate (op.sym.auth.data.length) must be the length
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of all the items described above, including the padding at the end.
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Also, offset of data to authenticate (op.sym.auth.data.offset)
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must be such that points at the start of the COUNT bytes.
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