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156 lines
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===============================================
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QAT Acceleration for Encryption and Compression
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===============================================
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Intel QAT (QuickAssist Technology) can provide extended accelerated encryption
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and compression services by offloading the actual encryption and compression
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request(s) to the hardware QuickAssist accelerators, which are more efficient
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in terms of cost and power than general purpose CPUs for those specific
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compute-intensive workloads.
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See `QAT Support for Compression`_ and `QAT based Encryption for RGW`_.
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QAT in the Software Stack
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=========================
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Application developers can access QuickAssist features through the QAT API.
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The QAT API is the top-level API for QuickAssist technology, and enables easy
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interfacing between the customer application and the QuickAssist acceleration
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driver.
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The QAT API accesses the QuickAssist driver, which in turn drives the
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QuickAssist Accelerator hardware. The QuickAssist driver is responsible for
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exposing the acceleration services to the application software.
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A user can write directly to the QAT API, or the use of QAT can be done via
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frameworks that have been enabled by others including Intel (for example, zlib*,
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OpenSSL* libcrypto*, and the Linux* Kernel Crypto Framework).
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QAT Environment Setup
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=====================
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1. QuickAssist Accelerator hardware is necessary to make use of accelerated
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encryption and compression services. And QAT driver in kernel space have to
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be loaded to drive the hardware.
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The driver package can be downloaded from `Intel Quickassist Technology`_.
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2. The implementation for QAT based encryption is directly base on QAT API which
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is included the driver package. But QAT support for compression depends on
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QATzip project, which is a user space library which builds on top of the QAT
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API. Currently, QATzip speeds up gzip compression and decompression at the
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time of writing.
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See `QATzip`_.
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Implementation
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==============
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1. QAT based Encryption for RGW
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`OpenSSL support for RGW encryption`_ has been merged into Ceph, and Intel also
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provides one `QAT Engine`_ for OpenSSL. So, theoretically speaking, QAT based
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encryption in Ceph can be directly supported through OpenSSl+QAT Engine.
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But the QAT Engine for OpenSSL currently supports chained operations only, and
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so Ceph will not be able to utilize QAT hardware feature for crypto operations
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based on OpenSSL crypto plugin. As a result, one QAT plugin based on native
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QAT API is added into crypto framework.
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2. QAT Support for Compression
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As mentioned above, QAT support for compression is based on QATzip library in
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user space, which is designed to take full advantage of the performance provided
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by QuickAssist Technology. Unlike QAT based encryption, QAT based compression
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is supported through a tool class for QAT acceleration rather than a compressor
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plugin. The common tool class can transparently accelerate the existing compression
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types, but only zlib compressor can be supported at the time of writing. So
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user is allowed to use it to speed up zlib compressor as long as the QAT
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hardware is available and QAT is capable to handle it.
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Configuration
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=============
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#. Prerequisites
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Make sure the QAT driver with version v1.7.L.4.14.0 or higher has been installed.
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Remember to set an environment variable "ICP_ROOT" for your QAT driver package
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root directory.
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To enable the QAT based encryption and compression, user needs to modify the QAT
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configuration files. For example, for Intel QuickAssist Adapter 8970 product, revise
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c6xx_dev0/1/2.conf in the directory ``/etc/`` and keep them the same, e.g.:
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.. code-block:: ini
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#...
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# User Process Instance Section
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##############################################
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[CEPH]
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NumberCyInstances = 1
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NumberDcInstances = 1
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NumProcesses = 8
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LimitDevAccess = 1
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# Crypto - User instance #0
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Cy0Name = "SSL0"
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Cy0IsPolled = 1
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# List of core affinities
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Cy0CoreAffinity = 0
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# Data Compression - User instance #0
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Dc0Name = "Dc0"
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Dc0IsPolled = 1
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# List of core affinities
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Dc0CoreAffinity = 0
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#. QAT based Encryption for RGW
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The CMake option ``WITH_QAT=ON`` must be configured. If you build Ceph from
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source code (see: :ref:`build-ceph`), navigate to your cloned Ceph repository
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and execute the following:
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.. prompt:: bash $
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cd ceph
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./do_cmake.sh -DWITH_QAT=ON
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cd build
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ininja
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.. note::
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The section name of the QAT configuration files must be ``CEPH`` since
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the section name is set as "CEPH" in Ceph crypto source code.
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Then, edit the Ceph configuration file to make use of QAT based crypto plugin::
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plugin crypto accelerator = crypto_qat
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#. QAT Support for Compression
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Before starting, make sure both QAT driver and `QATzip`_ have been installed. Besides
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"ICP_ROOT", remember to set the environment variable "QZ_ROOT" for the root directory
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of your QATzip source tree.
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The following CMake options have to be configured to trigger QAT based compression
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when building Ceph:
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.. prompt:: bash $
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./do_cmake.sh -DWITH_QAT=ON -DWITH_QATZIP=ON
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Then, set an environment variable to clarify the section name of User Process Instance
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Section in QAT configuration files, e.g.:
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.. prompt:: bash $
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export QAT_SECTION_NAME=CEPH
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Next, edit the Ceph configuration file to enable QAT support for compression::
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qat compressor enabled=true
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.. _QAT Support for Compression: https://github.com/ceph/ceph/pull/19714
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.. _QAT based Encryption for RGW: https://github.com/ceph/ceph/pull/19386
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.. _Intel Quickassist Technology: https://01.org/intel-quickassist-technology
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.. _QATzip: https://github.com/intel/QATzip
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.. _OpenSSL support for RGW encryption: https://github.com/ceph/ceph/pull/15168
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.. _QAT Engine: https://github.com/intel/QAT_Engine
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