99a2dd955f
There is no reason for the DPDK libraries to all have 'librte_' prefix on the directory names. This prefix makes the directory names longer and also makes it awkward to add features referring to individual libraries in the build - should the lib names be specified with or without the prefix. Therefore, we can just remove the library prefix and use the library's unique name as the directory name, i.e. 'eal' rather than 'librte_eal' Signed-off-by: Bruce Richardson <bruce.richardson@intel.com>
512 lines
16 KiB
C
512 lines
16 KiB
C
/* SPDX-License-Identifier: BSD-3-Clause
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* Copyright(c) 2017-2018 Intel Corporation
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*/
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#ifndef _RTE_COMP_H_
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#define _RTE_COMP_H_
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/**
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* @file rte_comp.h
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*
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* RTE definitions for Data Compression Service
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*
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*/
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#ifdef __cplusplus
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extern "C" {
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#endif
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#include <rte_mempool.h>
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#include <rte_mbuf.h>
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/**
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* compression service feature flags
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*
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* @note New features flags should be added to the end of the list
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*
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* Keep these flags synchronised with rte_comp_get_feature_name()
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*/
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#define RTE_COMP_FF_STATEFUL_COMPRESSION (1ULL << 0)
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/**< Stateful compression is supported */
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#define RTE_COMP_FF_STATEFUL_DECOMPRESSION (1ULL << 1)
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/**< Stateful decompression is supported */
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#define RTE_COMP_FF_OOP_SGL_IN_SGL_OUT (1ULL << 2)
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/**< Out-of-place Scatter-gather (SGL) buffers,
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* with multiple segments, are supported in input and output
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*/
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#define RTE_COMP_FF_OOP_SGL_IN_LB_OUT (1ULL << 3)
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/**< Out-of-place Scatter-gather (SGL) buffers are supported
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* in input, combined with linear buffers (LB), with a
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* single segment, in output
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*/
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#define RTE_COMP_FF_OOP_LB_IN_SGL_OUT (1ULL << 4)
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/**< Out-of-place Scatter-gather (SGL) buffers are supported
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* in output, combined with linear buffers (LB) in input
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*/
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#define RTE_COMP_FF_ADLER32_CHECKSUM (1ULL << 5)
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/**< Adler-32 Checksum is supported */
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#define RTE_COMP_FF_CRC32_CHECKSUM (1ULL << 6)
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/**< CRC32 Checksum is supported */
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#define RTE_COMP_FF_CRC32_ADLER32_CHECKSUM (1ULL << 7)
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/**< Adler-32/CRC32 Checksum is supported */
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#define RTE_COMP_FF_MULTI_PKT_CHECKSUM (1ULL << 8)
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/**< Generation of checksum across multiple stateless packets is supported */
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#define RTE_COMP_FF_SHA1_HASH (1ULL << 9)
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/**< SHA1 Hash is supported */
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#define RTE_COMP_FF_SHA2_SHA256_HASH (1ULL << 10)
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/**< SHA256 Hash of SHA2 family is supported */
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#define RTE_COMP_FF_NONCOMPRESSED_BLOCKS (1ULL << 11)
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/**< Creation of non-compressed blocks using RTE_COMP_LEVEL_NONE is supported */
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#define RTE_COMP_FF_SHAREABLE_PRIV_XFORM (1ULL << 12)
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/**< Private xforms created by the PMD can be shared
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* across multiple stateless operations. If not set, then app needs
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* to create as many priv_xforms as it expects to have stateless
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* operations in-flight.
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*/
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#define RTE_COMP_FF_HUFFMAN_FIXED (1ULL << 13)
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/**< Fixed huffman encoding is supported */
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#define RTE_COMP_FF_HUFFMAN_DYNAMIC (1ULL << 14)
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/**< Dynamic huffman encoding is supported */
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/** Status of comp operation */
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enum rte_comp_op_status {
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RTE_COMP_OP_STATUS_SUCCESS = 0,
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/**< Operation completed successfully */
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RTE_COMP_OP_STATUS_NOT_PROCESSED,
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/**< Operation has not yet been processed by the device */
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RTE_COMP_OP_STATUS_INVALID_ARGS,
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/**< Operation failed due to invalid arguments in request */
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RTE_COMP_OP_STATUS_ERROR,
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/**< Error handling operation */
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RTE_COMP_OP_STATUS_INVALID_STATE,
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/**< Operation is invoked in invalid state */
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RTE_COMP_OP_STATUS_OUT_OF_SPACE_TERMINATED,
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/**< Output buffer ran out of space before operation completed.
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* Error case. Application must resubmit all data with a larger
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* output buffer.
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*/
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RTE_COMP_OP_STATUS_OUT_OF_SPACE_RECOVERABLE,
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/**< Output buffer ran out of space before operation completed, but this
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* is not an error case. Output data up to op.produced can be used and
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* next op in the stream should continue on from op.consumed+1.
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*/
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};
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/** Compression Algorithms */
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enum rte_comp_algorithm {
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RTE_COMP_ALGO_UNSPECIFIED = 0,
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/** No Compression algorithm */
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RTE_COMP_ALGO_NULL,
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/**< No compression.
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* Pass-through, data is copied unchanged from source buffer to
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* destination buffer.
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*/
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RTE_COMP_ALGO_DEFLATE,
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/**< DEFLATE compression algorithm
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* https://tools.ietf.org/html/rfc1951
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*/
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RTE_COMP_ALGO_LZS,
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/**< LZS compression algorithm
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* https://tools.ietf.org/html/rfc2395
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*/
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RTE_COMP_ALGO_LIST_END
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};
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/** Compression Hash Algorithms */
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enum rte_comp_hash_algorithm {
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RTE_COMP_HASH_ALGO_NONE = 0,
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/**< No hash */
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RTE_COMP_HASH_ALGO_SHA1,
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/**< SHA1 hash algorithm */
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RTE_COMP_HASH_ALGO_SHA2_256,
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/**< SHA256 hash algorithm of SHA2 family */
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RTE_COMP_HASH_ALGO_LIST_END
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};
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/**< Compression Level.
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* The number is interpreted by each PMD differently. However, lower numbers
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* give fastest compression, at the expense of compression ratio while
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* higher numbers may give better compression ratios but are likely slower.
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*/
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#define RTE_COMP_LEVEL_PMD_DEFAULT (-1)
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/** Use PMD Default */
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#define RTE_COMP_LEVEL_NONE (0)
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/** Output uncompressed blocks if supported by the specified algorithm */
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#define RTE_COMP_LEVEL_MIN (1)
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/** Use minimum compression level supported by the PMD */
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#define RTE_COMP_LEVEL_MAX (9)
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/** Use maximum compression level supported by the PMD */
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/** Compression checksum types */
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enum rte_comp_checksum_type {
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RTE_COMP_CHECKSUM_NONE,
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/**< No checksum generated */
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RTE_COMP_CHECKSUM_CRC32,
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/**< Generates a CRC32 checksum, as used by gzip */
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RTE_COMP_CHECKSUM_ADLER32,
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/**< Generates an Adler-32 checksum, as used by zlib */
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RTE_COMP_CHECKSUM_CRC32_ADLER32,
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/**< Generates both Adler-32 and CRC32 checksums, concatenated.
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* CRC32 is in the lower 32bits, Adler-32 in the upper 32 bits.
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*/
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};
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/** Compression Huffman Type - used by DEFLATE algorithm */
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enum rte_comp_huffman {
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RTE_COMP_HUFFMAN_DEFAULT,
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/**< PMD may choose which Huffman codes to use */
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RTE_COMP_HUFFMAN_FIXED,
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/**< Use Fixed Huffman codes */
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RTE_COMP_HUFFMAN_DYNAMIC,
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/**< Use Dynamic Huffman codes */
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};
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/** Compression flush flags */
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enum rte_comp_flush_flag {
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RTE_COMP_FLUSH_NONE,
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/**< Data is not flushed. Output may remain in the compressor and be
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* processed during a following op. It may not be possible to decompress
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* output until a later op with some other flush flag has been sent.
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*/
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RTE_COMP_FLUSH_SYNC,
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/**< All data should be flushed to output buffer. Output data can be
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* decompressed. However state and history is not cleared, so future
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* operations may use history from this operation.
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*/
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RTE_COMP_FLUSH_FULL,
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/**< All data should be flushed to output buffer. Output data can be
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* decompressed. State and history data is cleared, so future
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* ops will be independent of ops processed before this.
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*/
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RTE_COMP_FLUSH_FINAL
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/**< Same as RTE_COMP_FLUSH_FULL but if op.algo is RTE_COMP_ALGO_DEFLATE
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* then bfinal bit is set in the last block.
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*/
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};
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/** Compression transform types */
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enum rte_comp_xform_type {
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RTE_COMP_COMPRESS,
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/**< Compression service - compress */
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RTE_COMP_DECOMPRESS,
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/**< Compression service - decompress */
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};
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/** Compression operation type */
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enum rte_comp_op_type {
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RTE_COMP_OP_STATELESS,
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/**< All data to be processed is submitted in the op, no state or
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* history from previous ops is used and none will be stored for future
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* ops. Flush flag must be set to either FLUSH_FULL or FLUSH_FINAL.
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*/
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RTE_COMP_OP_STATEFUL
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/**< There may be more data to be processed after this op, it's part of
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* a stream of data. State and history from previous ops can be used
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* and resulting state and history can be stored for future ops,
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* depending on flush flag.
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*/
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};
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/** Parameters specific to the deflate algorithm */
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struct rte_comp_deflate_params {
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enum rte_comp_huffman huffman;
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/**< Compression huffman encoding type */
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};
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/** Setup Data for compression */
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struct rte_comp_compress_xform {
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enum rte_comp_algorithm algo;
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/**< Algorithm to use for compress operation */
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union {
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struct rte_comp_deflate_params deflate;
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/**< Parameters specific to the deflate algorithm */
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}; /**< Algorithm specific parameters */
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int level;
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/**< Compression level */
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uint8_t window_size;
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/**< Base two log value of sliding window to be used. If window size
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* can't be supported by the PMD then it may fall back to a smaller
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* size. This is likely to result in a worse compression ratio.
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*/
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enum rte_comp_checksum_type chksum;
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/**< Type of checksum to generate on the uncompressed data */
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enum rte_comp_hash_algorithm hash_algo;
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/**< Hash algorithm to be used with compress operation. Hash is always
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* done on plaintext.
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*/
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};
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/**
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* Setup Data for decompression.
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*/
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struct rte_comp_decompress_xform {
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enum rte_comp_algorithm algo;
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/**< Algorithm to use for decompression */
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enum rte_comp_checksum_type chksum;
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/**< Type of checksum to generate on the decompressed data */
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uint8_t window_size;
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/**< Base two log value of sliding window which was used to generate
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* compressed data. If window size can't be supported by the PMD then
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* setup of stream or private_xform should fail.
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*/
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enum rte_comp_hash_algorithm hash_algo;
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/**< Hash algorithm to be used with decompress operation. Hash is always
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* done on plaintext.
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*/
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};
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/**
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* Compression transform structure.
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*
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* This is used to specify the compression transforms required.
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* Each transform structure can hold a single transform, the type field is
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* used to specify which transform is contained within the union.
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*/
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struct rte_comp_xform {
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enum rte_comp_xform_type type;
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/**< xform type */
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union {
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struct rte_comp_compress_xform compress;
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/**< xform for compress operation */
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struct rte_comp_decompress_xform decompress;
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/**< decompress xform */
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};
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};
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/**
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* Compression Operation.
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*
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* This structure contains data relating to performing a compression
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* operation on the referenced mbuf data buffers.
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*
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* Comp operations are enqueued and dequeued in comp PMDs using the
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* rte_compressdev_enqueue_burst() / rte_compressdev_dequeue_burst() APIs
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*/
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struct rte_comp_op {
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enum rte_comp_op_type op_type;
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union {
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void *private_xform;
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/**< Stateless private PMD data derived from an rte_comp_xform.
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* A handle returned by rte_compressdev_private_xform_create()
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* must be attached to operations of op_type RTE_COMP_STATELESS.
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*/
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void *stream;
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/**< Private PMD data derived initially from an rte_comp_xform,
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* which holds state and history data and evolves as operations
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* are processed. rte_compressdev_stream_create() must be called
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* on a device for all STATEFUL data streams and the resulting
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* stream attached to the one or more operations associated
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* with the data stream.
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* All operations in a stream must be sent to the same device.
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*/
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};
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struct rte_mempool *mempool;
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/**< Pool from which operation is allocated */
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rte_iova_t iova_addr;
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/**< IOVA address of this operation */
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struct rte_mbuf *m_src;
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/**< source mbuf
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* The total size of the input buffer(s) can be retrieved using
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* rte_pktmbuf_pkt_len(m_src). The max data size which can fit in a
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* single mbuf is limited by the uint16_t rte_mbuf.data_len to 64k-1.
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* If the input data is bigger than this it can be passed to the PMD in
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* a chain of mbufs if the PMD's capabilities indicate it supports this.
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*/
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struct rte_mbuf *m_dst;
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/**< destination mbuf
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* The total size of the output buffer(s) can be retrieved using
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* rte_pktmbuf_pkt_len(m_dst). The max data size which can fit in a
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* single mbuf is limited by the uint16_t rte_mbuf.data_len to 64k-1.
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* If the output data is expected to be bigger than this a chain of
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* mbufs can be passed to the PMD if the PMD's capabilities indicate
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* it supports this.
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*
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* @note, if incompressible data is passed to an engine for compression
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* using RTE_COMP_ALGO_DEFLATE, it's possible for the output data
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* to be larger than the uncompressed data, due to the inclusion
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* of the DEFLATE header blocks. The size of m_dst should accommodate
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* this, else OUT_OF_SPACE errors can be expected in this case.
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*/
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struct {
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uint32_t offset;
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/**< Starting point for compression or decompression,
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* specified as number of bytes from start of packet in
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* source buffer.
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* This offset starts from the first segment
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* of the buffer, in case the m_src is a chain of mbufs.
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* Starting point for checksum generation in compress direction.
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*/
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uint32_t length;
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/**< The length, in bytes, of the data in source buffer
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* to be compressed or decompressed.
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* Also the length of the data over which the checksum
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* should be generated in compress direction
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*/
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} src;
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struct {
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uint32_t offset;
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/**< Starting point for writing output data, specified as
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* number of bytes from start of packet in dest
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* buffer.
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* This offset starts from the first segment
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* of the buffer, in case the m_dst is a chain of mbufs.
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* Starting point for checksum generation in
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* decompress direction.
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*/
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} dst;
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struct {
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uint8_t *digest;
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/**< Output buffer to store hash output, if enabled in xform.
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* Buffer would contain valid value only after an op with
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* flush flag = RTE_COMP_FLUSH_FULL/FLUSH_FINAL is processed
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* successfully.
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*
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* Length of buffer should be contiguous and large enough to
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* accommodate digest produced by specific hash algo.
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*/
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rte_iova_t iova_addr;
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/**< IO address of the buffer */
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} hash;
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enum rte_comp_flush_flag flush_flag;
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/**< Defines flush characteristics for the output data.
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* Only applicable in compress direction
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*/
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uint64_t input_chksum;
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/**< An input checksum can be provided to generate a
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* cumulative checksum across sequential blocks in a STATELESS stream.
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* Checksum type is as specified in xform chksum_type
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*/
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uint64_t output_chksum;
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/**< If a checksum is generated it will be written in here.
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* Checksum type is as specified in xform chksum_type.
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*/
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uint32_t consumed;
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/**< The number of bytes from the source buffer
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* which were compressed/decompressed.
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*/
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uint32_t produced;
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/**< The number of bytes written to the destination buffer
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* which were compressed/decompressed.
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*/
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uint64_t debug_status;
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/**<
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* Status of the operation is returned in the status param.
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* This field allows the PMD to pass back extra
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* pmd-specific debug information. Value is not defined on the API.
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*/
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uint8_t status;
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/**<
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* Operation status - use values from enum rte_comp_status.
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* This is reset to
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* RTE_COMP_OP_STATUS_NOT_PROCESSED on allocation from mempool and
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* will be set to RTE_COMP_OP_STATUS_SUCCESS after operation
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* is successfully processed by a PMD
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*/
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} __rte_cache_aligned;
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/**
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* Creates an operation pool
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*
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* @param name
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* Compress pool name
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* @param nb_elts
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* Number of elements in pool
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* @param cache_size
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* Number of elements to cache on lcore, see
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* *rte_mempool_create* for further details about cache size
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* @param user_size
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* Size of private data to allocate for user with each operation
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* @param socket_id
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* Socket to identifier allocate memory on
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* @return
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* - On success pointer to mempool
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* - On failure NULL
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*/
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__rte_experimental
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struct rte_mempool *
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rte_comp_op_pool_create(const char *name,
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unsigned int nb_elts, unsigned int cache_size,
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uint16_t user_size, int socket_id);
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/**
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* Allocate an operation from a mempool with default parameters set
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*
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* @param mempool
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* Compress operation mempool
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*
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* @return
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* - On success returns a valid rte_comp_op structure
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* - On failure returns NULL
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*/
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__rte_experimental
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struct rte_comp_op *
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rte_comp_op_alloc(struct rte_mempool *mempool);
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/**
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* Bulk allocate operations from a mempool with default parameters set
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*
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* @param mempool
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* Compress operation mempool
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* @param ops
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* Array to place allocated operations
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* @param nb_ops
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* Number of operations to allocate
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* @return
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* - nb_ops: Success, the nb_ops requested was allocated
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* - 0: Not enough entries in the mempool; no ops are retrieved.
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*/
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__rte_experimental
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int
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rte_comp_op_bulk_alloc(struct rte_mempool *mempool,
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struct rte_comp_op **ops, uint16_t nb_ops);
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/**
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* Free operation structure
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* If operation has been allocate from a rte_mempool, then the operation will
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* be returned to the mempool.
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*
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* @param op
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* Compress operation
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*/
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__rte_experimental
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void
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rte_comp_op_free(struct rte_comp_op *op);
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|
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/**
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|
* Bulk free operation structures
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* If operations have been allocated from an rte_mempool, then the operations
|
|
* will be returned to the mempool.
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|
* The array entry will be cleared.
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|
*
|
|
* @param ops
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|
* Array of Compress operations
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|
* @param nb_ops
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|
* Number of operations to free
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|
*/
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|
__rte_experimental
|
|
void
|
|
rte_comp_op_bulk_free(struct rte_comp_op **ops, uint16_t nb_ops);
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|
|
|
/**
|
|
* Get the name of a compress service feature flag
|
|
*
|
|
* @param flag
|
|
* The mask describing the flag
|
|
*
|
|
* @return
|
|
* The name of this flag, or NULL if it's not a valid feature flag.
|
|
*/
|
|
__rte_experimental
|
|
const char *
|
|
rte_comp_get_feature_name(uint64_t flag);
|
|
|
|
#ifdef __cplusplus
|
|
}
|
|
#endif
|
|
|
|
#endif /* _RTE_COMP_H_ */
|