a15b29ebe6
As per srTCM RFC 2697, we should be updating the E bucket only after the C bucket overflows. This patch fixes the current DPDK implementation, where we are updating both the buckets simultaneously at the same rate (CIR) which results in token accumulation rate of (2*CIR). Signed-off-by: Nikhil Jagtap <nikhil.jagtap@gmail.com> Acked-by: Cristian Dumitrescu <cristian.dumitrescu@intel.com>
392 lines
11 KiB
C
392 lines
11 KiB
C
/*-
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* BSD LICENSE
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*
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* Copyright(c) 2010-2014 Intel Corporation. All rights reserved.
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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*
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* * Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* * Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in
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* the documentation and/or other materials provided with the
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* distribution.
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* * Neither the name of Intel Corporation nor the names of its
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* contributors may be used to endorse or promote products derived
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* from this software without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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#ifndef __INCLUDE_RTE_METER_H__
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#define __INCLUDE_RTE_METER_H__
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#ifdef __cplusplus
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extern "C" {
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#endif
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/**
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* @file
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* RTE Traffic Metering
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*
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* Traffic metering algorithms:
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* 1. Single Rate Three Color Marker (srTCM): defined by IETF RFC 2697
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* 2. Two Rate Three Color Marker (trTCM): defined by IETF RFC 2698
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*
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***/
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#include <stdint.h>
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/*
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* Application Programmer's Interface (API)
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*
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***/
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/** Packet Color Set */
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enum rte_meter_color {
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e_RTE_METER_GREEN = 0, /**< Green */
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e_RTE_METER_YELLOW, /**< Yellow */
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e_RTE_METER_RED, /**< Red */
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e_RTE_METER_COLORS /**< Number of available colors */
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};
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/** srTCM parameters per metered traffic flow. The CIR, CBS and EBS parameters only
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count bytes of IP packets and do not include link specific headers. At least one of
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the CBS or EBS parameters has to be greater than zero. */
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struct rte_meter_srtcm_params {
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uint64_t cir; /**< Committed Information Rate (CIR). Measured in bytes per second. */
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uint64_t cbs; /**< Committed Burst Size (CBS). Measured in bytes. */
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uint64_t ebs; /**< Excess Burst Size (EBS). Measured in bytes. */
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};
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/** trTCM parameters per metered traffic flow. The CIR, PIR, CBS and PBS parameters
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only count bytes of IP packets and do not include link specific headers. PIR has to
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be greater than or equal to CIR. Both CBS or EBS have to be greater than zero. */
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struct rte_meter_trtcm_params {
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uint64_t cir; /**< Committed Information Rate (CIR). Measured in bytes per second. */
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uint64_t pir; /**< Peak Information Rate (PIR). Measured in bytes per second. */
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uint64_t cbs; /**< Committed Burst Size (CBS). Measured in byes. */
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uint64_t pbs; /**< Peak Burst Size (PBS). Measured in bytes. */
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};
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/** Internal data structure storing the srTCM run-time context per metered traffic flow. */
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struct rte_meter_srtcm;
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/** Internal data structure storing the trTCM run-time context per metered traffic flow. */
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struct rte_meter_trtcm;
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/**
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* srTCM configuration per metered traffic flow
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*
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* @param m
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* Pointer to pre-allocated srTCM data structure
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* @param params
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* User parameters per srTCM metered traffic flow
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* @return
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* 0 upon success, error code otherwise
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*/
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int
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rte_meter_srtcm_config(struct rte_meter_srtcm *m,
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struct rte_meter_srtcm_params *params);
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/**
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* trTCM configuration per metered traffic flow
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*
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* @param m
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* Pointer to pre-allocated trTCM data structure
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* @param params
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* User parameters per trTCM metered traffic flow
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* @return
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* 0 upon success, error code otherwise
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*/
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int
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rte_meter_trtcm_config(struct rte_meter_trtcm *m,
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struct rte_meter_trtcm_params *params);
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/**
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* srTCM color blind traffic metering
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*
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* @param m
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* Handle to srTCM instance
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* @param time
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* Current CPU time stamp (measured in CPU cycles)
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* @param pkt_len
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* Length of the current IP packet (measured in bytes)
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* @return
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* Color assigned to the current IP packet
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*/
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static inline enum rte_meter_color
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rte_meter_srtcm_color_blind_check(struct rte_meter_srtcm *m,
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uint64_t time,
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uint32_t pkt_len);
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/**
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* srTCM color aware traffic metering
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*
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* @param m
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* Handle to srTCM instance
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* @param time
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* Current CPU time stamp (measured in CPU cycles)
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* @param pkt_len
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* Length of the current IP packet (measured in bytes)
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* @param pkt_color
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* Input color of the current IP packet
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* @return
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* Color assigned to the current IP packet
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*/
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static inline enum rte_meter_color
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rte_meter_srtcm_color_aware_check(struct rte_meter_srtcm *m,
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uint64_t time,
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uint32_t pkt_len,
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enum rte_meter_color pkt_color);
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/**
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* trTCM color blind traffic metering
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*
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* @param m
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* Handle to trTCM instance
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* @param time
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* Current CPU time stamp (measured in CPU cycles)
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* @param pkt_len
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* Length of the current IP packet (measured in bytes)
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* @return
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* Color assigned to the current IP packet
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*/
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static inline enum rte_meter_color
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rte_meter_trtcm_color_blind_check(struct rte_meter_trtcm *m,
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uint64_t time,
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uint32_t pkt_len);
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/**
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* trTCM color aware traffic metering
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*
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* @param m
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* Handle to trTCM instance
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* @param time
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* Current CPU time stamp (measured in CPU cycles)
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* @param pkt_len
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* Length of the current IP packet (measured in bytes)
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* @param pkt_color
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* Input color of the current IP packet
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* @return
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* Color assigned to the current IP packet
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*/
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static inline enum rte_meter_color
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rte_meter_trtcm_color_aware_check(struct rte_meter_trtcm *m,
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uint64_t time,
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uint32_t pkt_len,
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enum rte_meter_color pkt_color);
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/*
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* Inline implementation of run-time methods
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*
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***/
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/* Internal data structure storing the srTCM run-time context per metered traffic flow. */
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struct rte_meter_srtcm {
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uint64_t time; /* Time of latest update of C and E token buckets */
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uint64_t tc; /* Number of bytes currently available in the committed (C) token bucket */
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uint64_t te; /* Number of bytes currently available in the excess (E) token bucket */
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uint64_t cbs; /* Upper limit for C token bucket */
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uint64_t ebs; /* Upper limit for E token bucket */
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uint64_t cir_period; /* Number of CPU cycles for one update of C and E token buckets */
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uint64_t cir_bytes_per_period; /* Number of bytes to add to C and E token buckets on each update */
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};
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/* Internal data structure storing the trTCM run-time context per metered traffic flow. */
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struct rte_meter_trtcm {
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uint64_t time_tc; /* Time of latest update of C token bucket */
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uint64_t time_tp; /* Time of latest update of E token bucket */
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uint64_t tc; /* Number of bytes currently available in the committed (C) token bucket */
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uint64_t tp; /* Number of bytes currently available in the peak (P) token bucket */
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uint64_t cbs; /* Upper limit for C token bucket */
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uint64_t pbs; /* Upper limit for P token bucket */
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uint64_t cir_period; /* Number of CPU cycles for one update of C token bucket */
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uint64_t cir_bytes_per_period; /* Number of bytes to add to C token bucket on each update */
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uint64_t pir_period; /* Number of CPU cycles for one update of P token bucket */
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uint64_t pir_bytes_per_period; /* Number of bytes to add to P token bucket on each update */
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};
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static inline enum rte_meter_color
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rte_meter_srtcm_color_blind_check(struct rte_meter_srtcm *m,
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uint64_t time,
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uint32_t pkt_len)
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{
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uint64_t time_diff, n_periods, tc, te;
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/* Bucket update */
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time_diff = time - m->time;
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n_periods = time_diff / m->cir_period;
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m->time += n_periods * m->cir_period;
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/* Put the tokens overflowing from tc into te bucket */
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tc = m->tc + n_periods * m->cir_bytes_per_period;
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te = m->te;
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if (tc > m->cbs) {
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te += (tc - m->cbs);
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if (te > m->ebs)
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te = m->ebs;
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tc = m->cbs;
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}
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/* Color logic */
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if (tc >= pkt_len) {
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m->tc = tc - pkt_len;
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m->te = te;
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return e_RTE_METER_GREEN;
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}
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if (te >= pkt_len) {
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m->tc = tc;
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m->te = te - pkt_len;
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return e_RTE_METER_YELLOW;
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}
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m->tc = tc;
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m->te = te;
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return e_RTE_METER_RED;
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}
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static inline enum rte_meter_color
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rte_meter_srtcm_color_aware_check(struct rte_meter_srtcm *m,
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uint64_t time,
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uint32_t pkt_len,
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enum rte_meter_color pkt_color)
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{
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uint64_t time_diff, n_periods, tc, te;
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/* Bucket update */
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time_diff = time - m->time;
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n_periods = time_diff / m->cir_period;
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m->time += n_periods * m->cir_period;
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/* Put the tokens overflowing from tc into te bucket */
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tc = m->tc + n_periods * m->cir_bytes_per_period;
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te = m->te;
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if (tc > m->cbs) {
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te += (tc - m->cbs);
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if (te > m->ebs)
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te = m->ebs;
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tc = m->cbs;
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}
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/* Color logic */
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if ((pkt_color == e_RTE_METER_GREEN) && (tc >= pkt_len)) {
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m->tc = tc - pkt_len;
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m->te = te;
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return e_RTE_METER_GREEN;
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}
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if ((pkt_color != e_RTE_METER_RED) && (te >= pkt_len)) {
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m->tc = tc;
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m->te = te - pkt_len;
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return e_RTE_METER_YELLOW;
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}
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m->tc = tc;
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m->te = te;
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return e_RTE_METER_RED;
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}
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static inline enum rte_meter_color
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rte_meter_trtcm_color_blind_check(struct rte_meter_trtcm *m,
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uint64_t time,
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uint32_t pkt_len)
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{
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uint64_t time_diff_tc, time_diff_tp, n_periods_tc, n_periods_tp, tc, tp;
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/* Bucket update */
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time_diff_tc = time - m->time_tc;
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time_diff_tp = time - m->time_tp;
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n_periods_tc = time_diff_tc / m->cir_period;
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n_periods_tp = time_diff_tp / m->pir_period;
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m->time_tc += n_periods_tc * m->cir_period;
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m->time_tp += n_periods_tp * m->pir_period;
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tc = m->tc + n_periods_tc * m->cir_bytes_per_period;
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if (tc > m->cbs)
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tc = m->cbs;
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tp = m->tp + n_periods_tp * m->pir_bytes_per_period;
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if (tp > m->pbs)
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tp = m->pbs;
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/* Color logic */
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if (tp < pkt_len) {
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m->tc = tc;
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m->tp = tp;
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return e_RTE_METER_RED;
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}
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if (tc < pkt_len) {
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m->tc = tc;
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m->tp = tp - pkt_len;
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return e_RTE_METER_YELLOW;
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}
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m->tc = tc - pkt_len;
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m->tp = tp - pkt_len;
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return e_RTE_METER_GREEN;
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}
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static inline enum rte_meter_color
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rte_meter_trtcm_color_aware_check(struct rte_meter_trtcm *m,
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uint64_t time,
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uint32_t pkt_len,
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enum rte_meter_color pkt_color)
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{
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uint64_t time_diff_tc, time_diff_tp, n_periods_tc, n_periods_tp, tc, tp;
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/* Bucket update */
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time_diff_tc = time - m->time_tc;
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time_diff_tp = time - m->time_tp;
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n_periods_tc = time_diff_tc / m->cir_period;
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n_periods_tp = time_diff_tp / m->pir_period;
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m->time_tc += n_periods_tc * m->cir_period;
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m->time_tp += n_periods_tp * m->pir_period;
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tc = m->tc + n_periods_tc * m->cir_bytes_per_period;
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if (tc > m->cbs)
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tc = m->cbs;
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tp = m->tp + n_periods_tp * m->pir_bytes_per_period;
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if (tp > m->pbs)
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tp = m->pbs;
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/* Color logic */
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if ((pkt_color == e_RTE_METER_RED) || (tp < pkt_len)) {
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m->tc = tc;
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m->tp = tp;
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return e_RTE_METER_RED;
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}
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if ((pkt_color == e_RTE_METER_YELLOW) || (tc < pkt_len)) {
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m->tc = tc;
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m->tp = tp - pkt_len;
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return e_RTE_METER_YELLOW;
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}
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m->tc = tc - pkt_len;
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m->tp = tp - pkt_len;
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return e_RTE_METER_GREEN;
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}
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#ifdef __cplusplus
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}
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#endif
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#endif /* __INCLUDE_RTE_METER_H__ */
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