numam-dpdk/doc/guides/sample_app_ug/qos_metering.rst
John McNamara 8c9a33744b doc: refactor table numbers into references
This change adds automatic table references to the docs. The
table numbers in the generated Html and PDF docs are now
automatically numbered based on section.

Requires Sphinx >= 1.3.1.

This change:

* Adds a RST table:: directive to each table caption.

* Indents the tables to the required directive level.

Signed-off-by: John McNamara <john.mcnamara@intel.com>
2015-05-25 15:59:36 +02:00

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.. BSD LICENSE
Copyright(c) 2010-2014 Intel Corporation. All rights reserved.
All rights reserved.
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modification, are permitted provided that the following conditions
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* Redistributions of source code must retain the above copyright
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distribution.
* Neither the name of Intel Corporation nor the names of its
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"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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QoS Metering Sample Application
===============================
The QoS meter sample application is an example that demonstrates the use of DPDK to provide QoS marking and metering,
as defined by RFC2697 for Single Rate Three Color Marker (srTCM) and RFC 2698 for Two Rate Three Color Marker (trTCM) algorithm.
Overview
--------
The application uses a single thread for reading the packets from the RX port,
metering, marking them with the appropriate color (green, yellow or red) and writing them to the TX port.
A policing scheme can be applied before writing the packets to the TX port by dropping or
changing the color of the packet in a static manner depending on both the input and output colors of the packets that are processed by the meter.
The operation mode can be selected as compile time out of the following options:
* Simple forwarding
* srTCM color blind
* srTCM color aware
* srTCM color blind
* srTCM color aware
Please refer to RFC2697 and RFC2698 for details about the srTCM and trTCM configurable parameters
(CIR, CBS and EBS for srTCM; CIR, PIR, CBS and PBS for trTCM).
The color blind modes are functionally equivalent with the color-aware modes when
all the incoming packets are colored as green.
Compiling the Application
-------------------------
#. Go to the example directory:
.. code-block:: console
export RTE_SDK=/path/to/rte_sdk
cd ${RTE_SDK}/examples/qos_meter
#. Set the target
(a default target is used if not specified):
.. note::
This application is intended as a linuxapp only.
.. code-block:: console
export RTE_TARGET=x86_64-native-linuxapp-gcc
#. Build the application:
.. code-block:: console
make
Running the Application
-----------------------
The application execution command line is as below:
.. code-block:: console
./qos_meter [EAL options] -- -p PORTMASK
The application is constrained to use a single core in the EAL core mask and 2 ports only in the application port mask
(first port from the port mask is used for RX and the other port in the core mask is used for TX).
Refer to *DPDK Getting Started Guide* for general information on running applications and
the Environment Abstraction Layer (EAL) options.
Explanation
-----------
Selecting one of the metering modes is done with these defines:
.. code-block:: c
#define APP_MODE_FWD 0
#define APP_MODE_SRTCM_COLOR_BLIND 1
#define APP_MODE_SRTCM_COLOR_AWARE 2
#define APP_MODE_TRTCM_COLOR_BLIND 3
#define APP_MODE_TRTCM_COLOR_AWARE 4
#define APP_MODE APP_MODE_SRTCM_COLOR_BLIND
To simplify debugging (for example, by using the traffic generator RX side MAC address based packet filtering feature),
the color is defined as the LSB byte of the destination MAC address.
The traffic meter parameters are configured in the application source code with following default values:
.. code-block:: c
struct rte_meter_srtcm_params app_srtcm_params[] = {
{.cir = 1000000 * 46, .cbs = 2048, .ebs = 2048},
};
struct rte_meter_trtcm_params app_trtcm_params[] = {
{.cir = 1000000 * 46, .pir = 1500000 * 46, .cbs = 2048, .pbs = 2048},
};
Assuming the input traffic is generated at line rate and all packets are 64 bytes Ethernet frames (IPv4 packet size of 46 bytes)
and green, the expected output traffic should be marked as shown in the following table:
.. _table_qos_metering_1:
.. table:: Output Traffic Marking
+-------------+------------------+-------------------+----------------+
| **Mode** | **Green (Mpps)** | **Yellow (Mpps)** | **Red (Mpps)** |
| | | | |
+=============+==================+===================+================+
| srTCM blind | 1 | 1 | 12.88 |
| | | | |
+-------------+------------------+-------------------+----------------+
| srTCM color | 1 | 1 | 12.88 |
| | | | |
+-------------+------------------+-------------------+----------------+
| trTCM blind | 1 | 0.5 | 13.38 |
| | | | |
+-------------+------------------+-------------------+----------------+
| trTCM color | 1 | 0.5 | 13.38 |
| | | | |
+-------------+------------------+-------------------+----------------+
| FWD | 14.88 | 0 | 0 |
| | | | |
+-------------+------------------+-------------------+----------------+
To set up the policing scheme as desired, it is necessary to modify the main.h source file,
where this policy is implemented as a static structure, as follows:
.. code-block:: c
int policer_table[e_RTE_METER_COLORS][e_RTE_METER_COLORS] =
{
{ GREEN, RED, RED},
{ DROP, YELLOW, RED},
{ DROP, DROP, RED}
};
Where rows indicate the input color, columns indicate the output color,
and the value that is stored in the table indicates the action to be taken for that particular case.
There are four different actions:
* GREEN: The packet's color is changed to green.
* YELLOW: The packet's color is changed to yellow.
* RED: The packet's color is changed to red.
* DROP: The packet is dropped.
In this particular case:
* Every packet which input and output color are the same, keeps the same color.
* Every packet which color has improved is dropped (this particular case can't happen, so these values will not be used).
* For the rest of the cases, the color is changed to red.