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-.. This work is licensed under a creative commons attribution 4.0 international
-.. license.
-.. http://creativecommons.org/licenses/by/4.0
-.. (c) opnfv, national center of scientific research "demokritos" and others.
-
-========================================================
-vACL - Readme
-========================================================
-
-Introduction
-=================
-This application implements Access Control List (ACL). ACL is typically
-used for rule based policy enforcement. It restricts access to a destination
-IP address/port based on various header fields, such as source IP address/port,
-destination IP address/port and protocol. It is built on top of DPDK and
-uses the packet framework infrastructure.
-
-
-----------
-About DPDK
-----------
-The DPDK IP Pipeline Framework provides a set of libraries to build a pipeline
-application. In this document, vACL will be explained in detail with its own
-building blocks.
-
-This document assumes the reader possesses the knowledge of DPDK concepts and
-packet framework. For more details, read DPDK Getting Started Guide, DPDK
-Programmers Guide, DPDK Sample Applications Guide.
-
-Scope
-==========
-This application provides a standalone DPDK based high performance vACL Virtual
-Network Function implementation.
-
-Features
-===========
-The vACL VNF currently supports the following functionality
-  • CLI based Run-time rule configuration.(Add, Delete, List,  Display,  Clear, Modify)
-  • Ipv4 and ipv6 standard 5 tuple packet Selector support.
-  • Multithread support
-  • Multiple physical port support
-  • Hardware and Software Load Balancing
-  • L2L3 stack support for ARP/ICMP handling
-  • ARP (request, response, gratuitous)
-  • ICMP (terminal echo, echo response, passthrough)
-  • ICMPv6 and ND (Neighbor Discovery)
-
-High Level Design
-====================
-The ACL Filter performs bulk filtering of incoming packets based on rules in current ruleset,
-discarding any packets not permitted by the rules. The mechanisms needed for building the
-rule database and performing lookups are provided by the DPDK API.
-http://dpdk.org/doc/api/rte__acl_8h.html
-
-The Input FIFO contains all the incoming packets for ACL filtering. Packets will be dequeued
-from the FIFO in bulk for processing by the ACL. Packets will be enqueued to the output FIFO.
-The Input and Output FIFOs will be implemented using DPDK Ring Buffers.
-
-The DPDK ACL example: http://dpdk.org/doc/guides/sample_app_ug/l3_forward_access_ctrl.html
-#figure-ipv4-acl-rule contains a suitable syntax and parser for ACL rules.
-
-Components of vACL
-=======================
-In vACL, each component is constructed using packet framework pipelines.
-It includes Rx and Tx Driver, Master pipeline, load balancer pipeline and
-vACL worker pipeline components. A Pipeline framework is a collection of input
-ports, table(s),output ports and actions (functions).
-
----------------------------
-Receive and Transmit Driver
----------------------------
-Packets will be received in bulk and provided to LoadBalancer(LB) thread.
-Transimit takes packets from worker threads in a dedicated ring and sent to
-hardware queue.
-
----------------------------
-Master Pipeline
----------------------------
-The Master component is part of all the IP Pipeline applications. This component
-does not process any packets and should configure with Core 0, to allow
-other cores for processing of the traffic. This component is responsible for
-1. Initializing each component of the Pipeline application in different threads
-2. Providing CLI shell for the user control/debug
-3. Propagating the commands from user to the corresponding components
-
----------------------------
-ARPICMP Pipeline
----------------------------
-This pipeline processes the APRICMP packets.
-
----------------------------
-TXRX Pipelines
----------------------------
-The TXTX and RXRX pipelines are pass through pipelines to forward both ingress
-and egress traffic to Loadbalancer. This is required when the Software
-Loadbalancer is used.
-
----------------------------
-Load Balancer Pipeline
----------------------------
-The vACL support both hardware and software balancing for load blalcning of
-traffic across multiple VNF threads. The Hardware load balncing require support
-from hardware like Flow Director for steering of packets to application through
-hardware queues.
-
-The Software Load balancer is also supported if hardware loadbalancing can't be
-used for any reason. The TXRX along with LOADB pipeline provides support for
-software load balancing by distributing the flows to Multiple vACL worker
-threads.
-Loadbalancer (HW or SW) distributes traffic based on the 5 tuple (src addr, src
-port, dest addr, dest port and protocol) applying an XOR logic distributing to
-active worker threads, thereby maintaining an affinity of flows to worker
-threads.
-
----------------------------
-vACL Pipeline
----------------------------
-The vACL performs the rule-based packet filtering.
-
-vACL Topology
-------------------------
-
-::
-
-  IXIA(Port 0)-->(Port 0)VNF(Port 1)-->(Port 1) IXIA
-  operation:
-
-    Egress --> The packets sent out from ixia(port 0) will be sent through ACL to ixia(port 1).
-
-    Igress --> The packets sent out from ixia(port 1) will be sent through ACL to ixia(port 0).
-
-vACL Topology (L4REPLAY)
-------------------------------------
-
-::
-
-  IXIA(Port 0)-->(Port 0)VNF(Port 1)-->(Port 0)L4REPLAY
-
-  operation:
-
-    Egress --> The packets sent out from ixia will pass through vACL to L3FWD/L4REPLAY.
-
-    Ingress --> The L4REPLAY upon reception of packets (Private to Public Network),
-    will immediately replay back the traffic to IXIA interface. (Pub -->Priv).
-
-How to run L4Replay
---------------------
-After the installation of samplevnf
-
-::
-
-     go to <samplevnf/VNFs/L4Replay>
-     ./buid/L4replay -c  core_mask -n no_of_channels(let it be as 2) -- -p PORT_MASK --config="(port,queue,lcore)"
-     eg: ./L4replay -c 0xf -n 4 -- -p 0x3 --config="(0,0,1)"
-
-Installation, Compile and Execution
-=======================================
-Plase refer to <samplevnf>/docs/vACL/INSTALL.rst for installation, configuration, compilation
-and execution.