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-rw-r--r--docs/testing/user/userguide/vCGNAPT/INSTALL.rst230
-rw-r--r--docs/testing/user/userguide/vCGNAPT/README.rst197
-rw-r--r--docs/testing/user/userguide/vCGNAPT/RELEASE_NOTES.rst90
-rw-r--r--docs/testing/user/userguide/vCGNAPT/index.rst11
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diff --git a/docs/testing/user/userguide/vCGNAPT/INSTALL.rst b/docs/testing/user/userguide/vCGNAPT/INSTALL.rst
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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.
+
+============================
+vCGNAPT - Installation Guide
+============================
+
+
+vCGNAPT Compilation
+===================
+
+After downloading (or doing a git clone) in a directory (samplevnf)
+
+Dependencies
+-------------
+
+- DPDK supported versions ($DPDK_RTE_VER = 16.04, 16.11, 17.02 or 17.05) Downloaded and installed via vnf_build.sh or manually from [here] (http://fast.dpdk.org/rel/)
+- libpcap-dev
+- libzmq
+- libcurl
+
+Environment variables
+---------------------
+
+Apply all the additional patches in 'patches/dpdk_custom_patch/' and build dpdk
+required only for DPDK version 16.04.
+
+::
+
+ export RTE_SDK=<dpdk directory>
+ export RTE_TARGET=x86_64-native-linuxapp-gcc
+
+This is done by vnf_build.sh script.
+
+Auto Build:
+===========
+$ ./tools/vnf_build.sh in samplevnf root folder
+
+Follow the steps in the screen from option [1] --> [9] and select option [8]
+to build the vnfs.
+It will automatically download selected DPDK version and any required patches
+and will setup everything and build vCGNAPT VNFs.
+
+Following are the options for setup:
+
+::
+
+ ----------------------------------------------------------
+ Step 1: Environment setup.
+ ----------------------------------------------------------
+ [1] Check OS and network connection
+ [2] Select DPDK RTE version
+
+ ----------------------------------------------------------
+ Step 2: Download and Install
+ ----------------------------------------------------------
+ [3] Agree to download
+ [4] Download packages
+ [5] Download DPDK zip
+ [6] Build and Install DPDK
+ [7] Setup hugepages
+
+ ----------------------------------------------------------
+ Step 3: Build VNFs
+ ----------------------------------------------------------
+ [8] Build all VNFs (vACL, vCGNAPT, vFW, UDP_Replay)
+
+ [9] Exit Script
+
+An vCGNAPT executable will be created at the following location
+samplevnf/VNFs/vCGNAPT/build/vCGNAPT
+
+
+Manual Build:
+=============
+1. Download DPDK supported version from dpdk.org
+
+ - http://dpdk.org/browse/dpdk/snapshot/dpdk-$DPDK_RTE_VER.zip
+2. unzip dpdk-$DPDK_RTE_VER.zip and apply dpdk patches only in case of 16.04
+ (Not required for other DPDK versions)
+
+ - cd dpdk
+
+ - patch -p1 < VNF_CORE/patches/dpdk_custom_patch/i40e-fix-link-management.patch
+ - patch -p1 < VNF_CORE/patches/dpdk_custom_patch/i40e-fix-Rx-hang-when-disable-LLDP.patch
+ - patch -p1 < VNF_CORE/patches/dpdk_custom_patch/i40e-fix-link-status-change-interrupt.patch
+ - patch -p1 < VNF_CORE/patches/dpdk_custom_patch/i40e-fix-VF-bonded-device-link-down.patch
+ - patch -p1 < $VNF_CORE/patches/dpdk_custom_patch/disable-acl-debug-logs.patch
+ - patch -p1 < $VNF_CORE/patches/dpdk_custom_patch/set-log-level-to-info.patch
+
+ - build dpdk
+
+ - make config T=x86_64-native-linuxapp-gcc O=x86_64-native-linuxapp-gcc
+ - cd x86_64-native-linuxapp-gcc
+ - make
+
+ - Setup huge pages
+
+ - For 1G/2M hugepage sizes, for example 1G pages, the size must be specified
+ explicitly and can also be optionally set as the default hugepage size for
+ the system. For example, to reserve 8G of hugepage memory in the form of
+ eight 1G pages, the following options should be passed to the kernel:
+ * default_hugepagesz=1G hugepagesz=1G hugepages=8 hugepagesz=2M hugepages=2048
+ - Add this to Go to /etc/default/grub configuration file.
+ - Append "default_hugepagesz=1G hugepagesz=1G hugepages=8 hugepagesz=2M hugepages=2048"
+ to the GRUB_CMDLINE_LINUX entry.
+
+3. Setup Environment Variable
+
+ - export RTE_SDK=<samplevnf>/dpdk
+ - export RTE_TARGET=x86_64-native-linuxapp-gcc
+ - export VNF_CORE=<samplevnf>
+ or using ./tools/setenv.sh
+
+4. Build vCGNAPT VNFs
+
+ - cd <samplevnf>/VNFs/vCGNAPT
+ - make clean
+ - make
+
+5. An vCGNAPT executable will be created at the following location
+
+ - <samplevnf>/VNFs/vCGNAPT/build/vCGNAPT
+
+Run
+====
+
+Setup Port to run VNF
+----------------------
+
+::
+
+ For DPDK versions 16.04
+ 1. cd <samplevnf>/dpdk
+ 2. ./tools/dpdk_nic_bind.py --status <--- List the network device
+ 3. ./tools/dpdk_nic_bind.py -b igb_uio <PCI Port 0> <PCI Port 1>
+ .. _More details: http://dpdk.org/doc/guides-16.04/linux_gsg/build_dpdk.html#binding-and-unbinding-network-ports-to-from-the-kernel-modules
+
+ For DPDK versions 16.11
+ 1. cd <samplevnf>/dpdk
+ 2. ./tools/dpdk-devbind.py --status <--- List the network device
+ 3. ./tools/dpdk-devbind.py -b igb_uio <PCI Port 0> <PCI Port 1>
+ .. _More details: http://dpdk.org/doc/guides-16.11/linux_gsg/build_dpdk.html#binding-and-unbinding-network-ports-to-from-the-kernel-modules
+
+ For DPDK versions 17.xx
+ 1. cd <samplevnf>/dpdk
+ 2. ./usertools/dpdk-devbind.py --status <--- List the network device
+ 3. ./usertools/dpdk-devbind.py -b igb_uio <PCI Port 0> <PCI Port 1>
+ .. _More details: http://dpdk.org/doc/guides-17.05/linux_gsg/build_dpdk.html#binding-and-unbinding-network-ports-to-from-the-kernel-modules
+
+ Make the necessary changes to the config files to run the vCGNAPT VNF
+ eg: ports_mac_list = 00:00:00:30:21:F0 00:00:00:30:21:F1
+
+Dynamic CGNAPT
+--------------
+Update the configuration according to system configuration.
+
+::
+
+ ./vCGNAPT -p <port mask> -f <config> -s <script> - SW_LoadB
+ ./vCGNAPT -p <port mask> -f <config> -s <script> -hwlb <num_WT> - HW_LoadB
+
+Static CGNAPT
+-------------
+Update the script file and add Static NAT Entry
+
+::
+
+ e.g,
+ ;p <pipeline id> entry addm <prv_ipv4/6> prvport> <pub_ip> <pub_port> <phy_port> <ttl> <no_of_entries> <end_prv_port> <end_pub_port>
+ ;p 3 entry addm 152.16.100.20 1234 152.16.40.10 1 0 500 65535 1234 65535
+
+Run IPv4
+----------
+
+::
+
+ Software LoadB:
+
+ cd <samplevnf>/VNFs/vCGNAPT/build
+ ./vCGNAPT -p 0x3 -f ./config/arp_txrx-2P-1T.cfg -s ./config/arp_txrx_ScriptFile_2P.cfg
+
+
+ Hardware LoadB:
+
+ cd <samplevnf>/VNFs/vCGNAPT/build
+ ./vCGNAPT -p 0x3 -f ./config/arp_hwlb-2P-1T.cfg -s ./config/arp_hwlb_scriptfile_2P.cfg --hwlb 1
+
+Run IPv6
+---------
+
+::
+
+ Software LoadB:
+
+ cd <samplevnf>/VNFs/vCGNAPT/build
+ ./vCGNAPT -p 0x3 -f ./config/arp_txrx-2P-1T-ipv6.cfg -s ./config/arp_txrx_ScriptFile_2P.cfg
+
+
+ Hardware LoadB:
+
+ cd <samplevnf>/VNFs/vCGNAPT/build
+ ./vCGNAPT -p 0x3 -f ./config/arp_hwlb-2P-1T-ipv6.cfg -s ./config/arp_hwlb_scriptfile_2P.cfg --hwlb 1
+
+vCGNAPT execution on BM & SRIOV
+--------------------------------
+
+::
+
+ To run the VNF, execute the following:
+ samplevnf/VNFs/vCGNAPT# ./build/vCGNAPT -p 0x3 -f ./config/arp_txrx-2P-1T.cfg -s ./config/arp_txrx_ScriptFile_2P.cfg
+ Command Line Params:
+ -p PORTMASK: Hexadecimal bitmask of ports to configure
+ -f CONFIG FILE: vCGNAPT configuration file
+ -s SCRIPT FILE: vCGNAPT script file
+
+vCGNAPT execution on OVS
+-------------------------
+To run the VNF, execute the following:
+
+::
+
+ samplevnf/VNFs/vCGNAPT# ./build/vCGNAPT -p 0x3 ./config/arp_txrx-2P-1T.cfg -s ./config/arp_txrx_ScriptFile_2P.cfg --disable-hw-csum
+ Command Line Params:
+ -p PORTMASK: Hexadecimal bitmask of ports to configure
+ -f CONFIG FILE: vCGNAPT configuration file
+ -s SCRIPT FILE: vCGNAPT script file
+ --disable-hw-csum :Disable TCP/UDP hw checksum
diff --git a/docs/testing/user/userguide/vCGNAPT/README.rst b/docs/testing/user/userguide/vCGNAPT/README.rst
new file mode 100644
index 00000000..dd6bb079
--- /dev/null
+++ b/docs/testing/user/userguide/vCGNAPT/README.rst
@@ -0,0 +1,197 @@
+.. 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.
+
+========================================================
+vCGNAPT - Readme
+========================================================
+
+Introduction
+==============
+This application implements vCGNAPT. The idea of vCGNAPT is to extend the life of
+the service providers IPv4 network infrastructure and mitigate IPv4 address
+exhaustion by using address and port translation in large scale. It processes the
+traffic in both the directions.
+
+It also supports the connectivity between the IPv6 access network to IPv4 data network
+using the IPv6 to IPv4 address translation and vice versa.
+
+About DPDK
+----------
+The DPDK IP Pipeline Framework provides set of libraries to build a pipeline
+application. In this document, CG-NAT application will be explained with its
+own building blocks.
+
+This document assumes the reader possess the knowledge of DPDK concepts and IP
+Pipeline 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 vCGNAPT
+Virtual Network Function implementation.
+
+Features
+===========
+The vCGNAPT VNF currently supports the following functionality:
+ • Static NAT
+ • Dynamic NAT
+ • Static NAPT
+ • Dynamic NAPT
+ • ARP (request, response, gratuitous)
+ • ICMP (terminal echo, echo response, passthrough)
+ • ICMPv6 and ND (Neighbor Discovery)
+ • UDP, TCP and ICMP protocol passthrough
+ • Multithread support
+ • Multiple physical port support
+ • Limiting max ports per client
+ • Limiting max clients per public IP address
+ • Live Session tracking to NAT flow
+ • NAT64
+ • PCP Support
+ • ALG SIP
+ • ALG FTP
+
+High Level Design
+====================
+The Upstream path defines the traffic from Private to Public and the downstream
+path defines the traffic from Public to Private. The vCGNAPT has same set of
+components to process Upstream and Downstream traffic.
+
+In vCGNAPT application, each component is constructed as IP Pipeline framework.
+It includes Master pipeline component, load balancer pipeline component and vCGNAPT
+pipeline component.
+
+A Pipeline framework is collection of input ports, table(s), output ports and
+actions (functions). In vCGNAPT pipeline, main sub components are the Inport function
+handler, Table and Table function handler. vCGNAPT rules will be configured in the
+table which translates egress and ingress traffic according to physical port
+information from which side packet is arrived. The actions can be forwarding to the
+output port (either egress or ingress) or to drop the packet.
+
+vCGNAPT Graphical Overview
+==========================
+The idea of vCGNAPT is to extend the life of the service providers IPv4 network infrastructure
+and mitigate IPv4 address exhaustion by using address and port translation in large scale.
+It processes the traffic in both the directions.
+
+.. code-block:: console
+
+ +------------------+
+ | +-----+
+ | Private consumer | CPE |---------------+
+ | IPv4 traffic +-----+ |
+ +------------------+ |
+ +------------------+ v +----------------+
+ | | +------------+ | |
+ | Private IPv4 | | vCGNAPT | | Public |
+ | access network | | NAT44 | | IPv4 traffic |
+ | | +------------+ | |
+ +------------------+ | +----------------+
+ +------------------+ |
+ | +-----+ |
+ | Private consumer| CPE |-----------------+
+ | IPv4 traffic +-----+
+ +------------------+
+ Figure 1: vCGNAPT deployment in Service provider network
+
+
+
+Components of vCGNAPT
+=====================
+
+In vCGNAPT, each component is constructed as a packet framework. It includes Master pipeline
+component, driver, load balancer pipeline component and vCGNAPT worker pipeline component. 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 load balancer thread. The transmit takes
+packets from worker thread in a dedicated ring and sent to the hardware queue.
+
+ARPICMP pipeline
+------------------------
+ARPICMP pipeline is responsible for handling all l2l3 arp related packets.
+
+This component does not process any packets and should configure with Core 0,
+to save cores for other components which processes traffic. The component
+is responsible for:
+1. Initializing each component of the Pipeline application in different threads
+2. Providing CLI shell for the user
+3. Propagating the commands from user to the corresponding components.
+4. ARP and ICMP are handled here.
+
+Load Balancer pipeline
+------------------------
+Load balancer is part of the Multi-Threaded CGMAPT release which distributes
+the flows to Multiple ACL worker threads.
+
+Distributes traffic based on the 2 or 5 tuple (source address, source port,
+destination address, destination port and protocol) applying an XOR logic
+distributing the load to active worker threads, thereby maintaining an
+affinity of flows to worker threads.
+
+Tuple can be modified/configured using configuration file
+
+vCGNAPT - Static
+====================
+The vCGNAPT component performs translation of private IP & port to public IP &
+port at egress side and public IP & port to private IP & port at Ingress side
+based on the NAT rules added to the pipeline Hash table. The NAT rules are
+added to the Hash table via user commands. The packets that have a matching
+egress key or ingress key in the NAT table will be processed to change IP &
+port and will be forwarded to the output port. The packets that do not have a
+match will be taken a default action. The default action may result in drop of
+the packets.
+
+vCGNAPT - Dynamic
+===================
+The vCGNAPT component performs translation of private IP & port to public IP & port
+at egress side and public IP & port to private IP & port at Ingress side based on the
+NAT rules added to the pipeline Hash table. Dynamic nature of vCGNAPT refers to the
+addition of NAT entries in the Hash table dynamically when new packet arrives. The NAT
+rules will be added to the Hash table automatically when there is no matching entry in
+the table and the packet is circulated through software queue. The packets that have a
+matching egress key or ingress key in the NAT table will be processed to change IP &
+port and will be forwarded to the output port defined in the entry.
+
+Dynamic vCGNAPT acts as static one too, we can do NAT entries statically. Static NAT
+entries port range must not conflict to dynamic NAT port range.
+
+vCGNAPT Static Topology
+------------------------
+
+::
+
+ IXIA(Port 0)-->(Port 0)VNF(Port 1)-->(Port 1) IXIA
+ operation:
+ Egress --> The packets sent out from ixia(port 0) will be CGNAPTed to ixia(port 1).
+ Igress --> The packets sent out from ixia(port 1) will be CGNAPTed to ixia(port 0).
+
+vCGNAPT Dynamic Topology (L4REPLAY)
+------------------------------------
+
+::
+
+ IXIA(Port 0)-->(Port 0)VNF(Port 1)-->(Port 0)L4REPLAY
+ operation:
+ Egress --> The packets sent out from ixia will be CGNAPTed 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/vCGNAPT/INSTALL.rst for installation, configuration, compilation
+and execution.
diff --git a/docs/testing/user/userguide/vCGNAPT/RELEASE_NOTES.rst b/docs/testing/user/userguide/vCGNAPT/RELEASE_NOTES.rst
new file mode 100644
index 00000000..a776a54d
--- /dev/null
+++ b/docs/testing/user/userguide/vCGNAPT/RELEASE_NOTES.rst
@@ -0,0 +1,90 @@
+.. 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.
+
+=========================================================
+vCGNAPT - Release Notes
+=========================================================
+
+Introduction
+================
+This is the beta release for vCGNAPT VNF.
+vCGNAPT application can be run independently (refer INSTALL.rst).
+
+User Guide
+===============
+Refer to README.rst for further details on vCGNAPT, HLD, features supported,
+test plan. For build configurations and execution requisites please refer to
+INSTALL.rst.
+
+Feature for this release
+===========================
+This release supports following features as part of vCGNAPT
+
+- vCGNAPT can run as a standalone application on bare-metal linux server or on a virtual machine using SRIOV and OVS dpdk.
+- Static NAT
+- Dynamic NAT
+- Static NAPT
+- Dynamic NAPT
+- ARP (request, response, gratuitous)
+- ICMP (terminal echo, echo response, passthrough)
+- ICMPv6 and ND (Neighbor Discovery)
+- UDP, TCP and ICMP protocol passthrough
+- Multithread support
+- Multiple physical port support
+- Limiting max ports per client
+- Limiting max clients per public IP address
+- Live Session tracking to NAT flow
+- PCP support
+- NAT64
+- ALG SIP
+- ALG FTP
+
+System requirements - OS and kernel version
+==============================================
+This is supported on Ubuntu 14.04 and 16.04 and kernel version less than 4.5
+
+ VNFs on BareMetal support:
+ OS: Ubuntu 14.04 or 16.04 LTS
+ kernel: < 4.5
+ http://releases.ubuntu.com/16.04/
+ Download/Install the image: ubuntu-16.04.1-server-amd64.iso
+
+ VNFs on Standalone Hypervisor
+ HOST OS: Ubuntu 14.04 or 16.04 LTS
+ http://releases.ubuntu.com/16.04/
+ Download/Install the image: ubuntu-16.04.1-server-amd64.iso
+
+ - OVS (DPDK) - 2.5
+ - kernel: < 4.5
+ - Hypervisor - KVM
+ - VM OS - Ubuntu 16.04/Ubuntu 14.04
+
+Known Bugs and limitations
+=============================
+- Hadware Load Balancer feature is supported on fortville nic FW version 4.53 and below.
+- L4 UDP Replay is used to capture throughput for dynamic cgnapt
+- Hardware Checksum offload is not supported for IPv6 traffic.
+- CGNAPT on sriov is tested till 4 threads
+
+Future Work
+==============
+- SCTP passthrough support
+- Multi-homing support
+- Performance optimization on different platforms
+
+References
+=============
+Following links provides additional information for differenet version of DPDKs
+ .. _QUICKSTART:
+ http://dpdk.org/doc/guides-16.04/linux_gsg/quick_start.html
+ http://dpdk.org/doc/guides-16.11/linux_gsg/quick_start.html
+ http://dpdk.org/doc/guides-17.02/linux_gsg/quick_start.html
+ http://dpdk.org/doc/guides-17.05/linux_gsg/quick_start.html
+
+ .. _DPDKGUIDE:
+ http://dpdk.org/doc/guides-16.04/prog_guide/index.html
+ http://dpdk.org/doc/guides-16.11/prog_guide/index.html
+ http://dpdk.org/doc/guides-17.02/prog_guide/index.html
+ http://dpdk.org/doc/guides-17.05/prog_guide/index.html
diff --git a/docs/testing/user/userguide/vCGNAPT/index.rst b/docs/testing/user/userguide/vCGNAPT/index.rst
new file mode 100644
index 00000000..aacda1c2
--- /dev/null
+++ b/docs/testing/user/userguide/vCGNAPT/index.rst
@@ -0,0 +1,11 @@
+####################
+vCGNAPT samplevnf
+####################
+
+.. toctree::
+ :numbered:
+ :maxdepth: 2
+
+ RELEASE_NOTES.rst
+ README.rst
+ INSTALL.rst