Difference between revisions of "VPP/HostStack"

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* Session Layer that accepts pluggable transport protocols
 
* Session Layer that accepts pluggable transport protocols
 
* Shared memory mechanisms for pushing data between VPP and applications
 
* Shared memory mechanisms for pushing data between VPP and applications
* Transport protocol implementations (e.g. TCP, SCTP, UDP)
+
* Transport protocol implementations (e.g. TCP, QUIC, TLS, UDP)
 
* Comms Library (VCL) and LD_PRELOAD Library
 
* Comms Library (VCL) and LD_PRELOAD Library
  
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[[VPP/Setting_Up_Your_Dev_Environment|Set Up Dev Environment]] - Explains how to set up a VPP development environment and the requirements for using the build tools
 
[[VPP/Setting_Up_Your_Dev_Environment|Set Up Dev Environment]] - Explains how to set up a VPP development environment and the requirements for using the build tools
  
[[VPP/HostStack/SessionLayerArchitecture | Session Layer Architecture]] - Goes over the main features of the session layer
+
[[VPP/HostStack/SessionLayerArchitecture | Session Layer]] - Goes over the main features of the session layer
 +
 
 +
[[VPP/HostStack/VCL | VCL ]] - Description and configuration
  
 
[[VPP/HostStack/TLS | TLS Application]] - Describes the TLS Application Layer protocol implementation
 
[[VPP/HostStack/TLS | TLS Application]] - Describes the TLS Application Layer protocol implementation
 +
 +
[[VPP/HostStack/hs-test | Host Stack Test Framework]] - Architecture description of host stack's test framework
  
 
== Getting Started ==
 
== Getting Started ==
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* POSIX API through LD_PRELOAD
 
* POSIX API through LD_PRELOAD
  
A number of test applications can be used to exercise these APIs. For all the examples below, it is assumed that two VPP instances have been brought up and properly configured to ensure networking connectivity between them. To test that network connectivity is available, the builtin ping tool can be used. As a convention, we consider the first vpp instance (vpp1) to be the one the server is attached to and the second instance (vpp2) to be the one where the client application is attached. For illustrative purposes all examples use TCP as a transport protocol but other available protocols could be used.  
+
A number of test applications can be used to exercise these APIs. For many of the examples in the tutorials section [[VPP/HostStack#Tutorials.2FTest_Apps | below]], it is assumed that two VPP instances have been brought up and properly configured to ensure networking connectivity between them. To test that network connectivity is available, the builtin ping tool can be used. As a convention, we consider the first vpp instance (vpp1) to be the one the server is attached to and the second instance (vpp2) to be the one where the client application is attached. For illustrative purposes all examples use TCP as a transport protocol but other available protocols could be used.  
  
=== Builtin Echo Server/Client ===
+
One of the simplest ways to test that the host stack is running would be to use the builtin echo applications. On vpp1, from the cli do:
 
+
On vpp1, from the cli do:
+
  
 
  # test echo server uri tcp://vpp1_ip/port
 
  # test echo server uri tcp://vpp1_ip/port
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  # test echo client uri tcp://vpp1_ip/port
 
  # test echo client uri tcp://vpp1_ip/port
  
For more details on how to further configure the client/server apps to do throughput and CPS testing see [[VPP/HostStack/EchoClientServer | here]]
+
For more details on how to further configure the client/server apps to do throughput and CPS testing see [[VPP/HostStack/EchoClientServer | here]] and for more examples check the [[VPP/HostStack#Tutorials.2FTest_Apps | tutorials section]].
  
=== External Echo Server/Client ===
+
== Tutorials/Test Apps ==
 +
[[VPP/HostStack/EchoClientServer |Test Builtin Echo Client/Server Apps]]
  
The external test echo apps can be found under
+
[[VPP/HostStack/ExternalEchoClientServer |Test External Echo Client/Server Apps]]
  
<code>$./build-root/build-vpp[_debug]-native/vpp/bin/</code>
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[[VPP/HostStack/VclEchoClientServer |Test VCL Echo Client/Server Apps]]
  
Start vpp1 and attach the server application:
+
[[VPP/HostStack/TestHttpServer|Test HTTP Server App]]
  
<code>$ ./build-root/build-vpp_debug-native/vpp/bin/tcp_echo uri tcp://vpp1_ip/port use-svm-api</code>
+
[[VPP/HostStack/TestProxy|Test Proxy App]]
  
Then start vpp2 and attach the client:
+
[[VPP/HostStack/LDP/iperf | iperf3 with LD_PRELOAD]]
  
<code>$ ./build-root/build-vpp_debug-native/vpp/bin/tcp_echo client uri tcp://vpp1_ip/port use-svm-api</code>
+
[[VPP/HostStack/LDP/sshd | sshd with LD_PRELOAD]]
  
Note that use-svm-api option is not needed for the udp_echo app.
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[[VPP/HostStack/LDP/nginx | nginx with LD_PRELOAD]]
  
=== VCL socket client/server ===
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== Tests ==
  
For more details see the tutorial [[VPP/VPPCommunicationsLibrary | here]]
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Make test VCL tests [https://git.fd.io/vpp/tree/test/asf/test_vcl.py source code]
  
== Tutorials/Test Apps ==
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Unit tests for [https://git.fd.io/vpp/tree/src/plugins/unittest/tcp_test.c tcp], [https://git.fd.io/vpp/tree/src/plugins/unittest/session_test.c session layer] and [https://git.fd.io/vpp/tree/src/plugins/unittest/svm_fifo_test.c svm infra]
[[VPP/HostStack/TestHttpServer|Test HTTP Server App]]
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CSIT [https://csit.fd.io/trending/#eNqFUMsOgjAQ_Jp6MZvwFC8eRP7DlHaRBoRNWwj49RZiLByMl91kZ2dnZo3tNd4NtheW5izLWZQp6QqLr0fXRiKIO1Bigih9YEQhnsNgmkaQJBuoe2ON5aKBMDkFJYQC0NagKBkkldwgtJI0tj2Xboi6iqEks5yPbst5Odidlkeonj3y24EncI3cM77G_IJFsxH7Y9PTKs2faNQLPXfN6jeE--AGFHtJO9MG_aTPCpYWh67Xz_XtafEGPBpwqQ trending]
 
+
[[VPP/HostStack/EchoClientServer |Test Echo Client/Server Apps]]
+
 
+
[[VPP/HostStack/TestProxy|Test Proxy App]]
+
 
+
[[VPP/HostStack/LDP/sshd | sshd with LD_PRELOAD]]
+
 
+
[[VPP/HostStack/LDP/iperf | iperf3 with LD_PRELOAD]]
+
  
 
== Running List of Presentations ==
 
== Running List of Presentations ==
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* [[Media:Vpp-hoststack-kc-eu-18.pdf|FD.io Mini Summit KubeCon Europe 2018]]
 
* [[Media:Vpp-hoststack-kc-eu-18.pdf|FD.io Mini Summit KubeCon Europe 2018]]
 
* FD.io Mini Summit KubeCon NA 2018 [[Media:Fcoras-vpp-hoststack-kc-na18.pdf | slides]] and [https://www.youtube.com/watch?v=3Pp7ytZeaLk video]
 
* FD.io Mini Summit KubeCon NA 2018 [[Media:Fcoras-vpp-hoststack-kc-na18.pdf | slides]] and [https://www.youtube.com/watch?v=3Pp7ytZeaLk video]
* FD.io Mini Summit KubeCon EU 2019 [[Media:Vpp-hoststack-kc-eu19.pdf | slides]] and [https://www.youtube.com/watch?v=5c5ymviBP7k&t=616s video]
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* FD.io Mini Summit KubeCon EU 2019 [[Media:Vpp-hoststack-kc-eu19.pdf | slides]] and [https://youtu.be/5c5ymviBP7k video]
 +
* EnvoyCon 2020 [[Media:using_vpp_as_envoys_network_stack.pdf|slides]] and [https://youtu.be/AUVuUevPzZ4 video]

Latest revision as of 18:20, 18 April 2023

Description

VPP's host stack is a user space implementation of a number of transport, session and application layer protocols that leverages VPP's existing protocol stack. It roughly consists of four major components:

  • Session Layer that accepts pluggable transport protocols
  • Shared memory mechanisms for pushing data between VPP and applications
  • Transport protocol implementations (e.g. TCP, QUIC, TLS, UDP)
  • Comms Library (VCL) and LD_PRELOAD Library
VPP HostStack Arch

Documentation

Set Up Dev Environment - Explains how to set up a VPP development environment and the requirements for using the build tools

Session Layer - Goes over the main features of the session layer

VCL - Description and configuration

TLS Application - Describes the TLS Application Layer protocol implementation

Host Stack Test Framework - Architecture description of host stack's test framework

Getting Started

Applications can link against the following APIs for host-stack service:

  • Builtin C API. It can only be used by applications hosted within VPP
  • "Raw" session layer API. It does not offer any support for async communication
  • VCL API that offers a POSIX-like interface. It comes with its own epoll implementation.
  • POSIX API through LD_PRELOAD

A number of test applications can be used to exercise these APIs. For many of the examples in the tutorials section below, it is assumed that two VPP instances have been brought up and properly configured to ensure networking connectivity between them. To test that network connectivity is available, the builtin ping tool can be used. As a convention, we consider the first vpp instance (vpp1) to be the one the server is attached to and the second instance (vpp2) to be the one where the client application is attached. For illustrative purposes all examples use TCP as a transport protocol but other available protocols could be used.

One of the simplest ways to test that the host stack is running would be to use the builtin echo applications. On vpp1, from the cli do: 

# test echo server uri tcp://vpp1_ip/port

and on vpp2: 

# test echo client uri tcp://vpp1_ip/port

For more details on how to further configure the client/server apps to do throughput and CPS testing see here and for more examples check the tutorials section.

Tutorials/Test Apps

Test Builtin Echo Client/Server Apps

Test External Echo Client/Server Apps

Test VCL Echo Client/Server Apps

Test HTTP Server App

Test Proxy App

iperf3 with LD_PRELOAD

sshd with LD_PRELOAD

nginx with LD_PRELOAD

Tests

Make test VCL tests source code

Unit tests for tcp, session layer and svm infra CSIT trending

Running List of Presentations

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