Skip to content

Partial BPF/XDP implementation of experimental research prototype IEEE 802.1CB FRER for Linux

License

Notifications You must be signed in to change notification settings

EricssonResearch/xdpfrer

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

7 Commits
 
 
 
 
 
 
 
 

Repository files navigation

XDP FRER

This software is an experimental partial implementation of the IEEE 802.1CB Frame Replication and Elimination for Reliability standard. The implementation uses the XDP packet processing subsystem of the Linux kernel, which can be configured with BPF.

The details of the experiment are discussed in the following research paper:

Lightweight Implementation of Per-packet Service Protection in eBPF/XDP (pdf | arxiv | slides)

Cite as:

@misc{fejes2023lightweight,
      title={Lightweight Implementation of Per-packet Service Protection in eBPF/XDP}, 
      author={Ferenc Fejes and Ferenc Orosi and Balázs Varga and János Farkas},
      booktitle={Netdev 0x17, THE Technical Conference on Linux Networking},
      year={2023},
      eprint={2312.07152},
      archivePrefix={arXiv},
      primaryClass={cs.NI},
      url={https://netdevconf.info/0x17/25}
}

Requirements

Debian based GNU/Linux distribution is preferred. Tested with Debian Bookworm and Ubuntu 23.04, 23.10.

sudo apt install build-essential gcc-multilib clang llvm linux-tools-common bpftool libbpf-dev

Note: libbpf version must be at least 1.3.0 on Ubuntu 23.04.

Building

cd src
make

Argument list

Usage: xdpfrer [OPTION...]

  -e, --egress=WORD          Egress interface in IFNAME:VID format (Required)
  -i, --ingress=WORD         Ingress interface in IFNAME:VID format (Required)
  -m, --mode=WORD            Mode: repl or elim (Required)
  -n, --not                  Not adding or removing R-tag. (Optional)
  -q, --quiet                Quiet output. (Optional)
  -?, --help                 Give this help list
      --usage                Give a short usage message

Important: if multiple --egress used, mode must be replication (--mode=repl) and only one --ingress interface can be set. Similarly, if the mode is elimination (-m elim), multiple --ingress but only one --egress parameter are allowed.

For example in the xdpfrer -m repl -i beth0:20 -e enp4s0:66 -e enp7s0:67 command can be interpreted as: Packets with VLAN ID 20 on the beth0 interface are replicated to enp4s0 and enp7s0 interfaces with VLAN ID 66 and 67 respectively.

Source

.
├── README.md
├── src
│   ├── common.h        // basic data structures and defines
│   ├── Makefile        // GNU make file
│   ├── xdpfrer.bpf.c   // XDP programs and BPF map definitions
│   └── xdpfrer.c       // configure and load the BPF part to the kernel
└── test
    ├── measurement.py  // All-in-one testing and plotting script
    ├── physical.env    // Network config/environment for real testbed
    └── veth.env        // Full network config for veth/namespace based testbed

Environment:

physical.env and veth.env contains this environment. Obviously you can modify vlans when you start running xdpfrer instances.

                    ┌───────────────────────────────────────────────────┐                    
                    │                        nsx                        │                    
                    │                                                   │                    
                    │┌──────────┬────────┐         ┌────────┬──────────┐│                    
┌─────────────┐     ││          │ enp3s0 ├────55───▶ enp4s0 │          ││     ┌─────────────┐
│      tx     │     ││          │        ◀────66───┐        │          ││     │      lx     │
│    ┌────────┤     │├────────┐ └────────┤         ├────────┘ ┌────────┤│     ├────────┐    │
│    │  teth0 ◀━━10━┿▶  aeth0 │          │         │          │  beth0 ◀┿━20━━▶  leth0 │    │
│    │10.0.0.1│     │├────────┘ ┌────────┤         ├────────┐ └────────┤│     │10.0.0.2│    │
│    └────────┤     ││          │ enp6s0 ├────56───▶ enp7s0 │          ││     ├────────┘    │
└─────────────┘     ││          │        ◀────67───┐        │          ││     └─────────────┘
                    │└──────────┴────────┘         └────────┴──────────┘│                    
                    │                                                   │                    
                    └───────────────────────────────────────────────────┘                    

Usage

For basic usage a GNU/Linux system required with BPF and XDP support.

  1. Open some terminal and source the env file which configure the whole network: network namespaces acting as talker, switch and listener, including the virtual interfaces and links.
  2. Run the xdpfrer instances inside the switch namespace (use the nsx alias)
  3. Open up another root terminal, source the env file, and start a ping command from talker to listener
  4. If everything OK, the ping successful and the XDP forwarding works properly
  5. To cleanup, press Ctrl+D or type exit to exit from terminals. The last terminal cleanup the environment

The commands:

# 1.
cd test
sudo su
source veth.env
# 2.1 (tx -> lx)
nsx ../src/xdpfrer -m repl -i aeth0:10 -e enp3s0:55 -e enp6s0:56
nsx ../src/xdpfrer -m elim -i enp4s0:55 -i enp7s0:56 -e beth0:20

# 2.2 (lx -> tx)
nsx ../src/xdpfrer -m repl -i beth0:20 -e enp4s0:66 -e enp7s0:67
nsx ../src/xdpfrer -m elim -i enp3s0:66 -i enp6s0:67 -e aeth0:10
# 3.
cd test
sudo su
source veth.env

tx ping 10.0.0.2 -c 4
#  PING 10.0.0.2 (10.0.0.2) 56(84) bytes of data.
#  64 bytes from 10.0.0.2: icmp_seq=1 ttl=64 time=0.044 ms
#  64 bytes from 10.0.0.2: icmp_seq=2 ttl=64 time=0.056 ms
#  64 bytes from 10.0.0.2: icmp_seq=3 ttl=64 time=0.055 ms
#  64 bytes from 10.0.0.2: icmp_seq=4 ttl=64 time=0.057 ms
# 4.
#  (veth.env) root:test# nsx ../src/xdpfrer -m repl -i aeth0:10 -e enp3s0:55 -e enp6s0:56
#  Config replication on interface aeth0 (ifindex: 2) match vlan 10
#  Received packets: 0
#  Received packets: 1
#  Received packets: 2
#  Received packets: 3
#  Received packets: 4
#  Received packets: 4
#  Received packets: 4

#  (veth.env) root:test# nsx ../src/xdpfrer -m elim -i enp4s0:55 -i enp7s0:56 -e beth0:20
#  Config recovery on iface enp4s0 (ifindex: 3) match vlan 20
#  Config recovery on iface enp7s0 (ifindex: 5) match vlan 20
#  Passed 0, Dropped 0
#  Passed 1, Dropped 1
#  Passed 2, Dropped 2
#  Passed 3, Dropped 3
#  Passed 4, Dropped 4
#  Passed 4, Dropped 4
# 5.
Ctrl+C # in xdpfrer terminal
Ctrl+D # in both terminal

Measurements:

For advanced usage, take a look at the test/measurement.py script. It is possible to run XDP FRER on a real, physical testbed, just change the interface names and VLAN IDs and the script accordingly.

First, run common tests or error tests:

python3 measurement.py test
or
python3 measurement.py error

After that, generate txt files from pcap files:

python3 measurement.py data

Last but not least, generate plots:

python3 measurement.py plot

With questions regarding usage, bugs and evaluation, please contact Ferenc Fejes <ferenc.fejes@ericsson.com>.

About

Partial BPF/XDP implementation of experimental research prototype IEEE 802.1CB FRER for Linux

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Contributors 3

  •  
  •  
  •