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eBPF Sketches

eBPF Sketches Build & Publish eBPF Sketches Test Artifact DOI License

This repository contains a list of the most famous sketches implemented within the eBPF/XDP subsystem.

In particular, we have:

  1. Count Sketch
  2. Count-min Sketch
  3. Nitrosketch + Count Sketch
  4. UnivMon + Nitrosketch

Requirements

To run correctly the sketches you first need to install the latest version of LLVM and BCC. All the scripts and instructions in this repo had been tested on Ubuntu 20.04 with kernel version 5.13.

Automatic installation

We provide a script to automatically install all the requirements needed by this project. You can simply run:

./install-requirements.sh

Manual installation

1. LLVM 13

# Install LLVM 13
wget https://github.com/llvm/llvm-project/releases/download/llvmorg-13.0.0/clang+llvm-13.0.0-x86_64-linux-gnu-ubuntu-20.04.tar.xz
mkdir clang+llvm13
tar xf clang+llvm-13.0.0-x86_64-linux-gnu-ubuntu-20.04.tar.xz -C clang+llvm13 --strip-components 1

2. BCC

# Clone BCC repo
git clone https://github.com/iovisor/bcc.git
git apply bcc-patch.patch
mkdir bcc/build; cd bcc/build
cmake -DLLVM_DIR=~/clang+llvm13/lib/cmake/llvm -DPYTHON_CMD=python3 .. # build python3 binding
make -jN
sudo make install

3. Python3 requirements

Then, you need to install the python3 requirements:

# Clone BCC repo
pip3 install -r requirements.txt

Count-Sketch

If you want to run count-sketch, this is an example. This script will attach the XDP program in XDP_DRV mode and the final action to execute will be DROP.

sudo python3 count_sketch.py -i eth0 -m NATIVE -a DROP

When the program is up and running, you can type help to list the runtime commands to execute.

root@ubuntu:~/dev/ebpf-sketch$ sudo python3 count_sketch.py -i ens4f0
Ready, please insert a new command (type 'help' for the full list)
help

Full list of commands
read <N>:       read the dropcount value for N seconds
quit:           exit and detach the eBPF program from the XDP hook
help:           print this help
Ready, please insert a new command (type 'help' for the full list)

For instance, the read 10 command will print the drop count of the sketch for 10 seconds, and will print the average throughput:

read 10
Reading dropcount
0: XXX pkt/s
Average rate: XXX

The complete list of commands is the following:

usage: count_sketch.py [-h] -i INTERFACE [-m {NATIVE,SKB,TC}] [-a {DROP,REDIRECT}] [-o OUTPUT_IFACE] [-r READ] [-q] [--count-pkts] [--count-bytes]

eBPF Count Sketch implementation

optional arguments:
  -h, --help            show this help message and exit
  -i INTERFACE, --interface INTERFACE
                        The name of the interface where to attach the program
  -m {NATIVE,SKB,TC}, --mode {NATIVE,SKB,TC}
                        The default mode where to attach the XDP program
  -a {DROP,REDIRECT}, --action {DROP,REDIRECT}
                        Final action to apply
  -o OUTPUT_IFACE, --output-iface OUTPUT_IFACE
                        The output interface where to redirect packets. Valid only if action is REDIRECT
  -r READ, --read READ  Read throughput after X time and print result
  -q, --quiet           Do not print debug information
  --count-pkts          Print number of packets per second (default True)
  --count-bytes         Print number of bytes per second (default False)

Count-min Sketch

As for the Count Sketch, the Count-min Sketch can be execute with the following command:

sudo python3 countmin_sketch.py -i eth0 -m NATIVE -a DROP

The full list of commands is the following:

usage: countmin_sketch.py [-h] -i INTERFACE [-m {NATIVE,SKB,TC}] [-a {DROP,REDIRECT}] [-o OUTPUT_IFACE] [-r READ] [-q] [--count-pkts] [--count-bytes]

eBPF Count-min Sketch implementation

optional arguments:
  -h, --help            show this help message and exit
  -i INTERFACE, --interface INTERFACE
                        The name of the interface where to attach the program
  -m {NATIVE,SKB,TC}, --mode {NATIVE,SKB,TC}
                        The default mode where to attach the XDP program
  -a {DROP,REDIRECT}, --action {DROP,REDIRECT}
                        Final action to apply
  -o OUTPUT_IFACE, --output-iface OUTPUT_IFACE
                        The output interface where to redirect packets. Valid only if action is REDIRECT
  -r READ, --read READ  Read throughput after X time and print result
  -q, --quiet           Do not print debug information
  --count-pkts          Print number of packets per second (default True)
  --count-bytes         Print number of bytes per second (default False)

Nitrosketch + Count Sketch

If you want to run Nitrosketch, this is an example. This script will attach the XDP program in XDP_DRV mode and the final action to execute will be DROP; the sketch will run with a probability p=0.1 (i.e., 1%).

sudo python3 nitrosketch.py -i ens4f0 -a DROP -p 0.1

The full list of commands is the following:

usage: nitrosketch.py [-h] -i INTERFACE [-m {NATIVE,SKB,TC}] -p PROBABILITY [-a {DROP,REDIRECT}] [-o OUTPUT_IFACE] [-r READ] [-s SEED] [-q] [--count-pkts] [--count-bytes]

eBPF Nitrosketch implementation

optional arguments:
  -h, --help            show this help message and exit
  -i INTERFACE, --interface INTERFACE
                        The name of the interface where to attach the program
  -m {NATIVE,SKB,TC}, --mode {NATIVE,SKB,TC}
                        The default mode where to attach the XDP program
  -p PROBABILITY, --probability PROBABILITY
                        The update probability of the sketch
  -a {DROP,REDIRECT}, --action {DROP,REDIRECT}
                        Final action to apply
  -o OUTPUT_IFACE, --output-iface OUTPUT_IFACE
                        The output interface where to redirect packets. Valid only if action is REDIRECT
  -r READ, --read READ  Read throughput after X time and print result
  -s SEED, --seed SEED  Set a specific seed to use
  -q, --quiet           Do not print debug information
  --count-pkts          Print number of packets per second (default True)
  --count-bytes         Print number of bytes per second (default False)

UnivMon + Nitrosketch

If you want to run UnivMon + Nitrosketch, this is an example. This script will attach the XDP program in XDP_DRV mode and the final action to execute will be DROP; the sketch will run with a probability p=0.1 (i.e., 1%), and with a number of layers l=16.

sudo python3 nitrosketch-univmon.py -i ens4f0 -a DROP -p 0.1 -l 16

The full list of commands is the following:

usage: nitrosketch-univmon.py [-h] -i INTERFACE [-m {NATIVE,SKB,TC}] -p PROBABILITY [-a {DROP,REDIRECT}] [-o OUTPUT_IFACE] [-r READ] [-s SEED] [-l LAYERS] [-q] [--count-pkts] [--count-bytes]

eBPF Nitrosketch + Univmon Implementation

optional arguments:
  -h, --help            show this help message and exit
  -i INTERFACE, --interface INTERFACE
                        The name of the interface where to attach the program
  -m {NATIVE,SKB,TC}, --mode {NATIVE,SKB,TC}
                        The default mode where to attach the XDP program
  -p PROBABILITY, --probability PROBABILITY
                        The update probability of the sketch
  -a {DROP,REDIRECT}, --action {DROP,REDIRECT}
                        Final action to apply
  -o OUTPUT_IFACE, --output-iface OUTPUT_IFACE
                        The output interface where to redirect packets. Valid only if action is REDIRECT
  -r READ, --read READ  Read throughput after X time and print result
  -s SEED, --seed SEED  Set a specific seed to use
  -l LAYERS, --layers LAYERS
                        Number of layers to run with
  -q, --quiet           Do not print debug information
  --count-pkts          Print number of packets per second (default True)
  --count-bytes         Print number of bytes per second (default False)

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A list of network measurement sketch algorithms implemented in eBPF

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