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Batch-scheduler framework for controlling execution in a packet-processing pipeline based on strict service-level objectives

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Batchy

Overview | Installation | Usage | Examples | Caveats and Limitations | License

Overview

Batchy is a a scheduler for run-to-completion packet processing engines, which uses controlled queuing to efficiently reconstruct fragmented batches in accordance with strict service-level objectives (SLOs).

Batchy comprises:

  • a runtime profiler to quantify batch-processing gains on different processing functions,
  • an analytical model to fine-tune queue backlogs,
  • a new queuing abstraction that allows to realize the model in the run-to-completion execution model,
  • a one-step receding horizon controller that adjusts backlogs across the pipeline.

Extensive experiments on networking use cases taken from an official 5G benchmark suite show that Batchy provides 2-3x the performance of prior work while accurately satisfying delay SLOs.

For more information, please refer to the NSDI20 paper.

Installation

Dependencies

Install Dependencies

BESS and our-plugins can be installed with the following steps (Docker is required):

git clone https://github.com/levaitamas/bess.git -b our-plugins
cd bess
sudo ./start-container-our_plugins.sh

$ ./build.py --plugin our-plugins

Clone the Repository

git clone https://github.com/levaitamas/batchy.git

Setup Batchy

Before diving deep in Batchy, customize your configuration file at lib/settings.py:

  • (mandatory) set BESS install location (DEFAULT_BESSDIR)
  • (optional) tweak Batchy parameters

Usage

Profiling

Batchy contains a built-in profiler that runs a standard benchmark on the system under test at the time of initialization, collects per-batch and per-packet service-time components for common NFs (BESS modules), and stores the results for later use.

The profiling data is automatically read when a new module is added to the packet-processing pipeline and thus provides a handful information to the controller.

Profiling can be initiated manually only due to its long time-span. A complete profiling can even take up to 60+ minutes.

To start profiling:

./batchy.py -profile [MODULES]

or

./profiler/profile_all.sh

The profiler results are written to PROFILER_FILE set in lib/settings.py (default: profiler_results.json in Batchy root).

Writing Batchy Scripts

Batchy provides a scripting interface to build and interact with the Batchy internals as a main interface.

A Batchy scripts are Python3 scripts with extra global variables. They are also very similar to BESS config scripts.

Relevant parts of a Batchy script are the following:

1. Read run-time args

The following pattern reads the CLI arg arg_name (or default_value) to variable converted to type.

variable = get_arg(arg_name, default_value, type)

2. Create worker

worker0 = batchy.add_worker(worker_name)

3. Add tasks to a worker

task0 = worker0.add_task(task_name, type=task_type)

Supported types are: 'RTC' and 'WFQ'. Type-mixing is not supported.

4. Add modules to task, set internal pipeline

module0 = task0.add_module(BessModule(bess_module_kw_args), type=mtype)

5. Add flows

new_flow = batchy.add_flow(name=flow_name,
                           path=[{'task': task0, 'path': flow_path}],
                           delay_slo=flow_delayslo,
                           rate_slo=flow_rateslo,
                           source_params=flow_source_params)

6. Add test traffic

  • Built-in traffic generator
batchy.add_source()
batchy.add_sink()
  • PCAP-replay Supported modes are 'replicate' and 'tcpreplay'. Tcpreplay relies on the external tool tcpreplayand has a very limited throughput. Replicate uses a large Queue module to store packets and a Replicate module to re-add a freash-copy of the packet leaving the traffic generator. This method requires large amount of memory, but it provides a good throughput.
batchy.add_pcap_source(source_pcap, worker, task, mode='replicate', ts_offset=None)
batchy.add_sink()

A helper script is available to populate L3 lookup module tables. See the l2l3 config as an example.

7. Set controllers

  • Set Task controller
worker0.set_task_controller(batchy.resolve_task_controller(controller_name))
  • Set Worker controller
batchy.set_controller(batchy.resolve_controller(controller_name))

8. Run pipeline

batchy.run(rounds, control_period)

9. Get results

batchy.plot(outfile_png)
batchy.dump(outfile_csv)

A complete example is presented in Examples.

Running Batchy Scripts

1. Start BESS daemon if it is not running

TIP: This BESS Wiki page shows how to start the BESS daemon.

2. Run Batchy config script

./batchy.py -r CONF_FILE CONF_ARGS

Examples

A Simple Pipeline

                  +---------+
                  |         |
               -->|   NF1   |
              /   |         |
+----------+ /    +---------+
|          |/
| Splitter |
|          |\
+----------+ \    +---------+
              \   |         |
               -->|   NF2   |
                  |         |
                  +---------+

       Simple Pipeline

A simple pipeline consists of 2 NFs (implemented as Bypass modules) and a splitter (Splitter module). Two flows will be defined: flow1: [splitter, nf1] and flow2: [splitter, nf2]. The configuration script is located at conf/simple_pipeline.batchy.

Details of the config script:

To run the configuration start BESS daemon and then issue the following command:

./batchy.py --reset --loglevel INFO conf/simple_pipeline.batchy rounds=100,delay_slo1=55_000

The --reset arg resets the BESS daemon before run, --loglevel sets Batchy loglevel, rounds=100,delay_slo1=55_000 run-time arguments of simple_pipeline.batchy specifying the number of rounds and delay SLO of flow1.

During the run Batchy dumps information about the process according to the loglevel set:

*** WARMUP... ***
*** CONTROL ROUND: 1..., cumulative flow rate: 0 pps
CONTROL: task0: error=0.000, dist=3600.000
        module bypass1: PULLING: q_v: 19.000, delay_diff = 5723.824 < max_delay=88650.000
*** CONTROL ROUND: 2..., cumulative flow rate: 6.23899 Mpps
CONTROL: task0: error=0.000, dist=3400.000
        module bypass1: GRADIENT PROJECTION: setting: q[v]: 19 -> 32
*** CONTROL ROUND: 3..., cumulative flow rate: 6.529956 Mpps
CONTROL: task0: error=0.000, dist=3350.000
GRADIENT PROJECTION: obtained a KKT point, doing nothing
*** CONTROL ROUND: 4..., cumulative flow rate: 6.821728 Mpps
CONTROL: task0: error=0.000, dist=3350.000
GRADIENT PROJECTION: obtained a KKT point, doing nothing
[...]
*** CONTROL ROUND: 39..., cumulative flow rate: 6.855618 Mpps
CONTROL: task0: error=0.000, dist=3350.000
GRADIENT PROJECTION: obtained a KKT point, doing nothing
*** CONTROL ROUND: 40..., cumulative flow rate: 6.862739 Mpps
CONTROL: task0: error=0.000, dist=1700.000
GRADIENT PROJECTION: obtained a KKT point, doing nothing
plot: plotting statistics to file: "/tmp/simple_pipeline_stats.png"
dump: dumping statistics to CSV file: "/tmp/simple_pipeline_stats.txt"
Done.

After the run Batchy dumps results to /tmp/simple_pipeline_stats.txt and plots a figure of control values, flow delays, and flow packet rates to /tmp/simple_pipeline_stats.png.

Run our measurements

To easily recreate some of our measurements, we packed our NSDI measurements with ready-to-run shell scripts. For details, see scripts/nsdi-measurements.

Caveats and Limitations

Batchy is an experimental software with limitations. Some of these are:

  • tasks are not handled (in most cases 1 task/worker is used)
  • by default implicit decision of configurable module, i.e. batchyness metric
  • the resolution of Measure module determines the real-time controller's effective delay range

License

Batchy is a free software and licensed under GPLv3+.

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Batch-scheduler framework for controlling execution in a packet-processing pipeline based on strict service-level objectives

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