Companion repo of the UCC 2021 paper "Predictive Auto-scaling with OpenStack Monasca"

Overview

GitHub license DOI arXiv

Predictive Auto-scaling with OpenStack Monasca

Giacomo Lanciano*, Filippo Galli, Tommaso Cucinotta, Davide Bacciu, Andrea Passarella
2021 IEEE/ACM 14th International Conference on Utility and Cloud Computing (UCC)

Abstract: Cloud auto-scaling mechanisms are typically based on reactive automation rules that scale a cluster whenever some metric, e.g., the average CPU usage among instances, exceeds a predefined threshold. Tuning these rules becomes particularly cumbersome when scaling-up a cluster involves non-negligible times to bootstrap new instances, as it happens frequently in production cloud services.
To deal with this problem, we propose an architecture for auto-scaling cloud services based on the status in which the system is expected to evolve in the near future. Our approach leverages on time-series forecasting techniques, like those based on machine learning and artificial neural networks, to predict the future dynamics of key metrics, e.g., resource consumption metrics, and apply a threshold-based scaling policy on them. The result is a predictive automation policy that is able, for instance, to automatically anticipate peaks in the load of a cloud application and trigger ahead of time appropriate scaling actions to accommodate the expected increase in traffic.
We prototyped our approach as an open-source OpenStack component, which relies on, and extends, the monitoring capabilities offered by Monasca, resulting in the addition of predictive metrics that can be leveraged by orchestration components like Heat or Senlin. We show experimental results using a recurrent neural network and a multi-layer perceptron as predictor, which are compared with a simple linear regression and a traditional non-predictive auto-scaling policy. However, the proposed framework allows for the easy customization of the prediction policy as needed.

DOI: 10.1145/3468737.3494104

arXiv: arXiv:2111.02133

* contact author

Requirements

In what follows, we provide instructions to install the required dependencies, assuming a setup that is similar to our testing environment.

The test-bed used for our experiments is a Dell R630 dual-socket, equipped with: 2 Intel Xeon E5-2640 v4 CPUs (2.40 GHz, 20 virtual cores each); 64 GB of RAM; Ubuntu 20.04.2 LTS operating system; version 4.15.0-122-generic of the Linux kernel.

Data

DOI

The data used for this work are publicly available. We recommend using our utility to automatically download, decompress and place such data in the location expected by our tools. To do that, make sure the required dependencies are installed by running

apt-get install pbzip2 tar wget

To start the download utility, run make data from the root of this repo. Once the download terminates, the following files are placed under data/:

File Description
amphora-x64-haproxy.qcow2 Image used to create Octavia amphorae
distwalk-{lin,mlp,rnn,stc}-<INCREMENTAL-ID>.log distwalk run log
distwalk-{lin,mlp,rnn,stc}-<INCREMENTAL-ID>-pred.json Predictive metric data exported from Monasca DB
distwalk-{lin,mlp,rnn,stc}-<INCREMENTAL-ID>-real.json Actual metric data exported from Monasca DB
distwalk-{lin,mlp,rnn,stc}-<INCREMENTAL-ID>-times.csv Client-side response time for each request sent during a run
model_dumps/* Dumps of the models and data scalers used for the validation
predictor.log monasca-predictor log
predictor-times.log monasca-predictor log (timing info only)
predictor-times-{lin,mlp,rnn}.{csv,log} monasca-predictor log (timing info only, group by predictor)
super_steep_behavior.csv Dataset used to train MLP and RNN models
test_behavior_02_distwalk-6t_last100.dat distwalk load trace
ubuntu-20.04-min-distwalk.img Image used to create Nova instances for the scaling group

Python

To be able to run all the parts of this work, the following Python versions must be installed:

Version Usage
3.7.10 To run monasca-predictor
3.8.5 To install OpenStack (with Kolla) and run the Python code included in this repo

Consider using a tool like pyenv to easily install and manage multiple Python versions on the same system.

OpenStack

OpenStack victoria version is required to run our predictive auto-scaling strategy. On top of the other core OpenStack services, we leverage on the following:

  • Heat
  • Monasca
  • Nova
  • Octavia
  • Senlin

Follow the OpenStack documentation to install the required services.

Alternatively, this repo includes (under openstack/) the config files we used to set up an all-in-one OpenStack containerized deployment using Kolla (victoria version). Follow the kolla-ansible documentation to decide on how to fill the fields marked as TO BE FILLED in the such files. Then, assuming the following command to be issued from the openstack/ directory (unless otherwise specified), deploy OpenStack by applying these steps:

  1. Install Kolla dependencies by running ./install-deps.sh. Docker is also required and must be installed separately.

  2. Build the required Kolla images by running ./kolla-build-images.sh.

  3. Start the deployment process by running ./kolla-start-all-nodes.sh.

Once the deployment is up and running, assuming the following command to be issued from the root of this repo (unless otherwise specified), complete the configuration by applying these steps:

  1. Create an SSH key-pair to be used for accessing the instances in the scaling group:

    ssh-keygen -t rsa -b 4096
  2. Initialize the current OpenStack project by deploying the resources defined in the openstack/heat/init.yaml Heat Orchestration Template (HOT):

    openstack stack create --enable-rollback --wait \
        --parameter admin_public_key="<PUBLIC-SSH-KEY-TEXT>" \
        -t openstack/heat/init.yaml init

    NOTE: the other parameters concerning networking configs are provided with default values that makes sense on our test-bed. Consider reviewing them before deploying.

  3. Upload the image to be used for creating the instances in the scaling group:

    openstack image create \
        --container-format bare \
        --disk-format qcow2 \
        --file data/ubuntu-20.04-min-distwalk.img \
        --public \
        ubuntu-20.04-min-distwalk
  4. As it is the case for our test-bed, Octavia may get stuck at creating amphorae due to the provider network subnet being different from the host network. When experiencing similar issues, try and apply our workaround by running ./octavia-setup.sh from the openstack/ directory.

monasca-predictor

We use monasca-predictor to provide OpenStack Monasca with forecasting capabilities and enable a predictive auto-scaling strategy. To install the specific version used for our experiments (i.e., version 0.1.0), assuming that python3.7 points to version 3.7.10, run

apt-get install python3.7-venv
git clone https://github.com/giacomolanciano/monasca-predictor
cd monasca-predictor
git checkout v0.1.0
make py37

The monasca-predictor command can now be issued from within the newly created virtual env, that can be activated by running

source .venv/py37/bin/activate

distwalk

We use distwalk to generate traffic on the scaling group. To install the specific version used for our experiments (i.e., commit 8092994), run

git clone https://github.com/tomcucinotta/distwalk
cd distwalk
git checkout 8092994
make

The binaries for the client and server modules (client and node, respectively) will be generated under distwalk/src/.

Jupyter

This repo includes Jupyter notebooks. To install JupyterLab, assuming that pip3 is the version of pip associated with Python 3.8.5, run

pip3 install -U pip
pip3 install jupyterlab==3.1.12 jupytext==1.11.2

Notice that we leverage on jupytext such that each notebook is paired (and automatically kept synchronized) with an equivalent Python script, that is what is actually versioned in this repo. To configure jupytext accordingly, append the following lines to your Jupyter configs (e.g., ~/.jupyter/jupyter_notebook_config.py):

c.ContentsManager.allow_hidden = True
c.ContentsManager.comment_magics = True
c.ContentsManager.default_jupytext_formats = "ipynb,py:percent"
c.NotebookApp.contents_manager_class = "jupytext.TextFileContentsManager"

NOTE: To open a paired Python script as a notebook from JupyterLab, right-click on the script and then click on "Open With" > "Notebook".

Running the notebooks

The notebooks included in this repo can be used to visualize the results of the runs, as well as to train the time-series forecasting models used in this work. Here is a summary of what can be found under notebooks/:

File Description
common.py Module containing common utility functions
constants.py Module containing constant values (e.g., metadata about the performed runs)
results_load.py Notebook that plots the time-series exported from Monasca DB
results_overhead.py Notebook that produces a table regarding the average overhead imposed by monasca-predictor
results_times.py Notebook that plots distwalk client-side response times and produces a table regarding their distributions
train_mlp.py Notebook that allows for training an MLP
train_rnn.py Notebook that allows for training an RNN

To run the notebooks, it is necessary to set up a virtual env to be used as a kernel, by running make py38 from the root of this repo. Once the command terminates, a new kernel named pred-as-os will be available for the current user. The notebooks are set to use this kernel by default.

Example of output generated by results_load.py:

load plot

Example of output generated by results_times.py:

times plot

Launching a new run

We assume all the following commands to be issued from the root of this repo (unless otherwise specified). Here are the steps to apply to launch a new run:

  1. Make sure the current user is provided with credentials granting full-access to an OpenStack project that was initialized according to the provided instructions.

  2. Deploy the required OpenStack resources using the openstack/heat/senlin-auto-scaling.yaml HOT. To use our proposed predictive auto-scaling strategy, run:

    openstack stack create --enable-rollback --wait \
        --parameter auto_scaling_enabled=true \
        --parameter scale_out_metric=pred.group.sum.cpu.utilization_perc  \
        -t openstack/heat/senlin-auto-scaling.yaml senlin

    Alternatively, to use the static auto-scaling strategy, run:

    openstack stack create --enable-rollback --wait \
        --parameter auto_scaling_enabled=true \
        -t openstack/heat/senlin-auto-scaling.yaml senlin

    NOTE: after the stack is created, the system will not be ready to handle requests until the time we configured to defer the start of the distwalk server in each scaling group instance (i.e., 5.5 minutes) has passed. This is done to simulate a production-like scenario, where required resources take a non-negligible time to be configured. It is possible to send requests to the system as soon as the operating_status of the load-balancer turns to ONLINE. Such condition can be checked with the following command:

    $ openstack loadbalancer status show <OCTAVIA-LB-ID>
    {
       "loadbalancer": {
          "id": "<OCTAVIA-LB-ID>",
          "name": "<OCTAVIA-LB-NAME>",
          "operating_status": "ONLINE",
          "provisioning_status": "ACTIVE",
    [...]
  3. Copy config.conf.template to config.conf and fill in the fields marked as TO BE FILLED.

  4. When using the predictive strategy, copy predictor.yaml.template to predictor.yaml and fill in the fields marked as TO BE FILLED. In particular, use the same configs of monasca-agent subcomponents where specified (e.g., after installing OpenStack with Kolla, such config files can be found under /etc/kolla/monasca-agent-*). In addition, make sure to correctly specify the type of time-series forecasting model (and the data scaler) to be used.

  5. Open two terminal windows to launch distwalk and monasca-predictor (when using the predictive strategy) separately.

    NOTE: we expect the user to launch the two processes (as explained in the following steps) in rapid succession. However, our distwalk load trace is designed such that we can tolerate even a few minutes delay between the two, as long as distwalk is started before monasca-predictor, without affecting the interesting parts of the results of a run.

  6. To launch distwalk, use run.sh specifying a log file named according to the following convention, depending on the chosen time-series forecasting model type:

    ./run.sh --log data/distwalk-{lin,mlp,rnn,stc}-<INCREMENTAL-ID>.log

    The other output files will be created under data/ and named accordingly. Such naming convention is the one expected by the provided Jupyter notebooks to automatically plot the results of the new run. When using the predefined distwalk load trace, this process will take ~1.5 hours to terminate.

  7. Activate the monasca-predictor virtual env (see provided instructions) and launch it by running

    sleep 1200; monasca-predictor -f predictor.yaml

    NOTE: we defer the start of monasca-predictor until 20 minutes (i.e., our default input size for the time-series forecasting algorithm) have passed, such that the results of the run are not affected by load on the system prior to the start of the run. The logs will be saved in the file specified in predictor.yaml.

  8. When distwalk terminates, stop monasca-predictor as well by pressing CTRL-C.

  9. To load the results of the new run in the notebooks, add an entry to notebooks/constants.py, depending on the chosen time-series forecasting model type, using the following structure:

    ### TO BE FILLED (use the same ID of distwalk log) ###
    <INCREMENTAL-ID>: {
         "load_profile": "test_behavior_02_distwalk-6t_last100.dat",
    
         ### TO BE FILLED (see tail of distwalk log) ###
         "start_real": ...,
    
         ### TO BE FILLED (see tail of distwalk log) ###
         "end_real": ...,
    
         ### TO BE FILLED (see predictor.yaml, use dump file basename) ###
         "model": ...,
    
         ### TO BE FILLED (see predictor.yaml, use dump file basename) ###
         "scaler": ...,
    
         "input_size": 20,
    },

    NOTE: After editing notebooks/constants.py, it may be necessary to restart the notebook kernels to fetch the update.

Citation

Please consider citing:

@inproceedings{Lanciano2021Predictive,
  author={Lanciano, Giacomo and Galli, Filippo and Cucinotta, Tommaso and Bacciu, Davide and Passarella, Andrea},
  booktitle={2021 IEEE/ACM 14th International Conference on Utility and Cloud Computing (UCC)},
  title={Predictive Auto-scaling with OpenStack Monasca},
  year={2021},
  doi={10.1145/3468737.3494104},
}
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