Installing a Development Environment

This guide gives a step by step installation instructions that are simpler then what the s2aio.sh script does (e.g. it does not involve a docker registry installation and configuration).

The below steps must be executed using a passwordless sudoer user.

Install Swift and Keystone using devstack

Clone devstack:

git clone git://github.com/openstack-dev/devstack.git

Create a localrc file under the devstack repository root directory:

ENABLE_HTTPD_MOD_WSGI_SERVICES=False
KEYSTONE_IP=127.0.0.1
SWIFT_IP=127.0.0.1
ENABLED_SERVICES=key,swift,mysql
ADMIN_USER=admin
ADMIN_PASSWORD=$ADMIN_USER
ADMIN_PROJECT=ADMIN_USER
DATABASE_PASSWORD=admin
RABBIT_PASSWORD=$ADMIN_PASSWORD
SERVICE_PASSWORD=$ADMIN_PASSWORD

OS_IDENTITY_API_VERSION=2
OS_AUTH_URL="http://$KEYSTONE_IP/identity/v3"
OS_USERNAME=$ADMIN_USER
OS_USER_DOMAIN_ID=default
OS_PASSWORD=$ADMIN_PASSWORD
OS_PROJECT_NAME=$ADMIN_USER
OS_PROJECT_DOMAIN_ID=default
OS_REGION_NAME=RegionOne

SERVICE_HOST=$SWIFT_IP
SWIFT_SERVICE_PROTOCOL=http
SWIFT_DEFAULT_BIND_PORT=8080
SWIFT_SERVICE_LOCAL_HOST=$SERVICE_HOST
SWIFT_SERVICE_LISTEN_ADDRESS=$SERVICE_HOST
# Use minimum 2GB for running the storlets tests
SWIFT_LOOPBACK_DISK_SIZE=20G
SWIFT_HASH=1234567890

Run the stack.sh script. Before proceeding, we need to stop the swift instances that were executed by the stack.sh. From the same directory do:

::
source functions source lib/swift stop_swift

Finally, add the swift devices to fstab:

sudo sh -c 'echo "/opt/stack/data/swift/drives/images/swift.img /opt/stack/data/swift/drives/sdb1 xfs loop" >> /etc/fstab'

Configure a user and project in Keystone

We use the opnstack cli to configure a user and project used by the storlets functional tests. We start by defining some environment variables:

export OS_IDENTITY_API_VERSION=2
export OS_AUTH_URL="http://$KEYSTONE_IP/identity/v3"
export OS_USERNAME=$ADMIN_USER
export OS_USER_DOMAIN_ID=default
export OS_PASSWORD=$ADMIN_PASSWORD
export OS_PROJECT_NAME=$ADMIN_USER
export OS_PROJECT_DOMAIN_ID=default
export OS_REGION_NAME=RegionOne

We now create the project and user:

openstack project create test
openstack user create --project test --password testing tester
openstack role add --user tester --project test admin

We now test that the setup by having the user ‘tester’ to stat the account ‘test’. We use the Swift client cli. A convenient way to do so is to edit the user’s .bashrc adding the lines:

export OS_USERNAME=tester
export OS_PASSWORD=testing
export OS_TENANT_NAME=test
export OS_AUTH_URL=http://127.0.0.1/identity/v3

Now do:

source .bashrc
swift stat

Install Storlets

Install Dependencies

We need the following for the Java parts

sudo add-apt-repository -y ppa:openjdk-r/ppa
sudo apt-get update
sudo apt-get install -y openjdk-8-jdk
sudo apt-get install -y ant

We need the following for Docker

sudo apt-get -y install docker.io
ln -sf /usr/bin/docker.io /usr/local/bin/docker
sed -i '$acomplete -F _docker docker' /etc/bash_completion.d/docker
update-rc.d docker defaults

Get and install the storlets code

cd $HOME
git clone https://github.com/openstack/storlets.git
cd storlets
sudo ./install_libs.sh
sudo python setup.py install
tar czf /tmp/storlets.tar.gz .
cd -

Note

You don’t need sudo for ‘python setup.py install’ when installing the storlets package into your python virtualenv.

Build the Docker image to be used for running storlets

Step 1: Create a working space for building the docker images, e.g.

mkdir -p $HOME/docker_repos
sudo docker pull ubuntu:14_04

Step 2: Create a Docker image with Java

mkdir -p $HOME/docker_repos/ubuntu_14.04_jre8
cd $HOME/docker_repos/ubuntu_14.04_jre8
cp $HOME/storlets/src/java/dependencies/logback-classic-1.1.2.jar .
cp $HOME/storlets/src/java/dependencies/logback-core-1.1.2.jar .
cp $HOME/storlets/src/java/dependencies/slf4j-api-1.7.7.jar .
cp $HOME/storlets/src/java/dependencies/json_simple-1.1.jar .
cp $HOME/storlets/src/java/dependencies/logback.xml .
cd -

Create the file: $HOME/docker_repos/ubuntu_14.04_jre8/Dockerfile with the following content:

FROM ubuntu:14.04
MAINTAINER root

# The following operations shoud be defined in one line
# to prevent docker images from including apt cache file.
RUN apt-get update && \
apt-get install python -y && \
apt-get install software-properties-common -y && \
add-apt-repository ppa:openjdk-r/ppa -y && \
apt-get update && \
apt-get install openjdk-8-jre -y && \
apt-get clean

COPY logback-classic-1.1.2.jar  /opt/storlets/
RUN ["chmod", "0744", "/opt/storlets/logback-classic-1.1.2.jar"]

COPY logback-core-1.1.2.jar /opt/storlets/
RUN ["chmod", "0744", "/opt/storlets/logback-core-1.1.2.jar"]

COPY logback.xml    /opt/storlets/
RUN ["chmod", "0744", "/opt/storlets/logback.xml"]

COPY slf4j-api-1.7.7.jar    /opt/storlets/
RUN ["chmod", "0744", "/opt/storlets/slf4j-api-1.7.7.jar"]

COPY json_simple-1.1.jar    /opt/storlets/
RUN ["chmod", "0744", "/opt/storlets/json_simple-1.1.jar"]

Build the image

cd $HOME/docker_repos/ubuntu_14.04_jre8
sudo docker build -q -t ubuntu_14.04_jre8 .
cd -

Step 3: Augment the above created image with the storlets stuff

mkdir -p $HOME/docker_repos/ubuntu_14.04_jre8_storlets
cd $HOME/docker_repos/ubuntu_14.04_jre8_storlets
cp $HOME/storlets/src/java/SBus/bin/libjsbus.so .
cp $HOME/storlets/src/java/SBus/bin/SBusJavaFacade.jar .
cp $HOME/storlets/src/java/SDaemon/bin/SDaemon.jar .
cp $HOME/storlets/src/java/SCommon/bin/SCommon.jar .
cp $HOME/storlets/src/c/sbus/libsbus.so .
cp $HOME/storlets/install/storlets/roles/docker_storlet_engine_image/files/init_container.sh .
cp $HOME/storlets/install/storlets/roles/docker_storlet_engine_image/files/logback.xml .
wget https://bootstrap.pypa.io/get-pip.py
cp /tmp/storlets.tar.gz .
tar -xvf storlets.tar.gz
cd -

Create the file: $HOME/docker_repos/ubuntu_14.04_jre8_storlets/Dockerfile with the following content:

FROM ubuntu_14.04_jre8

MAINTAINER root

RUN [ "groupadd", "-g", "1003", "swift" ]
RUN [ "useradd", "-u" , "1003", "-g", "1003", "swift" ]

# Copy files
COPY ["logback.xml", "init_container.sh", "/opt/storlets/"]

RUN ["chmod", "0744", "/opt/storlets/logback.xml"]
RUN ["chmod", "0755", "/opt/storlets/init_container.sh"]

# Install c java resources
COPY ["libsbus.so", "/usr/local/lib/storlets/"]

# Install storlets java resources
COPY ["SBusJavaFacade.jar", "libjsbus.so", "SDaemon.jar", "SCommon.jar", "/opt/storlets/"]

# Install pip
COPY ["get-pip.py", "/opt/storlets"]
RUN ["python",  "/opt/storlets/get-pip.py"]
ENV PYTHONWARNINGS="ignore:a true SSLContext object"

# Install python codes
COPY ["storlets", "/opt/storlets/"]
RUN cd /opt/storlets/ && \
    pip install -r requirements.txt && \
    python setup.py install

CMD ["prod", "/mnt/channels/factory_pipe", "DEBUG"]

ENTRYPOINT ["/opt/storlets/init_container.sh"]

Build the image

cd $HOME/docker_repos/ubuntu_14.04_jre8_storlets
sudo docker build -q -t ubuntu_14.04_jre8_storlets .
cd -

Step 4: Create a tenant specific image. The engine looks for images having the name <tenand id>. First, we get the tenant id. Using the Swift cli and the above create user do:

swift --os-auth-url http://127.0.0.1/identity/v3 --os-project-name test --os-project-domain-name default --os-username tester --os-password testing stat

The response from the above contains the account line, e.g.:

Account: AUTH_719caee804974c14a8632a760a7f85f7

The account id is the number following the ‘AUTH_’ prefix.

Next create the file $HOME/docker_repos/ubuntu_14.04_jre8_storlets_<account id>/Dockerfile with the following content:

FROM ubuntu_14.04_jre8_storlets

MAINTAINER root

RUN apt-get install vim

Build the image

cd $HOME/docker_repos/ubuntu_14.04_jre8_storlets_<account id>
sudo docker build -q -t <account id> .
cd -

Create the storlets run time environment

Create the run time directory

export STORLETS_HOME=/home/docker_device
sudo mkdir -p $STORLETS_HOME
sudo chmod 777 $STORLETS_HOME

Create the scripts directory and populate it. Note that these scripts are executed by the middleware but require root privileges.

mkdir $STORLETS_HOME/scripts
cd STORLETS_HOME/scripts
cp $HOME/scripts/restart_docker_container .
sudo chown root:root restart_docker_container
sudo chmod 04755 restart_docker_container
cp $HOME/scripts/send_halt_cmd_to_daemon_factory.py .
sudo chown root:root send_halt_cmd_to_daemon_factory.py
sudo chmod 04755 send_halt_cmd_to_daemon_factory.py
The run time directory will be later populated by the middleware with:
  1. storlets - Docker container mapped directories keeping storlet jars
  2. pipe - A Docker container mapped directories holding named pipes shared between the middleware and the containers.
  3. logs - the logs of storlets running inside the docker containers
  4. cache - a local cache for storlet jars

Configure Swift to work with the middleware components

Step 1: Edit the proxy server config file /etc/swift/proxy-server.conf and do the following:

  1. Add the storlet_handler to the proxy server pipline just before the slo middleware as shown below:
pipeline = catch_errors gatekeeper healthcheck proxy-logging cache container_sync bulk tempurl ratelimit authtoken keystoneauth container-quotas account-quotas storlet_handler slo dlo versioned_writes proxy-logging proxy-server
  1. At the bottom of the file add the following configuration block:
[filter:storlet_handler]
use = egg:storlets#storlet_handler
storlet_container = storlet
storlet_dependency = dependency
storlet_gateway_module = docker
storlet_gateway_conf = /etc/swift/storlet_docker_gateway.conf
storlet_execute_on_proxy_only = false
execution_server = proxy

Step 2: Edit the object server(s) config file(s). In a SAIO environment these would be: /etc/swift/object-server/1.conf through /etc/swift/object-server/4.conf otherwise the file is typically /etc/swift/object-server.conf

  1. Add the storlet_handler to the object server pipline just before the slo object-server as shown below:
pipeline = recon storlet_handler object-server
  1. At the bottom of the file add the following configuration block:
[filter:storlet_handler]
use = egg:storlets#storlet_handler
storlet_container = storlet
storlet_dependency = dependency
storlet_gateway_module = docker
storlet_gateway_conf = /etc/swift/storlet_docker_gateway.conf
storlet_execute_on_proxy_only = false
execution_server = object

Step 3: Add the Docker gateway configuration file. Under /etc/swift create a file named storlet_docker_gateway.conf with the following content:

[DEFAULT]
storlet_logcontainer = storletlog
lxc_root = /home/docker_device/scopes
cache_dir = /home/docker_device/cache/scopes
log_dir = /home/docker_device/logs/scopes
script_dir = /home/docker_device/scripts
storlets_dir = /home/docker_device/storlets/scopes
pipes_dir = /home/docker_device/pipes/scopes
storlet_timeout = 40
docker_repo =
restart_linux_container_timeout = 3

Step 4: Create and edit the file /etc/swift/storlet-proxy-server.conf:

cp /etc/swift/proxy-server.conf /etc/swift/storlet-proxy-server.conf

Change the pipeline in /etc/swift/storlet-proxy-server.conf to be:

pipeline = proxy-logging cache slo proxy-logging proxy-server

Step 5: restart swift

sudo swift-init all restart

Enable the account for storlets

We use the same test account and tester user created above. To enable the account for storlets we need to set an appropriate user metadata on the account and create within the account the various Swift containers assumed by the engine.

We use the swift cli as follows:

swift post \
--os-auth-url=http://127.0.0.1/identity/v3 \
--os-username=tester \
--os-password=testing \
--os-project-name=test \
--os-project-domain-name default \
--meta "Storlet-Enabled:True"


swift post \
--os-auth-url=http://127.0.0.1/identity/v3 \
--os-username=tester \
--os-password=testing \
--os-project-name=test \
--os-project-domain-name default \
storlet

swift post \
--os-auth-url=http://127.0.0.1/identity/v3 \
--os-username=tester \
--os-password=testing \
--os-project-name=test \
--os-project-domain-name default \
dependency

swift post \
--os-auth-url=http://127.0.0.1/identity/v3 \
--os-username=tester \
--os-password=testing \
--os-project-name=test \
--os-project-domain-name default \
storletlog

Run the functional tests

The functional tests upload various storlets and execute them. Running the functional tests successfully proves the installation completed successfully.

The functional tests are designed to run over a clustered installation (that is not an all in one install). Hence, running the tests require a cluster connfiguration file.

Step 1: Create the file $HOME/storlets/cluster_config.json with the below content.

{
    "all" : {
        "docker_device": "/home/docker_device",
        "storlet_source_dir": "~/storlets",
        "keystone_public_url": "http://127.0.0.1/identity/v3",
        "swift_endpoint_host": "127.0.0.1",
        "swift_public_url": "http://127.0.0.1:8080/v1",
        "storlets_enabled_attribute_name": "storlet-enabled",
        "storlets_default_project_name": "test",
        "storlets_default_project_user_name": "tester",
        "storlets_default_project_user_password": "testing",
        "storlets_default_project_member_user": "tester_member",
        "storlets_default_project_member_password": "member",
    }
}

Step 2: Run the functional tests

cd $HOME/storlets
./.functests dev