=== The Basics === The neo-containers system uses cloud-container technology to abstract and generalize container creation and initialization. At the DETER level, the experiments have a number of physical nodes, "pnodes", which serve as hosts for the virtualized containers. Outside of the experiment there are two servers which configure the containers. Both run on {{{chef.isi.deterlab.net}}}. The Chef server serves "code as configuration" and stores static (for the most part) configuration information. The {{{config_server}}} is a RESTful API which loads then serves experiment-specific configuration information. The code that the Chef server runs on the containers usually pull the specific configuration information from the {{{config_server}}}. The {{{config_server}}} code can be found [https://github.com/deter-project/config_server.git on DETER's Github account]. The Chef recipes used [https://github.com/deter-project/deter-chef.git are there as well]. === HOWTO run neo-containers === Note that much of the detail of the system is still exposed. Users must currently run a script or two. These scripts (or the functionality they contain) will be moved into the system itself in the future and will be hidden. 1. Checkout the config_server repository. This has the {{{config_server}}} code as well as the script you will use to populate the config server database. {{{ users: > cd src users: > git clone https://github.com/deter-project/config_server.git }}} 1. Create an experiment in which to run your containers. There are two modes: using the existing containers system or not using it. Neo-continainers uses the existing containers system to figure out more complex network topologies. If you just want containers "hanging off" your physical nodes and can compute IP addresses for your containers by hand, you do not need to use the existing containers system at all. Use 2a for an existing containers experiment. Use 2b for a standard NS-file based DETER experiment. a. Create an experiment using the existing containers system. Creat a containerized experiment with an NS file and the {{{/share/containers/containerize.py}}} script. In your NS file for each container in the experiment, specify {{{image_os}}}, {{{image_type}}}, {{{image_name}}}, and {{{image_url}}} via the {{{tb-add-node-attribute}}} syntax. Details on each attribute is given below. * {{{image_os}}} - This is really just to distinguish Windows from non-Windows nodes. If the {{{image_os}}} starts with "{{{windows}}}", the image will be treated as a Windows node. Otherwise it'll be assumed to be some sort of Unix-y container. * {{{image_type}}} - This setting describes the containerization tech of the node. Currently this is *always* set to "{{{vagrant}}}" as Vagrant is the only package used to spin up the containers. * {{{image_name}}} - The name of the image. Any containers that share a name will also share an image. * {{{image_url}}} - A URL must be specified which the neo-containers system uses to download the container image. This URL must be resolvable from the experiment nodes. The image will only be downloaded once as long as the {{{image_name}}}s are the same for each container. Existing and supported images are Ubuntu 14.04 64 @ {{{http://scratch/containers/deter_ub1404_64_vb.box}}} and Windows 7 @ {{{http://scratch/containers/deter_win7.box}}}. Here is an example that creates Windows and Ubuntu 14.04 containers: {{{ set r2d2 [$ns node] tb-add-node-attribute $r2d2 containers:image_os windows tb-add-node-attribute $r2d2 containers:image_type vagrant tb-add-node-attribute $r2d2 containers:image_name deter/win7 tb-add-node-attribute $r2d2 containers:image_url http://scratch/containers/deter_win7.box set c3po [$ns node] tb-add-node-attribute $c3po containers:image_os ubuntu tb-add-node-attribute $c3po containers:image_type vagrant tb-add-node-attribute $c3po containers:image_name ubuntu/trusty64 tb-add-node-attribute $c3p0 containers:image_url http://scratch/containers/deter_ub1404_64_vb.box }}} b. Create an experiment without using the existing containers system. Just create an NS file with a fully connected network. Use the PNODE-BASE image for all machines on which you want to run containers. Create a JSON file which describes your containers. It's a list of containers. For each container you must specify the {{{host}}} (machine it runs on), {{{interfaces}}} in addition to the parameters from 2a above. {{{ [ { "host": "alice", "name": "xanadu", "image_url": "http://scratch/containers/deter_win7_candidate.box" "image_os": "windows", "image_type": "vagrant", "image_name": "deter/win7", "interfaces": [ { "address": "10.1.1.200", "mac": "de:ad:be:ef:00:ae" } ] }, { "host": "alice", "name": "grease", "image_url": "http://scratch/containers/deter_win7_candidate.box" "image_os": "windows", "image_type": "vagrant", "image_name": "deter/win7", "interfaces": [ { "address": "10.1.1.201", "mac": "de:ad:be:ef:00:af" } ] }, { "host": "bob", "name": "maisie", "image_url": "http://scratch/containers/deter_ub1404_64_vb.box", "image_os": "ubuntu 14.04 64", "image_type": "vagrant", "image_name": "deter/ub14", "interfaces": [ { "address": "10.1.1.101", "mac": "de:ad:be:ef:00:be" } ] }, { "host": "bob", "name": "olive", "image_url": "http://scratch/containers/deter_ub1404_64_vb.box", "image_os": "ubuntu 14.04 64", "image_type": "vagrant", "image_name": "deter/ub14", "interfaces": [ { "address": "10.1.1.102", "mac": "de:ad:be:ef:00:bf" } ] } ] }}} This example creates four containers on two host nodes.[[BR]] If using this mode, skip steps 3 and 4. 3. Use the NS file to create a containerized experiment using the existing containers scripts (on users): {{{/share/containers/containerize.py [group] [experiment] [ns file]}}}. Note that the experiment must currently be created in the {{{Deter}}} group as that's where the custom pnode disk images are. This will change. 4. Modify the NS file generated by {{{containerize.py}}} to have a new image for the pnode machines. Navigate to the new experiment page and click {{{Modify Experiment}}}. Change the OS type of the pnodes to {{{PNODE_BASE}}} and the hardware type to {{{MicroCloud}}}. I.e. for each pnode in the NS file, make the lines have the form: {{{ tb-set-node-os ${pnode(0000)} PNODE-CONT tb-set-hardware ${pnode(0000)} MicroCloud }}} Remove all existing {{{tb-set-node-startcmd}}} lines as these start the old containers system. This is no longer used. The final NS file will look something like this. {{{ set ns [new Simulator] source tb_compat.tcl tb-make-soft-vtype container0 {dl380g3 pc2133 MicroCloud} set pnode(0000) [$ns node] tb-set-node-os ${pnode(0000)} PNODE-BASE tb-set-hardware ${pnode(0000)} container0 tb-set-node-failure-action ${pnode(0000)} "nonfatal" $ns rtproto Static $ns run }}} 5. If your experiment does not rely on the existing containers system, you need to tell DETER about your containers before swapping in the experiment so that it can allocate control network addresses for your containers. (The existing containers system does this for you, but since you've not run {{{containerize.py}}}, you must do this yourself.) On users (or anywhere that can talk to {{{chef.isi.deterlab.net}}}: {{{ > cd [your config_server repository]/bin > ./load_containers_db.sh -f [path to your containers.json file] -p ${PROJID} -e ${EXPID} }}} Note that you only have to do this once per experiment. You do not have to do this before each swap in! Just once to reserve control net addresses from DETER. 6. Swap in the experiment. 7. Populate the configuration database that runs on {{{chef.isi.deterlab.net}}} by running the database population scripts {{{load_containers_db.sh}}} and {{{load_config_db.sh}}} (This will automated in the future.) This should be run from a physical node in the experiment. I use {{{pnode-0000}}} in the example below. On a single pnode: {{{ > ssh pnode-0000.${EXPID}.${PROJID} > cd [your config_server repository]/bin > ./load_config_db.sh }}} If you are using the existing containers system also load the containers information. {{{ > ./load_containers_db.sh -p ${PROJID} -e ${EXPID} }}} At this point, the Chef server and configuration database knows everything it needs to about your experiment and the nodes within it. 8. Let Chef configure the nodes. Bootstrap and configure the pnodes. To configure/bootstrap the node use the {{{bootstrap_node.sh}}} script. The script needs to know which role the node plays in the experiment. There are currently three roles: {{{pnode}}}, {{{container}}}, and {{{win-container}}}. On all the pnodes: {{{ > ssh pnode-0000.${EXPID}.${PROJID} > cd [your config_server repository]/bin > ./bootstrap_node.sh -r pnode }}} The {{{pnode}}} role will spawn the containers and configure them. Once nodes are bootstrapped, simply running {{{sudo chef-client}}} will re-configure the nodes (both pnodes and the containers) if something should go wrong. 9. Remove experiment data from the configuration database once the experiment is complete. On a machine that can talk to {{{chef.isi.deterlab.net}}}: {{{ > cd [your config_server repository]/bin > ./rm_experiment_config.sh -p ${PROJID} -e ${EXPID} }}} An alternate way to do this is just to make a call on the {{{config_server}}} directly: {{{ curl http://chef:5320/exp/${PROJID}/${EXPID}/delete }}} ------------- Fun things to do after the containers are running. * Login to a node: * {{{ssh pnode-0000}}}. {{{ssh username@[nodename]}}}. Cygwin is installed on the Windows node so you can ssh to Windows containers as well. * Play around with Vagrant. To use: a) ssh to any pnode-XXXX, b) {{{sudo su -}}}, c) {{{cd /space/vagrant_home}}} * Confirm containers are running: {{{vagrant status}}} * ssh to a node (windows or no): {{{vagrant ssh [node name]}}} (login {{{vagrant}}}, password {{{vagrant}}} * reboot a container: {{{vagrant reload [node name]}}}. Or halt then restart a node: {{{vagrant halt [node name]}}}, {{{vagrant up [node name]}}} * Login to a Windows desktop: * build ssh tunnel to port 3389 on the pnode. {{{ssh -L3389:pcXXX:3389 users.deterlab.net}}} * use client RDP to connect to localhost:3389. Login {{{vagrant}}}, password {{{vagrant}}}. * Play around with {{{knife}}}, the command line interface to Chef. * login to the {{{config}}} node * cd to {{{/space/local/chef/chef-repo}}} * Use knife. * {{{knife node list}}} * {{{knife node show [node name]}}} * {{{knife --help}}} === Chef Workstation === Since the system runs on Chef anyone authorized to push chef recipes to the chef server can write custom node configuration code. === Vagrant === The system uses [https://www.vagrantup.com/ Vagrant] to spin up the containers, thus any [https://atlas.hashicorp.com/boxes/search vagrant supported image] run in a container. The image must be downloaded and served via HTTP though.