Skip to content
This repository has been archived by the owner on Jun 6, 2024. It is now read-only.


Repository files navigation

SUSE Cloud Foundry

SUSE Cloud Foundry (SCF) is a Cloud Foundry distribution based on the open source version but with several very key differences:

  • Uses fissile to containerize the CF components, for running on top of Kubernetes (and Docker)
  • CF Components run on an SUSE Linux Enterprise Stemcell
  • CF Apps optionally can run on a preview of the SUSE Linux Enterprise Stack (rootfs + buildpacks)


Fissile has been around for a few years now and its containerization technology is fairly stable; however deploying directly to kubernetes is relatively new, as is the SLE stack and stemcell. This means that things are liable to break as we continue development. Specifically links and where things are hosted are still in flux and will most likely break.

For development testing we've mainly been targeting the following so they should be a known working quantity:

OS Virtualization
SLE 15 Libvirt
Mac OSX Sierra VirtualBox

For more production-like deploys we've been targetting baremetal Kubernetes 1.6.1 (using only 1.5 features) though these deploys currently require the adventurer to be able to debug and problem solve which takes knowledge of the components this repo brings together currently.

Table of Contents

Deploying SCF on Vagrant


  1. We recommend running on a machine with more than 16G of ram for now.

  2. You must install vagrant (1.9.5+):

  3. Install the following vagrant plugins

    • vagrant-libvirt (if using libvirt)
      vagrant plugin install vagrant-libvirt


Deploying on vagrant is highly scripted and so there should be very little to do to get a working system.

  1. Initial repo check out

    git clone --recurse-submodules
  2. Building the system

    # Bring the vagrant box up
    vagrant up --provider X # Where X is libvirt | virtualbox. See next section for additional options.
    # Once the vagrant box is up, ssh into it
    vagrant ssh
    # The scf directory you cloned has been mounted into the guest OS, cd into it
    cd scf
    # This runs a combination of bosh & fissile in order to create the docker
    # images and helm charts you'll need. Once this step is done you can see
    # images available via "docker images"
    make vagrant-prep
    # This is the final step, where it will install the uaa helm chart into the 'uaa' namespace
    # and the scf helm chart into the 'cf' namespace.
    make run
    # Watch the status of the pods, when everything is fully ready it should be usable.
    pod-status --watch
    # Currently the api role takes a very long time to do its migrations (~20 mins), to see if it's
    # doing migrations check the logs, if you see messages about migrations please be patient, otherwise
    # see the Troubleshooting guide.
    k logs -f cf:^api-[0-9]
  3. Changing the default STEMCELL and STACK

    The default stemcell and stack are set to SUSE Linux Enterprise. The versions are defined in bin/common/

    The FISSILE_DOCKER_REPOSITORY environment variable will need to be set, and Docker configured to login to the repository.

    After changing the stemcell you have to remove the contents of ~vagrant/.fissile/compilation and ~vagrant/scf/.fissile/compilation inside the vagrant box. Afterwards recompile scf (for details see section "2. Building the system").


    $ cd ~
    $ export
    $ docker login ${FISSILE_DOCKER_REPOSITORY} -u username -p password
    $ cd scf
  4. Environment variables to configure vagrant up (optional)

    • VAGRANT_VBOX_BRIDGE: Set this to the name of an interface to enable bridged networking when using the Virtualbox provider. Turning on bridged networking will allow your vagrant box to receive an IP accessible anywhere on the network. While Virtualbox is able to bridge over an interface without any special networking configuration (and may even do this on OSX), bridged networking may not be supported when the provided interface is a wireless interface.See the Virtualbox docs on bridged networking for more information.
    • VAGRANT_KVM_BRIDGE: Set this to the name of your host's linux bridge interface if you have one configured. If using Wicked as your network manager, you can configure one by setting the config files for your default interface and bridge interface as follows:
      #default interface:
      #bridged interface:
      For example, if your default interface is named eth0', you would edit /etc/sysconfig/network/ifcfg-eth0 and /etc/sysconfig/network/ifcfg-br0 with the above settings. Then, after the desired configuration is in place, run wicked ifreload all and wait for wicked to apply the changes.
    • VAGRANT_DHCP: Set this to any value when using virtual networking (as opposed to bridged networking) in order to let your VM receive an IP via DHCP in the virtual network. If this environment variable is unset, the VM will instead obtain the IP points to.

Note: If every role does not go green in pod-status --watch refer to Troubleshooting

  1. Pulling updates

    When you want to pull the latest changes from the upstream you should:

    # Pull the changes (or checkout the commit you want):
    git pull
    # Update all submodules to match the checked out commit
    git submodule update --init --recursive

    Sometimes, when we bump the BOSH release submodules, they move to a different location and you need to run:

      git submodule sync --recursive

    You might have to run the git submodule update --init --recursive again after the last command.

    If there are untracked changes from submodule directories you can safely remove them.

    E.g. A command that will update all submodules and drop any changed or untracked files in them is:

      git submodule update --recursive --force && git submodule foreach --recursive 'git checkout . && git clean -fdx'

    Make sure you understand what the git clean flags mean before you run this

    Now you need to rebuild the images inside the vagrant box:

    make stop # And wait until all pods are stopped and removed
    make vagrant-prep kube run


The vagrant box is set up with default certs, passwords, ips, etc. to make it easier to run and develop on. So to access it and try it out all you should need is to get the CF client and connect to it. Once you've connected with the CF cli you should be able to do anything you can do with a vanilla Cloud Foundry.

You can get the the cf client here:

The way the vagrant box is created is by making a network with a static IP on the host. This means that you cannot connect to it from some other box.

# Attach to the endpoint (self-signed certs in dev mode requires skipping validation).
# resolves to the static IP that vagrant provisions.
# This DNS resolution may fail on certain DNS providers that block resolution to
# Unless you changed the default credentials in the configuration, it is admin/changeme.
cf api --skip-ssl-validation
cf login -u admin -p changeme


Typically Vagrant box deployments encounter one of few problems:

  • uaa does not come up correctly (constantly not ready in pod-status).

    In this case perform the following

    # Delete everything in the uaa namespace
    helm delete --purge uaa
    kubectl delete namespace uaa
    # Delete the pv related to uaa/mysql-data-mysql-0
    kubectl get pv # Find it
    kubectl delete pv pvc-63aab845-4fe7-11e7-9c8d-525400652dd8
    make uaa-run
  • api-group does not come up correctly and is not performing migrations (curl output in logs).

    uaa is not functioning, try steps above

  • Vagrant under VirtualBox freezing for no obvious reason.

    Try enabling the Use Host I/O Cache option in Settings->Storage->SATA Controller.

  • Volumes don't get mounted when suspending/resuming the box.

    For now only vagrant stop and then vagrant up fixes it.

  • When restarting the box with either vagrant reload or vagrant stop/up some pods never come up automatically.

    You have to do a make stop and then make run to bring this up.

  • Pulling images during any of vagrant up or make vagrant-prep or make docker-deps fails.

    In order to have access to the internet inside the vagrant box and inside the containers (withing the box) you need to enable ip forwarding for both the host and the vagrant box (which is the host for containers).

    To enable temporarily:

    echo "1" | sudo tee /proc/sys/net/ipv4/ip_forward

    or to do this permanently:

    echo "net.ipv4.ip_forward = 1" | sudo tee /etc/sysctl.d/50-docker-ipv4-ipforward.conf

    and restart your docker service (or run vagrant up again if changed on the host).

Deploying SCF on Kubernetes

SCF is deployed via Helm on Kubernetes. Please see the wiki page for installation instructions if you have a running Kubernetes already.

Makefile targets

Vagrant VM Targets

Name Effect
run Set up SCF on the current node
stop Stop SCF on the current node
vagrant-box Build the Vagrant box image using packer
vagrant-prep Shortcut for building everything needed for make run

Deployment Customizations

Customize The Application Domain

In a standard installation, the domain used by applications pushed to CF is the same as the domain configured for CF.

This document describes how to change this behaviour so that CF and applications use separate domains.

⚠️ The changes described below will work only for CAP 1.3.1, and higher. They do not work for CAP 1.3, and will not work for the CAP 2 series to be.

  1. Follow the basic steps for deploying UAA and SCF.

  2. When deploying SCF, add a section like

      - name: api-group
        - name: cloud_controller_ng
            - <APPDOMAIN>

    to the scf-config-values.yaml override file. The placeholder <APPDOMAIN> has to be replaced with whatever domain is desired to be used by the applications.

After deployment use

cf curl /v2/info | grep endpoint

to verify that the CF domain is not <APPDOMAIN>.

Further, by pushing an application, verify that <APPDOMAIN> is printed as the domain used by the application.

Development FAQ

Where do I find logs?

There are two places to see logs. Monit's logs, and the actual log files of each process in the container.

  1. Monit logs

    # Normal form using kubectl
    kubectl logs --namespace cf router-3450916350-xb3kf
    # Short form using k
    k logs cf:^router-[0-9]
  2. Container process logs

    # Normal form
    kubectl exec -it --namespace cf nats-0 -- env LINES=$LINES COLS=$COLS TERM=$TERM bash
    # Short form
    k ssh :nats
    # After ssh'ing, the logs are all in this directory for each process:
    cd /var/vcap/sys/log

How do I clear all data and begin anew without rebuilding everything?

On the Vagrant box, run the following commands:

make stop
make run

How do I tear down a cluster on a cloud provider?

The SCF secret generator creates secrets in the CF and UAA namespaces, and helm doesn't know about these, which means they won't be deleted if the release is deleted. The best way to remove everything is to run the following commands:

helm delete --purge ${CF_RELEASE_NAME}
kubectl delete namespace ${CF_NAMESPACE}
helm delete --purge ${UAA_RELEASE_NAME}
kubectl delete namespace ${UAA_NAMESPACE}

However, busy systems may encounter timeouts when the release is deleted:

$ helm delete --purge scf
E0622 02:27:17.555417   14014 portforward.go:178] lost connection to pod
Error: transport is closing

In this case, deleting the StatefulSets before anything else will make the operation more likely to succeed:

kubectl delete statefulsets --all --namespace ${CF_NAMESPACE}
helm delete --purge ${CF_RELEASE_NAME}
kubectl delete namespace ${CF_NAMESPACE}
kubectl delete statefulsets --all --namespace ${UAA_NAMESPACE}
helm delete --purge ${UAA_RELEASE_NAME}
kubectl delete namespace ${UAA_NAMESPACE}

Note that this needs kubectl v1.9.6 or newer for the delete statefulsets command to work.

How do I run smoke and acceptance tests?

On the Vagrant box, when pod-status reports all roles are running, enable diego_docker support with

cf enable-feature-flag diego_docker

and execute the following commands:

make smoke         # Cloud Foundry smoke tests
make brain         # SCF-specific additional acceptance tests
make scaler-smoke  # Auto-scaler smoke tests
make cats          # Cloud Foundry acceptance tests

How do I run a subset of SCF acceptance tests?

Deploy acceptance-tests-brain as above, but first modify the environment to include INCLUDE=pattern or EXCLUDE=pattern. For example to run just and, you could add INCLUDE with a value of sso.

It is also possible to run custom tests by mounting them at the /tests mountpoint inside the container. The mounted tests will be combined with the bundled tests. However, to do so you will need to manually run it via docker. To exclude the bundled tests match against names starting with 3 digits followed by an underscore (as in, EXCLUDE=\b\d{3}_) or explicitly select only the mounted tests with INCLUDE=^/tests/.

How do I run a subset of Cloud Foundry acceptance tests?

Run make/tests acceptance-tests env.CATS_SUITES="-suite,+suite" env.CATS_FOCUS="regular expression" directly. Each suite is separated by a comma. The modifiers apply until the next modifier is seen, and have the following meanings:

Modifier Meaning
+ Enable the following suites
- Disable the following suites
= Disable all suites, and enable the following suites

The CATS_FOCUS parameter is passed to ginkgo as a -focus parameter.

fissile refuses to create images that already exist. How do I recreate images?

On the Vagrant box, run the following commands:

cd ~/scf

# Stop gracefully.
make stop

# Delete all fissile images.
docker rmi $(fissile show image)

# Re-create the images and then run them.
make images run

My vagrant box is frozen. What can I do?

Try each of the following solutions sequentially:

  • Run the vagrant reload command.
  • Run vagrant halt && vagrant reload command.
  • Manually stop the virtual machine and then run the vagrant reload command.
  • Run the vagrant destroy -f && vagrant up command and then run make vagrant-prep run on the Vagrant box.

Can I target the cluster from the host using the cf CLI?

You can target the cluster on the hardcoded address assigned to a host-only network adapter. You can access any URL or endpoint that references this address from your host.

How do I connect to the Cloud Foundry database?

  1. Use the role manifest to expose the port for the mysql proxy role. This is done by adding the key public: true to the pxc-mysql-proxy port in properties.bosh_containerization.ports of job proxy in instance_group mysql-proxy.
  2. With that the MySQL instance is exposed at
  3. The username is: ccadmin.
  4. The password can be retrieved from the environment variable CC_DATABASE_PASSWORD found in the api-group pod.

Basic access is then achieved using

mysql --database ccdb --user=ccadmin --port=3306 --password=...

If mysqldump is available the schema can be retrieved via

mysqldump (conn+auth-as-above) --no-data --single-transaction ccdb


mysqldump (conn+auth-as-above) --no-data --single-transaction ccdb | grep -v '^/\*'

to remove the comments holding dump action tracing.

How do I add a new BOSH release to SCF?

  1. Edit the role-manifest.yml:
    1. Add the BOSH release information to the releases: section
    2. Add new roles or change existing ones
    3. Add exposed environment variables (yaml path: /variables).
    4. Add configuration templates (yaml path: /configuration/templates and yaml path: /roles/*/configuration/templates).
  2. Add development defaults for your configuration settings to ~/scf/bin/settings/settings.env.
  3. Add any opinions (static defaults) and dark opinions (configuration that must be set by user) to ./container-host-files/etc/scf/config/opinions.yml and ./container-host-files/etc/scf/config/dark-opinions.yml, respectively.
  4. Test the changes.
    1. Run the make compile images run command.

How do I expose new settings via environment variables?

  1. Edit ./container-host-files/etc/scf/config/role-manifest.yml:

    1. Add the new exposed environment variables (yaml path: /variables).

    2. Add or change configuration templates:

      1. yaml path: /configuration/templates
      2. yaml path: /roles/*/configuration/templates
  2. Add development defaults for your new settings in ~/scf/bin/settings/settings.env.

  3. Rebuild the role images that need this new setting:

    docker stop <role>
    docker rmi -f fissile-<role>:<tab-for-completion>
    make images run

    Tip: If you do not know which roles require your new settings, you can use the following catch-all:

    make stop
    docker rmi -f $(fissile show image)
    make images run

How do I bump to a new cf-deployment version?

  1. Run tooling/bin/import-bosh-releases <cf-deployment-version>.
  2. Update bin/common/ to record the new CF_VERSION.
  3. Run make diff-releases to check the changed BOSH properties; see the next section for details.
  4. Run tooling/bin/check-uaa-clients
  5. Bump CloudFoundry Acceptance Tests(CATs) submodule to match new CF_VERSION, before testing.

How do I bump a BOSH release?

Note: Because this process involves downloading and compiling release(s), it may take a long time.

  1. In the manifest, update the version and SHA of the release(s)

  2. Compare the BOSH releases

    make diff-releases

    This command will print all changes to releases, telling us what properties have changed (added, removed, changed descriptions and values, ...).

    Note: don't commit the changes to the releases before you run the diff target.

  3. Act on configuration changes:

    Important: If you are not sure how to treat a configuration setting, discuss it with the SCF team.

    For any configuration changes discovered in step the previous step, you can do one of the following:

     * Keep the defaults in the new specification.
     * Add an opinion (static defaults) to `./container-host-files/etc/scf/config/opinions.yml`.
     * Add a template and an exposed environment variable to `./container-host-files/etc/scf/config/role-manifest.yml`.

    Define any secrets in the dark opinions file ./container-host-files/etc/scf/config/dark-opinions.yml and expose them as environment variables.

  4. Evaluate role changes:

    1. Consult the release notes of the new version of the release.
    2. If there are any role changes, discuss them with the SCF team, follow steps 3 and 4 from this guide.
  5. Bump CloudFoundry Acceptance Tests(CATs) submodule to match new CF_VERSION.

    1. cd src/scf-release/src/
    2. git checkout <new-cf-version>


    1. If remote branch for new-cf-version doesn't exist then bump it to closest previous version available.
    2. Run git branch -a --sort=-committerdate | grep /cf to check available CF release branches.
  6. Test the release by running the make compile images run command.

  7. Before committing the tested release update the line export CF_VERSION=... in bin/common/ to the new CF version.

  8. Cleanup the diff work dir (/tmp/scf-releases-diff)

Can I suspend or resume my vagrant VM?

  1. Run the vagrant reload command.
  2. Run the make run command.

How do I develop an upstream PR?

  • If our submodules are close to the HEAD of upstream and no merge conflicts occur, follow the steps described here.
  • If merge conflicts occur, or if the component is referenced as a submodule, and it is not compatible with the parent release, work with the SCF team to resolve the issue on a case-by-case basis.

How do I publish SCF and BOSH images?

  1. Ensure that the Vagrant box is running.

  2. ssh into the Vagrant box.

  3. To tag the images into the selected registry and to push them, run the make tag publish command.

  4. This target uses the make variables listed below to construct the image names and tags:

    Variable Default Meaning
    IMAGE_REGISTRY empty The name of the trusted registry to publish to
    IMAGE_PREFIX scf The prefix to use for image names (must not be empty)
    IMAGE_ORG splatform The organization in the image registry
    BRANCH current branch The tag to use for the images
  5. To publish to the standard trusted registry run the make tag publish command, for example:

    make tag publish

How do I use an authenticated registry for my Docker images?

For testing purposes we can create an authenticated registry right inside the Vagrant box. But the instructions work just the same with a pre-existing local registry.

The environment variables must be exported before changing into the scf/ directory. Otherwise direnv will remove the settings when switching to the src/uaa-fissile-release/ dir and back:

vagrant ssh
cd scf
time make vagrant-prep

make secure-registries will disallow access to insecure registries and register the interal CA cert before restarting the docker daemon.

make registry will create a local docker registry re-using the router_ssl certs and using basic auth. make publish will push all images to this registry:

make secure-registries
make registry
make publish

Log out to make sure that kube is using the registry credentials from the helm chart and not the cached docker session.

Now delete all the local copies of the images. direnv allow is required to call fissile from the UAA directory, and FISSILE_REPOSITORY needs to be overridden from the scf setting that is inherited:

fissile show image | xargs docker rmi
cd src/uaa-fissile-release/
direnv allow
FISSILE_REPOSITORY=uaa fissile show image | xargs docker rmi
docker images
cd -

Now create an SCF and UAA instance via the helm chart and confirm that all images are fetched correctly. Run smoke tests for final verification:

make run
pod-status --watch
docker images
make smoke

If the registry API needs to be accessed via curl, then it is easier to just use basic auth, which can be requested by setting:

make registry

Using Persi NFS

Running a test NFS server

# Enable NFS modules
sudo modprobe nfs
sudo modprobe nfsd

docker run -d --name nfs \
    -v "[SOME_DIR_YOU_WANT_TO_SHARE_ON_YOUR_HOST]:/exports/foo" \
    -p 111:111/tcp \
    -p 111:111/udp \
    -p 662:662/udp \
    -p 662:662/tcp \
    -p 875:875/udp \
    -p 875:875/tcp \
    -p 2049:2049/udp \
    -p 2049:2049/tcp \
    -p 32769:32769/udp \
    -p 32803:32803/tcp \
    -p 892:892/udp \
    -p 892:892/tcp \
    --privileged \
    splatform/nfs-test-server /exports/foo

Allow access to the NFS server

  • Security group JSON file (nfs-sg.json). Replace <destination_ip> by the address returned from the command getent hosts "" | awk 'NR=1{print $1}':
        "destination": "<destination_ip>",
        "protocol": "tcp",
        "ports": "111,662,875,892,2049,32803"
        "destination": "<destination_ip>",
        "protocol": "udp",
        "ports": "111,662,875,892,2049,32769"
# Create the security group - JSON above
cf create-security-group nfs-test nfs-sg.json
# Bind security groups for containers that run apps
cf bind-running-security-group nfs-test
# Bind security groups for containers that stage apps
cf bind-staging-security-group nfs-test

Creating and testing a service

Get the pora app

git clone
cd persi-acceptance-tests/assets/pora
cf push pora --no-start

Test that writes work

# Enable the Persi NFS service
cf enable-service-access persi-nfs

# Create a service and bind it
EXTERNAL_IP=$(getent hosts "" | awk 'NR=1{print $1}')
cf create-service persi-nfs Existing myVolume -c "{\"share\":\"${EXTERNAL_IP}/exports/foo\"}"
cf bind-service pora myVolume -c '{"uid":"1000","gid":"1000"}'

# Start the app
cf start pora
# Test the app is available
# Test the app can write

How do I rotate the CCDB secrets?

The Cloud Controller Database encrypts sensitive information like passwords. By default, the encryption key is generated by SCF. If it's compromised and needs to be rotated, new keys can be added. Note that existing encrypted information will not be updated. The encrypted information must be set again to have them reencrypted with the new key. The old key cannot be dropped until all references to it are removed from the database.

Updating these secrets is a manual process:

  • Create a file new-key-values.yaml with content of the form:

    new_key: "<new-key-value-goes-here>"
  • Use helm upgrade "${CF_NAMESPACE}" "${CF_CHART}" ... --values new-key-values.yaml to import the above data into the cluster. This restarts relevant pods with the new information from step 1.

    - The variable `CF_NAMESPACE` contains the name of the namespace
      the SCF chart was deployed into.
    - The variable `CF_CHART` contains the name of the SCF chart.
    - The `...` placeholder stands for the standard set of options
      needed to properly upgrade an SCF deployment, as per the main
  • Perform the actual rotation via

# Change the encryption key in the config file:
$ kubectl exec --namespace cf api-group-0 -- bash -c 'sed -i "/db_encryption_key:/c\\db_encryption_key: \"$(echo $CC_DB_ENCRYPTION_KEYS | jq -r .new_key)\"" /var/vcap/jobs/cloud_controller_ng/config/cloud_controller_ng.yml'

# Run the rotation for the encryption keys:
$ kubectl exec --namespace cf api-group-0 -- bash -c 'export PATH=/var/vcap/packages/ruby-2.4/bin:$PATH ; export CLOUD_CONTROLLER_NG_CONFIG=/var/vcap/jobs/cloud_controller_ng/config/cloud_controller_ng.yml ; cd /var/vcap/packages/cloud_controller_ng/cloud_controller_ng ; /var/vcap/packages/ruby-2.4/bin/bundle exec rake rotate_cc_database_key:perform'

When everything works correctly the first command will not generate any output, while the second command will dump a series of (json-formatted) log entries describing its progress in rotation the keys for the various CC models.

Note that keys should be appended to the existing secret to be sure existing environment variables can be decoded. Any operator can check which keys are in use by accessing the ccdb. If the encryption_key_label is empty, the default generated key is still being used.

$ kubectl -n cf exec mysql-0 -t -i -- /bin/bash -c 'mysql -p${MYSQL_ADMIN_PASSWORD}'
MariaDB [(none)]> select name, encrypted_environment_variables, encryption_key_label from ccdb.apps;
| name   | encrypted_environment_variables                                                                              | encryption_key_label |
| go-env | XF08q9HFfDkfxTvzgRoAGp+oci2l4xDeosSlfHJUkZzn5yvr0U/+s5LrbQ2qKtET0ssbMm3L3OuSkBnudZLlaCpFWtEe5MhUe2kUn3A6rUY= | key0                 |
1 row in set (0.00 sec)

For example, if keys were being rotated again, the secret would become:

SECRET_DATA=$(echo "{key0: abc-123, key1: def-456}" | base64)

and the CC_DB_CURRENT_KEY_LABEL would be updated to match the new key.

Tables with Encrypted Information

The ccdb database contains several tables with encrypted information:

  • apps: environment variables
  • buildpack_lifecycle_buildpacks: buildpack URLs may contain passwords
  • buildpack_lifecycle_data: buildpack URLs may contain passwords
  • droplets: may contain docker registry passwords
  • env_groups: environment variables
  • packages: may contain docker registry passwords
  • service_bindings: contains service credentials
  • service_brokers: contains service credentials
  • service_instances: contains service credentials
  • service_keys: contains service credentials
  • tasks: environment variables

To ensure the encryption key is updated, the command (or its update- equivalent) can be run again with the same parameters. Some commands need to be deleted / recreated to update the label.

  • apps: Run cf set-env again.
  • buildpack_lifecycle_buildpacks, buildpack_lifecycle_data, droplets: cf restage the app
  • packages: cf delete, then cf push the app (Docker apps with registry password)
  • env_groups: Run cf set-staging-environment-variable-group or cf set-running-environment-variable-group again
  • service_bindings: Run cf unbind-service and cf bind-service again
  • service_brokers: Run cf update-service-broker with the appropriate credentials
  • service_instances: Run cf update-service with the appropriate credentials
  • service_keys: Run cf delete-service-key and cf create-service-key again.
  • tasks: While tasks have an encryption key label, they are generally meant to be a one-off event, and left to run to completion. If there is a task still running, it could be stopped with cf terminate-task, then run again with cf run-task.

CCDB migration squashing

As we tend to develop using from-scratch databases, we run CCDB migrations more than typical. Additionally, it appears that (due to the use of MySQL and its lack of transactional support around schema changes) we have a high failure rate when doing the initial database migration from nothing. Given that we only support upgrades from the previous verison, we have implemented a patch to squash all initial database migrations. To update this patch:

  1. Remove the patch (so that we can correctly generate a new one).
  2. Deploy SCF until it is ready.
  3. Apply 0001-db-migration-add-script-to-squash-DB-migrations.patch to the api-group container
  4. Follow the instructions at the top of the patch file (updating timestamps)
  5. Run rake db:squash (as noted in the patch file) to generate the new squashing patch.
  6. Update 0001-db-migration-add-script-to-squash-DB-migrations.patch with the new timestamps.

It may be a good idea to use mysqldump to confirm that the database schema before and after the new patch match.