e042811c76
Refactor the task model and add database persistence for tasks. - Document task schema - Use Alembic for database creation - Use SQLalchemy for database abstraction - Update Task status and result enumerations Change-Id: I247b88f293144a0bdf891958e19711d975c729ba |
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| alembic | ||
| docs | ||
| drydock_provisioner | ||
| etc/drydock | ||
| examples | ||
| tests | ||
| .dockerignore | ||
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| .gitreview | ||
| .style.yapf | ||
| Dockerfile | ||
| LICENSE | ||
| README.md | ||
| alembic.ini | ||
| entrypoint.sh | ||
| requirements-direct.txt | ||
| requirements-lock.txt | ||
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README.md
drydock_provisioner
A python REST orchestrator to translate a YAML host topology to a provisioned set of hosts and provide a set of cloud-init post-provisioning instructions.
To build and run, first move into the root directory of the repo and run:
$ tox -e genconfig
$ tox -e genpolicy
$ sudo docker build . -t drydock
$ vi etc/drydock/drydock.conf # Customize configuration
$ sudo docker run -d -v $(pwd)/etc/drydock:/etc/drydock -P --name='drydock' drydock
$ DDPORT=$(sudo docker port drydock 8000/tcp | awk -F ':' '{ print $NF }')
$ curl -v http://localhost:${DDPORT}/api/v1.0/designs
See Configuring Drydock for details on customizing the configuration. To be useful, Drydock needs to operate in a realistic topology and has some required downstream services.
- A VM running Canonical MaaS v2.2+
- A functional Openstack Keystone instance w/ the v3 API
- Docker running to start the Drydock image (can be co-located on the MaaS VM)
- A second VM or Baremetal Node to provision via Drydock
- Baremetal needs to be able to PXE boot
- Preferrably Baremetal will have an IPMI OOB interface
- Either VM or Baremetal will need to have one interface on the same L2 network (LAN or VLAN) as the MaaS VM
See the Getting Started guide for instructions.
Modular service
Design Consumer
aka ingester
Pluggable service to ingest a inventory/design specification, convert it to a standard internal representaion, and persist it to the Design State API. Initial implementation is the consumer of YAML schema.
Design State API
aka statemgmt
API for querying and updating the current design specification and persisted orchestration status. CRUD support of CIs that are not bootstrap-related, but can be used by other automation.
Control API
aka control
User-approachable API for initiating orchestration actions or accessing other internal APIs
Infrastructure Orchestrator
aka orchestrator
Handle validation of complete design, ordering and managing downstream API calls for hardware provisioning/bootstrapping
OOB Driver
Pluggable provider for server OOB (ILO) management
aka driver/oob
Node Driver
aka driver/node
Pluggable provisioner for server bootstrapping. Initial implementation is MaaS client.
Introspection API
aka introspection
API for bootstrapping nodes to load self data. Possibly pluggable as this is basically an authenticated bridge to the Design State API