corda/docs/source/key-concepts-node.rst
Michele Sollecito fbb7f8f019 CORDA-990 - Flows Draining Mode (#2507)
* [CORDA-990]: Flows Draining Mode

* Fixed incorrect disconnect login.

* Code review changes.

* Fixed compilation error about MockNetwork...

* Fixed compilation error about MockNetwork...

* Fixed broken compilation.

* Ignoring an unstable test.
2018-02-13 09:34:10 +00:00

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Nodes
=====
.. topic:: Summary
* *A node is JVM run-time with a unique network identity running the Corda software*
* *The node has two interfaces with the outside world:*
* *A network layer, for interacting with other nodes*
* *RPC, for interacting with the node's owner*
* *The node's functionality is extended by installing CorDapps in the plugin registry*
Video
-----
.. raw:: html
<p><a href="https://vimeo.com/214168860">Corda Node, CorDapps and Network</a></p>
<iframe src="https://player.vimeo.com/video/214168860" width="640" height="360" frameborder="0" webkitallowfullscreen mozallowfullscreen allowfullscreen></iframe>
<p></p>
Node architecture
-----------------
A Corda node is a JVM run-time environment with a unique identity on the network that hosts Corda services and
CorDapps.
We can visualize the node's internal architecture as follows:
.. image:: resources/node-architecture.png
:scale: 25%
:align: center
The core elements of the architecture are:
* A persistence layer for storing data
* A network interface for interacting with other nodes
* An RPC interface for interacting with the node's owner
* A service hub for allowing the node's flows to call upon the node's other services
* A cordapp interface and provider for extending the node by installing CorDapps
Persistence layer
-----------------
The persistence layer has two parts:
* The **vault**, where the node stores any relevant current and historic states
* The **storage service**, where it stores transactions, attachments and flow checkpoints
The node's owner can query the node's storage using the RPC interface (see below).
Network interface
-----------------
All communication with other nodes on the network is handled by the node itself, as part of running a flow. The
node's owner does not interact with other network nodes directly.
RPC interface
-------------
The node's owner interacts with the node via remote procedure calls (RPC). The key RPC operations the node exposes
are documented in :doc:`api-rpc`.
The service hub
---------------
Internally, the node has access to a rich set of services that are used during flow execution to coordinate ledger
updates. The key services provided are:
* Information on other nodes on the network and the services they offer
* Access to the contents of the vault and the storage service
* Access to, and generation of, the node's public-private keypairs
* Information about the node itself
* The current time, as tracked by the node
The CorDapp provider
--------------------
The CorDapp provider is where new CorDapps are installed to extend the behavior of the node.
The node also has several CorDapps installed by default to handle common tasks such as:
* Retrieving transactions and attachments from counterparties
* Upgrading contracts
* Broadcasting agreed ledger updates for recording by counterparties
Draining mode
^^^^^^^^^^^^^
In order to operate a clean shutdown of a node, it is important than no flows are in-flight, meaning no checkpoints should
be persisted. The node is able to be put in a Flows Draining Mode, during which:
* Commands requiring to start new flows through RPC will be rejected.
* Scheduled flows due will be ignored.
* Initial P2P session messages will not be processed, meaning peers will not be able to initiate new flows involving the node.
* All other activities will proceed as usual, ensuring that the number of in-flight flows will strictly diminish.
As their number - which can be monitored through RPC - reaches zero, it is safe to shut the node down.
This property is durable, meaning that restarting the node will not reset it to its default value and that a RPC command is required.