Corda node database

The Corda platform, and the installed CorDapps store their data in a relational database (see State Persistence).

Corda Enterprise supports a range of commercial 3rd party databases: Azure SQL, SQL Server, Oracle, and PostgreSQL. This document provides an overview of required database permissions, related ways to create database schema objects, and explains how a Corda node verifies the correct database schema version.

A Corda node connects to a database using a single database user, and stores data within a single database schema (a schema namespace). A database schema can not be shared between two different nodes (except for hot-cold-deployment). Depending on how the schema objects are created, a Corda node can connect to the database with a different set of database permissions:

  • restricted permissions This grants the database user access to DML execution only (to manipulate data itself e.g. select/delete rows), and a database administrator needs to create database schema objects before running the Corda node. This permission set is recommended for a Corda node in a production environment (including hot-cold-deployment).
  • administrative permissions This grants the database user full access to a Corda node, such that it can execute both DDL statements (to define data structures/schema content e.g. tables) and DML queries (to manipulate data itself e.g. select/delete rows). This permission set is more permissive and should be used with caution in production environments. A Corda node with full control of the database schema can create or upgrade schema objects automatically upon node startup. This eases the operational maintenance for development and testing.

Database setup for production systems (with restricted permissions) is described in Database schema setup, and the recommended setup for development/testing environments are described in Simplified database schema setup for development.

Database DDL scripts defining database tables (and other schema objects) are embedded inside the Corda distribution (corda.jar file) or within the CorDapp distributions (a JAR file). Therefore Corda, and custom CorDapps are shipped without separate DDL scripts for each database vendor. Whenever a node operator or database administrator needs to obtain a DDL script to be run, they can use the Corda Database Management Tool. The tool, among other functions, outputs the DDL script which is compatible with the Corda release and the database which the tool was running against. Depending on database user permissions a Corda node may be configured to create database tables (and other schema objects) automatically upon startup (and subsequently update tables).

DDL scripts are defined in a cross database syntax and grouped in change sets. When a Corda node starts, it compares the list of change sets recorded in the database with the list embedded inside the Corda node and associated CorDapps. Depending on the outcome and the node configuration, it will stop and report any differences or will create/update any missing database objects. Internally, the Corda node and Corda Database Management Tool use Liquibase library/tool for versioning database schema changes.

Liquibase is a tool that implements an automated, version based database migration framework with support for a large number of databases. It works by maintaining a list of applied changesets. A changeset can be something very simple like adding a new column to a table. It stores each executed changeset with columns like id, author, timestamp, description, md5 hash, etc in a table called DATABASECHANGELOG. This changelog table will be read every time a migration command is run to determine what change-sets need to be executed. It represents the “version” of the database (the sum of the executed change-sets at any point). Change-sets are scripts written in a supported format (xml, yml, sql), and should never be modified once they have been executed. Any necessary correction should be applied in a new change-set. Understanding how Liquibase works is highly recommended for understanding how database migrations work in Corda.

By default, a node will not attempt to execute database migration scripts at startup (even when a new version has been deployed), but will check the database “version” and halt if the database is not in sync with the node, to avoid data corruption. To bring the database to the correct state we provide a Database Management Tool. This setup/procedure is recommended for production systems.

Running the migration at startup automatically can only be configured by using the initial registration sub-command when running the node. The standard way of running the schema initialisation / migration scripts is to run the run-migration-scripts sub-command - see Node command-line options. R3 recommends enabling database schema auto-creation/upgrade for development or test purposes only. It is safe to run at startup if you have implemented the usual best practices for database management (e.g. running a backup before installing a new version).

The database management tool is distributed as a standalone JAR file named tools-database-manager-${corda_version}.jar. It is intended to be used by Corda Enterprise node administrators who want more control over database changes made in production environments.

The following sections document the available subcommands suitable for a node operator or database administrator.

You can review all available commands and options in the Database Management Tool documentation.

By default, the node database has the following tables:

Table nameColumns
DATABASECHANGELOGID, AUTHOR, FILENAME, DATEEXECUTED, ORDEREXECUTED, EXECTYPE, MD5SUM, DESCRIPTTION, COMMENTS, TAG, LIQUIBASE, CONTEXTS, LABELS, DEPLOYMENT_ID
DATABASECHANGELOGLOCKID, LOCKED, LOCKGRANTED, LOCKEDBY
NODE_ATTACHMENTSATT_ID, CONTENT, FILENAME, INSERTION_DATE, UPLOADER, VERSION
NODE_ATTACHMENTS_CONTRACTSATT_ID, CONTRACT_CLASS_NAME
NODE_ATTACHMENTS_SIGNERSATT_ID, SIGNER
NODE_CHECKPOINTSFLOW_ID, STATUS, COMPATIBLE, PROGRESS_STEP, FLOW_IO_REQUEST, TIMESTAMP
NODE_CHECKPOINT_BLOBSFLOW_ID, CHECKPOINT_VALUE, FLOW_STATE, TIMESTAMP
NODE_FLOW_RESULTSFLOW_ID, RESULT_VALUE, TIMESTAMP
NODE_FLOW_EXCEPTIONSFLOW_ID, TYPE, EXCEPTION_MESSAGE, STACK_TRACE, EXCEPTION_VALUE, TIMESTAMP
NODE_FLOW_METADATAFLOW_ID, INVOCATION_ID, FLOW_NAME, FLOW_IDENTIFIER, STARTED_TYPE, FLOW_PARAMETERS, CORDAPP_NAME, PLATFORM_VERSION, STARTED_BY, INVOCATION_TIME, START_TIME, FINISH_TIME
NODE_CONTRACT_UPGRADESSTATE_REF, CONTRACT_CLASS_NAME
NODE_CORDAPP_METADATACORDAPP_HASH, NAME, VENDOR, VERSION
NODE_CORDAPP_SIGNERSCORDAPP_HASH, SIGNING_KEY_HASH
NODE_HASH_TO_KEYPK_HASH, PUBLIC_KEY
NODE_IDENTITIESPK_HASH, IDENTITY_VALUE
NODE_IDENTITIES_NO_CERTPK_HASH, NAME
NODE_INFOSNODE_INFO_ID, NODE_INFO_HASH, PLATFORM_VERSION, SERIAL
NODE_INFO_HOSTSHOST_NAME, PORT, NODE_INFO_ID, HOSTS_ID
NODE_INFO_PARTY_CERTPARTY_NAME, ISMAIN, OWNING_KEY_HASH, PARTY_CERT_BINARY
NODE_LINK_NODEINFO_PARTYNODE_INFO_ID, PARTY_NAME
NODE_MESSAGE_IDSMESSAGE_ID, INSERTION_TIME, SENDER, SEQUENCE_NUMBER
NODE_METERING_COMMANDSID, COMMAND_HASH, COMMAND_CLASS
NODE_METERING_CORDAPPSID, STACK_HASH, CORDAPP_HASH, POSITION
NODE_METERING_DATATIMESTAMP, SIGNING_ID, TRANSACTION_TYPE, CORDAPP_STACK_ID, COMMAND_ID, VERSION, COUNT, IS_COLLECTED
NODE_MUTUAL_EXCLUSIONMUTUAL_EXCLUSION_ID, MACHINE_NAME, PID, MUTUAL_EXCLUSION_TIMESTAMP, VERSION
NODE_NAMED_IDENTITIESNAME, PK_HASH
NODE_NETWORK_PARAMETERSHASH, EPOCH, PARAMETERS_BYTES, SIGNATURE_BYTES, CERT, PARENT_CERT_PATH
NODE_OUR_KEY_PAIRSPUBLIC_KEY_HASH, PRIVATE_KEY, PUBLIC_KEY, PRIVATE_KEY_MATERIAL_WRAPPED, SCHEME_CODE_NAME
NODE_PROPERTIESPROPERTY_KEY, PROPERTY_VALUE
NODE_RPC_AUDIT_DATAUSERNAME, INTERFACE, ACTION, PARAMETERS, INVOCATIONTIME, INVOCATIONID, ALLOWED
NODE_SCHEDULED_STATESOUTPUT_INDEX, TRANSACTION_ID, SCHEDULED_AT
NODE_TRANSACTIONSTX_ID, TRANSACTION_VALUE, STATE_MACHINE_RUN_ID, STATUS, TIMESTAMP
PK_HASH_TO_EXT_ID_MAPEXTERNAL_ID, PUBLIC_KEY_HASH
STATE_PARTYOUTPUT_INDEX, TRANSACTION_ID, PUBLIC_KEY_HASH, X500_NAME
VAULT_FUNGIBLE_STATESOUTPUT_INDEX, TRANSACTION_ID, ISSUER_NAME, ISSUER_REF, OWNER_NAME, QUANTITY
VAULT_FUNGIBLE_STATES_PARTSOUTPUT_INDEX, TRANSACTION_ID, PARTICIPANTS
VAULT_LINEAR_STATESOUTPUT_INDEX, TRANSACTION_ID, EXTERNAL_ID, UUID
VAULT_LINEAR_STATES_PARTSOUTPUT_INDEX, TRANSACTION_ID, PARTICIPANTS
VAULT_STATESOUTPUT_INDEX, TRANSACTION_ID, CONSUMED_TIMESTAMP, CONTRACT_STATE_CLASS_NAME, LOCK_ID, LOCK_TIMESTAMP, NOTARY_NAME, RECORDED_TIMESTAMP, STATE_STATUS, RELEVANCY_STATUS, CONSTRAINT_TYPE, CONSTRAINT_DATA
VAULT_TRANSACTION_NOTESSEQ_NO, NOTE, TRANSACTION_ID
V_PKEY_HASH_EX_ID_MAPPUBLIC_KEY_HASH, TRANSACTION_ID, OUTPUT_INDEX, EXTERNAL_ID

For more details, see Database tables.

The node database for a Simple Notary has additional tables:

Table nameColumns
NODE_NOTARY_COMMITTED_STATESOUTPUT_INDEX, TRANSACTION_ID, CONSUMING_TRANSACTION_ID
NODE_NOTARY_COMMITTED_TXSTRANSACTION_ID
NODE_NOTARY_REQUEST_LOGID, CONSUMING_TRANSACTION_ID, REQUESTING_PARTY_NAME, REQUEST_TIMESTAMP, REQUEST_SIGNATURE

The structure of the tables of JPA notaries are described at Configuring a JPA notary backend.

The tables for other experimental notary implementations are not described here.

Database migration logs for Corda internal tables follow a structured format described in Database Schema Migration Logging.

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