#!/bin/bash # # lib/database # Interface for interacting with different database backends # Dependencies: # ``ENABLED_SERVICES`` must be defined # ``DATABASE_BACKENDS`` will contain a list of available database backends # after sourcing this file. # This is a wrapper for the specific database backends available. # Each database must implement four functions: # # - recreate_database_$DATABASE_TYPE # - install_database_$DATABASE_TYPE # - configure_database_$DATABASE_TYPE # - database_connection_url_$DATABASE_TYPE # # and call register_database $DATABASE_TYPE # Save trace setting _XTRACE_LIB_DB=$(set +o | grep xtrace) set +o xtrace DATABASE_BACKENDS="" # Register a database backend # # $1 The name of the database backend # # This is required to be defined before the specific database scripts are sourced function register_database { DATABASE_BACKENDS+=" $1" } # Sourcing the database libs sets DATABASE_BACKENDS with the available list for f in $TOP_DIR/lib/databases/*; do source $f; done # ``DATABASE_BACKENDS`` now contains a list of the supported databases # Look in ``ENABLED_SERVICES`` to see if one has been selected for db in $DATABASE_BACKENDS; do # Set the type for the rest of the backend to use if is_service_enabled $db; then # Set this now for the rest of the database functions DATABASE_TYPE=$db fi done # If ``DATABASE_TYPE`` is unset here no database was selected # This is not an error as multi-node installs will do this on the compute nodes # Functions # --------- # Get rid of everything enough to cleanly change database backends function cleanup_database { cleanup_database_$DATABASE_TYPE } # Set the database type based on the configuration function initialize_database_backends { for backend in $DATABASE_BACKENDS; do is_service_enabled $backend && DATABASE_TYPE=$backend done [ -z "$DATABASE_TYPE" ] && return 1 # For backward-compatibility, read in the MYSQL_HOST/USER variables and use # them as the default values for the DATABASE_HOST/USER variables. MYSQL_HOST=${MYSQL_HOST:-$SERVICE_LOCAL_HOST} MYSQL_USER=${MYSQL_USER:-root} # Set DATABASE_HOST equal to MYSQL_HOST. If SERVICE_IP_VERSION is equal to 6, # set DATABASE_HOST equal to [MYSQL_HOST]. MYSQL_HOST cannot use brackets due # to mysql not using bracketing for IPv6 addresses. DATABASE_HOST must have brackets # due to sqlalchemy only reading IPv6 addresses with brackets. if [[ "$SERVICE_IP_VERSION" == 6 ]]; then DATABASE_HOST=${DATABASE_HOST:-[$MYSQL_HOST]} else DATABASE_HOST=${DATABASE_HOST:-${MYSQL_HOST}} fi DATABASE_USER=${DATABASE_USER:-${MYSQL_USER}} if [ -n "$MYSQL_PASSWORD" ]; then DATABASE_PASSWORD=$MYSQL_PASSWORD fi # We configure Nova, Horizon, Glance and Keystone to use MySQL as their # database server. While they share a single server, each has their own # database and tables. # By default this script will install and configure MySQL. If you want to # use an existing server, you can pass in the user/password/host parameters. # You will need to send the same ``DATABASE_PASSWORD`` to every host if you are doing # a multi-node DevStack installation. # NOTE: Don't specify ``/db`` in this string so we can use it for multiple services BASE_SQL_CONN=${BASE_SQL_CONN:-$(get_database_type_$DATABASE_TYPE)://$DATABASE_USER:$DATABASE_PASSWORD@$DATABASE_HOST} return 0 } # Recreate a given database # $1 The name of the database function recreate_database { local db=$1 recreate_database_$DATABASE_TYPE $db } # Install the database function install_database { install_database_$DATABASE_TYPE } # Install the database Python packages function install_database_python { install_database_python_$DATABASE_TYPE } # Configure and start the database function configure_database { configure_database_$DATABASE_TYPE } # Generate an SQLAlchemy connection URL and output it using echo # $1 The name of the database function database_connection_url { local db=$1 database_connection_url_$DATABASE_TYPE $db } # Restore xtrace $_XTRACE_LIB_DB # Tell emacs to use shell-script-mode ## Local variables: ## mode: shell-script ## End: