Configuring the Cache¶
Virtual DataPort incorporates a system called cache module that can store a local copy of the data retrieved from the data sources, in a JDBC database.
This section explains how to enable the cache engine in the Server. After this, the cache has to be configured for every view that you want its data to be cached (the section Configuring the Cache of a View explains how to do this).
See more information about how the cache works in the section Cache Module.
To activate the cache in the Server, click on the menu Server configuration > Administration. Then, click the Cache tab.
This dialog is divided in three tabs:
General Settings tab
Select Cache status on to enable the cache engine.
Maintenance Period (seconds): specifies how often the Server executes the Cache Maintenance Task. This task deletes the invalid or expired entries from the cache’s database.
The difference with “Time to Live” is that when an entry of the cache reaches its “Time to live”, expires but it is not deleted from the database. Instead, it is just ignored when retrieving data from the cache.
The “Maintenance Period” should be greater than the “Time to Live” because removing expired entries from the cache is more expensive than ignoring them.
Select Maintenance Off to avoid executing the cache maintenance task periodically.
In production environments, we strongly recommend settings this option to “Off” to avoid executing the Cache Maintenance task periodically. Instead, use the Denodo Scheduler to program the execution of the
CLEAN_CACHE_DATABASEprocedure at a period where the Server and the cache’s database are not expected to be under heavy load.
The section Cache Maintenance Task explains in more detail what the Cache Maintenance task does.
Default Time to Live for views (seconds): This is the default Time to Live for views with cache enabled.
If Never expire is selected, the entries of the cache never expire, unless indicated otherwise in the view’s cache configuration.
If the cache is stored in the embedded Derby database, some parameters can be configured by clicking Embedded Derby Server Configuration:
Enable Remote Access: it allows the embedded database to be accessed by external JDBC-compliant clients. This can be useful for auditing and monitoring purposes.
Server port: this option allows changing the port where the embedded database runs.
To use an existing JDBC data source to cache data, select Specify an existing data source as cache and select the data source using the combo boxes. By using this option, Denodo will be able to completely push down the queries that combine cached data and views from this data source.
When you select Specify an existing data source as cache, consider the security implications of enabling “pass-through session credentials” on this data source. If you enable this option, you will need to grant read access to these users on the cache database. These users will be able to connect directly to this database, not just from Denodo and they will be able to by-pass the row restrictions, column restrictions and other privileges set in Denodo.
Database adapter: type of the database management system (DBMS) which will be used as cache. Virtual DataPort embeds an Apache Derby database, which can be used to store the cache data by selecting the Embedded Derby Server check box. In this case, you do not have to fill in any other field.
This embedded database can be configured to be accessible remotely by clicking on Embedded Derby server configuration (see below for more detail).
If you select the Generic adapter, you may have to do additional configuration steps (read section Generic Support for Other Databases).
Driver classpath. Leave the default option unless you selected the adapter Generic.
After you enter all the parameters on this dialog, click Test connection. If you see a message like The Denodo Platform does not include the JDBC driver for this adapter, you have to upload the jar files of the JDBC driver to Virtual DataPort, from the wizard of the menu File > Extensions management. The section Importing a JDBC Driver explains how to this.
Driver class: Unless you selected the adapter Generic, the default value is correct. This is the Java class name of the JDBC driver. For example, for MySQL databases the value is
Database Uri: URI of the database used as cache.
Transaction isolation: isolation level of the transactions and queries executed in the database of the cache. The available options are:
Database default: the Server uses the default isolation level of the database.
Read uncommitted: a transaction can read data that is not committed (dirty reads).
For example, a transaction A inserts a row in a view, transaction B reads the new row and then, transaction A rollbacks.
Read committed: the database keeps write locks until the end of the transaction so a transaction can read only committed data and dirty reads cannot occur.
However, the database releases read locks as soon as the
SELECToperation ends, so the same
SELECTquery may return different results in the same transaction (non-repeatable reads).
For example, transaction A reads a row and transaction B changes this row. If transaction A reads this row again, it will obtain different values.
Repeatable read: the database keeps read and write locks until the end of the transaction. Therefore, it avoids dirty reads and non-repeatable reads. However, this isolation level does not avoid phantom reads. This problem occurs when one transaction executes a query over a range of rows using a condition, while another transaction can simultaneously insert a row in the same range.
Serializable: this is the highest isolation level and avoids dirty reads, non-repeatable reads and phantom reads by locking range of rows or the entire tables.
Authentication: the options are:
Use login and password: connect to the cache database using the login and password you enter.
Use Kerberos: connect to cache database using Kerberos authentication. The section Connecting to a JDBC Source with Kerberos Authentication contains information that also apply to the configuration of the cache.
Use AWS IAM Credentials: connect to the database using the AWS IAM credentials you enter. This authentication type is available only for Amazon Athena and Amazon Redshift. The section Importing JDBC Sources contains information that also apply to the configuration of the cache.
Obtain credentials from password vault. If selected, the Cache Engine will connect to the database with the credentials obtained from the Credentials Vault. If you select this, enter the Acount name that this account has in the credentials vault. This user account needs to have privileges to create and delete tables and indexes and, execute INSERT, UPDATE and DELETE requests.
Click Connection Pool configuration to configure the parameters of the connections pool used to access the cache database (see section Importing JDBC Sources).
Click Driver properties to add properties that will be used as arguments when establishing a connection with the database.
Click Test Connection to check that the Server can connect to this database using the settings you entered.
Read & Write tab
Fetch size (rows): it gives the JDBC driver a hint as to the number of rows that should be fetched from the cache’s database when more rows are needed.
Stream tuples (only when selecting a “MySQL” adapter): if selected, when the Server executes a query in the database to retrieve cached data, it will force MySQL to stream the results to the Server one row at a time. Otherwise, MySQL will not send the results of the queries to the Server until it has finished the query.
Select this check box if you plan to store and retrieve from the cache the result of queries that return large data sets, which may not fin the heap space of the Server’s Java Virtual Machine. If this is not the case, clear this check box because it will probably result in faster execution times.
Ignore trailing spaces: if selected, the Server removes the space characters at the end of
texttype values of the results returned by this data source’s views.
Use external tables for data movement: (only when selecting a “Netezza” adapter): if selected, when the cache engine reads data from Netezza to insert it into another Netezza database that has the option “Use Bulk Data Load APIs” selected, it will do so using its “External tables” feature. See more about the data movement optimization in the section Data Movement.
Batch insert size (rows): when the cache engine caches data, it executes an
INSERTstatement in the cache’s database, for each row it has to store in the cache. These
INSERTstatements are executed in batches to speed up the process of loading the cache.
This value sets the number of
INSERTqueries per batch.
UTF-8 data types: when you enable cache on a view, the Server creates a table in the cache database to store the cached data of this view. The impact of selecting or clearing this check box depends on the type and subtype of each field of the view:
For the fields whose subtype is defined, the Server will define the field in the cache table with the subtype of the field. For example, if the subtype of a text field is VARCHAR and its size is 200, the Server will define the field as VARCHAR(200).
For the fields whose subtype is undefined:
If the type of the field is not text, the data type to store them is always the same regardless of whether this check box is selected or not. The Server uses the appropriate types depending on the database used for caching.
For the fields of type text whose subtype is undefined, one of this can happen:
If “UTF-8 data types” is selected, the Server will define the field in the cache table with a data type that can store all the UTF-8 characters. These data types use more space in the database that regular text data types.
If “UTF-8 data types” is cleared, the Server will define the field as VARCHAR.
In the “Summary” tab of a view, the tooltip of the “Field type” column displays if the subtype of the field is defined or not: if it just shows a field type (int, text, date, etc.), the subtype is undefined. If the tooltip also has the label “Source type properties”, the subtype of the field is defined.
The data types capable of storing all the UTF-8 characters use more disk space in the database.
Use Bulk Data Load APIs (only for some databases): if selected, when the cache database is the target of a data movement, Virtual DataPort will use the native API of the database to load data onto the database, instead of executing
The section Bulk Data Load explains how Virtual DataPort uses these APIs.
Specify custom catalog and schema: select this if you want to create the tables and indexes of the cache on a catalog and/or schema that is not the default one. Then, click to obtain the list of catalog and schemas from the database and select them.
Depending on the database, the lists Catalog or Schema can be disabled if the database only has catalogs and not schemas or vice versa.
Query optimization settings (only available for some database adapters): the options below control if the query optimizer is allowed to insert data obtained from other data sources into the cache database to be able to push more operations to this database instead of executing them locally, in the Virtual DataPort server.
Do not allow Denodo to create temporary tables in the data source for query optimization: the query optimizer will not move data into the cache database to execute queries.
Allow creating temporary tables, only for the data movement optimization: if selected, the optimizer may select the cache database as the destination of data movements.
Allow creating temporary tables to allow parallel processing of any operation (only for some parallel databases): if selected, the optimizer may select the cache database as the destination of data movements. In addition, it may create temporary tables with data to push down massive parallel operations to this database. If selected, make sure that:
The Virtual DataPort server and the database are in the same network segment to ensure the data is transferred fast between both systems.
You selected the check box Use bulk data load APIs on this data source so the data is inserted as fast as possible into this database.
The first time Virtual DataPort uses an external DBMS to store the cached data, it will generate the required tables and indexes automatically.
Any configuration changes will become immediately effective except when the cache DBMS is changed, in which case the Virtual DataPort Server must be restarted.
By default, views do not store its data in the cache. Therefore, after enabling the cache module, you also need to activate the cache option in the views that require it. The section Configuring the Cache of a View explains how to do it.
When using an external database to store the cache data, the database must be started before the Virtual DataPort Server.
By default, all the Virtual DataPort databases have the same cache configuration. However, you can change the cache configuration for a specific database. This will affect the elements created inside this database. The section Configuring and Deleting Databases explains how to configure the cache of a specific database.
The entries in the cache are invalidated when they reach their “Time to Live”. However, you can invalidate manually the cache of a specific view (see Configuring the Cache of a View) or a set of views (see section Invalidate Cache).