Microsoft SSAS Connection Details¶

Introduction¶

Connector Version

This documentation is based on version 23.0.8703 of the connector.

Get Started¶

Microsoft SQL Server Analysis Services Version Support

The connector wraps the complexity of connecting to Microsoft SQL Server Analysis Services in a standard driver: Authenticate with HTTP, Windows (NTLM), or Kerberos. You can then execute SQL-92 queries or pass through MDX queries from relational tools.

Establish a Connection¶

Connect to Microsoft SQL Server Analysis Services¶

To connect, set the URL property to a valid Microsoft SQL Server Analysis Services endpoint and provide authentication. The connector must connect to Microsoft SQL Server Analysis Services instances hosted over HTTP with XMLA access. See the Microsoft documentation to configure HTTP access to Microsoft SQL Server Analysis Services.

Authenticate to Microsoft SQL Server Analysis Services¶

The connector supports the major authentication schemes, including HTTP and Windows.

Set AuthScheme to use the following authentication types.

Anonymous Authentication¶

If anonymous authentication is available, set AuthScheme to none to avoid authentication.

Basic¶

Set SQL Server database User and Password and set AuthScheme to "BASIC".

Windows (NTLM)¶

Set the Windows User and Password and set AuthScheme to "NTLM".

Kerberos¶

Please see Using Kerberos for details on how to authenticate with Kerberos.

Secure Microsoft SQL Server Analysis Services Connections¶

By default, the connector attempts to negotiate SSL/TLS by checking the server's certificate against the system's trusted certificate store. To specify another certificate, see the SSLServerCert property for the available formats.

Use Kerberos¶

Authenticating to Microsoft SQL Server Analysis Services via Kerberos requires you to define authentication properties and to choose how Kerberos should retrieve authentication tickets.

Retrieve Kerberos Tickets¶

Kerberos tickets are used to authenticate the requester's identity. The use of tickets instead of formal logins/passwords eliminates the need to store passwords locally or send them over a network. Users are reauthenticated (tickets are refreshed) whenever they log

in at their local computer or enter kinit USER at the command prompt.

The connector provides three ways to retrieve the required Kerberos ticket, depending on whether or not the KRB5CCNAME and/or KerberosKeytabFile variables exist in your environment.

MIT Kerberos Credential Cache File

This option enables you to use the MIT Kerberos Ticket Manager or kinit command to get tickets. With this option there is no need to set the User or Password connection properties.

This option requires that KRB5CCNAME has been created in your system.

To enable ticket retrieval via MIT Cerberos Credential Cache Files:

Ensure that the KRB5CCNAME variable is present in your environment.
Set KRB5CCNAME to a path that points to your credential cache file. (For example, C:\krb_cache\krb5cc_0 or /tmp/krb5cc_0.) The credential cache file is created when you use the MIT Kerberos Ticket Manager to generate your ticket.
To obtain a ticket:
1. Open the MIT Kerberos Ticket Manager application.
2. Click Get Ticket.
3. Enter your principal name and password.
4. Click OK.
If the ticket is successfully obtained, the ticket information appears in Kerberos Ticket Manager and is stored in the credential cache file.

The connector uses the cache file to obtain the Kerberos ticket to connect to Microsoft SQL Server Analysis Services.

Note

If you would prefer not to edit KRB5CCNAME, you can use the KerberosTicketCache property to set the file path manually. After this is set, the connector uses the specified cache file to obtain the Kerberos ticket to connect to Microsoft SQL Server Analysis Services.

Keytab File

If your environment lacks the KRB5CCNAME environment variable, you can retrieve a Kerberos ticket using a Keytab File.

To use this method, set the User property to the desired username, and set the KerberosKeytabFile property to a file path pointing to the keytab file associated with the user.

User and Password

If your environment lacks the KRB5CCNAME environment variable and the KerberosKeytabFile property has not been set, you can retrieve a ticket using a user and password combination.

To use this method, set the User and Password properties to the user/password combination that you use to authenticate with Microsoft SQL Server Analysis Services.

Enable Cross-Realm Authentication¶

More complex Kerberos environments can require cross-realm authentication where multiple realms and KDC servers are used. For example, they might use one realm/KDC for user authentication, and another realm/KDC for obtaining the service ticket.

To enable this kind of cross-realm authentication, set the KerberosRealm and KerberosKDC properties to the values required for user authentication. Also, set the KerberosServiceRealm and KerberosServiceKDC properties to the values required to obtain the service ticket.

Fine-Tuning Data Access¶

Fine Tuning Data Access¶

Set the following other properties may also be useful in certain situations:

UseMDX: Indicates if MDX queries are being submitted. By default this is false, which will cause the driver to accept only SQL-92 compliant queries. Setting this property to true will cause all queries to be passed through directly to Microsoft SQL Server Analysis Services.
ExtraProperties: Additional properties to submit along with an MDX query. Only meaningful if UseMDX is true.
IncludeJoinColumns: Boolean indicating if extra columns used to make ON conditions with joins should be added.

These do not come back with any values - they are added purely to enable tools that require them in order to automatically set up relationships between tables when creating joins.
ResponseRowLimit: Sets a calculated limit on the number of rows to allow the user to select before returning an error.

Because queries are being translated to MDX, selecting only a few columns may exponentially multiply the number of expected results.

For this reason, ResponseRowLimit is available to try and give some guidance on what types of queries are likely to result in a Timeout. May be disabled by setting to 0.

Retrieve Analysis Services Data¶

Microsoft SQL Server Analysis Services is an OLAP database that exposes data as cubes, which you query with MDX (multidimensional expressions). The connector models these cubes in relational views that you can query with SQL-92. The following mapping is for the layout of the model:

Catalog - Displayed in the connector as a Catalog.
Cube - Displayed in the connector as a Schema.
Measure - Available in the connector under the special Measures view.
Dimension - Each dimension is exposed as a view.
Level - Each individual level of a hierarchy is exposed as a column on the appropriate dimension view.

Join Measures and Dimensions¶

In order to retrieve measures per specific level value, issue a join between the Measure view and any Dimension or set of dimensions. For example, issuing the following will retrieve the number of customers in each city:

SELECT m.[Customer Count], c.[City]
FROM [AdventureWorksDW2012Multidimensional-SE].[Adventure Works].Customer AS c
INNER JOIN [AdventureWorksDW2012Multidimensional-SE].[Adventure Works].Measures AS m

Note that there is no ON condition necessary. That is because tables are already related appropriately in Microsoft SQL Server Analysis Services. If you are using a tool that requires ON conditions, set IncludeJoinColumns to true. This will append a number of foreign key columns to each view which will relate them to one another another. These columns will not return data on their own, but may be picked up on automatically with tools to construct the ON conditions for joins where needed.

Aggregate Data¶

Data stored in Microsoft SQL Server Analysis Services is already aggregated. In many cases, attempting to retrieve an aggregate may be syntactically equivalent to not specifying anything. For example, the following query will return the exact same data as the previous:

SELECT SUM(m.[Customer Count]), c.[City]
FROM [AdventureWorksDW2012Multidimensional-SE].[Adventure Works].Customer AS c
INNER JOIN [AdventureWorksDW2012Multidimensional-SE].[Adventure Works].Measures AS m
GROUP BY c.[City]

The exception to this rule is when an aggregation of filtered results is requested. In such cases, a calculation will be requested from Microsoft SQL Server Analysis Services. For example, to calculate the sum and average of customers in France and Germany:

SELECT SUM(m.[Customer Count]), AVG(m.[Customer Count]), c.[Country]
FROM [AdventureWorksDW2012Multidimensional-SE].[Adventure Works].Customer AS c
INNER JOIN [AdventureWorksDW2012Multidimensional-SE].[Adventure Works].Measures AS m
WHERE c.[Country] IN ('France', 'Germany')
GROUP BY c.[Country]

Select Multiple Hierarchies¶

In Microsoft SQL Server Analysis Services, individual dimensions are made up of hierarchies which may have one or more levels. For instance, the AdventureWorks Customers table has City, Country and Gender. City and Country are part of the same hierarchy while Gender is its own hierarchy.

When selecting multiple hierarchies, the method to support this is to cross join the values in MDX. While not obvious from a relational table model of the data as the connector presents, this can cause for very expensive queries to be executed. For example, executing the following:

SELECT c.[Country], m.[Customer Count]
FROM [AdventureWorksDW2012Multidimensional-SE].[Adventure Works].Customer AS c
INNER JOIN [AdventureWorksDW2012Multidimensional-SE].[Adventure Works].Measures AS m

Will result in 6 rows. However, selecting Gender as well:

SELECT c.[Country], c.[Gender], m.[Customer Count]
FROM [AdventureWorksDW2012Multidimensional-SE].[Adventure Works].Customer AS c
INNER JOIN [AdventureWorksDW2012Multidimensional-SE].[Adventure Works].Measures AS m

Will now result in 12 rows. It is because Gender and Country are on different hierarchies, thus a crossjoin is required in order to return both together. Each additional hierarchy added to the SELECT will multiply the total results by the number of available values in that hierarchy. Thus to get a count of how many rows to expect, one can execute the following:

SELECT (Count(c.[Country])*COUNT(c.[Gender])) AS totalrows
FROM [AdventureWorksDW2012Multidimensional-SE].[Adventure Works].Customer AS c

Response Row Limit¶

Due to how selecting multiple hierarchies will multiply the total number of result rows, it is possible to balloon the number of response rows very quickly, which will result in timeouts. In order to try and give some visibility into what queries will be very expensive, the ResponseRowLimit connection property has been added as a mechanism to try and guide users into better practices. When set, it will calculate how many rows to expect before any query is executed. If the number of predicted rows exceeds the limit, an error will be thrown indicating how many rows to expect back with the query.

It is recommended to select only the columns required or to apply a WHERE criteria. Both can significantly reduce the number of response rows, which will have a huge impact on performance. If you are already familiar with the connector and what queries may be expensive, ResponseRowLimit may be disabled by setting it to 0.

Advanced Features¶

This section details a selection of advanced features of the Microsoft SQL Server Analysis Services connector.

User Defined Views

The connector allows you to define virtual tables, called user defined views, whose contents are decided by a pre-configured query. These views are useful when you cannot directly control queries being issued to the drivers. See User Defined Views for an overview of creating and configuring custom views.

SSL Configuration

Use SSL Configuration to adjust how connector handles TLS/SSL certificate negotiations. You can choose from various certificate formats; see the SSLServerCert property under "Connection String Options" for more information.

Proxy

To configure the connector using Private Agent proxy settings, select the Use Proxy Settings checkbox on the connection configuration screen.

Query Processing

The connector offloads as much of the SELECT statement processing as possible to Microsoft SQL Server Analysis Services and then processes the rest of the query in memory (client-side).

See Query Processing for more information.

User Defined Views¶

The Jitterbit Connector for Microsoft SQL Server Analysis Services allows you to define a virtual table whose contents are decided by a pre-configured query. These are called User Defined Views, which are useful in situations where you cannot directly control the query being issued to the driver, e.g. when using the driver from Jitterbit. The User Defined Views can be used to define predicates that are always applied. If you specify additional predicates in the query to the view, they are combined with the query already defined as part of the view.

There are two ways to create user defined views:

Create a JSON-formatted configuration file defining the views you want.
DDL statements.

Define Views Using a Configuration File¶

User Defined Views are defined in a JSON-formatted configuration file called UserDefinedViews.json. The connector automatically detects the views specified in this file.

You can also have multiple view definitions and control them using the UserDefinedViews connection property. When you use this property, only the specified views are seen by the connector.

This User Defined View configuration file is formatted as follows:

Each root element defines the name of a view.
Each root element contains a child element, called query, which contains the custom SQL query for the view.

For example:

{
    "MyView": {
        "query": "SELECT * FROM [AdventureWorksDW2012Multidimensional-SE].[Adventure Works].Customer WHERE MyColumn = 'value'"
    },
    "MyView2": {
        "query": "SELECT * FROM MyTable WHERE Id IN (1,2,3)"
    }
}

Use the UserDefinedViews connection property to specify the location of your JSON configuration file. For example:

"UserDefinedViews", "C:\Users\yourusername\Desktop\tmp\UserDefinedViews.json"

Define Views Using DDL Statements¶

The connector is also capable of creating and altering the schema via DDL Statements such as CREATE LOCAL VIEW, ALTER LOCAL VIEW, and DROP LOCAL VIEW.

Create a View¶

To create a new view using DDL statements, provide the view name and query as follows:

CREATE LOCAL VIEW [MyViewName] AS SELECT * FROM Customers LIMIT 20;

If no JSON file exists, the above code creates one. The view is then created in the JSON configuration file and is now discoverable. The JSON file location is specified by the UserDefinedViews connection property.

Alter a View¶

To alter an existing view, provide the name of an existing view alongside the new query you would like to use instead:

ALTER LOCAL VIEW [MyViewName] AS SELECT * FROM Customers WHERE TimeModified > '3/1/2020';

The view is then updated in the JSON configuration file.

Drop a View¶

To drop an existing view, provide the name of an existing schema alongside the new query you would like to use instead.

DROP LOCAL VIEW [MyViewName]

This removes the view from the JSON configuration file. It can no longer be queried.

Schema for User Defined Views¶

User Defined Views are exposed in the UserViews schema by default. This is done to avoid the view's name clashing with an actual entity in the data model. You can change the name of the schema used for UserViews by setting the UserViewsSchemaName property.

Work with User Defined Views¶

For example, a SQL statement with a User Defined View called UserViews.RCustomers only lists customers in Raleigh:

SELECT * FROM Customers WHERE City = 'Raleigh';

An example of a query to the driver:

SELECT * FROM UserViews.RCustomers WHERE Status = 'Active';

Resulting in the effective query to the source:

SELECT * FROM Customers WHERE City = 'Raleigh' AND Status = 'Active';

That is a very simple example of a query to a User Defined View that is effectively a combination of the view query and the view definition. It is possible to compose these queries in much more complex patterns. All SQL operations are allowed in both queries and are combined when appropriate.

SSL Configuration¶

Customize the SSL Configuration¶

By default, the connector attempts to negotiate SSL/TLS by checking the server's certificate against the system's trusted certificate store.

To specify another certificate, see the SSLServerCert property for the available formats to do so.

Client SSL Certificates¶

The Microsoft SQL Server Analysis Services connector also supports setting client certificates. Set the following to connect using a client certificate.

SSLClientCert: The name of the certificate store for the client certificate.
SSLClientCertType: The type of key store containing the TLS/SSL client certificate.
SSLClientCertPassword: The password for the TLS/SSL client certificate.
SSLClientCertSubject: The subject of the TLS/SSL client certificate.

Data Model¶

Microsoft SQL Server Analysis Services is an OLAP database that exposes data as cubes, which you query with MDX (multidimensional expressions). The connector models these cubes in relational views that you can query with SQL-92, or MDX.

Accessing Cubes as Views

Microsoft SQL Server Analysis Services is fundamentally different from a relational database; reflecting these differences, the Jitterbit Connector for Microsoft SQL Server Analysis Services does not support many SQL-92 features found in a driver for an RDBMS. To bypass any limitations with query translation, you can submit pass-through MDX queries from the connector.

See Retrieving Analysis Services Data for query limitations and more information on querying Microsoft SQL Server Analysis Services.

Modeling Views Dynamically

You can query all of the cubes in your Microsoft SQL Server Analysis Services instance; when you connect, the connector retrieves the metadata from Microsoft SQL Server Analysis Services and displays the available dimensions and measures as columns for the views (cubes). The connector dynamically updates the schemas over subsequent connections.

Measure Attributes

By default, all measure attributes are listed in a 'Measures' view. However, you can set SplitMeasures to 'true' to split the measures view; the result is each measure attribute is included in its respective view based on the Measure Group value. Further classification based on 'Measure Directories' is not included.

Accessing Schema Information

Query the System Tables to access schema information and other connector metadata.

System Tables¶

You can query the system tables described in this section to access schema information, information on data source functionality, and batch operation statistics.

Schema Tables¶

The following tables return database metadata for Microsoft SQL Server Analysis Services:

sys_catalogs: Lists the available databases.
sys_schemas: Lists the available schemas.
sys_tables: Lists the available tables and views.
sys_tablecolumns: Describes the columns of the available tables and views.
sys_procedures: Describes the available stored procedures.
sys_procedureparameters: Describes stored procedure parameters.
sys_keycolumns: Describes the primary and foreign keys.
sys_indexes: Describes the available indexes.

Data Source Tables¶

The following tables return information about how to connect to and query the data source:

sys_connection_props: Returns information on the available connection properties.
sys_sqlinfo: Describes the SELECT queries that the connector can offload to the data source.

Query Information Tables¶

The following table returns query statistics for data modification queries:

sys_identity: Returns information about batch operations or single updates.

sys_catalogs¶

Lists the available databases.

The following query retrieves all databases determined by the connection string:

SELECT * FROM sys_catalogs

Columns¶

Name	Type	Description
`CatalogName`	`String`	The database name.

sys_schemas¶

Lists the available schemas.

The following query retrieves all available schemas:

SELECT * FROM sys_schemas

Columns¶

Name	Type	Description
`CatalogName`	`String`	The database name.
`SchemaName`	`String`	The schema name.

sys_tables¶

Lists the available tables.

The following query retrieves the available tables and views:

SELECT * FROM sys_tables

Columns¶

Name	Type	Description
`CatalogName`	`String`	The database containing the table or view.
`SchemaName`	`String`	The schema containing the table or view.
`TableName`	`String`	The name of the table or view.
`TableType`	`String`	The table type (table or view).
`Description`	`String`	A description of the table or view.
`IsUpdateable`	`Boolean`	Whether the table can be updated.

sys_tablecolumns¶

Describes the columns of the available tables and views.

The following query returns the columns and data types for the [AdventureWorksDW2012Multidimensional-SE].[Adventure Works].Customer table:

SELECT ColumnName, DataTypeName FROM sys_tablecolumns WHERE TableName='Customer' AND CatalogName='AdventureWorksDW2012Multidimensional-SE' AND SchemaName='Adventure Works'

Columns¶

Name	Type	Description
`CatalogName`	`String`	The name of the database containing the table or view.
`SchemaName`	`String`	The schema containing the table or view.
`TableName`	`String`	The name of the table or view containing the column.
`ColumnName`	`String`	The column name.
`DataTypeName`	`String`	The data type name.
`DataType`	`Int32`	An integer indicating the data type. This value is determined at run time based on the environment.
`Length`	`Int32`	The storage size of the column.
`DisplaySize`	`Int32`	The designated column's normal maximum width in characters.
`NumericPrecision`	`Int32`	The maximum number of digits in numeric data. The column length in characters for character and date-time data.
`NumericScale`	`Int32`	The column scale or number of digits to the right of the decimal point.
`IsNullable`	`Boolean`	Whether the column can contain null.
`Description`	`String`	A brief description of the column.
`Ordinal`	`Int32`	The sequence number of the column.
`IsAutoIncrement`	`String`	Whether the column value is assigned in fixed increments.
`IsGeneratedColumn`	`String`	Whether the column is generated.
`IsHidden`	`Boolean`	Whether the column is hidden.
`IsArray`	`Boolean`	Whether the column is an array.

sys_procedures¶

Lists the available stored procedures.

The following query retrieves the available stored procedures:

SELECT * FROM sys_procedures

Columns¶

Name	Type	Description
`CatalogName`	`String`	The database containing the stored procedure.
`SchemaName`	`String`	The schema containing the stored procedure.
`ProcedureName`	`String`	The name of the stored procedure.
`Description`	`String`	A description of the stored procedure.
`ProcedureType`	`String`	The type of the procedure, such as PROCEDURE or FUNCTION.

sys_procedureparameters¶

Describes stored procedure parameters.

The following query returns information about all of the input parameters for the SelectEntries stored procedure:

SELECT * FROM sys_procedureparameters WHERE ProcedureName='SelectEntries' AND Direction=1 OR Direction=2

Columns¶

Name	Type	Description
`CatalogName`	`String`	The name of the database containing the stored procedure.
`SchemaName`	`String`	The name of the schema containing the stored procedure.
`ProcedureName`	`String`	The name of the stored procedure containing the parameter.
`ColumnName`	`String`	The name of the stored procedure parameter.
`Direction`	`Int32`	An integer corresponding to the type of the parameter: input (1), input/output (2), or output(4). input/output type parameters can be both input and output parameters.
`DataTypeName`	`String`	The name of the data type.
`DataType`	`Int32`	An integer indicating the data type. This value is determined at run time based on the environment.
`Length`	`Int32`	The number of characters allowed for character data. The number of digits allowed for numeric data.
`NumericPrecision`	`Int32`	The maximum precision for numeric data. The column length in characters for character and date-time data.
`NumericScale`	`Int32`	The number of digits to the right of the decimal point in numeric data.
`IsNullable`	`Boolean`	Whether the parameter can contain null.
`IsRequired`	`Boolean`	Whether the parameter is required for execution of the procedure.
`IsArray`	`Boolean`	Whether the parameter is an array.
`Description`	`String`	The description of the parameter.
`Ordinal`	`Int32`	The index of the parameter.

sys_keycolumns¶

Describes the primary and foreign keys.

The following query retrieves the primary key for the [AdventureWorksDW2012Multidimensional-SE].[Adventure Works].Customer table:

SELECT * FROM sys_keycolumns WHERE IsKey='True' AND TableName='Customer' AND CatalogName='AdventureWorksDW2012Multidimensional-SE' AND SchemaName='Adventure Works'

Columns¶

Name	Type	Description
`CatalogName`	`String`	The name of the database containing the key.
`SchemaName`	`String`	The name of the schema containing the key.
`TableName`	`String`	The name of the table containing the key.
`ColumnName`	`String`	The name of the key column.
`IsKey`	`Boolean`	Whether the column is a primary key in the table referenced in the TableName field.
`IsForeignKey`	`Boolean`	Whether the column is a foreign key referenced in the TableName field.
`PrimaryKeyName`	`String`	The name of the primary key.
`ForeignKeyName`	`String`	The name of the foreign key.
`ReferencedCatalogName`	`String`	The database containing the primary key.
`ReferencedSchemaName`	`String`	The schema containing the primary key.
`ReferencedTableName`	`String`	The table containing the primary key.
`ReferencedColumnName`	`String`	The column name of the primary key.

sys_foreignkeys¶

Describes the foreign keys.

The following query retrieves all foreign keys which refer to other tables:

SELECT * FROM sys_foreignkeys WHERE ForeignKeyType = 'FOREIGNKEY_TYPE_IMPORT'

Columns¶

Name	Type	Description
`CatalogName`	`String`	The name of the database containing the key.
`SchemaName`	`String`	The name of the schema containing the key.
`TableName`	`String`	The name of the table containing the key.
`ColumnName`	`String`	The name of the key column.
`PrimaryKeyName`	`String`	The name of the primary key.
`ForeignKeyName`	`String`	The name of the foreign key.
`ReferencedCatalogName`	`String`	The database containing the primary key.
`ReferencedSchemaName`	`String`	The schema containing the primary key.
`ReferencedTableName`	`String`	The table containing the primary key.
`ReferencedColumnName`	`String`	The column name of the primary key.
`ForeignKeyType`	`String`	Designates whether the foreign key is an import (points to other tables) or export (referenced from other tables) key.

sys_primarykeys¶

Describes the primary keys.

The following query retrieves the primary keys from all tables and views:

SELECT * FROM sys_primarykeys

Columns¶

Name	Type	Description
`CatalogName`	`String`	The name of the database containing the key.
`SchemaName`	`String`	The name of the schema containing the key.
`TableName`	`String`	The name of the table containing the key.
`ColumnName`	`String`	The name of the key column.
`KeySeq`	`String`	The sequence number of the primary key.
`KeyName`	`String`	The name of the primary key.

sys_indexes¶

Describes the available indexes. By filtering on indexes, you can write more selective queries with faster query response times.

The following query retrieves all indexes that are not primary keys:

SELECT * FROM sys_indexes WHERE IsPrimary='false'

Columns¶

Name	Type	Description
`CatalogName`	`String`	The name of the database containing the index.
`SchemaName`	`String`	The name of the schema containing the index.
`TableName`	`String`	The name of the table containing the index.
`IndexName`	`String`	The index name.
`ColumnName`	`String`	The name of the column associated with the index.
`IsUnique`	`Boolean`	True if the index is unique. False otherwise.
`IsPrimary`	`Boolean`	True if the index is a primary key. False otherwise.
`Type`	`Int16`	An integer value corresponding to the index type: statistic (0), clustered (1), hashed (2), or other (3).
`SortOrder`	`String`	The sort order: A for ascending or D for descending.
`OrdinalPosition`	`Int16`	The sequence number of the column in the index.

sys_connection_props¶

Returns information on the available connection properties and those set in the connection string.

When querying this table, the config connection string should be used:

jdbc:cdata:ssas:config:

This connection string enables you to query this table without a valid connection.

The following query retrieves all connection properties that have been set in the connection string or set through a default value:

SELECT * FROM sys_connection_props WHERE Value <> ''

Columns¶

Name	Type	Description
`Name`	`String`	The name of the connection property.
`ShortDescription`	`String`	A brief description.
`Type`	`String`	The data type of the connection property.
`Default`	`String`	The default value if one is not explicitly set.
`Values`	`String`	A comma-separated list of possible values. A validation error is thrown if another value is specified.
`Value`	`String`	The value you set or a preconfigured default.
`Required`	`Boolean`	Whether the property is required to connect.
`Category`	`String`	The category of the connection property.
`IsSessionProperty`	`String`	Whether the property is a session property, used to save information about the current connection.
`Sensitivity`	`String`	The sensitivity level of the property. This informs whether the property is obfuscated in logging and authentication forms.
`PropertyName`	`String`	A camel-cased truncated form of the connection property name.
`Ordinal`	`Int32`	The index of the parameter.
`CatOrdinal`	`Int32`	The index of the parameter category.
`Hierarchy`	`String`	Shows dependent properties associated that need to be set alongside this one.
`Visible`	`Boolean`	Informs whether the property is visible in the connection UI.
`ETC`	`String`	Various miscellaneous information about the property.

sys_sqlinfo¶

Describes the SELECT query processing that the connector can offload to the data source.

Discovering the Data Source's SELECT Capabilities¶

Below is an example data set of SQL capabilities. Some aspects of SELECT functionality are returned in a comma-separated list if supported; otherwise, the column contains NO.

Name	Description	Possible Values
`AGGREGATE_FUNCTIONS`	Supported aggregation functions.	`AVG`, `COUNT`, `MAX`, `MIN`, `SUM`, `DISTINCT`
`COUNT`	Whether COUNT function is supported.	`YES`, `NO`
`IDENTIFIER_QUOTE_OPEN_CHAR`	The opening character used to escape an identifier.	`[`
`IDENTIFIER_QUOTE_CLOSE_CHAR`	The closing character used to escape an identifier.	`]`
`SUPPORTED_OPERATORS`	A list of supported SQL operators.	`=`, `>`, `<`, `>=`, `<=`, `<>`, `!=`, `LIKE`, `NOT LIKE`, `IN`, `NOT IN`, `IS NULL`, `IS NOT NULL`, `AND`, `OR`
`GROUP_BY`	Whether GROUP BY is supported, and, if so, the degree of support.	`NO`, `NO_RELATION`, `EQUALS_SELECT`, `SQL_GB_COLLATE`
`STRING_FUNCTIONS`	Supported string functions.	`LENGTH`, `CHAR`, `LOCATE`, `REPLACE`, `SUBSTRING`, `RTRIM`, `LTRIM`, `RIGHT`, `LEFT`, `UCASE`, `SPACE`, `SOUNDEX`, `LCASE`, `CONCAT`, `ASCII`, `REPEAT`, `OCTET`, `BIT`, `POSITION`, `INSERT`, `TRIM`, `UPPER`, `REGEXP`, `LOWER`, `DIFFERENCE`, `CHARACTER`, `SUBSTR`, `STR`, `REVERSE`, `PLAN`, `UUIDTOSTR`, `TRANSLATE`, `TRAILING`, `TO`, `STUFF`, `STRTOUUID`, `STRING`, `SPLIT`, `SORTKEY`, `SIMILAR`, `REPLICATE`, `PATINDEX`, `LPAD`, `LEN`, `LEADING`, `KEY`, `INSTR`, `INSERTSTR`, `HTML`, `GRAPHICAL`, `CONVERT`, `COLLATION`, `CHARINDEX`, `BYTE`
`NUMERIC_FUNCTIONS`	Supported numeric functions.	`ABS`, `ACOS`, `ASIN`, `ATAN`, `ATAN2`, `CEILING`, `COS`, `COT`, `EXP`, `FLOOR`, `LOG`, `MOD`, `SIGN`, `SIN`, `SQRT`, `TAN`, `PI`, `RAND`, `DEGREES`, `LOG10`, `POWER`, `RADIANS`, `ROUND`, `TRUNCATE`
`TIMEDATE_FUNCTIONS`	Supported date/time functions.	`NOW`, `CURDATE`, `DAYOFMONTH`, `DAYOFWEEK`, `DAYOFYEAR`, `MONTH`, `QUARTER`, `WEEK`, `YEAR`, `CURTIME`, `HOUR`, `MINUTE`, `SECOND`, `TIMESTAMPADD`, `TIMESTAMPDIFF`, `DAYNAME`, `MONTHNAME`, `CURRENT_DATE`, `CURRENT_TIME`, `CURRENT_TIMESTAMP`, `EXTRACT`
`REPLICATION_SKIP_TABLES`	Indicates tables skipped during replication.
`REPLICATION_TIMECHECK_COLUMNS`	A string array containing a list of columns which will be used to check for (in the given order) to use as a modified column during replication.
`IDENTIFIER_PATTERN`	String value indicating what string is valid for an identifier.
`SUPPORT_TRANSACTION`	Indicates if the provider supports transactions such as commit and rollback.	`YES`, `NO`
`DIALECT`	Indicates the SQL dialect to use.
`KEY_PROPERTIES`	Indicates the properties which identify the uniform database.
`SUPPORTS_MULTIPLE_SCHEMAS`	Indicates if multiple schemas may exist for the provider.	`YES`, `NO`
`SUPPORTS_MULTIPLE_CATALOGS`	Indicates if multiple catalogs may exist for the provider.	`YES`, `NO`
`DATASYNCVERSION`	The Data Sync version needed to access this driver.	`Standard`, `Starter`, `Professional`, `Enterprise`
`DATASYNCCATEGORY`	The Data Sync category of this driver.	`Source`, `Destination`, `Cloud Destination`
`SUPPORTSENHANCEDSQL`	Whether enhanced SQL functionality beyond what is offered by the API is supported.	`TRUE`, `FALSE`
`SUPPORTS_BATCH_OPERATIONS`	Whether batch operations are supported.	`YES`, `NO`
`SQL_CAP`	All supported SQL capabilities for this driver.	`SELECT`, `INSERT`, `DELETE`, `UPDATE`, `TRANSACTIONS`, `ORDERBY`, `OAUTH`, `ASSIGNEDID`, `LIMIT`, `LIKE`, `BULKINSERT`, `COUNT`, `BULKDELETE`, `BULKUPDATE`, `GROUPBY`, `HAVING`, `AGGS`, `OFFSET`, `REPLICATE`, `COUNTDISTINCT`, `JOINS`, `DROP`, `CREATE`, `DISTINCT`, `INNERJOINS`, `SUBQUERIES`, `ALTER`, `MULTIPLESCHEMAS`, `GROUPBYNORELATION`, `OUTERJOINS`, `UNIONALL`, `UNION`, `UPSERT`, `GETDELETED`, `CROSSJOINS`, `GROUPBYCOLLATE`, `MULTIPLECATS`, `FULLOUTERJOIN`, `MERGE`, `JSONEXTRACT`, `BULKUPSERT`, `SUM`, `SUBQUERIESFULL`, `MIN`, `MAX`, `JOINSFULL`, `XMLEXTRACT`, `AVG`, `MULTISTATEMENTS`, `FOREIGNKEYS`, `CASE`, `LEFTJOINS`, `COMMAJOINS`, `WITH`, `LITERALS`, `RENAME`, `NESTEDTABLES`, `EXECUTE`, `BATCH`, `BASIC`, `INDEX`
`PREFERRED_CACHE_OPTIONS`	A string value specifies the preferred cacheOptions.
`ENABLE_EF_ADVANCED_QUERY`	Indicates if the driver directly supports advanced queries coming from Entity Framework. If not, queries will be handled client side.	`YES`, `NO`
`PSEUDO_COLUMNS`	A string array indicating the available pseudo columns.
`MERGE_ALWAYS`	If the value is true, The Merge Mode is forcibly executed in Data Sync.	`TRUE`, `FALSE`
`REPLICATION_MIN_DATE_QUERY`	A select query to return the replicate start datetime.
`REPLICATION_MIN_FUNCTION`	Allows a provider to specify the formula name to use for executing a server side min.
`REPLICATION_START_DATE`	Allows a provider to specify a replicate startdate.
`REPLICATION_MAX_DATE_QUERY`	A select query to return the replicate end datetime.
`REPLICATION_MAX_FUNCTION`	Allows a provider to specify the formula name to use for executing a server side max.
`IGNORE_INTERVALS_ON_INITIAL_REPLICATE`	A list of tables which will skip dividing the replicate into chunks on the initial replicate.
`CHECKCACHE_USE_PARENTID`	Indicates whether the CheckCache statement should be done against the parent key column.	`TRUE`, `FALSE`
`CREATE_SCHEMA_PROCEDURES`	Indicates stored procedures that can be used for generating schema files.

The following query retrieves the operators that can be used in the WHERE clause:

SELECT * FROM sys_sqlinfo WHERE Name = 'SUPPORTED_OPERATORS'

Note that individual tables may have different limitations or requirements on the WHERE clause; refer to the Data Model section for more information.

Columns¶

Name	Type	Description
`NAME`	`String`	A component of SQL syntax, or a capability that can be processed on the server.
`VALUE`	`String`	Detail on the supported SQL or SQL syntax.

sys_identity¶

Returns information about attempted modifications.

The following query retrieves the Ids of the modified rows in a batch operation:

SELECT * FROM sys_identity

Columns¶

Name	Type	Description
`Id`	`String`	The database-generated ID returned from a data modification operation.
`Batch`	`String`	An identifier for the batch. 1 for a single operation.
`Operation`	`String`	The result of the operation in the batch: INSERTED, UPDATED, or DELETED.
`Message`	`String`	SUCCESS or an error message if the update in the batch failed.

Advanced Configurations Properties¶

The advanced configurations properties are the various options that can be used to establish a connection. This section provides a complete list of the options you can configure. Click the links for further details.

Authentication

Property	Description
`AuthScheme`	The scheme used for authentication. Accepted entries are NTLM, Basic, Digest, None, and Negotiate.
`URL`	The URL used to connect to the Microsoft SQL Server Analysis Services.
`User`	The Microsoft SQL Server Analysis Services user account used to authenticate.
`Password`	The password used to authenticate the user.

Kerberos

Property	Description
`KerberosKDC`	The Kerberos Key Distribution Center (KDC) service used to authenticate the user.
`KerberosRealm`	The Kerberos Realm used to authenticate the user.
`KerberosSPN`	The service principal name (SPN) for the Kerberos Domain Controller.
`KerberosKeytabFile`	The Keytab file containing your pairs of Kerberos principals and encrypted keys.

SSL

Property	Description
`SSLClientCert`	The TLS/SSL client certificate store for SSL Client Authentication (2-way SSL).
`SSLClientCertType`	The type of key store containing the TLS/SSL client certificate.
`SSLClientCertPassword`	The password for the TLS/SSL client certificate.
`SSLClientCertSubject`	The subject of the TLS/SSL client certificate.
`SSLServerCert`	The certificate to be accepted from the server when connecting using TLS/SSL.

Schema

Property	Description
`Location`	A path to the directory that contains the schema files defining tables, views, and stored procedures.
`BrowsableSchemas`	This property restricts the schemas reported to a subset of the available schemas. For example, BrowsableSchemas=SchemaA, SchemaB, SchemaC.
`Tables`	This property restricts the tables reported to a subset of the available tables. For example, Tables=TableA, TableB, TableC.
`Views`	Restricts the views reported to a subset of the available tables. For example, Views=ViewA, ViewB, ViewC.

Miscellaneous

Property	Description
`Catalog`	The Analysis Services catalog to use. This may also be known as a Database from within Analysis Services.
`CustomHeaders`	Other headers as determined by the user (optional).
`ExpressionInDescription`	Set this to true to report expressions as part of the description on measure columns.
`ExtraProperties`	Additional properties to submit on each MDX request to Microsoft SQL Server Analysis Services.
`IncludeJoinColumns`	Set this to true to include extra join columns on each table.
`MaxRows`	Limits the number of rows returned when no aggregation or GROUP BY is used in the query. This takes precedence over LIMIT clauses.
`Other`	These hidden properties are used only in specific use cases.
`ResponseRowLimit`	The number of response rows to allow before erroring. Set to 0 for no limit.
`ShowHiddenEntities`	Set this to true to include hidden dimensions, measures and levels.
`SplitMeasures`	Set this to true to split Measures table into individual tables.
`Timeout`	The value in seconds until the timeout error is thrown, canceling the operation.
`UseMDX`	Set this to true to pass MDX queries to Microsoft SQL Server Analysis Services as-is.
`UserDefinedViews`	A filepath pointing to the JSON configuration file containing your custom views.

Authentication¶

This section provides a complete list of authentication properties you can configure.

Property	Description
`AuthScheme`	The scheme used for authentication. Accepted entries are NTLM, Basic, Digest, None, and Negotiate.
`URL`	The URL used to connect to the Microsoft SQL Server Analysis Services.
`User`	The Microsoft SQL Server Analysis Services user account used to authenticate.
`Password`	The password used to authenticate the user.

AuthScheme¶

Password¶

The password used to authenticate the user.

Data Type¶

string

Default Value¶

""

Remarks¶

The User and Password are together used to authenticate with the server.

Kerberos¶

This section provides a complete list of Kerberos properties you can configure.

Property	Description
`KerberosKDC`	The Kerberos Key Distribution Center (KDC) service used to authenticate the user.
`KerberosRealm`	The Kerberos Realm used to authenticate the user.
`KerberosSPN`	The service principal name (SPN) for the Kerberos Domain Controller.
`KerberosKeytabFile`	The Keytab file containing your pairs of Kerberos principals and encrypted keys.

KerberosKDC¶

The Kerberos Key Distribution Center (KDC) service used to authenticate the user.

Data Type¶

string

Default Value¶

""

Remarks¶

The Kerberos properties are used when using SPNEGO or Windows Authentication. The connector will request session tickets and temporary session keys from the Kerberos KDC service. The Kerberos KDC service is conventionally colocated with the domain controller.

If Kerberos KDC is not specified, the connector will attempt to detect these properties automatically from the following locations:

KRB5 Config File (krb5.ini/krb5.conf): If the KRB5_CONFIG environment variable is set and the file exists, the connector will obtain the KDC from the specified file. Otherwise, it will attempt to read from the default MIT location based on the OS: C:\ProgramData\MIT\Kerberos5\krb5.ini (Windows) or /etc/krb5.conf (Linux).
Java System Properties: Using the system properties java.security.krb5.realm and java.security.krb5.kdc.
Domain Name and Host: If the Kerberos Realm and Kerberos KDC could not be inferred from another location, the connector will infer them from the configured domain name and host.

Note

Windows authentication is supported in JRE 1.6 and above only.

KerberosRealm¶

The Kerberos Realm used to authenticate the user.

Data Type¶

string

Default Value¶

""

Remarks¶

The Kerberos properties are used when using SPNEGO or Windows Authentication. The Kerberos Realm is used to authenticate the user with the Kerberos Key Distribution Service (KDC). The Kerberos Realm can be configured by an administrator to be any string, but conventionally it is based on the domain name.

If Kerberos Realm is not specified, the connector will attempt to detect these properties automatically from the following locations:

KRB5 Config File (krb5.ini/krb5.conf): If the KRB5_CONFIG environment variable is set and the file exists, the connector will obtain the default realm from the specified file. Otherwise, it will attempt to read from the default MIT location based on the OS: C:\ProgramData\MIT\Kerberos5\krb5.ini (Windows) or /etc/krb5.conf (Linux)
Java System Properties: Using the system properties java.security.krb5.realm and java.security.krb5.kdc.
Domain Name and Host: If the Kerberos Realm and Kerberos KDC could not be inferred from another location, the connector will infer them from the user-configured domain name and host. This might work in some Windows environments.

Note

Kerberos-based authentication is supported in JRE 1.6 and above only.

KerberosSPN¶

The service principal name (SPN) for the Kerberos Domain Controller.

Data Type¶

string

Default Value¶

""

Remarks¶

If the SPN on the Kerberos Domain Controller is not the same as the URL that you are authenticating to, use this property to set the SPN.

KerberosKeytabFile¶

The Keytab file containing your pairs of Kerberos principals and encrypted keys.

Data Type¶

string

Default Value¶

""

Remarks¶

The Keytab file containing your pairs of Kerberos principals and encrypted keys.

SSL¶

This section provides a complete list of SSL properties you can configure.

Property	Description
`SSLClientCert`	The TLS/SSL client certificate store for SSL Client Authentication (2-way SSL).
`SSLClientCertType`	The type of key store containing the TLS/SSL client certificate.
`SSLClientCertPassword`	The password for the TLS/SSL client certificate.
`SSLClientCertSubject`	The subject of the TLS/SSL client certificate.
`SSLServerCert`	The certificate to be accepted from the server when connecting using TLS/SSL.

SSLClientCert¶

The TLS/SSL client certificate store for SSL Client Authentication (2-way SSL).

Data Type¶

string

Default Value¶

""

Remarks¶

The name of the certificate store for the client certificate.

The SSLClientCertType field specifies the type of the certificate store specified by SSLClientCert. If the store is password protected, specify the password in SSLClientCertPassword.

SSLClientCert is used in conjunction with the SSLClientCertSubject field in order to specify client certificates. If SSLClientCert has a value, and SSLClientCertSubject is set, a search for a certificate is initiated. See SSLClientCertSubject for more information.

Designations of certificate stores are platform-dependent.

The following are designations of the most common User and Machine certificate stores in Windows:

Property	Description
`MY`	A certificate store holding personal certificates with their associated private keys.
`CA`	Certifying authority certificates.
`ROOT`	Root certificates.
`SPC`	Software publisher certificates.

In Java, the certificate store normally is a file containing certificates and optional private keys.

When the certificate store type is PFXFile, this property must be set to the name of the file. When the type is PFXBlob, the property must be set to the binary contents of a PFX file (for example, PKCS12 certificate store).

SSLClientCertType¶

The type of key store containing the TLS/SSL client certificate.

Possible Values¶

USER, MACHINE, PFXFILE, PFXBLOB, JKSFILE, JKSBLOB, PEMKEY_FILE, PEMKEY_BLOB, PUBLIC_KEY_FILE, PUBLIC_KEY_BLOB, SSHPUBLIC_KEY_FILE, SSHPUBLIC_KEY_BLOB, P7BFILE, PPKFILE, XMLFILE, XMLBLOB

Data Type¶

string

Default Value¶

USER

Remarks¶

This property can take one of the following values:

Property	Description
`USER - default`	For Windows, this specifies that the certificate store is a certificate store owned by the current user. Note that this store type is not available in Java.
`MACHINE`	For Windows, this specifies that the certificate store is a machine store. Note that this store type is not available in Java.
`PFXFILE`	The certificate store is the name of a PFX (PKCS12) file containing certificates.
`PFXBLOB`	The certificate store is a string (base-64-encoded) representing a certificate store in PFX (PKCS12) format.
`JKSFILE`	The certificate store is the name of a Java key store (JKS) file containing certificates. Note that this store type is only available in Java.
`JKSBLOB`	The certificate store is a string (base-64-encoded) representing a certificate store in JKS format. Note that this store type is only available in Java.
`PEMKEY_FILE`	The certificate store is the name of a PEM-encoded file that contains a private key and an optional certificate.
`PEMKEY_BLOB`	The certificate store is a string (base64-encoded) that contains a private key and an optional certificate.
`PUBLIC_KEY_FILE`	The certificate store is the name of a file that contains a PEM- or DER-encoded public key certificate.
`PUBLIC_KEY_BLOB`	The certificate store is a string (base-64-encoded) that contains a PEM- or DER-encoded public key certificate.
`SSHPUBLIC_KEY_FILE`	The certificate store is the name of a file that contains an SSH-style public key.
`SSHPUBLIC_KEY_BLOB`	The certificate store is a string (base-64-encoded) that contains an SSH-style public key.
`P7BFILE`	The certificate store is the name of a PKCS7 file containing certificates.
`PPKFILE`	The certificate store is the name of a file that contains a PuTTY Private Key (PPK).
`XMLFILE`	The certificate store is the name of a file that contains a certificate in XML format.
`XMLBLOB`	The certificate store is a string that contains a certificate in XML format.

SSLClientCertPassword¶

The password for the TLS/SSL client certificate.

Data Type¶

string

Default Value¶

""

Remarks¶

If the certificate store is of a type that requires a password, this property is used to specify that password to open the certificate store.

SSLClientCertSubject¶

The subject of the TLS/SSL client certificate.

Data Type¶

string

Default Value¶

*

Remarks¶

When loading a certificate the subject is used to locate the certificate in the store.

If an exact match is not found, the store is searched for subjects containing the value of the property. If a match is still not found, the property is set to an empty string, and no certificate is selected.

The special value "*" picks the first certificate in the certificate store.

The certificate subject is a comma separated list of distinguished name fields and values. For example, "CN=www.server.com, OU=test, C=US, E=support@company.com". The common fields and their meanings are shown below.

Field	Meaning
`CN`	Common Name. This is commonly a host name like www.server.com.
`O`	Organization
`OU`	Organizational Unit
`L`	Locality
`S`	State
`C`	Country
`E`	Email Address

If a field value contains a comma, it must be quoted.

SSLServerCert¶

The certificate to be accepted from the server when connecting using TLS/SSL.

Data Type¶

string

Default Value¶

""

Remarks¶

If using a TLS/SSL connection, this property can be used to specify the TLS/SSL certificate to be accepted from the server. Any other certificate that is not trusted by the machine is rejected.

This property can take the following forms:

Description	Example
A full PEM Certificate (example shortened for brevity)	`-----BEGIN CERTIFICATE----- MIIChTCCAe4CAQAwDQYJKoZIhv......Qw== -----END CERTIFICATE-----`
A path to a local file containing the certificate	`C:\cert.cer`
The public key (example shortened for brevity)	`-----BEGIN RSA PUBLIC KEY----- MIGfMA0GCSq......AQAB -----END RSA PUBLIC KEY-----`
The MD5 Thumbprint (hex values can also be either space or colon separated)	`ecadbdda5a1529c58a1e9e09828d70e4`
The SHA1 Thumbprint (hex values can also be either space or colon separated)	`34a929226ae0819f2ec14b4a3d904f801cbb150d`

If not specified, any certificate trusted by the machine is accepted.

Certificates are validated as trusted by the machine based on the System's trust store. The trust store used is the 'javax.net.ssl.trustStore' value specified for the system. If no value is specified for this property, Java's default trust store is used (for example, JAVA_HOME\lib\security\cacerts).

Use '*' to signify to accept all certificates. Note that this is not recommended due to security concerns.

Schema¶

This section provides a complete list of schema properties you can configure.

Property	Description
`Location`	A path to the directory that contains the schema files defining tables, views, and stored procedures.
`BrowsableSchemas`	This property restricts the schemas reported to a subset of the available schemas. For example, BrowsableSchemas=SchemaA, SchemaB, SchemaC.
`Tables`	This property restricts the tables reported to a subset of the available tables. For example, Tables=TableA, TableB, TableC.
`Views`	Restricts the views reported to a subset of the available tables. For example, Views=ViewA, ViewB, ViewC.

Location¶

A path to the directory that contains the schema files defining tables, views, and stored procedures.

Data Type¶

string

Default Value¶

%APPDATA%\SSAS Data Provider\Schema

Remarks¶

The path to a directory which contains the schema files for the connector (.rsd files for tables and views, .rsb files for stored procedures). The folder location can be a relative path from the location of the executable. The Location property is only needed if you want to customize definitions (for example, change a column name, ignore a column, and so on) or extend the data model with new tables, views, or stored procedures.

If left unspecified, the default location is "%APPDATA%\SSAS Data Provider\Schema" with %APPDATA% being set to the user's configuration directory:

Platform	%APPDATA%
`Windows`	The value of the APPDATA environment variable
`Mac`	~/Library/Application Support
`Linux`	~/.config

BrowsableSchemas¶

This property restricts the schemas reported to a subset of the available schemas. For example, BrowsableSchemas=SchemaA,SchemaB,SchemaC.

Data Type¶

string

Default Value¶

""

Remarks¶

Listing the schemas from databases can be expensive. Providing a list of schemas in the connection string improves the performance.

Tables¶

This property restricts the tables reported to a subset of the available tables. For example, Tables=TableA,TableB,TableC.

Data Type¶

string

Default Value¶

""

Remarks¶

Listing the tables from some databases can be expensive. Providing a list of tables in the connection string improves the performance of the connector.

This property can also be used as an alternative to automatically listing views if you already know which ones you want to work with and there would otherwise be too many to work with.

Specify the tables you want in a comma-separated list. Each table should be a valid SQL identifier with any special characters escaped using square brackets, double-quotes or backticks. For example, Tables=TableA,[TableB/WithSlash],WithCatalog.WithSchema.`TableC With Space`.

Note that when connecting to a data source with multiple schemas or catalogs, you will need to provide the fully qualified name of the table in this property, as in the last example here, to avoid ambiguity between tables that exist in multiple catalogs or schemas.

Views¶

Restricts the views reported to a subset of the available tables. For example, Views=ViewA,ViewB,ViewC.

Data Type¶

string

Default Value¶

""

Remarks¶

Listing the views from some databases can be expensive. Providing a list of views in the connection string improves the performance of the connector.

This property can also be used as an alternative to automatically listing views if you already know which ones you want to work with and there would otherwise be too many to work with.

Specify the views you want in a comma-separated list. Each view should be a valid SQL identifier with any special characters escaped using square brackets, double-quotes or backticks. For example, Views=ViewA,[ViewB/WithSlash],WithCatalog.WithSchema.`ViewC With Space`.

Note that when connecting to a data source with multiple schemas or catalogs, you will need to provide the fully qualified name of the table in this property, as in the last example here, to avoid ambiguity between tables that exist in multiple catalogs or schemas.

Miscellaneous¶

This section provides a complete list of miscellaneous properties you can configure.

Property	Description
`Catalog`	The Analysis Services catalog to use. This may also be known as a Database from within Analysis Services.
`CustomHeaders`	Other headers as determined by the user (optional).
`ExpressionInDescription`	Set this to true to report expressions as part of the description on measure columns.
`ExtraProperties`	Additional properties to submit on each MDX request to Microsoft SQL Server Analysis Services.
`IncludeJoinColumns`	Set this to true to include extra join columns on each table.
`MaxRows`	Limits the number of rows returned when no aggregation or GROUP BY is used in the query. This takes precedence over LIMIT clauses.
`Other`	These hidden properties are used only in specific use cases.
`ResponseRowLimit`	The number of response rows to allow before erroring. Set to 0 for no limit.
`ShowHiddenEntities`	Set this to true to include hidden dimensions, measures and levels.
`SplitMeasures`	Set this to true to split Measures table into individual tables.
`Timeout`	The value in seconds until the timeout error is thrown, canceling the operation.
`UseMDX`	Set this to true to pass MDX queries to Microsoft SQL Server Analysis Services as-is.
`UserDefinedViews`	A filepath pointing to the JSON configuration file containing your custom views.

Catalog¶

The Analysis Services catalog to use. This may also be known as a Database from within Analysis Services.

Data Type¶

string

Default Value¶

""

Remarks¶

This input is optional as catalogs will be displayed by default. However, if if you have UseMDX set to true, this value will ensure the MDX queries are submitted to the correct catalog.

CustomHeaders¶

Other¶

These hidden properties are used only in specific use cases.

Data Type¶

string

Default Value¶

""

Remarks¶

The properties listed below are available for specific use cases. Normal driver use cases and functionality should not require these properties.

Specify multiple properties in a semicolon-separated list.

Integration and Formatting¶

Property	Description
`DefaultColumnSize`	Sets the default length of string fields when the data source does not provide column length in the metadata. The default value is 2000.
`ConvertDateTimeToGMT`	Determines whether to convert date-time values to GMT, instead of the local time of the machine.
`RecordToFile=filename`	Records the underlying socket data transfer to the specified file.

Remarks¶

If Timeout = 0, operations do not time out. The operations run until they complete successfully or until they encounter an error condition.

If Timeout expires and the operation is not yet complete, the connector throws an exception.

UseMDX¶

Set this to true to pass MDX queries to Microsoft SQL Server Analysis Services as-is.

Data Type¶

bool

Default Value¶

false

Remarks¶

You can execute SQL-92 SELECT queries to the views modeled by the connector; set this property to instead execute MDX queries directly to Microsoft SQL Server Analysis Services. If you are using MDX queries directly, it is recommended to also specify the Catalog to ensure MDX queries are submitted to the correct catalog.

See Retrieving Analysis Services Data for more information on querying Microsoft SQL Server Analysis Services through the connector.

UserDefinedViews¶

A filepath pointing to the JSON configuration file containing your custom views.

Data Type¶

string

Default Value¶

""

Remarks¶

User Defined Views are defined in a JSON-formatted configuration file called UserDefinedViews.json. The connector automatically detects the views specified in this file.

You can also have multiple view definitions and control them using the UserDefinedViews connection property. When you use this property, only the specified views are seen by the connector.

This User Defined View configuration file is formatted as follows:

Each root element defines the name of a view.
Each root element contains a child element, called query, which contains the custom SQL query for the view.

For example:

{
    "MyView": {
        "query": "SELECT * FROM [AdventureWorksDW2012Multidimensional-SE].[Adventure Works].Customer WHERE MyColumn = 'value'"
    },
    "MyView2": {
        "query": "SELECT * FROM MyTable WHERE Id IN (1,2,3)"
    }
}

Use the UserDefinedViews connection property to specify the location of your JSON configuration file. For example:

"UserDefinedViews", "C:\Users\yourusername\Desktop\tmp\UserDefinedViews.json"