SOAP Web Service Sources¶
This section explains how to:
Create a data source that points to a SOAP Web service
Create a base view to sends requests to its operations.
Importing SOAP Web Service Sources¶
To create a new Web service data source, right-click on a database of the Server Explorer and click New > Data source > Web service.
The Tool will display the dialog to create a new Web service data source.
Fill in the following fields:
Name: Name of the new data source. In our example, the name of the new data source is “sales”.
WSDL: Path to the WSDL file containing the Web service specification. We can provide a URL or select a local file by clicking Browse. In our example, the path is
End Point: URL to access the Web service. E.g.
http://localhost:8080/sales/services/RevenueProvider. Usually, the WSDL contains this URL, but sometimes it does not or it does not point to the right location.
From WSDL: The end point is obtained from the WSDL.
From Variable: The end point is obtained from an interpolation variable. This means that the base views created over this data source will have an extra field with the name specified in the field “Variable”. When querying these views, indicate the end point of the Web service in the
WHEREclause of the query. For example,
SELECT * FROM v_revenue WHERE endpoint = 'http://acme:8080/sales/services/RevenueProvider'
This option is useful when the end point changes regularly or is obtained from another source at runtime. See section Paths and Other Values with Interpolation Variables for more information about interpolation variables.
Specify: Indicate the URL of the end point in the box below. This option is useful when the WSDL does not contain and end point, or it is not correct. E.g. if you deploy the “sales” Web service in a Web container that does not listen to connections at
Authentication: Virtual DataPort can access Web services that require authentication. It supports five authentication protocols:
HTTP Basic and HTTP Digest. The RFC 2617: HTTP Authentication: Basic and Digest Access Authentication describes these authentication methods.
HTTP NTLM. Uses the NTLM Authentication Protocol (NT LAN Manager (NTLM) Authentication Protocol Specification v1 and v2) to access Microsoft Windows servers. Virtual DataPort supports NTLM v1 and NTLM v2.
HTTP SPNEGO (Kerberos). Uses Kerberos tickets to sign the HTTP requests sent to the Web service (see section Connecting to a SOAP Web Service with Kerberos Authentication).
WSS Basic and WSS Digest. Web Services Security (WS-Security) is a standard for the implementation of security features in applications using Web services. Currently, Denodo supports the authentication profile “Username Token” (WSS - Web Services Security Username Token Profile 1.1).
There are three ways to provide the credentials of the Web service:
Specify. Fill in the fields Login and Password and if you have selected “HTTP NTLM” fill in the field Domain. These credentials are used to connect to the Web service server, in order to:
Execute queries that use this data source.
Obtain WSDL of the Web service and display its operations.
Pass-through session credentials. Fill in the fields Login and Password and if you have selected “HTTP NTLM”, fill in the field Domain. When a client executes a query that uses this data source, the credentials used to connect to the Web service and execute an operation are the credentials of the user. Not the credentials of the fields “Login” and “Password”.
When this option is selected, the credentials of the fields “User” and “Password” are used only to connect to the Web service server in order to obtain the WSDL of the Web service and display its operations.
If you created the data source with this option, but you want to query a view of this data source with other credentials than the ones used to connect to the Server, add the parameters
CONTEXTof the query. These two parameters are only taken into account when the data source has been created with the option Pass-through session credentials enabled.
For example, if
view1has been created over a web service data source with this option enabled and you execute this:
SELECT * FROM view1 CONTEXT(USERNAME = 'admin', PASSWORD = 'd4GvpKA5BiwoGUFrnH92DNq5TTNKWw58I86PVH2tQIs/q1RH9CkCoJj57NnQUlmvgvvVnBvlaH8NFSDM0x5fWCJiAvyia70oxiUWbToKkHl3ztgH1hZLcQiqkpXT/oYd' ENCRYPTED)
the Server will send a request to the service with the username “admin” and the password “password”, ignoring the credentials that you used to connect to the Server.
It is mandatory to add the token
ENCRYPTEDand enter the password encrypted. To encrypt the password, use the statement
ENCRYPT_PASSWORD. For example:
Users should be careful when enabling the cache for views that involve data sources with pass-through credentials enabled. The appendix Considerations When Configuring Data Sources with Pass-Through Credentials explains the issues that may arise
From variables. Instead of providing the credentials when creating the data source, you can assign interpolation variables (see section Paths and Other Values with Interpolation Variables) to the credentials and supply them at runtime. To do that, select the check box Obtain credentials from variables and fill in the boxes below (“Name variable” and “Test variable”).
E.g. you select “HTTP Basic” authentication, check the box “Obtain credentials from variables” and fill in the field Login “Name variable” with “user_name” and Password “Name variable” with “password”. The views created over this data source will have two extra fields called “user_name” and “password”. When querying these views, provide their value in the WHERE clause of the query:SELECT * FROM average_monthly_array WHERE user_name = 'admin' and password = 'admin'
The values of the fields “Test value” are used to retrieve the WSDL from the server.
Proxy: If the connection with to the Web Service is established through a proxy, you have three options:
Select Manual and enter the host name and port of the proxy server. If it is an authenticated proxy, the user identifier and a valid password must be also specified.
Select Default. The Server will use the default HTTP proxy configuration of the Server (see section Default Configuration of HTTP Proxy).
Select Automatic and enter the URL of a
proxy.pacfile that contains the configuration parameters of the proxy.
Check certificates: select this check box if you are in one of these scenarios:
The Web service uses SSL/TLS (i.e. the URL starts with
https) and you want Virtual DataPort to validate that the certificate presented by this service was issued by a Certificate Authority (CA) trusted by the Java Virtual Machine (JVM) included with the Denodo Platform. This validation will be performed for every connection established with the service.
If the certificate presented by this service was not issued by a trusted CA or it was self-signed, but you still want Virtual DataPort to validate it, import the certificate into the list of trusted certificates of the JVM. The section Importing the Certificates of Data Sources (SSL Connections) of the Installation Guide explains how to do this.
Also, select this check box if the service requires SSL client authentication.
Clearing the check box has two implications:
Virtual DataPort will accept any certificate presented by the service without checking who issued it.
And, all the requests will fail if the service requires SSL client authentication.
Connection pool configuration: In this dialog, you can configure the connections opened to the target host and the pool where they are stored.
The Web service data sources use a pool of connections to retrieve the data. That is, each data source has its own pool of HTTP connections, in order to avoid creating a new one for each request and reuse the existing ones. When a user executes a query that involves a base view of this data source, the Server, instead of creating a connection for each request, it reuses a connection of the pool. The benefit of this is that if the connection already is established, the Server will obtain the response much faster.
Maximum number of connections is the maximum number of connections that the pool of this data source will store.
If the Server has to execute a request and there are no free connections in the pool, the pool creates a new one. If the pool reaches the “Maximum number of connections” and the Server needs another connection, it will wait the number of milliseconds set by Connection pool timeout (milliseconds). If this timeout is reached, the request will fail. If the value of this timeout is zero, the Server will wait indefinitely to obtain a new connection.
If the data source uses “Pass-through session credentials”, the Server creates a pool of connections for each user name of each data source.
Read timeout (milliseconds): timeout of the connections.
Once the Server has obtained a connection from the pool, it sends an HTTP request to the target host. This property controls how much time the connection will wait for the source to begin returning data. If this timeout is reached, the query fails.
In the Metadata tab of the dialog, you can set the folder where the data source will be stored and provide a description. When editing the data source, you can also change its owner by clicking the button .
Connecting to a SOAP Web Service with Kerberos Authentication¶
To connect to a SOAP Web service with Kerberos authentication, select the option “HTTP SPNEGO (Kerberos)” in the “Authentication” box.
The exact behavior of Virtual DataPort depends on the options selected below the “Authentication” box.
From variables: if selected, when executing a query involving this data source, Virtual DataPort will use the values of the login and password variables to connect to the Key Distribution Center (KDC) and obtain a service ticket. This ticket will be used to add an authentication header to the HTTP requests sent to the SOAP service.
The previous section explains in more detail how the option “From variables” works.
Specify: if selected, when executing a query involving this data source, Virtual DataPort will use the credentials you enter in the “Login” and “Password” boxes to connect to the KDC and obtain a service ticket. This ticket will be used to add an authentication header to the HTTP request sent to the SOAP service.
Pass-through session credentials: if selected, the behavior changes depending on the authentication method used by the client that is executing the query, to connect to Virtual DataPort:
If the client uses Kerberos authentication to connect to Virtual DataPort, Virtual DataPort will request a service ticket using the ticket-granting ticket (TGT) obtained when this client opened the connection to the Server. Then, it will use this service ticket to add an authentication header to the HTTP requests sent to the SOAP service.
If the client uses standard authentication to connect to Virtual DataPort, Virtual DataPort will request a service ticket using the user and password of the client. Then, it will use this service ticket to add an authentication header to the HTTP requests sent to the SOAP service.
In all these scenarios, if Kerberos authentication is disabled in the Server, take into account the following:
If the Virtual DataPort server is running on Windows but the host does not belong to a Windows domain, define the system properties “java.security.krb5.realm” and “java.security.krb5.kdc” as explained in the section Enabling Kerberos Authentication Without Joining a Kerberos Realm of the Installation Guide.
If the Virtual DataPort server is running on Linux, you need the system to have a
krb5.inifile. See the section Providing a Krb5 File for Kerberos Authentication of the Installation Guide for more information about how to check if there is already one in your system.
Selecting the option “Pass-through session credentials” only affects how Virtual DataPort connects to the Web service when executing a query. During the process of creating base views over Web service data sources, Virtual DataPort sends a request to retrieve the WSDL. To do so, it uses the credentials set in the data source. That is, for the options “Pass-through session credentials” and “Specify”, the values of the “Login” and “Password” boxes and for “From variables”, the values of the “Test value” boxes.
Creating Base Views from a SOAP Web Service¶
After creating the SOAP Web Service data source, you have to create base views in order to invoke the operations of the Web service. To do this, double-click the data source on the Server Explorer to open it and then, click Create base view. The Tool will display a tree with the Web services contained in the WSDL file and their ports, operations and parameters (see Operations and parameters of a Web Service).
To create a base view over an operation, click Create base view beside the name of the operation. The Tool will display how the schema of the view will be (see Creating the Web service base view average_monthly_sales). In this dialog, you can do the following:
Modify the name of the base view.
Change the name and type of its fields.
Edit the “Source type properties” of the field by clicking the button . In this dialog, you can define the exact type of the field and depending on the type, its length and number of decimals.
For JDBC and ODBC base views, these properties are automatically defined because they are obtained from the database. For other types of base views such as Web service base views, they have to be defined manually.
Change the primary key definition of the view. When creating a JDBC base view, the Server obtains the primary key definition from the database and automatically sets the primary key of the view (fields marked with the icon ). For other types of views such as Web service base views, the primary key definition has to be established manually by selecting the appropriate fields and clicking Set selected as PK.
See section Primary Keys of Views for more information about primary keys of views.
In the Metadata tab, you can set the folder where the base view will be stored and provide a description.
When editing the base view, you can also change its owner by clicking the button .
To search an operation, type its name or the name of one of its parameters in the box located at the top of the dialog. The list will only show the elements whose name contains the text you entered.
Then, click Save () to create the base view. The new base view will be displayed in the Server Explorer.
In our example, we have to create a base view over the operation
getAverageMonthlyRevenueBytaxId of the
sales Web service. This
operation returns the average monthly volume of sales of a client. We
rename the base view to
average_monthly_sales, the field
taxId and the field
To open the new Web service base view and see its schema, double-click on the view, in the Server Explorer (see Schema of the base view average_monthly_sales).
Dealing with Web Service Operations that Return Compound Values¶
Some Web service operations return compound values such as arrays of elements. There are two options to create base views over this type of operations (see Web service operation that returns an array):
Do not stream output. With this option, the new base view represents the compound values with fields of the compound types array and register. Then, you can create a Flatten view (see section Creating Flatten Views) over this base view to transform the results in a way that is easy to combine with data from other sources.
Stream output at the specified level. With this option, the Server optimizes the processing of the SOAP response so it does not require the entire response to be realized in memory before processing it. Therefore, the memory consumption is much lower. When the base view is created with the first option (“Do not stream output”), the Server receives the entire SOAP message from the Web service and then parses it thus having to store the whole message in memory.
The drawback of selecting Stream output at the specified level over the other one is that with this option, the fields of the SOAP message “below” the selected level are ignored. For example, let us say that an operation of the web service returns an XML document like this one:
<DataSampleResult_array> <DATASAMPLE> <INTSAMPLE>1</INTSAMPLE> <ARRAYSAMPLE> <ARRAYSAMPLE> <r1>10</r1> <r2>20</r2> </ARRAYSAMPLE> </ARRAYSAMPLE> <TEXTSAMPLE>Sample text 1</TEXTSAMPLE> </DATASAMPLE> <DATASAMPLE> <INTSAMPLE>2</INTSAMPLE> <ARRAYSAMPLE> <ARRAYSAMPLE> <r1>30</r1> <r2>40</r2> </ARRAYSAMPLE> <ARRAYSAMPLE> <r1>50</r1> <r2>60</r2> </ARRAYSAMPLE> </ARRAYSAMPLE> <TEXTSAMPLE>Sample text 2</TEXTSAMPLE> </DATASAMPLE> <DATASAMPLE> <INTSAMPLE>3</INTSAMPLE> <ARRAYSAMPLE /> <TEXTSAMPLE>Sample text 3</TEXTSAMPLE> </DATASAMPLE> </DataSampleResult_array>
If you select Stream output at the specified level and select the level
ARRAYSAMPLE of the array, the result is transformed into something
like the following:
Note that the elements
TEXTSAMPLE are ignored. In addition, the
DATASAMPLE element is ignored because its level
ARRAYSAMPLE is empty.
In conclusion, although this option is more efficient, it is not suitable for every scenario.
Dealing with Web Service Operations with Polymorphic or “Any” Types¶
The Web service operations that have output parameters of the type
any or a polymorphic type are treated differently than other Web
service operations. During the process of creating the base view, the
Server invokes the operation and infers the data types of the
fields from the response. If the Web service has input parameters, the
user has to provide them.
In the “Create base view” dialog, these operations are marked with the icon . When you click Create base view of these operations, the Tool displays the dialog where you have to provide sample values for the input parameters, to invoke the operation. After this, the process of creating the Web service base views continues as usual.