STRERROR()
Syntax
STRERROR( [ <expN> ] )Description
The STRERROR() function returns a string describing the last operating system error message. If the optional error number is specified then the related operating system error message will be returned.Example
mqdes=mqcreate("/myqueue", 2)
if (mqdes < 0)
messagebox(strerror()+",errno="+alltrim(str(error())))
return
endif
rc = mqsend(mqdes, "Test message")
if (rc < 0)
messagebox(strerror()+",errno="+alltrim(str(error())))
return
endif
mqclose(mqdes)
This article discusses the features in Recital that allow data to be imported and exported between platforms in Microsoft® ADO XML Format.
Overview
Extensible Markup Language, XML, is widely regarded as a lingua franca for the interchange of data. XML's text-based, platform-independent format and its integration of data and the schema to define and describe that data, make it the ideal import/export medium. Recital software provides the functionality to output the data from Recital - and other supported table formats such as FoxPro and FoxBASE - into XML file format and to import XML data into those tables' formats. Such import/export operations provide the means to exchange data with third-party applications and can also facilitate the transfer of data between Recital installations on binary-incompatible platforms.
The features examined in this article are available in Recital Terminal Developer and in the Recital Mirage and Recital Database Servers on all Recital supported platforms. Both the Recital/4GL and Recital/SQL provide XML import and export capabilities. The XML files discussed are in Microsoft® ADO XML format.
Microsoft® ActiveX® Data Objects XML Format
The ADO XML format is primarily designed for ADO Recordset persistence and ADO XML files created by Recital can be used in this way and loaded directly into ADO Recordsets. The format can, though also be used for more generic data transfer. An ADO XML file is self-contained, consisting of two sections: a schema section followed by a data section. The schema conforms to the W3C XML-Data specification and defines the data structure.
For additional information on the Microsoft® ActiveX® Data Objects XML Format, please see Appendix 1.
NOTE: The Recital XMLFORMAT setting should always be in its default setting of ADO for ADO XML Format operations.
set xmlformat to ADO
SQL
Recital/SQL offers the ability to export data into XML files using the SELECT and FETCH statements and import from XML using the CREATE TABLE and INSERT statements.
SQL: Exporting
The SELECT...SAVE AS XML statement allows the complete result set from a SELECT statement to be saved as an XML file. This could be a complete table:
open database southwind SELECT * from orders SAVE AS XML orders.xml
or a more complex multi-table query:
open database southwind
SELECT orders.orderid, orders.customerid,;
employees.employeeid, employees.lastname, employees.firstname,;
orders.orderdate, orders.freight, orders.requireddate,;
orders.shippeddate, orders.shipvia, orders.shipname,;
orders.shipaddress, orders.shipcity,;
orders.shipregion, orders.shippostalcode, orders.shipcountry,;
customers.companyname, customers.address, customers.city,;
customers.region, customers.postalcode, customers.country;
FROM orders INNER JOIN customers;
ON customers.customerid = orders.customerid,;
orders INNER JOIN employees;
ON orders.employeeid = employees.employeeid;
SAVE AS XML orderinfo
The resulting XML file can then be further processed within the same or a different Recital environment or transferred to a third party product.
<x-ml xmlns:z="#RowsetSchema" xmlns:rs="urn:schemas-microsoft-com:rowset" xmlns:dt="uuid:C2F41010-65B3-11d1-A29F-00AA00C14882" xmlns:s="uuid:BDC6E3F0-6DA3-11d1-A2A3- 00AA00C14882"> <s:schema id="RowsetSchema"> <s:elementtype rs:updatable="true" content="eltOnly" name="row"> <s:attributetype rs:basecolumn="orderid" rs:basetable="orders.dbf" rs:write="true" rs:nullable="true" rs:number="1" name="orderid"> <s:datatype rs:fixedlength="true" rs:precision="14" rs:scale="0" dt:maxlength="10" rs:dbtype="numeric" dt:type="number"> </s:datatype></s:attributetype> <s:attributetype rs:basecolumn="customerid" rs:basetable="orders.dbf" rs:write="true" rs:nullable="true" rs:number="2" name="customerid"> <s:datatype rs:fixedlength="true" dt:maxlength="5" rs:dbtype="str" dt:type="string"> </s:datatype></s:attributetype> <s:attributetype rs:basecolumn="employeeid" rs:basetable="orders.dbf" rs:write="true" rs:nullable="false" rs:number="3" name="employeeid"> <s:datatype rs:fixedlength="true" rs:precision="20" rs:scale="0" dt:maxlength="10" rs:dbtype="numeric" dt:type="number"> </s:datatype></s:attributetype> <s:attributetype rs:basecolumn="lastname" rs:basetable="orders.dbf" rs:write="true" rs:nullable="false" rs:number="4" name="lastname"> <s:datatype rs:fixedlength="true" dt:maxlength="20" rs:dbtype="str" dt:type="string"> </s:datatype></s:attributetype> <s:attributetype rs:basecolumn="firstname" rs:basetable="orders.dbf" rs:write="true" rs:nullable="false" rs:number="5" name="firstname"> <s:datatype rs:fixedlength="true" dt:maxlength="10" rs:dbtype="str" dt:type="string"> </s:datatype></s:attributetype> <s:attributetype rs:basecolumn="orderdate" rs:basetable="orders.dbf" rs:write="true" rs:nullable="true" rs:number="6" name="orderdate"> <s:datatype rs:fixedlength="true" dt:maxlength="10" rs:dbtype="Date" dt:type="Date"> </s:datatype></s:attributetype> <s:attributetype name="freight" ...
Click image to display full size
Fig 1: Microsoft® Office Excel 2003: orderinfo.xml.
For data accessed through a Recital Database Gateway, such as Oracle, MySQL or PostgreSQL, the FETCH command can be used to save a cursor results set into an XML file:
// Connect to MySQL Database 'mydata' via Recital Database Gateway
nStatHand=SQLSTRINGCONNECT("mys@mysql1:user1/pass1-mydata",.T.)
if nStatHand < 1
dialog box [Could not connect]
else
DECLARE cursor1 CURSOR FOR;
SELECT account_no, last_name, first_name FROM example
OPEN cursor1
FETCH cursor1 INTO XML exa1.xml
SQLDISCONNECT(nStatHand)
endif
SQL: Importing
The CREATE TABLE statement allows a new table to be created based on the structure defined in an XML file. The data from the XML file can optionally be loaded into this new table if the LOAD keyword is included. For example, a new 'orderinfo' table can be created and populated with data from the orderinfo.xml file created by the SELECT...SAVE AS XML statement shown earlier:
open database southwind
SELECT orders.orderid, orders.customerid,;
employees.employeeid, employees.lastname, employees.firstname,;
orders.orderdate, orders.freight, orders.requireddate,;
orders.shippeddate, orders.shipvia, orders.shipname,;
orders.shipaddress, orders.shipcity,;
orders.shipregion, orders.shippostalcode, orders.shipcountry,;
customers.companyname, customers.address, customers.city,;
customers.region, customers.postalcode, customers.country;
FROM orders INNER JOIN customers;
ON customers.customerid = orders.customerid,;
orders INNER JOIN employees;
ON orders.employeeid = employees.employeeid;
SAVE AS XML orderinfo
CREATE TABLE orderinfo FROM XML orderinfo LOAD
The INSERT statement can be used to load data when the table structure already exists. Taking our earlier orderinfo.xml file again, the data can be loaded using INSERT:
open database southwind;
SELECT orders.orderid, orders.customerid,;
employees.employeeid, employees.lastname, employees.firstname,;
orders.orderdate, orders.freight, orders.requireddate,;
orders.shippeddate, orders.shipvia, orders.shipname,;
orders.shipaddress, orders.shipcity,;;
orders.shipregion, orders.shippostalcode, orders.shipcountry,;
customers.companyname, customers.address, customers.city,;
customers.region, customers.postalcode, customers.country;
FROM orders INNER JOIN customers;
ON customers.customerid = orders.customerid,;
orders INNER JOIN employees;
ON orders.employeeid = employees.employeeid;
SAVE AS XML orderinfo
CREATE TABLE orderinfo FROM XML orderinfo
INSERT INTO orderinfo FROM XML orderinfo
The examples above show the export and import in a single piece of code. To transfer data between binary-incompatible platforms, the export phase using SELECT...SAVE AS XML would be carried out on the source platform, the resulting XML file would be transferred to the target platform, then the import phase using CREATE TABLE...LOAD or CREATE TABLE + INSERT would be run on the target platform.
Recital/4GL
The Recital/4GL offers the ability to export data into XML files using the COPY TO ... TYPE XML command and import from XML using the XMLFIRST() and XMLNEXT() functions.
Recital/4GL: Exporting
The COPY TO command can be used to export data from Recital and other natively supported tables out to a wide range of formats. This includes exporting to an XML file. The '.xml' file extension is added automatically. The COPY TO command can be used to export an entire table:
open database southwind use orders copy to orders type xml
or, using the FIELDS clause and the FOR or WHILE clauses, restrict the field list and export only those records which match a particular condition:
open database southwind use orders copy to orders type xml fields orderid for year(orderdate) = 1996
Only the orderid field from those records which match the condition is exported:
<x-ml xmlns:z="#RowsetSchema" xmlns:rs="urn:schemas-microsoft-com:rowset" xmlns:dt="uuid:C2F41010-65B3-11d1-A29F-00AA00C14882" xmlns:s="uuid:BDC6E3F0-6DA3-11d1-A2A3- 00AA00C14882"> <s:schema id="RowsetSchema"> <s:elementtype rs:updatable="true" content="eltOnly" name="row"> <s:attributetype rs:basecolumn="ORDERID" rs:basetable="ORDERS" rs:write="true" rs:nullable="true" rs:number="1" name="ORDERID"> <s:datatype rs:fixedlength="true" rs:precision="10" rs:scale="0" dt:maxlength="10" rs:dbtype="numeric" dt:type="number"> </s:datatype></s:attributetype> </s:elementtype> </s:schema> <rs:data> <z:row orderid="10248"> <z:row orderid="10249"> <z:row orderid="10250"> <z:row ...
Recital/4GL: Importing
Data from an XML file can be extracted one record at a time using the XMLFIRST() and XMLNEXT() functions. XMLFIRST() reads the first record from an XML file and loads information from the file into a series of memory variables and arrays. The record data is loaded into a one-dimensional array which is created automatically. Each element in the array contains the data for its corresponding field in string format. The field names are loaded into another automatically-created array. The XMLNEXT() function works in a similar way to deal with all the subsequent records in the XML file. The XMLCOUNT() function can be used, as in the example below, to determine how many data records the XML file has.
The Recital/4GL includes a vast range of functions for manipulation and conversion of arrays and their individual elements. In the example program below, the XMLFIRST() and XMLNEXT() functions are used to sequentially extract each record from an XML file, whose name is passed to the program as a parameter. Once loaded into an array, the data is converted to the correct Recital data type then appended into a table. The table name is also passed as a parameter.
procedure replaceit
append blank
for i = 1 to numfields
if type(field(i)) = "N"
replace &(field(i)) with val(data[&i])
elseif type(field(i)) = "D"
replace &(field(i)) with stod(data[&i])
elseif type(field(i)) = "T"
replace &(field(i)) with ctot(data[&i])
elseif type(field(i)) = "L"
replace &(field(i)) with iif(data[&i]="T",.T.,.F.)
elseif type(field(i)) = "Y"
replace &(field(i)) with val(data[&i])
else
replace &(field(i)) with data[&i]
endif
next
return
procedure starthere
parameters cTable, cFile
numfields=xmlfirst(cFile,targ,trans,where,fldnames,data)
if numfields < 1
dialog box [No records in XML file]
else
use &cTable
replaceit()
endif
numrecs = xmlcount(cFile)
if numrecs > 1
numleft = numrecs -1
for i = 1 to numleft
xmlnext(trans,where,fldnames,data)
replaceit()
next
endif
return
Alternative Import/Export Methods
Other features exist in Recital to facilitate the import and export of data:
RDDs
The RDDs, Replaceable Database Drivers, are available on Windows, Linux and all supported 32-bit UNIX platforms. They allow for the use and creation of database tables and indexes in FoxPro, dBase and Clipper formats. The file format is the same across all the platforms that support the RDDs, allowing the tables and indexes to be transferred as required. The formats are also supported by a wide range of third-party products as well as their originating database systems. For more information on the RDDs, please see the online documentation on Xbase migration and the SET FILETYPE command.
BUILD/INSTALL
These are Recital/4GL commands for the export (BUILD) and import (INSTALL) of Recital tables and their associated memo, dictionary and multiple index files in ASCII format to allow them to be transferred across binary incompatible platforms. For more information, please see the online documentation on Recital/4GL commands.
COPY Commands
The COPY TO, COPY STRUCTURE, COPY STRUCTURE EXTENDED and CREATE FROM commands can all be used to enable data to be transferred between different formats and different platforms. For more information, please see the online documentation on Recital/4GL commands.
Appendix 1: Microsoft® ActiveX® Data Objects XML Format
For detailed information on the Microsoft® ActiveX® Data Objects XML Format, please consult the following Microsoft documentation:
|
Link |
In Adobe's own words:"Adobe® AIR® is a cross-operating system runtime that lets developers combine HTML, Ajax, Adobe Flash®, and Adobe Flex® technologies to deploy rich Internet applications (RIAs) on the desktop."
The outcome of this combination of technologies is that developers can design and render quite beautiful user interfaces cross platform. For us desktop Linux users it is nice to have
an additional avenue for obtaining and running attractive desktop applications.Examples of great Adobe air applications are Adobe.com for My Desktop, TweetDeck and the Times Reader. You can download these applications and many more at the Adobe Marketplace.
The easiest way to install Adobe Air on Fedora 12 is to download the latest build from Adobe, click here.
Once you have downloaded the .bin file do the following at the shell:
su - chmod +x AdobeAIRInstaller.bin ./AdobeAIRInstaller.binOnce you have Air installed, there is a slight tweak you will have to do to get it running on Fedora 12, it is related to the security certificates. This can be remedied in one simple line at the shell prompt as root.
su - for c in /etc/opt/Adobe/certificates/crypt/*.0; do aucm -n $(basename $c) -t true; doneWhat this line is doing is using the aucm which is the Adobe Unix certificate manager to set the certificates installed as trusted.
You will now be able to go to the Adobe Marketplace and download and run Air applications without any issues.
Enjoy!
This article looks at After Image Journaling and audit trails in Recital using SET JOURNAL and associated commands.
Overview
After Image Journaling, used in conjunction with a structured backup policy is an effective disaster recovery solution. Any transaction that takes place on a table that is being journaled is logged in the journal file. In the event of a disk crash or similar event in which the table is lost, the journaled transactions can be reapplied to the latest backup copy of the table. Alternatively or additionally, the journal can be used to provide an audit trail to all modifications made to the table data.
NOTE: Recital also provides Before Image Journaling via BEGIN TRANSACTION / END TRANSACTION blocks, allowing unsuccessful transactions to be rolled back to a set saved state.
SET JOURNAL and RECOVER
Regular backups are an essential routine for any system, but in high-transaction environments restoration of the latest backup can still mean a major loss of data. After image journaling can successfully be used as part of your disaster recovery strategy to minimize data loss and down time. Recital after image journaling functionality is based on the use of the SET JOURNAL and RECOVER commands.
SET JOURNAL
SET JOURNAL TO [<.dbj filename> | ()] SET JOURNAL ON | OFF | ( )
The SET JOURNAL command is used to enable the After Image Journaling and audit trail for the active table. The TO <.dbj filename> clause associates the specified transaction journal file with the active table. If the journal file does not exist, it will be created. The filename can be substituted with a <expC>, enclosed in round brackets, which returns a valid filename. If no file extension is specified, ‘.dbj’ is used. When specifying a journal file, it is recommended that the journal file is stored on a different disk than that which the table is stored on, so that if a fatal disk error occurs, then the journal file will not be lost along with the table.
//Enable journaling for the southwind!orders table open database southwind use orders set journal to /journals/ord_journ
The <.dbj filename> is a standard table. It contains seven
fields that are specific to a journal file, followed by the first
249 fields of the associated table.
The first seven fields in the journal are:
|
Field |
Type |
Display |
Storage |
Description |
|
AUD_DATE |
Date |
8 | 10 * |
4 |
The date on which the transaction was performed. |
|
AUD_TIME |
Character |
8 |
8 |
The time at which the transaction was performed, in the format HH:MM:SS. |
|
AUD_TERM |
Character |
12 |
12 |
The name of the terminal from which the transaction was performed |
|
AUD_UID |
Short |
5 |
2 |
The ID of the user who performed the transaction. |
|
AUD_GID |
Short |
5 |
2 |
The group ID of the user who performed the transaction. |
|
AUD_CMD |
Short |
4 |
2 |
The command number of the transaction performed from the command table below |
|
AUD_RECNO |
Integer |
7 |
4 |
The record number in the associated table which the transaction was performed on. |
* Dependent on SET CENTURY setting.
The AUD_CMD Command Reference Numbers are as follows:
|
Command |
Number |
|
DELETE |
14 |
|
RECALL |
36 |
|
REPLACE |
41 |
|
BROWSE |
6 |
|
CHANGE |
8 |
|
EDIT |
17 |
|
INSERT |
26 |
|
APPEND |
5 |
|
READ |
35 |
Since journal files are standard Recital tables, you can use standard Recital commands such as the REPORT command to print audit trails, transaction logs, etc.
//Enable journaling for the southwind!orders table open database southwind use orders set journal to /journals/ord_journ //.. transactions close data //View journaled records use /journals/ord_journ.dbj
Click image to display full size
Fig 1: Journal Record Example.
The SET JOURNAL TO command without a <.dbj filename> specified closes the active journal file and no further journaling will take place on the active table until the SET JOURNAL TO <.dbj filename> is reissued.
The journaling features are mainly used with shared tables. It should be noted that there is an overhead in enabling transaction journaling, as records updated in a table are also written to the journal file. When records are appended into a journal file, locking is automatically performed so that multiple users can update the journal concurrently. The associated table must be opened shareable for this to occur. Each table can have a journal file associated with it.
The SET JOURNAL ON | OFF command enables or disables transaction journaling. This command is primarily used in applications where journaling can be disabled for a certain class of operations. By default, SET JOURNAL is ON, but no journal files are set.
NOTE: Only the first 249 fields of a table can be journaled: subsequent fields are ignored. The maximum number of fields in a Recital table is 256.
RECOVER
RECOVER FROM <.dbj filename> | ()
The RECOVER command uses the journal file to reapply lost transactions to a previous backup of the data after a fatal error such as a disk head crash. The FROM clause specifies the journal file to use. The file name can be substituted with an <expC>, enclosed in round brackets, which returns a valid filename. If no file extension is specified, then ‘.dbj’ is assumed.
Regular backups are essential to the successful use of After Image Journaling. It is also very important to reinitialize the journal file after each backup: either open the journal file as you would a normal table and use the ZAP command, or delete the file completely. If a fatal error occurs, such as a disk head crash, the table and index files must be restored from a backup, then the RECOVER command executed. RECOVER will reapply' all of the transactions in the journal file to the table, and update the indexes. After the RECOVER command has completed, you can continue with normal processing.
//Create a backup of the southwind!orders table //...backup table and associated files //Reinitialize the journal file erase /journals/ord_journ.dbj //Enable journaling for the southwind!orders table open database southwind use orders set journal to /journals/ord_journ //.. transactions //Restore the backup of the southwind!orders table //...restore //Open the restored backup open database southwind use orders //Reapply the transactions using the journal recover from /journals/ord_journ.dbj //Now, enable the journal file again or //restart with a new backup
Journaling Memo Fields
By default, memo fields - variable length text fields - are not journaled due to the possible storage overhead of multiple copies of potentially large blocks of text. But, if memo journaling is required, the SET MEMOJOURNAL ON command can be used to enable this.
SET MEMOJOURNAL
SET MEMOJOURNAL ON | OFF | ()
The SET MEMOJOURNAL command causes memo fields to be journaled when journaling is set on a table. This command allows the optional logical expression <expL> to be evaluated. If a value of .T. is returned, MEMOJOURNAL is set ON. If a value of .F. is returned, MEMOJOURNAL is set OFF. By default SET MEMOJOURNAL is OFF.
Like a normal Recital table, the journal holds only a pointer to a data block in an associated memo file, not the actual memo data itself. The journal's memo file has a file extension of .dbm rather than the standard Recital .dbt. Therefore, if the journal is being opened as a table, in order to view the journal's memo data, the SET MEMOEXT command should be used.
//Enable journaling for the southwind!suppliers table open database southwind use suppliers set journal to /journals/sup_journ //.. transactions close data //Set filename extension for memo file set memoext to '.dbm' //View journaled records use /journals/sup_journ.dbj
Summary
The After Image Journaling enabled by the SET JOURNAL and RECOVER commands can be used in conjunction with a strict backup regime to minimize data loss in cases where tables become damaged or irretrievable. Journal files can be accessed like standard Recital tables and provide detailed information about the transactions applied to a table, so can be used for auditing purposes.
In this article Barry Mavin, CEO and Chief Software Architect for Recital, gives details on Working with user-defined Functions in the Recital Database Server.
Overview
User-defined functions (UDFs) are collections of statements written in the Recital 4GL (compatible with Visual FoxPro) stored under a name and saved in a Database. User-defined functions are just-in-time compiled by the Recital database engine. User-defined functions can be used in SQL statements to extend the power and flexibility of the inbuilt functions. Using the Database Administrator in Recital Enterprise Studio, you can easily create, view, modify, and test Stored Procedures, Triggers, and user-defined functions.
Tip
You can also extend the Recital Database Server with C Extension Libraries and use the functions defined within that library also.Creating and Editing user-defined functions
To create a new User-defined function, right-click the Procedures node in the Databases tree of the Project Explorer and choose Create. To modify an existing User-defined function select the User-defined function in the Databases Tree in the Project Explorer by double-clicking on it or selecting Modify from the context menu. By convertion we recommend that you name your User-defined functions beginning with "f_xxx_", where xxx is the name of the table that they are associated with.
Testing the user-defined function
To test run the user-defined function, select it in the Databases Tree in the Project Explorer by double-clicking on it. Once the Database Administrator is displayed, click the Run button to run it.
Example
Example: user-defined function "f_order_details_total".
////////////////////////////////////////////////////////////////////////
// example user-defined function
function f_order_details_total(pUnitprice, pQuantity, pDiscount)
return (pUnitprice + pQuantity + pDiscount) > 0
endfunc
Example: using the user-defined function in a SQL SELECT statement.
//////////////////////////////////////////////////////////////////////// // sample code to use a user-defined function in a SQL SELECT statement select * from customers where f_order_details_total(Unitprice, Quantity, Discount)
Using user-defined function libraries with the Recital Database Server
You can place all of the user-defined functions associated with a particular table into a procedure library. You then define an Open Trigger for the table that opens up the procedure library whenever the table is accessed. This is a much faster way of using user-defined functions as it reduces the amount of file open/close operations during a query and also simplifies development and maintenance.
By convertion we recommend that you should name the library using the convention "lib_xxx", where xxx is the name of the table that the library is associated with.
Example: procedure library in lib_order_details.
////////////////////////////////////////////////////////////////////////
// example user-defined functions
function f_order_details_total(pUnitprice, pQuantity, pDiscount)
return (pUnitprice * pQuantity - pDiscount) > 0
endfunc
function f_order_details_diff(pUnitprice, pQuantity, pDiscount, pValue)
return f_order_details_total(pUnitprice, pQuantity, pDiscount) - pValue
endfunc
Example: Open Trigger in dt_order_details_open.
//////////////////////////////////////////////////////////////////////// // This trigger will open up the procedure library when the table is opened set procedure to lib_order_details additive
Example: Close Trigger in dt_order_details_close.
//////////////////////////////////////////////////////////////////////// // This trigger will close the procedure library when the table is closed close procedure lib_order_details
Example: using the user-defined function in a SQL SELECT statement.
//////////////////////////////////////////////////////////////////////// // sample code to use a user-defined function in a SQL SELECT statement select * from customers where f_order_details_total(Unitprice, Quantity, Discount)
User-defined functions can also be used with any of the Client Drivers that work with the Recital Database Server.
In this article Barry Mavin, CEO and Chief Software Architect for Recital provides details on how to use the Recital Universal .NET Data Provider with the Recital Database Server.
Overview
A data provider in the .NET Framework serves as a bridge between an application and a data source. A data provider is used to retrieve data from a data source and to reconcile changes to that data back to the data source.
Each .NET Framework data provider has a DataAdapter object: the .NET Framework Data Provider for OLE DB is the OleDbDataAdapter object, the .NET Framework Data Provider for SQL Server is the SqlDataAdapter object, the .NET Framework Data Provider for ODBC is the OdbcDataAdapter object, and the .NET Framework Data Provider for the Recital Database Server is the RecitalDataAdapter object.
The Recital Universal .NET Data Provider can access any data sources supported by the Recital Database Server. It is not restricted to only access Recital data. It can be used to access server-side ODBC, JDBC and OLE DB data sources also.
Core classes of the Data Provider
The Connection, Command, DataReader, and DataAdapter objects represent the core elements of the .NET Framework data provider model. The Recital Universal .NET Data Provider is plug compatible with the .NET Framework Data Provider for SQL Server. All SQL Server classes are prefixed with "Sql" e.g. SqlDataAdaptor. To use the Recital Universal Data Adaptor, simply change the "Sql" prefix to "Recital" e.g. RecitalDataAdaptor.
The following table describes these objects.
| Object | Description |
|---|---|
| RecitalConnection | Establishes a connection to a specific data source. |
| RecitalCommand | Executes a command against a data source. |
| RecitalDataReader | Reads a forward-only, read-only stream of data from a data source. |
| RecitalDataAdapter | Populates a DataSet and resolves updates with the data source. |
Along with the core classes listed in the preceding table, a .NET Framework data provider also contains the classes listed in the following table.
| Object | Description |
|---|---|
| RecitalTransaction | Enables you to enlist commands in transactions at the data source. |
| RecitalCommandBuilder | A helper object that will automatically generate command properties of a DataAdapter or will derive parameter information from a stored procedure and populate the Parameters collection of a Command object. |
| RecitalParameter | Defines input, output, and return value parameters for commands and stored procedures. |
The Recital Universal .NET Data Provider provides connectivity to the Recital Database Server running on any supported platform (Windows, Linux, Unix, OpenVMS) using the RecitalConnection object. The Recital Universal .NET Data Provider supports a connection string format that is similar to the SQL Server connection string format.
The basic format of a connection string consists of a series of keyword/value pairs separated by semicolons. The equal sign (=) connects each keyword and its value.
The following table lists the valid names for keyword values within the ConnectionString property of the RecitalConnection class.
| Name | Default | Description |
|---|---|---|
| Data Source -or- Server -or- Servername -or- Nodename |
The name or network address of the instance of the Recital Database Server which to connect to. | |
| Directory | The target directory on the remote server where data to be accessed resides. This is ignored when a Database is specified. | |
| Encrypt -or- Encryption |
false | When true, DES3 encryption is used for all data sent between the client and server. |
| Initial Catalog -or- Database |
The name of the database on the remote server. | |
| Password -or- Pwd |
The password used to authenticate access to the remote server. | |
| User ID -or- uid -or- User -or- Username |
The user name used to authenticate access to the remote server. | |
| Connection Pooling -or- Pool |
false | Enable connection pooling to the server. This provides for one connection to be shared. |
| Logging | false | Provides for the ability to log all server requests for debugging purposes |
| Rowid | true | When Rowid is true (the default) a column will be post-fixed to each SELECT query that is a unique row identifier. This is used to provide optimised UPDATE and DELETE operations. If you use the RecitalSqlGrid, RecitalSqlForm, or RecitalSqlGridForm components then this column is not visible but is used to handle updates to the underlying data source. |
| Logfile | The name of the logfile for logging | |
| Gateway |
Opens an SQL gateway(Connection) to a foreign SQL data source on the remote server.
The gateway can be specified in several formats: |
Populating a DataSet from a DataAdaptor
The ADO.NET DataSet is a memory-resident representation of data that provides a consistent relational programming model independent of the data source. The DataSet represents a complete set of data including tables, constraints, and relationships among the tables. Because the DataSet is independent of the data source, a DataSet can include data local to the application, as well as data from multiple data sources. Interaction with existing data sources is controlled through the DataAdapter.
A DataAdapter is used to retrieve data from a data source and populate tables within a DataSet. The DataAdapter also resolves changes made to the DataSet back to the data source. The DataAdapter uses the Connection object of the .NET Framework data provider to connect to a data source and Command objects to retrieve data from and resolve changes to the data source.
The SelectCommand property of the DataAdapter is a Command object that retrieves data from the data source. The InsertCommand, UpdateCommand, and DeleteCommand properties of the DataAdapter are Command objects that manage updates to the data in the data source according to modifications made to the data in the DataSet.
The Fill method of the DataAdapter is used to populate a DataSet with the results of the SelectCommand of the DataAdapter. Fill takes as its arguments a DataSet to be populated, and a DataTable object, or the name of the DataTable to be filled with the rows returned from the SelectCommand.
The Fill method uses the DataReader object implicitly to return the column names and types used to create the tables in the DataSet, as well as the data to populate the rows of the tables in the DataSet. Tables and columns are only created if they do not already exist; otherwise Fill uses the existing DataSet schema.
Examples in C#:
////////////////////////////////////////////////////////////////////////
// include the references below
using System.Data;
using Recital.Data;
////////////////////////////////////////////////////////////////////////
// The following code example creates an instance of a DataAdapter that
// uses a Connection to the Recital Database Server Southwind database
// and populates a DataTable in a DataSet with the list of customers.
// The SQL statement and Connection arguments passed to the DataAdapter
// constructor are used to create the SelectCommand property of the DataAdapter.
public DataSet SelectCustomers()
{
RecitalConnection swindConn = new
RecitalConnection("Data Source=localhost;Initial Catalog=southwind");
RecitalCommand selectCMD = new
RecitalCommand("SELECT CustomerID, CompanyName FROM Customers", swindConn);
selectCMD.CommandTimeout = 30;
RecitalDataAdapter custDA = new RecitalDataAdapter();
custDA.SelectCommand = selectCMD;
swindConn.Open();
DataSet custDS = new DataSet();
custDA.Fill(custDS, "Customers");
swindConn.Close();
return custDS;
}
////////////////////////////////////////////////////////////////////////
// The following example uses the RecitalCommand, RecitalDataAdapter and
// RecitalConnection, to select records from a database, and populate a
// DataSet with the selected rows. The filled DataSet is then returned.
// To accomplish this, the method is passed an initialized DataSet, a
// connection string, and a query string that is a SQL SELECT statement
public DataSet SelectRecitalRows(DataSet dataset, string connection, string query)
{
RecitalConnection conn = new RecitalConnection(connection);
SqlDataAdapter adapter = new RecitalDataAdapter();
adapter.SelectCommand = new RecitalCommand(query, conn);
adapter.Fill(dataset);
return dataset;
} DB_SAMBA=YES ;export DB_SAMBA
preserve case = nodefault case = lowermangle case = yes
oplocks = False
share modes = no
If you have software packages which you wish to share with others or simply between your own personal machines, a neat and easy solution is to create your own YUM repository and provide your .repo file for download.
YUM is by far the easiest method of installing software on Red hat, Centos and Fedora. Not only does it mean you don't need to trawl the web looking for somewhere to download the packages, YUM does a great job of satisfying any package dependencies. As long as the required packages are available in the enabled repositories on your system, YUM will go out and get everything you need.
To create your own YUM repository, you will need to install the yum-utils and createrepo packages:
yum install yum-utils createrepo
yum-utils contains the tools you will need to manage your soon to be created repository, and createrepo is used to create the xml based rpm metadata you will require for your repository.
Once you have installed these required tools, create a directory in your chosen web server's document root e.g:
mkdir -p /var/www/html/repo/recital/updates
Copy the rpm's you wish to host into this newly created directory.
The next step is to create the xml based rpm metadata. To create this use the createrepo program we installed earlier.
At the shell type the following command:
createrepo -v -s md5 /var/www/html/repo/recital/updates
This will create the required metadata in the repodata directory of your /var/www/html/repo/recital/updates directory.
root@test repodata]# ls -l rwotal 44 -rw-r--r-- 1 root root 28996 Jan 13 21:42 filelists.xml.gz -rw-r--r-- 1 root root 284 Jan 13 21:42 other.xml.gz -rw-r--r-- 1 root root 1082 Jan 13 21:42 primary.xml.gz -rw-r--r-- 1 root root 951 Jan 13 21:42 repomd.xml
To do a final consistency check on your repository run the following command:
verifytree /var/www/html/repo/recital/updates
We now have a fully functioning YUM repository for our hosted rpm packages.
The next process is to create a .repo file in the client systems /etc/yum.repos.d directory.
Navigate to the /etc/yum.repos.d directory on your system as root.
Using your preferred text editor to create the .repo file. In this example I will call it recital.repo.
Now paste in the following lines:
[Recital] name=Recital Update Server baseurl=http://ftp.recitalsoftware.com/repo/recital/updates enabled=1 gpgcheck=1
Once that is saved, at the shell prompt on the same machine (YUM client system).
$ yum repolist Loaded plugins: presto, refresh-packagekit repo id repo name status Recital Recital Update Server enabled: 1 adobe-linux-i386 Adobe Systems Incorporated enabled: 17 fedora Fedora 12 - i386 enabled: 15,366
As you can see the Recital repo is now being picked up and we have access to all the packages it is hosting.
See how easy that was!