Hana Driver Odbc De Mysql

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In computing, Open Database Connectivity (ODBC) is a standard application programming interface (API) for accessing database management systems (DBMS) . The designers of ODBC aimed to make it independent of database systems and operating systems. An application written using ODBC can be ported to other platforms, both on the client and server side, with few changes to the data access code.

ODBC accomplishes DBMS independence by using an ODBC driver as a translation layer between the application and the DBMS. The application uses ODBC functions through an ODBC driver manager with which it is linked, and the driver passes the query to the DBMS. An ODBC driver can be thought of as analogous to a printer driver or other driver, providing a standard set of functions for the application to use, and implementing DBMS-specific functionality. An application that can use ODBC is referred to as 'ODBC-compliant'. Any ODBC-compliant application can access any DBMS for which a driver is installed. Drivers exist for all major DBMSs, many other data sources like address book systems and Microsoft Excel, and even for text or comma-separated values (CSV) files.

In this video tutorial, Denys van Kempen shows you how to configure HANA ODBC on Linux (SLES and RHEL). This video is part of a series about SAP HANA installations and has been updated for SPS 08.

ODBC was originally developed by Microsoft and Simba Technologies during the early 1990s, and became the basis for the Call Level Interface (CLI) standardized by SQL Access Group in the Unix and mainframe field. ODBC retained several features that were removed as part of the CLI effort. Full ODBC was later ported back to those platforms, and became a de facto standard considerably better known than CLI. The CLI remains similar to ODBC, and applications can be ported from one platform to the other with few changes.

  • MySQL Forums Forum List. (10), but using mysql odbc connector 5.3 only returns 5 characters. Kathy Lannon. 11:47AM ODBC Connection Problem on Local Network. Robert Thibodaux. 08:22AM DBD:mysql module build on. MySQL ODBC 5.3 Driver Can't connect to MySQL server 10060.
  • Connect HANA Express with MySQL via Smart Data Access. Myodbc-installer -d -l MySQL ODBC 5.3 Unicode Driver MySQL ODBC 5.3 ANSI Driver Default. Browse other.
  • The program launches as soon as you extract it, and a tiny interface appears on your Hana Odbc Driver that resembles a digital Hana Odbc Driver. On the interface are three buttons: Hana Odbc Driver, Stop, and Reset. MS Excel - HANA ODBC client install and accessing HANA data in Excel.
  • Configuring Remote Source connection (SDA) from HANA to MSSQL. Install the Microsoft SQL Server ODBC Driver 11 for SQL Server. As HANA requires the.odbc.ini.
  • Page 1 How To – Install the HANA Client and Create ODBC. You have been given HANA access via your Link Blue id. Please use responsibly.
  • I'm currently facing a problem when connecting to HANA database via ODBC. It works properly when I omit Parameter 'DATABASENAME'. But when I try to Connect using this Parameter, I always receive a 'General error; 2 General error: database ' does not exist.
  • 1History
  • 2Drivers and Managers
  • 3Bridging configurations

History[edit]

Before ODBC[edit]

The introduction of the mainframe-based relational database during the 1970s led to a proliferation of data access methods. Generally these systems operated together with a simple command processor that allowed users to type in English-like commands, and receive output. The best-known examples are SQL from IBM and QUEL from the Ingres project. These systems may or may not allow other applications to access the data directly, and those that did use a wide variety of methodologies. The introduction of SQL aimed to solve the problem of language standardization, although substantial differences in implementation remained.

Hana Driver Odbc De Mysql 5.3

Hana Driver Odbc De Mysql

Also, since the SQL language had only rudimentary programming features, users often wanted to use SQL within a program written in another language, say Fortran or C. This led to the concept of Embedded SQL, which allowed SQL code to be embedded within another language. For instance, a SQL statement like SELECT * FROM city could be inserted as text within C source code, and during compiling it would be converted into a custom format that directly called a function within a library that would pass the statement into the SQL system. Results returned from the statements would be interpreted back into C data formats like char * using similar library code.

There were several problems with the Embedded SQL approach. Like the different varieties of SQL, the Embedded SQLs that used them varied widely, not only from platform to platform, but even across languages on one platform – a system that allowed calls into IBM's DB2 would look very different from one that called into their own SQL/DS.[dubious] Another key problem to the Embedded SQL concept was that the SQL code could only be changed in the program's source code, so that even small changes to the query required considerable programmer effort to modify. The SQL market referred to this as static SQL, versus dynamic SQL which could be changed at any time, like the command-line interfaces that shipped with almost all SQL systems, or a programming interface that left the SQL as plain text until it was called. Dynamic SQL systems became a major focus for SQL vendors during the 1980s.

Older mainframe databases, and the newer microcomputer based systems that were based on them, generally did not have a SQL-like command processor between the user and the database engine. Instead, the data was accessed directly by the program – a programming library in the case of large mainframe systems, or a command line interface or interactive forms system in the case of dBASE and similar applications. Data from dBASE could not generally be accessed directly by other programs running on the machine. Those programs may be given a way to access this data, often through libraries, but it would not work with any other database engine, or even different databases in the same engine. In effect, all such systems were static, which presented considerable problems.

Early efforts[edit]

By the mid-1980s the rapid improvement in microcomputers, and especially the introduction of the graphical user interface and, MS, Tandem, DEC and Sybase, brought an updated version of SQLC to the next SAG meeting in June 1990.[7] The SAG responded by opening the standard effort to any competing design, but of the many proposals, only Oracle Corp had a system that presented serious competition. In the end, SQLC won the votes and became the draft standard, but only after large portions of the API were removed – the standards document was trimmed from 120 pages to 50 during this time. It was also during this period that the name Call Level Interface was formally adopted.[7] In 1995 SQL/CLI became part of the international SQL standard, ISO/IEC 9075-3.[8] The SAG itself was taken over by the X/Open group in 1996, and, over time, became part of The Open Group's Common Application Environment.

MS continued working with the original SQLC standard, retaining many of the advanced features that were removed from the CLI version. These included features like scrollable cursors, and metadata information queries. The commands in the API were split into groups; the Core group was identical to the CLI, the Level 1 extensions were commands that would be easy to implement in drivers, while Level 2 commands contained the more advanced features like cursors. A proposed standard was released in December 1991, and industry input was gathered and worked into the system through 1992, resulting in yet another name change to ODBC.[9]

JET and ODBC[edit]

During this time, Microsoft was in the midst of developing their Jet database system. Jet combined three primary subsystems; an ISAM-based database engine (also named Jet, confusingly), a C-based interface allowing applications to access that data, and a selection of driver dynamic-link libraries (DLL) that allowed the same C interface to redirect input and output to other ISAM-based databases, like Paradox and xBase. Jet allowed using one set of calls to access common microcomputer databases in a fashion similar to Blueprint, by then renamed DataLens. However, Jet did not use SQL; like DataLens, the interface was in C and consisted of data structures and function calls.

The SAG standardization efforts presented an opportunity for Microsoft to adapt their Jet system to the new CLI standard. This would not only make Windows a premier platform for CLI development, but also allow users to use SQL to access both Jet and other databases as well. What was missing was the SQL parser that could convert those calls from their text form into the C-interface used in Jet. To solve this, MS partnered with PageAhead Software to use their existing query processor, SIMBA. SIMBA was used as a parser above Jet's C library, turning Jet into an SQL database. And because Jet could forward those C-based calls to other databases, this also allowed SIMBA to query other systems. Microsoft included drivers for Excel to turn its spreadsheet documents into SQL-accessible database tables.[10]

Release and continued development[edit]

ODBC 1.0 was released in September 1992.[11] At the time, there was little direct support for SQL databases (versus ISAM), and early drivers were noted for poor performance. Some of this was unavoidable due to the path that the calls took through the Jet-based stack; ODBC calls to SQL databases were first converted from Simba Technologies's SQL dialect to Jet's internal C-based format, then passed to a driver for conversion back into SQL calls for the database. Digital Equipment and Oracle both contracted Simba Technologies to develop drivers for their databases as well.[12]

Circa 1993, OpenLink Software shipped one of the first independently developed third-party ODBC drivers, for the PROGRESS DBMS,[13] and soon followed with their UDBC (a cross-platform API equivalent of ODBC and the SAG/CLI) SDK and associated drivers for PROGRESS, Sybase, Oracle, and other DBMS, for use on Unix-like OS (AIX, HP-UX, Solaris, Linux, etc.), VMS, Windows NT, OS/2, and other OS.[14]

Meanwhile, the CLI standard effort dragged on, and it was not until March 1995 that the definitive version was finalized. By then, Microsoft had already granted Visigenic Software a source code license to develop ODBC on non-Windows platforms. Visigenic ported ODBC to a wide variety of Unix platforms, where ODBC quickly became the de facto standard.[15] 'Real' CLI is rare today. The two systems remain similar, and many applications can be ported from ODBC to CLI with few or no changes.[16]

Over time, database vendors took over the driver interfaces and provided direct links to their products. Skipping the intermediate conversions to and from Jet or similar wrappers often resulted in higher performance. However, by then Microsoft had changed focus to their OLE DB[17] concept (recently reinstated [18]), which provided direct access to a wider variety of data sources from address books to text files. Several new systems followed which further turned their attention from ODBC, including ActiveX Data Objects (ADO) and ADO.net, which interacted more or less with ODBC over their lifetimes.

As Microsoft turned its attention away from working directly on ODBC, the Unix field was increasingly embracing it. This was propelled by two changes within the market, the introduction of graphical user interfaces (GUIs) like GNOME that provided a need to access these sources in non-text form, and the emergence of open software database systems like PostgreSQL and MySQL, initially under Unix. The later adoption of ODBC by Apple for using the standard Unix-side iODBC package Mac OS X 10.2 (Jaguar)[19] (which OpenLink Software had been independently providing for Mac OS X 10.0 and even Mac OS 9 since 2001[20]) further cemented ODBC as the standard for cross-platform data access.

Sun Microsystems used the ODBC system as the basis for their own open standard, Java Database Connectivity (JDBC). In most ways, JDBC can be considered a version of ODBC for the programming language Java instead of C. JDBC-to-ODBC bridges allow Java-based programs to access data sources through ODBC drivers on platforms lacking a native JDBC driver, although these are now relatively rare. Inversely, ODBC-to-JDBC bridges allow C-based programs to access data sources through JDBC drivers on platforms or from databases lacking suitable ODBC drivers.

ODBC today[edit]

ODBC remains in wide use today, with drivers available for most platforms and most databases. It is not uncommon to find ODBC drivers for database engines that are meant to be embedded, like SQLite, as a way to allow existing tools to act as front-ends to these engines for testing and debugging.[21]

However, the rise of thin client computing using HTML as an intermediate format has reduced the need for ODBC. Many web development platforms contain direct links to target databases – MySQL being very common. In these scenarios, there is no direct client-side access nor multiple client software systems to support; everything goes through the programmer-supplied HTML application. The virtualization that ODBC offers is no longer a strong requirement, and development of ODBC is no longer as active as it once was.[citation needed]

Version history[edit]

Version history:[22]

  • 1.0: released in September 1992[23]
  • 2.0: c. 1994
  • 2.5
  • 3.0: c. 1995, John Goodson of Intersolv and Frank Pellow and Paul Cotton of IBM provided significant input to ODBC 3.0[24]
  • 3.5: c. 1997
  • 3.8: c. 2009, with Windows 7[25]
  • 4.0: Development announced June 2016[26] with draft spec on Github

Drivers and Managers[edit]

Drivers[edit]

ODBC is based on the device driver model, where the driver encapsulates the logic needed to convert a standard set of commands and functions into the specific calls required by the underlying system. For instance, a printer driver presents a standard set of printing commands, the API, to applications using the printing system. Calls made to those APIs are converted by the driver into the format used by the actual hardware, say PostScript or PCL.

In the case of ODBC, the drivers encapsulate many functions that can be broken down into several broad categories. One set of functions is primarily concerned with finding, connecting to and disconnecting from the DBMS that driver talks to. A second set is used to send SQL commands from the ODBC system to the DBMS, converting or interpreting any commands that are not supported internally. For instance, a DBMS that does not support cursors can emulate this functionality in the driver. Finally, another set of commands, mostly used internally, is used to convert data from the DBMS's internal formats to a set of standardized ODBC formats, which are based on the C language formats.

An ODBC driver enables an ODBC-compliant application to use a data source, normally a DBMS. Some non-DBMS drivers exist, for such data sources as CSV files, by implementing a small DBMS inside the driver itself. ODBC drivers exist for most DBMSs, including Oracle, PostgreSQL, MySQL, Microsoft SQL Server (but not for the Compact aka CE edition), Sybase ASE, SAP HANA[27][28] and DB2. Because different technologies have different capabilities, most ODBC drivers do not implement all functionality defined in the ODBC standard. Some drivers offer extra functionality not defined by the standard.

Driver Manager[edit]

Device drivers are normally enumerated, set up and managed by a separate Manager layer, which may provide additional functionality. For instance, printing systems often include functionality to provide spooling functionality on top of the drivers, providing print spooling for any supported printer.

In ODBC the Driver Manager (DM) provides these features.[29] The DM can enumerate the installed drivers and present this as a list, often in a GUI-based form.

But more important to the operation of the ODBC system is the DM's concept of a Data Source Name (DSN). DSNs collect additional information needed to connect to a specific data source, versus the DBMS itself. For instance, the same MySQL driver can be used to connect to any MySQL server, but the connection information to connect to a local private server is different from the information needed to connect to an internet-hosted public server. The DSN stores this information in a standardized format, and the DM provides this to the driver during connection requests. The DM also includes functionality to present a list of DSNs using human readable names, and to select them at run-time to connect to different resources.

The DM also includes the ability to save partially complete DSN's, with code and logic to ask the user for any missing information at runtime. For instance, a DSN can be created without a required password. When an ODBC application attempts to connect to the DBMS using this DSN, the system will pause and ask the user to provide the password before continuing. This frees the application developer from having to create this sort of code, as well as having to know which questions to ask. All of this is included in the driver and the DSNs.

Bridging configurations[edit]

A bridge is a special kind of driver: a driver that uses another driver-based technology.

ODBC-to-JDBC (ODBC-JDBC) bridges[edit]

An ODBC-JDBC bridge consists of an ODBC driver which uses the services of a JDBC driver to connect to a database. This driver translates ODBC function-calls into JDBC method-calls. Programmers usually use such a bridge when they lack an ODBC driver for some database but have access to a JDBC driver. Examples: OpenLink ODBC-JDBC Bridge, SequeLink ODBC-JDBC Bridge.

JDBC-to-ODBC (JDBC-ODBC) bridges[edit]

A JDBC-ODBC bridge consists of a JDBC driver which employs an ODBC driver to connect to a target database. This driver translates JDBC method calls into ODBC function calls. Programmers usually use such a bridge when a given database lacks a JDBC driver, but is accessible through an ODBC driver. Sun Microsystems included one such bridge in the JVM, but viewed it as a stop-gap measure while few JDBC drivers existed (The built-in JDBC-ODBC bridge was dropped from the JVM in Java 8[30]). Sun never intended its bridge for production environments, and generally recommended against its use. As of 2008 independentmw-data:TemplateStyles:r886058088'>

  • ^'Linux/UNIX ODBC – What is ODBC?'.
  • ^'Our History', Simba Technologies
  • ^Idehen, Kingsley Uyi (October 1994). 'ODBC and progress V7.2d'. Usenet Newsgroup comp.databases. Retrieved 13 December 2013.
  • ^Idehen, Kingsley Uyi (1995-07-18). 'Need ODBC/Ingres driver for DEC OSF/1'. Usenet Newsgroup comp.databases.oracle. Retrieved 13 December 2013.
  • ^Sippl, Roger (1996) 'SQL Access Group's Call-Level Interface', Dr. Dobbs, 1 February 1996
  • ^'Similarities and differences between ODBC and CLI', InfoSphere Classic documentation, IBM, 26 September 2008
  • ^[1]
  • ^'Announcing the new release of OLE DB Driver for SQL Server'.
  • ^Anderson, Andrew (2003-06-20). 'Open Database Connectivity in Jaguar'. O'Reilly MacDevCenter.com. O'Reilly Media, Inc. Retrieved 13 December 2013.
  • ^Sellers, Dennis (2001-07-17). 'ODBC SDK update out for Mac OS Classic, Mac OS X'. MacWorld. IDG Consumer & SMB. Retrieved 13 December 2013.
  • ^Werner, Christian (2018) 'SQLite ODBC Driver', 2018-02-24
  • ^'ODBC Versions'. Linux/UNIX ODBC. Easysoft. Retrieved 2009-10-27.
  • Hana Driver Odbc De Mysql Ubuntu

  • ^Antal, Tiberiu Alexandru. 'Access to an Oracle database using JDBC'(PDF). Cluj-Napoca: Technical University of Cluj-Napoca. p. 2. Retrieved 2009-10-27. ODBC 1.0 was released in September 1992
  • ^Microsoft Corporation. Microsoft ODBC 3.0 Programmer's Reference and SDK Guide, Volume 1. Microsoft Press. February 1997. (ISBN9781572315167)
  • ^'What's New in ODBC 3.8'. Microsoft. Retrieved 2010-01-13. Windows 7 includes an updated version of ODBC, ODBC 3.8.
  • ^Rukmangathan, Krishnakumar (2016-06-07). 'A new release of ODBC for Modern Data Stores'. Microsoft Data Access / SQL BI Technologies Blog. Microsoft. Retrieved 2017-01-03. After more than 15 years since the last release, Microsoft is looking at updating the Open Data Base Connectivity (ODBC) specification.
  • ^'SAP HANA System Properties'. DB-Engines. Retrieved 2016-03-28.
  • ^'Connect to SAP HANA via ODBC - SAP HANA Developer Guide for SAP HANA Studio - SAP Library'. help.sap.com. Retrieved 2016-03-28.
  • ^Sybase. 'Introduction to ODBC'. infocenter.sybase.com. Sybase. Retrieved 8 October 2011.
  • ^'Java JDBC API'. docs.oracle.com. Retrieved 18 December 2018.
  • ^Microsoft, 'Data Access Technologies Road Map', Deprecated MDAC Components, Microsoft'ADO Programmer's Guide' Appendix A: Providers, Microsoft OLE DB Provider for ODBC, retrieved July 30, 2005. Archived 2001 October 5 at the Wayback Machine
  • External links[edit]

    • Microsoft ODBC & Data Access APIs History Article.
    Retrieved from 'https://en.wikipedia.org/w/index.php?title=Open_Database_Connectivity&oldid=910448529'
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    I need to connect my HANA Express VM with a MySQL database. What I did so far is:

    0.) Registered VM and installed unixODBC (as described in Youtube Playlist)

    1.) Downloaded ODBC driver installation files (rpm)

    2.) sudo zypper install

    3.) myodbc-installer -d -l

    4.) cp /etc/unixODBC/odbc.ini ~/.odbc.ini

    5.) cp /etc/unixODBC/odbcinst.ini ~/.odbcinst.ini

    6.) nano ~/.odbc.ini

    7.) nano ~/.odbcinst.ini

    Odbc

    8.) nano ~/.customer.sh

    9.) Restarted VM

    10.) I can successfully connect by calling

    11.) Also this call works

    Now my problem and questions:

    Driver

    Why won't also my Smart Data Access access the MySQL (it seems to connect, but can't list the tables)? And what shall I set the 'Configuration File' property with? And what's wrong with the odbc / odbcinst files, that only 'Default' works?

    I adapted the odbc file from an example which was shipped with the ODBC installation...

    See screenshot for my SDA settings (only 'Default' data source worked for me yet).

    I'm working for days now on this problem, any help is appreciated! Thanks!

    D. MüllerD. Müller
    1,5001 gold badge20 silver badges47 bronze badges
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