@c @c COPYRIGHT (c) 1988-2002. @c On-Line Applications Research Corporation (OAR). @c All rights reserved. @c @c $Id$ @c @ifinfo @node Sample Applications, Sample Applications Introduction, Test Suite Source Directory, Top @end ifinfo @chapter Sample Applications @ifinfo @menu * Sample Applications Introduction:: * Sample Applications Hello World:: * Sample Applications Clock Tick:: * Sample Applications Base Single Processor Application:: * Sample Applications Base Multiple Processor Application:: * Sample Applications Constructor/Destructor C++ Application:: * Sample Applications Paranoia Floating Point Application:: @end menu @end ifinfo @ifinfo @node Sample Applications Introduction, Sample Applications Hello World, Sample Applications, Sample Applications @end ifinfo @section Introduction RTEMS is shipped with the following sample applications: @itemize @bullet @item Hello World - C and Ada @item Clock Tick - C and Ada @item Base Single Processor - C and Ada @item Base Multiple Processor - C and Ada @item Constructor/Destructor C++ Test - C only if C++ enabled @item Paranoia Floating Point Test - C only @end itemize These applications are intended to illustrate the basic format of RTEMS single and multiple processor applications. In addition, these relatively simple applications can be used to test locally developed board support packages and device drivers. The reader should be familiar with the terms used and material presented in the RTEMS Applications User's Guide. @ifinfo @node Sample Applications Hello World, Sample Applications Clock Tick, Sample Applications Introduction, Sample Applications @end ifinfo @section Hello World This sample application is in the following directory: @example $RTEMS_SRC_BASE/tests/samples/hello @end example It provides a rudimentary test of the BSP start up code and the console output routine. The C version of this sample application uses the printf function from the RTEMS Standard C Library to output messages. The Ada version of this sample use the TEXT_IO package to output the hello messages. The following messages are printed: @example @group *** HELLO WORLD TEST *** Hello World *** END OF HELLO WORLD TEST *** @end group @end example These messages are printed from the application's single initialization task. If the above messages are not printed correctly, then either the BSP start up code or the console output routine is not operating properly. @ifinfo @node Sample Applications Clock Tick, Sample Applications Base Single Processor Application, Sample Applications Hello World, Sample Applications @end ifinfo @section Clock Tick This sample application is in the following directory: @example $RTEMS_SRC_BASE/tests/samples/ticker @end example This application is designed as a simple test of the clock tick device driver. In addition, this application also tests the printf function from the RTEMS Standard C Library by using it to output the following messages: @example @group *** CLOCK TICK TEST *** TA1 - tm_get - 09:00:00 12/31/1988 TA2 - tm_get - 09:00:00 12/31/1988 TA3 - tm_get - 09:00:00 12/31/1988 TA1 - tm_get - 09:00:05 12/31/1988 TA1 - tm_get - 09:00:10 12/31/1988 TA2 - tm_get - 09:00:10 12/31/1988 TA1 - tm_get - 09:00:15 12/31/1988 TA3 - tm_get - 09:00:15 12/31/1988 TA1 - tm_get - 09:00:20 12/31/1988 TA2 - tm_get - 09:00:20 12/31/1988 TA1 - tm_get - 09:00:25 12/31/1988 TA1 - tm_get - 09:00:30 12/31/1988 TA2 - tm_get - 09:00:30 12/31/1988 TA3 - tm_get - 09:00:30 12/31/1988 *** END OF CLOCK TICK TEST *** @end group @end example The clock tick sample application utilizes a single initialization task and three copies of the single application task. The initialization task prints the test herald, sets the time and date, and creates and starts the three application tasks before deleting itself. The three application tasks generate the rest of the output. Every five seconds, one or more of the tasks will print the current time obtained via the tm_get directive. The first task, TA1, executes every five seconds, the second task, TA2, every ten seconds, and the third task, TA3, every fifteen seconds. If the time printed does not match the above output, then the clock device driver is not operating properly. @ifinfo @node Sample Applications Base Single Processor Application, Sample Applications Base Multiple Processor Application, Sample Applications Clock Tick, Sample Applications @end ifinfo @section Base Single Processor Application This sample application is in the following directory: @example $RTEMS_SRC_BASE/tests/samples/base_sp @end example It provides a framework from which a single processor RTEMS application can be developed. The use of the task argument is illustrated. This sample application uses the printf function from the RTEMS Standard C Library or TEXT_IO functions when using the Ada version to output the following messages: @example @group *** SAMPLE SINGLE PROCESSOR APPLICATION *** Creating and starting an application task Application task was invoked with argument (0) and has id of 0x10002 *** END OF SAMPLE SINGLE PROCESSOR APPLICATION *** @end group @end example The first two messages are printed from the application's single initialization task. The final messages are printed from the single application task. @ifinfo @node Sample Applications Base Multiple Processor Application, Sample Applications Constructor/Destructor C++ Application, Sample Applications Base Single Processor Application, Sample Applications @end ifinfo @section Base Multiple Processor Application This sample application is in the following directory: @example $RTEMS_SRC_BASE/tests/samples/base_mp @end example It provides a framework from which a multiprocessor RTEMS application can be developed. This directory has a subdirectory for each node in the multiprocessor system. The task argument is used to distinguish the node on which the application task is executed. The first node will print the following messages: @example @group *** SAMPLE MULTIPROCESSOR APPLICATION *** Creating and starting an application task This task was invoked with the node argument (1) This task has the id of 0x10002 *** END OF SAMPLE MULTIPROCESSOR APPLICATION *** @end group @end example The second node will print the following messages: @example @group *** SAMPLE MULTIPROCESSOR APPLICATION *** Creating and starting an application task This task was invoked with the node argument (2) This task has the id of 0x20002 *** END OF SAMPLE MULTIPROCESSOR APPLICATION *** @end group @end example The herald is printed from the application's single initialization task on each node. The final messages are printed from the single application task on each node. In this sample application, all source code is shared between the nodes except for the node dependent configuration files. These files contains the definition of the node number used in the initialization of the RTEMS Multiprocessor Configuration Table. This file is not shared because the node number field in the RTEMS Multiprocessor Configuration Table must be unique on each node. @ifinfo @node Sample Applications Constructor/Destructor C++ Application, Sample Applications Paranoia Floating Point Application, Sample Applications Base Multiple Processor Application, Sample Applications @end ifinfo @section Constructor/Destructor C++ Application This sample application is in the following directory: @example $RTEMS_SRC_BASE/tests/samples/cdtest @end example This sample application demonstrates that RTEMS is compatible with C++ applications. It uses constructors, destructor, and I/O stream output in testing these various capabilities. The board support package responsible for this application must support a C++ environment. This sample application uses the printf function from the RTEMS Standard C Library to output the following messages: @example @group Hey I'M in base class constructor number 1 for 0x400010cc. Hey I'M in base class constructor number 2 for 0x400010d4. Hey I'M in derived class constructor number 3 for 0x400010d4. *** CONSTRUCTOR/DESTRUCTOR TEST *** Hey I'M in base class constructor number 4 for 0x4009ee08. Hey I'M in base class constructor number 5 for 0x4009ee10. Hey I'M in base class constructor number 6 for 0x4009ee18. Hey I'M in base class constructor number 7 for 0x4009ee20. Hey I'M in derived class constructor number 8 for 0x4009ee20. Testing a C++ I/O stream Hey I'M in derived class constructor number 8 for 0x4009ee20. Derived class - Instantiation order 8 Hey I'M in base class constructor number 7 for 0x4009ee20. Instantiation order 8 Hey I'M in base class constructor number 6 for 0x4009ee18. Instantiation order 6 Hey I'M in base class constructor number 5 for 0x4009ee10. Instantiation order 5 Hey I'M in base class constructor number 4 for 0x4009ee08. Instantiation order 5 *** END OF CONSTRUCTOR/DESTRUCTOR TEST *** Hey I'M in base class constructor number 3 for 0x400010d4. Hey I'M in base class constructor number 2 for 0x400010d4. Hey I'M in base class constructor number 1 for 0x400010cc. @end group @end example @ifinfo @node Sample Applications Paranoia Floating Point Application, RTEMS Specific Utilities, Sample Applications Constructor/Destructor C++ Application, Sample Applications @end ifinfo @section Paranoia Floating Point Application This sample application is in the following directory: @example $RTEMS_SRC_BASE/tests/samples/paranoia @end example This sample application uses a public domain floating point and math library test to verify these capabilities of the RTEMS executive. Deviations between actual and expected results are reported to the screen. This is a very extensive test which tests all mathematical and number conversion functions. Paranoia is also very large and requires a long period of time to run. Problems which commonly prevent this test from executing to completion include stack overflow and FPU exception handlers not installed.