forked from Imagelibrary/rtems
207 lines
6.7 KiB
Perl
207 lines
6.7 KiB
Perl
@c
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@c COPYRIGHT (c) 1988-1998.
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@c On-Line Applications Research Corporation (OAR).
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@c All rights reserved.
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@c
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@c $Id$
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@c
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@chapter Target Dependent Files
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RTEMS has a multi-layered approach to portability. This is done to
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maximize the amount of software that can be reused. Much of the
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RTEMS source code can be reused on all RTEMS platforms. Other parts
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of the executive are specific to hardware in some sense.
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RTEMS classifies target dependent code based upon its dependencies
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into one of the following categories.
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@itemize @bullet
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@item CPU dependent
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@item Board dependent
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@item Peripheral dependent
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@end itemize
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@section CPU Dependent
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This class of code includes the foundation
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routines for the executive proper such as as the context switch and
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the interrupt subroutine implementations. Sources for the supported
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processor families can be found in @code{c/src/exec/score/cpu}.
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A good starting point for a new family of processors is the
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@code{no_cpu} directory, which holds both prototypes and
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descriptions of each needed CPU dependent function.
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CPU dependent code is further subcategorized if the implementation is
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dependent on a particular CPU model. For example, the MC68000 and MC68020
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processors are both members of the m68k CPU family but there are significant
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differents between these CPU models which RTEMS must take into account.
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@section Board Dependent
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This class of code provides the most specific glue between RTEMS and
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a particular board. This code is represented by the Board Support Packages
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and associated Device Drivers.
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Some BSPs may support multiple board models within a single board family.
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This is necessary when the board's vendor supports build variants on a
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single base base. For example, the Motorola MVME162 board family has a
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a fairly large number of variations based upon the particular CPU model
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and the peripherals actually placed on the board.
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@section Peripheral Dependent
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This class of code provides a reusable library of peripheral device
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drivers which can be tailored easily to a particular board. This
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reusable library provides software objects which correspond to standard
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controllers. Just as the hardware engineer choose a standard controller
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when designing a board, the goal of this library is to let the software
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engineer do the same thing.
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@section Questions to Ask
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Porting RTEMS on a new board should raise some questions:
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@itemize @bullet
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@item Does a BSP for this board exist?
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@item Does a BSP for a similar board exists?
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@item Is the board's CPU supported?
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@end itemize
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If there is already a BSP for your board, then you may already be ready
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to start developing application software. You should verify that the
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existing BSP provides device drivers for all the peripherals on the board
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that your application will be using. For example, the board may have
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an Ethernet controller which is not supported by the existing BSP.
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If the BSP does not exist and the board's CPU model is supported, then
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you should look at existing BSPs for a close match. This will help
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reduce the effort required. It is often possible to reuse device drivers
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from BSPs from different CPU families.
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If the board's CPU family is supported but the particular CPU model on
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that board is not, then the RTEMS port to that CPU family will have to
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be augmented. After this is done, then you can proceed to developing
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the new BSP.
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Otherwise you'll have to write both CPU dependent code and the BSP.
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Regardless of the amount of development required, OAR Corporation
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offers custom development services to help you use RTEMS.
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@ifset use-html
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For more information, contact OAR Corporation
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at @href{http://www.oarcorp.com,,,http://www.oarcorp.com}.
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@end ifset
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@ifclear use-html
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For more information, contact OAR Corporation
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at http://www.oarcorp.com.
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@end ifclear
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@section CPU Dependent Executive Files
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The CPU dependent files in the RTEMS executive source code are found
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in the following directory:
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@example
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c/src/exec/score/cpu/CPU
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@end example
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where CPU is replcaed with the CPU family name.
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Within each CPU dependent directory inside the executive proper is a
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file named @code{CPU.h} which contains information about each of the
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supported CPU models within that family.
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@section CPU Dependent Support Files
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The CPU dependent support files contain routines which aid in the development
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of applications using that CPU family. For example, the support routines
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may contain standard trap handlers for alignment or floating point exceptions
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or device drivers for peripheral controllers found on the CPU itself.
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This class of code may be found in the following directory:
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@example
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c/src/lib/libcpu/CPU
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@end example
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CPU model dependent support code is found in the following directory:
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@example
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c/src/lib/libcpu/CPU/CPU_MODEL
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@end example
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@section Board Support Package Structure
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The BSPs are all under the c/src/lib/libbsp directory. Below this
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directory, there is a subdirectory for each CPU family. Each BSP
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is found under the subdirectory for the appropriate processor
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family (m68k, powerpc, etc.). In addition, there is source code
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available which may be shared across all BSPs regardless of
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the CPU family or just across BSPs within a single CPU family. This
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results in a BSP using the following directories:
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@example
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c/src/lib/libbsp/shared
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c/src/lib/libbsp/CPU/shared
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c/src/lib/libbsp/CPU/BSP
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@end example
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Under each BSP specific directory, you will find a collection of
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subdirectories. For commonly provided functionality, the BSPs
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follow a convention on subdirectory naming. The following list
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describes the commonly found subdirectories under each BSP.
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@itemize @bullet
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@item @b{console}:
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is technically the serial driver for the BSP rather
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than just a console driver, it deals with the board
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UARTs (i.e. serial devices).
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@item @b{clock}:
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support for the clock tick -- a regular time basis to the kernel.
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@item @b{timer}:
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support of timer devices.
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@item @b{rtc}:
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support for the hardware real-time clock.
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@item @b{nvmem}:
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support for non-volatile memory such as EEPROM or Flash.
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@item @b{network}:
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the Ethernet driver.
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@item @b{shmsupp}:
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support of shared memory driver MPCI layer in a multiprocessor system,
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@item @b{include}:
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include files for this BSP.
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@item @b{wrapup}:
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bundles all the components necessary to construct the BSP library.
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@end itemize
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The build order of the BSP is determined by the Makefile structure.
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This structure is discussed in more detail in the @ref{Makefiles}
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chapter.
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@b{NOTE:} This manual refers to the gen68340 BSP for numerous concrete
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examples. You should have a copy of the gen68340 BSP available while
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reading this piece of documentation. This BSP is located in the
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following directory:
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@example
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c/src/lib/libbsp/m68k/gen68340
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@end example
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Later in this document, the $BSP340_ROOT label will be used
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to refer to this directory.
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