OpenCores
URL https://opencores.org/ocsvn/openrisc/openrisc/trunk

Subversion Repositories openrisc

[/] [openrisc/] [trunk/] [rtos/] [ecos-2.0/] [doc/] [html/] [user-guide/] [programming-with-ecos.html] - Blame information for rev 588

Go to most recent revision | Details | Compare with Previous | View Log

Line No. Rev Author Line
1 28 unneback
<!-- Copyright (C) 2003 Red Hat, Inc.                                -->
2
<!-- This material may be distributed only subject to the terms      -->
3
<!-- and conditions set forth in the Open Publication License, v1.0  -->
4
<!-- or later (the latest version is presently available at          -->
5
<!-- http://www.opencontent.org/openpub/).                           -->
6
<!-- Distribution of the work or derivative of the work in any       -->
7
<!-- standard (paper) book form is prohibited unless prior           -->
8
<!-- permission is obtained from the copyright holder.               -->
9
<HTML
10
><HEAD
11
><TITLE
12
>Programming With eCos</TITLE
13
><meta name="MSSmartTagsPreventParsing" content="TRUE">
14
<META
15
NAME="GENERATOR"
16
CONTENT="Modular DocBook HTML Stylesheet Version 1.76b+
17
"><LINK
18
REL="HOME"
19
TITLE="eCos User Guide"
20
HREF="ecos-user-guide.html"><LINK
21
REL="UP"
22
TITLE="Programming With eCos"
23
HREF="user-guide-programming.html"><LINK
24
REL="PREVIOUS"
25
TITLE="Programming With eCos"
26
HREF="user-guide-programming.html"><LINK
27
REL="NEXT"
28
TITLE="Configuring and Building eCos from Source"
29
HREF="configuring-and-building-ecos-from-source.html"></HEAD
30
><BODY
31
CLASS="CHAPTER"
32
BGCOLOR="#FFFFFF"
33
TEXT="#000000"
34
LINK="#0000FF"
35
VLINK="#840084"
36
ALINK="#0000FF"
37
><DIV
38
CLASS="NAVHEADER"
39
><TABLE
40
SUMMARY="Header navigation table"
41
WIDTH="100%"
42
BORDER="0"
43
CELLPADDING="0"
44
CELLSPACING="0"
45
><TR
46
><TH
47
COLSPAN="3"
48
ALIGN="center"
49
>eCos User Guide</TH
50
></TR
51
><TR
52
><TD
53
WIDTH="10%"
54
ALIGN="left"
55
VALIGN="bottom"
56
><A
57
HREF="user-guide-programming.html"
58
ACCESSKEY="P"
59
>Prev</A
60
></TD
61
><TD
62
WIDTH="80%"
63
ALIGN="center"
64
VALIGN="bottom"
65
></TD
66
><TD
67
WIDTH="10%"
68
ALIGN="right"
69
VALIGN="bottom"
70
><A
71
HREF="configuring-and-building-ecos-from-source.html"
72
ACCESSKEY="N"
73
>Next</A
74
></TD
75
></TR
76
></TABLE
77
><HR
78
ALIGN="LEFT"
79
WIDTH="100%"></DIV
80
><DIV
81
CLASS="CHAPTER"
82
><H1
83
><A
84
NAME="PROGRAMMING-WITH-ECOS">Chapter 10. Programming With <SPAN
85
CLASS="PRODUCTNAME"
86
>eCos</SPAN
87
></H1
88
><P
89
>The following chapters of this manual comprise a simple tutorial
90
for configuring and building <SPAN
91
CLASS="PRODUCTNAME"
92
>eCos</SPAN
93
>, building and running <SPAN
94
CLASS="PRODUCTNAME"
95
>eCos</SPAN
96
> tests,
97
and finally building three stand-alone example programs which use
98
the  <SPAN
99
CLASS="PRODUCTNAME"
100
>eCos</SPAN
101
> API to perform some simple tasks.</P
102
><P
103
>You will need a properly installed <SPAN
104
CLASS="PRODUCTNAME"
105
>eCos</SPAN
106
> system, with the correct
107
versions of the GNU toolchain. On Windows
108
you will be using the bash command line interpreter that comes with
109
Cygwin, with the environment variables set as described in the
110
toolchain documentation.</P
111
><DIV
112
CLASS="SECT1"
113
><H1
114
CLASS="SECT1"
115
><A
116
NAME="DEVELOPMENT-PROCESS">The Development Process</H1
117
><P
118
>Most development projects using <SPAN
119
CLASS="PRODUCTNAME"
120
>eCos</SPAN
121
> would contain some (or
122
most) of  the following:</P
123
><DIV
124
CLASS="SECT2"
125
><H2
126
CLASS="SECT2"
127
><A
128
NAME="AEN471"><SPAN
129
CLASS="PRODUCTNAME"
130
>eCos</SPAN
131
> Configuration</H2
132
><P
133
><SPAN
134
CLASS="PRODUCTNAME"
135
>eCos</SPAN
136
> is configured to provide the desired API (the inclusion
137
of libc, uitron, and the disabling of certain undesired funtions,
138
etc.), and semantics (selecting scheduler, mutex behavior, etc.).
139
See <A
140
HREF="configuring-and-building-ecos-from-source.html"
141
>Chapter 11</A
142
>.</P
143
><P
144
>It would normally make sense to enable <SPAN
145
CLASS="PRODUCTNAME"
146
>eCos</SPAN
147
> assertion checking
148
at this time as well, to catch as many programming errors during
149
the development phase as possible.</P
150
><P
151
>Note that it should not be necessary to spend much time on
152
<SPAN
153
CLASS="PRODUCTNAME"
154
>eCos</SPAN
155
> configuration initially. It may be important to perform fine
156
tuning to reduce the memory footprint and to improve performance
157
later when the product reaches a testable state.</P
158
></DIV
159
><DIV
160
CLASS="SECT2"
161
><H2
162
CLASS="SECT2"
163
><A
164
NAME="AEN481">Integrity check of the <SPAN
165
CLASS="PRODUCTNAME"
166
>eCos</SPAN
167
> configuration</H2
168
><P
169
>While we strive to thoroughly test <SPAN
170
CLASS="PRODUCTNAME"
171
>eCos</SPAN
172
>, the vast number
173
of configuration permutations mean that the particular configuration
174
parameters used for your project may not have been tested. Therefore,
175
we advise running the <SPAN
176
CLASS="PRODUCTNAME"
177
>eCos</SPAN
178
> tests after the project's
179
<SPAN
180
CLASS="PRODUCTNAME"
181
>eCos</SPAN
182
> configuration has been determined. See <A
183
HREF="running-an-ecos-test-case.html"
184
>Chapter 12</A
185
>.</P
186
><P
187
>Obviously, this should be repeated if the configuration changes
188
later on in the development process.</P
189
></DIV
190
><DIV
191
CLASS="SECT2"
192
><H2
193
CLASS="SECT2"
194
><A
195
NAME="AEN490">Application Development - Target Neutral Part</H2
196
><P
197
>While your project is probably targeting a specific architecture
198
and platform, possibly custom hardware, it may be possible to perform
199
part of the application development using simulated or synthetic
200
targets.</P
201
><P
202
>There are three good reasons for doing this:</P
203
><P
204
></P
205
><UL
206
><LI
207
><P
208
>It may be possible by this means to perform application
209
development in parallel with the design/implementation
210
of the target hardware, thus providing more time for developing
211
and testing functionality, and reducing time-to-market.</P
212
></LI
213
><LI
214
><P
215
>The build-run-debug-cycle may be faster when the application
216
does not have to be downloaded to a target via a serial interface.
217
Debugging is also likely to be more responsive when you do not have to
218
to communicate with the remote GDB stubs in RedBoot via serial. It
219
also removes the need for manually or automatically resetting the
220
target hardware.</P
221
></LI
222
><LI
223
><P
224
>New hardware can often be buggy. Comparing the behaviour of the
225
program on the hardware and in the simulator or synthetic target may
226
allow you to identify where the problems lie.</P
227
></LI
228
></UL
229
><P
230
>This approach is possible because all targets (including
231
simulators and synthetic ones) provide the same basic API: that
232
is, kernel, libc, libm, uitron, infra, and to some extent, HAL and
233
IO.</P
234
><P
235
>Synthetic targets are especially suitable as they allow you
236
to construct simulations of elaborate devices by interaction with
237
the host system, where an IO device API can hide the details from
238
the application. When switching to hardware later in the development
239
cycle, the IO driver is properly implemented.</P
240
><P
241
>Simulators can also do this, but it all depends on the
242
design and capabilities of the simulator you use. Some, like
243
<A
244
HREF="http://sources.redhat.com/sid"
245
TARGET="_top"
246
>SID</A
247
> or
248
<A
249
HREF="http://bochs.sourceforge.net/"
250
TARGET="_top"
251
>Bochs</A
252
> provide
253
complete hardware emulation, while others just support enough of the
254
instruction set to run compiled code.</P
255
><P
256
>Therefore, select a simulator or synthetic target and use
257
it for as long as possible for application development. That is,
258
configure for the selected target, build <SPAN
259
CLASS="PRODUCTNAME"
260
>eCos</SPAN
261
>, build the application
262
and link with <SPAN
263
CLASS="PRODUCTNAME"
264
>eCos</SPAN
265
>, run and debug. Repeat the latter two steps until
266
you are happy with it.</P
267
><P
268
>Obviously, at some time you will have to switch to the intended
269
target hardware, for example when adding target specific feature
270
support, for memory footprint/performance characterization,
271
and for final tuning of <SPAN
272
CLASS="PRODUCTNAME"
273
>eCos</SPAN
274
> and the application.</P
275
></DIV
276
><DIV
277
CLASS="SECT2"
278
><H2
279
CLASS="SECT2"
280
><A
281
NAME="AEN511">Application Development - Target Specific Part</H2
282
><P
283
>Repeat the build-run-debug-cycle while performing final tuning
284
and debugging of application. Remember to disable <SPAN
285
CLASS="PRODUCTNAME"
286
>eCos</SPAN
287
> assertion
288
checking if you are testing any performance-related aspects, it can
289
make a big difference.</P
290
><P
291
>It may be useful to switch between this and the previous step
292
repeatedly through the development process; use the simulator/synthetic
293
target for actual development, and use the target hardware to continually
294
check memory footprint and performance. There should be little cost
295
in switching between the two targets when using two separate build
296
trees. </P
297
></DIV
298
></DIV
299
></DIV
300
><DIV
301
CLASS="NAVFOOTER"
302
><HR
303
ALIGN="LEFT"
304
WIDTH="100%"><TABLE
305
SUMMARY="Footer navigation table"
306
WIDTH="100%"
307
BORDER="0"
308
CELLPADDING="0"
309
CELLSPACING="0"
310
><TR
311
><TD
312
WIDTH="33%"
313
ALIGN="left"
314
VALIGN="top"
315
><A
316
HREF="user-guide-programming.html"
317
ACCESSKEY="P"
318
>Prev</A
319
></TD
320
><TD
321
WIDTH="34%"
322
ALIGN="center"
323
VALIGN="top"
324
><A
325
HREF="ecos-user-guide.html"
326
ACCESSKEY="H"
327
>Home</A
328
></TD
329
><TD
330
WIDTH="33%"
331
ALIGN="right"
332
VALIGN="top"
333
><A
334
HREF="configuring-and-building-ecos-from-source.html"
335
ACCESSKEY="N"
336
>Next</A
337
></TD
338
></TR
339
><TR
340
><TD
341
WIDTH="33%"
342
ALIGN="left"
343
VALIGN="top"
344
>Programming With <SPAN
345
CLASS="PRODUCTNAME"
346
>eCos</SPAN
347
></TD
348
><TD
349
WIDTH="34%"
350
ALIGN="center"
351
VALIGN="top"
352
><A
353
HREF="user-guide-programming.html"
354
ACCESSKEY="U"
355
>Up</A
356
></TD
357
><TD
358
WIDTH="33%"
359
ALIGN="right"
360
VALIGN="top"
361
>Configuring and Building <SPAN
362
CLASS="PRODUCTNAME"
363
>eCos</SPAN
364
> from Source</TD
365
></TR
366
></TABLE
367
></DIV
368
></BODY
369
></HTML
370
>

powered by: WebSVN 2.1.0

© copyright 1999-2024 OpenCores.org, equivalent to Oliscience, all rights reserved. OpenCores®, registered trademark.