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

Subversion Repositories openrisc

[/] [openrisc/] [trunk/] [rtos/] [ecos-2.0/] [doc/] [html/] [user-guide/] [sample-twothreads.html] - Blame information for rev 773

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
>A Sample Program with Two Threads</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="Building and Running Sample Applications"
23
HREF="building-and-running-sample-appliations.html"><LINK
24
REL="PREVIOUS"
25
TITLE="Building and Running Sample Applications"
26
HREF="building-and-running-sample-appliations.html"><LINK
27
REL="NEXT"
28
TITLE="More Features &#8212; Clocks and Alarm
29
Handlers"
30
HREF="clocks-and-alarm-handlers.html"></HEAD
31
><BODY
32
CLASS="SECT1"
33
BGCOLOR="#FFFFFF"
34
TEXT="#000000"
35
LINK="#0000FF"
36
VLINK="#840084"
37
ALINK="#0000FF"
38
><DIV
39
CLASS="NAVHEADER"
40
><TABLE
41
SUMMARY="Header navigation table"
42
WIDTH="100%"
43
BORDER="0"
44
CELLPADDING="0"
45
CELLSPACING="0"
46
><TR
47
><TH
48
COLSPAN="3"
49
ALIGN="center"
50
>eCos User Guide</TH
51
></TR
52
><TR
53
><TD
54
WIDTH="10%"
55
ALIGN="left"
56
VALIGN="bottom"
57
><A
58
HREF="building-and-running-sample-appliations.html"
59
ACCESSKEY="P"
60
>Prev</A
61
></TD
62
><TD
63
WIDTH="80%"
64
ALIGN="center"
65
VALIGN="bottom"
66
>Chapter 13. Building and Running Sample Applications</TD
67
><TD
68
WIDTH="10%"
69
ALIGN="right"
70
VALIGN="bottom"
71
><A
72
HREF="clocks-and-alarm-handlers.html"
73
ACCESSKEY="N"
74
>Next</A
75
></TD
76
></TR
77
></TABLE
78
><HR
79
ALIGN="LEFT"
80
WIDTH="100%"></DIV
81
><DIV
82
CLASS="SECT1"
83
><H1
84
CLASS="SECT1"
85
><A
86
NAME="SAMPLE-TWOTHREADS">A Sample Program with Two Threads</H1
87
><P
88
>Below is a program that uses some of <SPAN
89
CLASS="PRODUCTNAME"
90
>eCos</SPAN
91
>' system calls. It
92
creates two threads, each of which goes into an infinite loop in which
93
it sleeps for a while (using cyg_thread_delay()).  This code is found
94
in the file <TT
95
CLASS="FILENAME"
96
>twothreads.c</TT
97
>
98
in the examples directory.</P
99
><DIV
100
CLASS="SECT2"
101
><H2
102
CLASS="SECT2"
103
><A
104
NAME="AEN871"><SPAN
105
CLASS="PRODUCTNAME"
106
>eCos</SPAN
107
> two-threaded program listing</H2
108
><TABLE
109
BORDER="5"
110
BGCOLOR="#E0E0F0"
111
WIDTH="70%"
112
><TR
113
><TD
114
><PRE
115
CLASS="PROGRAMLISTING"
116
>#include &lt;cyg/kernel/kapi.h&#62;
117
#include &lt;stdio.h&#62;
118
#include &lt;math.h&#62;
119
#include &lt;stdlib.h&#62;
120
 
121
/* now declare (and allocate space for) some kernel objects,
122
  like the two threads we will use */
123
cyg_thread thread_s[2]; /* space for two thread objects */
124
 
125
char stack[2][4096];    /* space for two 4K stacks */
126
 
127
/* now the handles for the threads */
128
cyg_handle_t simple_threadA, simple_threadB;
129
 
130
/* and now variables for the procedure which is the thread */
131
cyg_thread_entry_t simple_program;
132
 
133
/* and now a mutex to protect calls to the C library */
134
cyg_mutex_t cliblock;
135
 
136
/* we install our own startup routine which sets up threads */
137
void cyg_user_start(void)
138
{
139
 printf("Entering twothreads' cyg_user_start() function\n");
140
 
141
 cyg_mutex_init(&amp;cliblock);
142
 
143
 cyg_thread_create(4, simple_program, (cyg_addrword_t) 0,
144
        "Thread A", (void *) stack[0], 4096,
145
        &amp;simple_threadA, &amp;thread_s[0]);
146
 cyg_thread_create(4, simple_program, (cyg_addrword_t) 1,
147
        "Thread B", (void *) stack[1], 4096,
148
        &amp;simple_threadB, &amp;thread_s[1]);
149
 
150
 cyg_thread_resume(simple_threadA);
151
 cyg_thread_resume(simple_threadB);
152
}
153
 
154
/* this is a simple program which runs in a thread */
155
void simple_program(cyg_addrword_t data)
156
{
157
 int message = (int) data;
158
 int delay;
159
 
160
 printf("Beginning execution; thread data is %d\n", message);
161
 
162
 cyg_thread_delay(200);
163
 
164
 for (;;) {
165
 delay = 200 + (rand() % 50);
166
 
167
 /* note: printf() must be protected by a
168
 call to cyg_mutex_lock() */
169
 cyg_mutex_lock(&amp;cliblock); {
170
 printf("Thread %d: and now a delay of %d clock ticks\n",
171
        message, delay);
172
 }
173
 cyg_mutex_unlock(&amp;cliblock);
174
 cyg_thread_delay(delay);
175
 }
176
}</PRE
177
></TD
178
></TR
179
></TABLE
180
><P
181
>When you run the program (by typing <B
182
CLASS="COMMAND"
183
>continue</B
184
> at
185
the (<SPAN
186
CLASS="emphasis"
187
><I
188
CLASS="EMPHASIS"
189
>gdb</I
190
></SPAN
191
>) prompt) the output should look like
192
this:</P
193
><TABLE
194
BORDER="5"
195
BGCOLOR="#E0E0F0"
196
WIDTH="70%"
197
><TR
198
><TD
199
><PRE
200
CLASS="PROGRAMLISTING"
201
>Starting program: <TT
202
CLASS="REPLACEABLE"
203
><I
204
>BASE_DIR</I
205
></TT
206
>/examples/twothreads.exe
207
Entering twothreads' cyg_user_start()
208
function
209
Beginning execution; thread data is 0
210
Beginning execution; thread data is 1
211
Thread 0: and now a delay of 240 clock ticks
212
Thread 1: and now a delay of 225 clock ticks
213
Thread 1: and now a delay of 234 clock ticks
214
Thread 0: and now a delay of 231 clock ticks
215
Thread 1: and now a delay of 224 clock ticks
216
Thread 0: and now a delay of 249 clock ticks
217
Thread 1: and now a delay of 202 clock ticks
218
Thread 0: and now a delay of 235 clock ticks</PRE
219
></TD
220
></TR
221
></TABLE
222
><DIV
223
CLASS="NOTE"
224
><BLOCKQUOTE
225
CLASS="NOTE"
226
><P
227
><B
228
>Note: </B
229
>When running in a simulator the
230
delays might be quite long. On a hardware board (where the clock
231
speed is 100 ticks/second) the delays should average to
232
about 2.25 seconds. In simulation, the delay will depend on the
233
speed of the host processor and will almost always be much slower than
234
the actual board. You might want to reduce the delay parameter when running
235
in simulation.</P
236
></BLOCKQUOTE
237
></DIV
238
><P
239
><A
240
HREF="sample-twothreads.html#FIGURE-TWOTHREADS-WITH-SIMPLE-PRINTS"
241
>Figure 13-1</A
242
> shows how this
243
multitasking program executes.  Note that apart from the thread
244
creation system calls, this program also creates and uses a
245
<SPAN
246
CLASS="emphasis"
247
><I
248
CLASS="EMPHASIS"
249
>mutex</I
250
></SPAN
251
> for synchronization
252
between the <TT
253
CLASS="FUNCTION"
254
>printf()</TT
255
> calls in the two
256
threads. This is because the C library standard I/O (by default) is
257
configured not to be thread-safe, which means that if more than one
258
thread is using standard I/O they might corrupt each other. This is
259
fixed by a mutual exclusion (or <SPAN
260
CLASS="emphasis"
261
><I
262
CLASS="EMPHASIS"
263
>mutex</I
264
></SPAN
265
>) lockout
266
mechanism: the threads do not call <TT
267
CLASS="FUNCTION"
268
>printf()</TT
269
> until
270
<TT
271
CLASS="FUNCTION"
272
>cyg_mutex_lock()</TT
273
> has returned, which only happens
274
when the other thread calls
275
<TT
276
CLASS="FUNCTION"
277
>cyg_mutex_unlock()</TT
278
>.</P
279
><P
280
>You could avoid using the mutex by configuring the C library to
281
be thread-safe (by selecting the component
282
<TT
283
CLASS="LITERAL"
284
>CYGSEM_LIBC_STDIO_THREAD_SAFE_STREAMS</TT
285
>).</P
286
><DIV
287
CLASS="FIGURE"
288
><A
289
NAME="FIGURE-TWOTHREADS-WITH-SIMPLE-PRINTS"><P
290
><B
291
>Figure 13-1. Two
292
threads with simple print statements after random delays</B
293
></P
294
><P
295
><IMG
296
SRC="pix/twothreads2.png"></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="building-and-running-sample-appliations.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="clocks-and-alarm-handlers.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
>Building and Running Sample Applications</TD
345
><TD
346
WIDTH="34%"
347
ALIGN="center"
348
VALIGN="top"
349
><A
350
HREF="building-and-running-sample-appliations.html"
351
ACCESSKEY="U"
352
>Up</A
353
></TD
354
><TD
355
WIDTH="33%"
356
ALIGN="right"
357
VALIGN="top"
358
>More Features &#8212; Clocks and Alarm
359
Handlers</TD
360
></TR
361
></TABLE
362
></DIV
363
></BODY
364
></HTML
365
>

powered by: WebSVN 2.1.0

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