avr-libc
2.0.0
Standard C library for AVR-GCC
AVR Libc Home Page
AVR Libc Development Pages
Main Page
User Manual
Library Reference
FAQ
Example Projects
include
avr
lock.h
このファイルのドキュメントを参照する
1
/* Copyright (c) 2007, Atmel Corporation
2
All rights reserved.
3
4
Redistribution and use in source and binary forms, with or without
5
modification, are permitted provided that the following conditions are met:
6
7
* Redistributions of source code must retain the above copyright
8
notice, this list of conditions and the following disclaimer.
9
10
* Redistributions in binary form must reproduce the above copyright
11
notice, this list of conditions and the following disclaimer in
12
the documentation and/or other materials provided with the
13
distribution.
14
15
* Neither the name of the copyright holders nor the names of
16
contributors may be used to endorse or promote products derived
17
from this software without specific prior written permission.
18
19
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
20
AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
21
IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
22
ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
23
LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
24
CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
25
SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
26
INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
27
CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
28
ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
29
POSSIBILITY OF SUCH DAMAGE. */
30
31
/* $Id: lock.h 2503 2016-02-07 22:59:47Z joerg_wunsch $ */
32
33
/* avr/lock.h - Lock Bits API */
34
35
#ifndef _AVR_LOCK_H_
36
#define _AVR_LOCK_H_ 1
37
38
39
/** \file */
40
/** \defgroup avr_lock <avr/lock.h>: Lockbit Support
41
42
\par Introduction
43
44
The Lockbit API allows a user to specify the lockbit settings for the
45
specific AVR device they are compiling for. These lockbit settings will be
46
placed in a special section in the ELF output file, after linking.
47
48
Programming tools can take advantage of the lockbit information embedded in
49
the ELF file, by extracting this information and determining if the lockbits
50
need to be programmed after programming the Flash and EEPROM memories.
51
This also allows a single ELF file to contain all the
52
information needed to program an AVR.
53
54
To use the Lockbit API, include the <avr/io.h> header file, which in turn
55
automatically includes the individual I/O header file and the <avr/lock.h>
56
file. These other two files provides everything necessary to set the AVR
57
lockbits.
58
59
\par Lockbit API
60
61
Each I/O header file may define up to 3 macros that controls what kinds
62
of lockbits are available to the user.
63
64
If __LOCK_BITS_EXIST is defined, then two lock bits are available to the
65
user and 3 mode settings are defined for these two bits.
66
67
If __BOOT_LOCK_BITS_0_EXIST is defined, then the two BLB0 lock bits are
68
available to the user and 4 mode settings are defined for these two bits.
69
70
If __BOOT_LOCK_BITS_1_EXIST is defined, then the two BLB1 lock bits are
71
available to the user and 4 mode settings are defined for these two bits.
72
73
If __BOOT_LOCK_APPLICATION_TABLE_BITS_EXIST is defined then two lock bits
74
are available to set the locking mode for the Application Table Section
75
(which is used in the XMEGA family).
76
77
If __BOOT_LOCK_APPLICATION_BITS_EXIST is defined then two lock bits are
78
available to set the locking mode for the Application Section (which is used
79
in the XMEGA family).
80
81
If __BOOT_LOCK_BOOT_BITS_EXIST is defined then two lock bits are available
82
to set the locking mode for the Boot Loader Section (which is used in the
83
XMEGA family).
84
85
The AVR lockbit modes have inverted values, logical 1 for an unprogrammed
86
(disabled) bit and logical 0 for a programmed (enabled) bit. The defined
87
macros for each individual lock bit represent this in their definition by a
88
bit-wise inversion of a mask. For example, the LB_MODE_3 macro is defined
89
as:
90
\code
91
#define LB_MODE_3 (0xFC)
92
` \endcode
93
94
To combine the lockbit mode macros together to represent a whole byte,
95
use the bitwise AND operator, like so:
96
\code
97
(LB_MODE_3 & BLB0_MODE_2)
98
\endcode
99
100
<avr/lock.h> also defines a macro that provides a default lockbit value:
101
LOCKBITS_DEFAULT which is defined to be 0xFF.
102
103
See the AVR device specific datasheet for more details about these
104
lock bits and the available mode settings.
105
106
A convenience macro, LOCKMEM, is defined as a GCC attribute for a
107
custom-named section of ".lock".
108
109
A convenience macro, LOCKBITS, is defined that declares a variable, __lock,
110
of type unsigned char with the attribute defined by LOCKMEM. This variable
111
allows the end user to easily set the lockbit data.
112
113
\note If a device-specific I/O header file has previously defined LOCKMEM,
114
then LOCKMEM is not redefined. If a device-specific I/O header file has
115
previously defined LOCKBITS, then LOCKBITS is not redefined. LOCKBITS is
116
currently known to be defined in the I/O header files for the XMEGA devices.
117
118
\par API Usage Example
119
120
Putting all of this together is easy:
121
122
\code
123
#include <avr/io.h>
124
125
LOCKBITS = (LB_MODE_1 & BLB0_MODE_3 & BLB1_MODE_4);
126
127
int main(void)
128
{
129
return 0;
130
}
131
\endcode
132
133
Or:
134
135
\code
136
#include <avr/io.h>
137
138
unsigned char __lock __attribute__((section (".lock"))) =
139
(LB_MODE_1 & BLB0_MODE_3 & BLB1_MODE_4);
140
141
int main(void)
142
{
143
return 0;
144
}
145
\endcode
146
147
148
149
However there are a number of caveats that you need to be aware of to
150
use this API properly.
151
152
Be sure to include <avr/io.h> to get all of the definitions for the API.
153
The LOCKBITS macro defines a global variable to store the lockbit data. This
154
variable is assigned to its own linker section. Assign the desired lockbit
155
values immediately in the variable initialization.
156
157
The .lock section in the ELF file will get its values from the initial
158
variable assignment ONLY. This means that you can NOT assign values to
159
this variable in functions and the new values will not be put into the
160
ELF .lock section.
161
162
The global variable is declared in the LOCKBITS macro has two leading
163
underscores, which means that it is reserved for the "implementation",
164
meaning the library, so it will not conflict with a user-named variable.
165
166
You must initialize the lockbit variable to some meaningful value, even
167
if it is the default value. This is because the lockbits default to a
168
logical 1, meaning unprogrammed. Normal uninitialized data defaults to all
169
locgial zeros. So it is vital that all lockbits are initialized, even with
170
default data. If they are not, then the lockbits may not programmed to the
171
desired settings and can possibly put your device into an unrecoverable
172
state.
173
174
Be sure to have the -mmcu=<em>device</em> flag in your compile command line and
175
your linker command line to have the correct device selected and to have
176
the correct I/O header file included when you include <avr/io.h>.
177
178
You can print out the contents of the .lock section in the ELF file by
179
using this command line:
180
\code
181
avr-objdump -s -j .lock <ELF file>
182
\endcode
183
184
*/
185
186
187
#if !(defined(__ASSEMBLER__) || defined(__DOXYGEN__))
188
189
#ifndef LOCKMEM
190
#define LOCKMEM __attribute__((__used__, __section__ (".lock")))
191
#endif
192
193
#ifndef LOCKBITS
194
#define LOCKBITS unsigned char __lock LOCKMEM
195
#endif
196
197
/* Lock Bit Modes */
198
#if defined(__LOCK_BITS_EXIST)
199
#define LB_MODE_1 (0xFF)
200
#define LB_MODE_2 (0xFE)
201
#define LB_MODE_3 (0xFC)
202
#endif
203
204
#if defined(__BOOT_LOCK_BITS_0_EXIST)
205
#define BLB0_MODE_1 (0xFF)
206
#define BLB0_MODE_2 (0xFB)
207
#define BLB0_MODE_3 (0xF3)
208
#define BLB0_MODE_4 (0xF7)
209
#endif
210
211
#if defined(__BOOT_LOCK_BITS_1_EXIST)
212
#define BLB1_MODE_1 (0xFF)
213
#define BLB1_MODE_2 (0xEF)
214
#define BLB1_MODE_3 (0xCF)
215
#define BLB1_MODE_4 (0xDF)
216
#endif
217
218
#if defined(__BOOT_LOCK_APPLICATION_TABLE_BITS_EXIST)
219
#define BLBAT0 ~_BV(2)
220
#define BLBAT1 ~_BV(3)
221
#endif
222
223
#if defined(__BOOT_LOCK_APPLICATION_BITS_EXIST)
224
#define BLBA0 ~_BV(4)
225
#define BLBA1 ~_BV(5)
226
#endif
227
228
#if defined(__BOOT_LOCK_BOOT_BITS_EXIST)
229
#define BLBB0 ~_BV(6)
230
#define BLBB1 ~_BV(7)
231
#endif
232
233
234
#define LOCKBITS_DEFAULT (0xFF)
235
236
#endif
/* !(__ASSEMBLER || __DOXYGEN__) */
237
238
239
#endif
/* _AVR_LOCK_H_ */
Generated on Mon Feb 8 2016 23:59:01 for avr-libc by
1.8.10
翻訳更新:2020年2月1日 by
cega