source: rtems/cpukit/include/rtems/counter.h @ 0fb724a

5
Last change on this file since 0fb724a was 2afb22b, checked in by Chris Johns <chrisj@…>, on 12/23/17 at 07:18:56

Remove make preinstall

A speciality of the RTEMS build system was the make preinstall step. It
copied header files from arbitrary locations into the build tree. The
header files were included via the -Bsome/build/tree/path GCC command
line option.

This has at least seven problems:

  • The make preinstall step itself needs time and disk space.
  • Errors in header files show up in the build tree copy. This makes it hard for editors to open the right file to fix the error.
  • There is no clear relationship between source and build tree header files. This makes an audit of the build process difficult.
  • The visibility of all header files in the build tree makes it difficult to enforce API barriers. For example it is discouraged to use BSP-specifics in the cpukit.
  • An introduction of a new build system is difficult.
  • Include paths specified by the -B option are system headers. This may suppress warnings.
  • The parallel build had sporadic failures on some hosts.

This patch removes the make preinstall step. All installed header
files are moved to dedicated include directories in the source tree.
Let @RTEMS_CPU@ be the target architecture, e.g. arm, powerpc, sparc,
etc. Let @RTEMS_BSP_FAMILIY@ be a BSP family base directory, e.g.
erc32, imx, qoriq, etc.

The new cpukit include directories are:

  • cpukit/include
  • cpukit/score/cpu/@RTEMS_CPU@/include
  • cpukit/libnetworking

The new BSP include directories are:

  • bsps/include
  • bsps/@RTEMS_CPU@/include
  • bsps/@RTEMS_CPU@/@RTEMS_BSP_FAMILIY@/include

There are build tree include directories for generated files.

The include directory order favours the most general header file, e.g.
it is not possible to override general header files via the include path
order.

The "bootstrap -p" option was removed. The new "bootstrap -H" option
should be used to regenerate the "headers.am" files.

Update #3254.
  • Property mode set to 100644
File size: 4.3 KB
Line 
1/**
2 * @file
3 *
4 * @ingroup ClassicCounter
5 *
6 * @brief Free-Running Counter and Busy Wait Delay API
7 */
8
9/*
10 * Copyright (c) 2014 embedded brains GmbH.  All rights reserved.
11 *
12 *  embedded brains GmbH
13 *  Dornierstr. 4
14 *  82178 Puchheim
15 *  Germany
16 *  <rtems@embedded-brains.de>
17 *
18 * The license and distribution terms for this file may be
19 * found in the file LICENSE in this distribution or at
20 * http://www.rtems.org/license/LICENSE.
21 */
22
23#ifndef _RTEMS_SAPI_COUNTER_H
24#define _RTEMS_SAPI_COUNTER_H
25
26#include <rtems/score/cpu.h>
27
28#ifdef __cplusplus
29extern "C" {
30#endif /* __cplusplus */
31
32/**
33 * @defgroup ClassicCounter Free-Running Counter and Busy Wait Delay
34 *
35 * @ingroup ClassicRTEMS
36 *
37 * @brief Free-running counter and busy wait delay functions.
38 *
39 * The RTEMS counter is some free-running counter.  It ticks usually with a
40 * frequency close to the CPU or system bus clock.
41 *
42 * The counter can be used in case the overhead of the
43 * rtems_clock_get_uptime_nanoseconds() is too high.  The step from counter
44 * ticks to/from nanoseconds is explicit in this API unlike to
45 * rtems_clock_get_uptime_nanoseconds() which performs the conversion on each
46 * invocation.
47 *
48 * This counter works without a clock driver and during system initialization.
49 *
50 * The counter can be used to profile low-level operations like SMP locks or
51 * interrupt disabled critical sections.  The counter can act also as an
52 * entropy source for a random number generator.
53 *
54 * The period of the counter depends on the actual hardware.
55 *
56 * @{
57 */
58
59/**
60 * @brief Unsigned integer type for counter values.
61 */
62typedef CPU_Counter_ticks rtems_counter_ticks;
63
64/**
65 * @brief Reads the current counter values.
66 *
67 * @return The current counter values.
68 */
69static inline rtems_counter_ticks rtems_counter_read( void )
70{
71  return _CPU_Counter_read();
72}
73
74/**
75 * @brief Returns the difference between the second and first CPU counter
76 * value.
77 *
78 * This operation may be carried out as a modulo operation depending on the
79 * range of the CPU counter device.
80 *
81 * @param[in] second The second CPU counter value.
82 * @param[in] first The first CPU counter value.
83 *
84 * @return Returns second minus first modulo counter period.
85 */
86static inline rtems_counter_ticks rtems_counter_difference(
87  rtems_counter_ticks second,
88  rtems_counter_ticks first
89)
90{
91  return _CPU_Counter_difference( second, first );
92}
93
94/**
95 * @brief Converts counter ticks into nanoseconds.
96 *
97 * @param[in] ticks Some counter ticks.
98 *
99 * @return The nanoseconds corresponding to the counter ticks.  The value is
100 * rounded up.
101 */
102uint64_t rtems_counter_ticks_to_nanoseconds(
103  rtems_counter_ticks ticks
104);
105
106/**
107 * @brief Converts nanoseconds into counter ticks.
108 *
109 * @param[in] nanoseconds Some nanoseconds.
110 *
111 * @return The counter ticks corresponding to the nanoseconds.  The value is
112 * rounded up.
113 */
114rtems_counter_ticks rtems_counter_nanoseconds_to_ticks(
115  uint32_t nanoseconds
116);
117
118/**
119 * @brief Initializes the counter ticks to/from nanoseconds converter functions.
120 *
121 * This function must be used to initialize the
122 * rtems_counter_ticks_to_nanoseconds() and
123 * rtems_counter_nanoseconds_to_ticks() functions.  It should be called during
124 * system initialization by the board support package.
125 *
126 * @param[in] frequency The current counter frequency in Hz.
127 */
128void rtems_counter_initialize_converter( uint32_t frequency );
129
130/**
131 * @brief Busy wait for some counter ticks.
132 *
133 * This function does not disable interrupts.  Thus task switches and
134 * interrupts can interfere with this busy wait may prolong the delay.  This
135 * function busy waits at least the specified time.  Due to some overhead the
136 * actual delay may be longer.
137 *
138 * @param[in] ticks The minimum busy wait time in counter ticks.
139 */
140void rtems_counter_delay_ticks( rtems_counter_ticks ticks );
141
142/**
143 * @brief Busy wait for some nanoseconds.
144 *
145 * This function does not disable interrupts.  Thus task switches and
146 * interrupts can interfere with this busy wait may prolong the delay.  This
147 * function busy waits at least the specified time.  Due to some overhead the
148 * actual delay may be longer.
149 *
150 * @param[in] nanoseconds The minimum busy wait time in nanoseconds.
151 */
152void rtems_counter_delay_nanoseconds( uint32_t nanoseconds );
153
154/** @} */
155
156#ifdef __cplusplus
157}
158#endif /* __cplusplus */
159
160#endif /* _RTEMS_SAPI_COUNTER_H */
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