author | etisserant |
Fri, 13 Apr 2007 10:57:03 +0200 | |
changeset 158 | b505f7116a1c |
parent 149 | fe50ada8020b |
child 167 | b2f8b91d89b5 |
permissions | -rwxr-xr-x |
38 | 1 |
/* |
2 |
This file is part of CanFestival, a library implementing CanOpen Stack. |
|
3 |
||
4 |
Copyright (C): Edouard TISSERANT and Francis DUPIN |
|
5 |
||
6 |
See COPYING file for copyrights details. |
|
7 |
||
8 |
This library is free software; you can redistribute it and/or |
|
9 |
modify it under the terms of the GNU Lesser General Public |
|
10 |
License as published by the Free Software Foundation; either |
|
11 |
version 2.1 of the License, or (at your option) any later version. |
|
12 |
||
13 |
This library is distributed in the hope that it will be useful, |
|
14 |
but WITHOUT ANY WARRANTY; without even the implied warranty of |
|
15 |
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU |
|
16 |
Lesser General Public License for more details. |
|
17 |
||
18 |
You should have received a copy of the GNU Lesser General Public |
|
19 |
License along with this library; if not, write to the Free Software |
|
20 |
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA |
|
21 |
*/ |
|
22 |
||
71 | 23 |
/* #define DEBUG_WAR_CONSOLE_ON */ |
24 |
/* #define DEBUG_ERR_CONSOLE_ON */ |
|
38 | 25 |
|
26 |
#include <applicfg.h> |
|
27 |
#include "timer.h" |
|
28 |
||
71 | 29 |
/* --------- The timer table --------- */ |
38 | 30 |
s_timer_entry timers[MAX_NB_TIMER] = {{TIMER_FREE, NULL, NULL, 0, 0, 0},}; |
71 | 31 |
|
38 | 32 |
TIMEVAL total_sleep_time = TIMEVAL_MAX; |
33 |
TIMER_HANDLE last_timer_raw = -1; |
|
34 |
||
48
adc6572caf5d
minval/maxval macro operators precedence fix. Thanks Luis Jim?nez.
etisserant
parents:
38
diff
changeset
|
35 |
#define minval(a,b) ((a<b)?a:b) |
38 | 36 |
|
71 | 37 |
/* --------- Use this to declare a new alarm --------- */ |
38 | 38 |
TIMER_HANDLE SetAlarm(CO_Data* d, UNS32 id, TimerCallback_t callback, TIMEVAL value, TIMEVAL period) |
39 |
{ |
|
71 | 40 |
/*printf("SetAlarm(UNS32 id=%d, TimerCallback_t callback=%x, TIMEVAL value=%d, TIMEVAL period=%d)\n", id, callback, value, period); */ |
38 | 41 |
TIMER_HANDLE i; |
42 |
TIMER_HANDLE row_number = TIMER_NONE; |
|
43 |
||
71 | 44 |
/* in order to decide new timer setting we have to run over all timer rows */ |
38 | 45 |
for(i=0; i <= last_timer_raw + 1 && i < MAX_NB_TIMER; i++) |
46 |
{ |
|
47 |
s_timer_entry *row = (timers+i); |
|
48 |
||
71 | 49 |
if (callback && /* if something to store */ |
50 |
row->state == TIMER_FREE) /* and empty row */ |
|
51 |
{ /* just store */ |
|
38 | 52 |
row->callback = callback; |
53 |
row->d = d; |
|
54 |
row->id = id; |
|
55 |
row->val = value; |
|
56 |
row->interval = period; |
|
57 |
row->state = TIMER_ARMED; |
|
58 |
row_number = i; |
|
59 |
break; |
|
60 |
} |
|
61 |
} |
|
62 |
||
71 | 63 |
if (row_number != TIMER_NONE) /* if successfull **/ |
38 | 64 |
{ |
71 | 65 |
TIMEVAL real_timer_value; |
66 |
TIMEVAL elapsed_time; |
|
67 |
||
38 | 68 |
if (row_number == last_timer_raw + 1) last_timer_raw++; |
69 |
||
71 | 70 |
/* set next wakeup alarm if new entry is sooner than others, or if it is alone */ |
71 |
real_timer_value = minval(value, TIMEVAL_MAX); |
|
72 |
elapsed_time = getElapsedTime(); |
|
38 | 73 |
|
71 | 74 |
/*printf("elapsed_time=%d real_timer_value=%d total_sleep_time=%d\n", elapsed_time, real_timer_value, total_sleep_time); */ |
38 | 75 |
if (total_sleep_time > elapsed_time && total_sleep_time - elapsed_time > real_timer_value) |
76 |
{ |
|
77 |
total_sleep_time = elapsed_time + real_timer_value; |
|
78 |
setTimer(real_timer_value); |
|
79 |
} |
|
71 | 80 |
/*printf("SetAlarm() return %d\n", row_number); */ |
38 | 81 |
return row_number; |
82 |
} |
|
83 |
return TIMER_NONE; |
|
84 |
} |
|
85 |
||
71 | 86 |
/* --------- Use this to remove an alarm --------- */ |
38 | 87 |
TIMER_HANDLE DelAlarm(TIMER_HANDLE handle) |
88 |
{ |
|
71 | 89 |
/* Quick and dirty. system timer will continue to be trigged, but no action will be preformed. */ |
38 | 90 |
MSG_WAR(0x3320, "DelAlarm. handle = ", handle); |
91 |
if(handle != TIMER_NONE) |
|
92 |
{ |
|
93 |
if(handle == last_timer_raw) |
|
94 |
last_timer_raw--; |
|
95 |
timers[handle].state = TIMER_FREE; |
|
96 |
} |
|
97 |
else { |
|
98 |
} |
|
99 |
return TIMER_NONE; |
|
100 |
} |
|
101 |
||
102 |
||
71 | 103 |
/* --------- TimeDispatch is called on each timer expiration --------- */ |
38 | 104 |
void TimeDispatch() |
105 |
{ |
|
106 |
TIMER_HANDLE i; |
|
71 | 107 |
TIMEVAL next_wakeup = TIMEVAL_MAX; /* used to compute when should normaly occur next wakeup */ |
108 |
/* First run : change timer state depending on time */ |
|
109 |
/* Get time since timer signal */ |
|
38 | 110 |
TIMEVAL overrun = getElapsedTime(); |
111 |
||
112 |
TIMEVAL real_total_sleep_time = total_sleep_time + overrun; |
|
71 | 113 |
/*printf("total_sleep_time %d + overrun %d\n", total_sleep_time , overrun); */ |
38 | 114 |
|
115 |
for(i=0; i <= last_timer_raw; i++) |
|
116 |
{ |
|
117 |
s_timer_entry *row = (timers+i); |
|
118 |
||
71 | 119 |
if (row->state & TIMER_ARMED) /* if row is active */ |
38 | 120 |
{ |
71 | 121 |
if (row->val <= real_total_sleep_time) /* to be trigged */ |
38 | 122 |
{ |
71 | 123 |
/*printf("row->val(%d) <= (%d)real_total_sleep_time\n", row->val, real_total_sleep_time); */ |
124 |
if (!row->interval) /* if simply outdated */ |
|
38 | 125 |
{ |
71 | 126 |
row->state = TIMER_TRIG; /* ask for trig */ |
38 | 127 |
} |
71 | 128 |
else /* or period have expired */ |
38 | 129 |
{ |
71 | 130 |
/* set val as interval, with overrun correction */ |
38 | 131 |
row->val = row->interval - (overrun % row->interval); |
71 | 132 |
row->state = TIMER_TRIG_PERIOD; /* ask for trig, periodic */ |
133 |
/* Check if this new timer value is the soonest */ |
|
38 | 134 |
next_wakeup = minval(row->val,next_wakeup); |
135 |
} |
|
136 |
} |
|
137 |
else |
|
138 |
{ |
|
71 | 139 |
/* Each armed timer value in decremented. */ |
38 | 140 |
row->val -= real_total_sleep_time; |
141 |
||
71 | 142 |
/* Check if this new timer value is the soonest */ |
38 | 143 |
next_wakeup = minval(row->val,next_wakeup); |
144 |
} |
|
145 |
} |
|
146 |
} |
|
147 |
||
71 | 148 |
/* Remember how much time we should sleep. */ |
38 | 149 |
total_sleep_time = next_wakeup; |
150 |
||
71 | 151 |
/* Set timer to soonest occurence */ |
38 | 152 |
setTimer(next_wakeup); |
153 |
||
71 | 154 |
/* Then trig them or not. */ |
38 | 155 |
for(i=0; i<=last_timer_raw; i++) |
156 |
{ |
|
157 |
s_timer_entry *row = (timers+i); |
|
158 |
||
159 |
if (row->state & TIMER_TRIG) |
|
160 |
{ |
|
71 | 161 |
row->state &= ~TIMER_TRIG; /* reset trig state (will be free if not periodic) */ |
149 | 162 |
if(row->callback) |
163 |
(*row->callback)(row->d, row->id); /* trig ! */ |
|
38 | 164 |
} |
165 |
} |
|
166 |
} |
|
167 |