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/*-*- Mode: C; c-basic-offset: 8; indent-tabs-mode: nil -*-*/
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/***
This file is part of systemd .
Copyright 2010 Lennart Poettering
systemd is free software ; you can redistribute it and / or modify it
under the terms of the GNU General Public License as published by
the Free Software Foundation ; either version 2 of the License , or
( at your option ) any later version .
systemd is distributed in the hope that it will be useful , but
WITHOUT ANY WARRANTY ; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE . See the GNU
General Public License for more details .
You should have received a copy of the GNU General Public License
along with systemd ; If not , see < http : //www.gnu.org/licenses/>.
* * */
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# include <errno.h>
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# include "unit.h"
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# include "unit-name.h"
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# include "timer.h"
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# include "dbus-timer.h"
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# include "special.h"
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# include "bus-errors.h"
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static const UnitActiveState state_translation_table [ _TIMER_STATE_MAX ] = {
[ TIMER_DEAD ] = UNIT_INACTIVE ,
[ TIMER_WAITING ] = UNIT_ACTIVE ,
[ TIMER_RUNNING ] = UNIT_ACTIVE ,
[ TIMER_ELAPSED ] = UNIT_ACTIVE ,
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[ TIMER_FAILED ] = UNIT_FAILED
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} ;
static void timer_init ( Unit * u ) {
Timer * t = TIMER ( u ) ;
assert ( u ) ;
assert ( u - > meta . load_state = = UNIT_STUB ) ;
t - > next_elapse = ( usec_t ) - 1 ;
}
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static void timer_done ( Unit * u ) {
Timer * t = TIMER ( u ) ;
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TimerValue * v ;
assert ( t ) ;
while ( ( v = t - > values ) ) {
LIST_REMOVE ( TimerValue , value , t - > values , v ) ;
free ( v ) ;
}
unit_unwatch_timer ( u , & t - > timer_watch ) ;
}
static int timer_verify ( Timer * t ) {
assert ( t ) ;
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if ( t - > meta . load_state ! = UNIT_LOADED )
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return 0 ;
if ( ! t - > values ) {
log_error ( " %s lacks value setting. Refusing. " , t - > meta . id ) ;
return - EINVAL ;
}
return 0 ;
}
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static int timer_add_default_dependencies ( Timer * t ) {
int r ;
assert ( t ) ;
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if ( t - > meta . manager - > running_as = = MANAGER_SYSTEM ) {
if ( ( r = unit_add_dependency_by_name ( UNIT ( t ) , UNIT_BEFORE , SPECIAL_BASIC_TARGET , NULL , true ) ) < 0 )
return r ;
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if ( ( r = unit_add_two_dependencies_by_name ( UNIT ( t ) , UNIT_AFTER , UNIT_REQUIRES , SPECIAL_SYSINIT_TARGET , NULL , true ) ) < 0 )
return r ;
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}
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return unit_add_two_dependencies_by_name ( UNIT ( t ) , UNIT_BEFORE , UNIT_CONFLICTS , SPECIAL_SHUTDOWN_TARGET , NULL , true ) ;
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}
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static int timer_load ( Unit * u ) {
Timer * t = TIMER ( u ) ;
int r ;
assert ( u ) ;
assert ( u - > meta . load_state = = UNIT_STUB ) ;
if ( ( r = unit_load_fragment_and_dropin ( u ) ) < 0 )
return r ;
if ( u - > meta . load_state = = UNIT_LOADED ) {
if ( ! t - > unit )
if ( ( r = unit_load_related_unit ( u , " .service " , & t - > unit ) ) )
return r ;
if ( ( r = unit_add_dependency ( u , UNIT_BEFORE , t - > unit , true ) ) < 0 )
return r ;
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if ( t - > meta . default_dependencies )
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if ( ( r = timer_add_default_dependencies ( t ) ) < 0 )
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return r ;
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}
return timer_verify ( t ) ;
}
static void timer_dump ( Unit * u , FILE * f , const char * prefix ) {
Timer * t = TIMER ( u ) ;
TimerValue * v ;
char
timespan1 [ FORMAT_TIMESPAN_MAX ] ;
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fprintf ( f ,
" %sTimer State: %s \n "
" %sUnit: %s \n " ,
prefix , timer_state_to_string ( t - > state ) ,
prefix , t - > unit - > meta . id ) ;
LIST_FOREACH ( value , v , t - > values )
fprintf ( f ,
" %s%s: %s \n " ,
prefix ,
timer_base_to_string ( v - > base ) ,
strna ( format_timespan ( timespan1 , sizeof ( timespan1 ) , v - > value ) ) ) ;
}
static void timer_set_state ( Timer * t , TimerState state ) {
TimerState old_state ;
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assert ( t ) ;
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old_state = t - > state ;
t - > state = state ;
if ( state ! = TIMER_WAITING )
unit_unwatch_timer ( UNIT ( t ) , & t - > timer_watch ) ;
if ( state ! = old_state )
log_debug ( " %s changed %s -> %s " ,
t - > meta . id ,
timer_state_to_string ( old_state ) ,
timer_state_to_string ( state ) ) ;
unit_notify ( UNIT ( t ) , state_translation_table [ old_state ] , state_translation_table [ state ] ) ;
}
static void timer_enter_waiting ( Timer * t , bool initial ) ;
static int timer_coldplug ( Unit * u ) {
Timer * t = TIMER ( u ) ;
assert ( t ) ;
assert ( t - > state = = TIMER_DEAD ) ;
if ( t - > deserialized_state ! = t - > state ) {
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if ( t - > deserialized_state = = TIMER_WAITING )
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timer_enter_waiting ( t , false ) ;
else
timer_set_state ( t , t - > deserialized_state ) ;
}
return 0 ;
}
static void timer_enter_dead ( Timer * t , bool success ) {
assert ( t ) ;
if ( ! success )
t - > failure = true ;
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timer_set_state ( t , t - > failure ? TIMER_FAILED : TIMER_DEAD ) ;
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}
static void timer_enter_waiting ( Timer * t , bool initial ) {
TimerValue * v ;
usec_t base = 0 , delay , n ;
bool found = false ;
int r ;
n = now ( CLOCK_MONOTONIC ) ;
LIST_FOREACH ( value , v , t - > values ) {
if ( v - > disabled )
continue ;
switch ( v - > base ) {
case TIMER_ACTIVE :
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if ( state_translation_table [ t - > state ] = = UNIT_ACTIVE )
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base = t - > meta . inactive_exit_timestamp . monotonic ;
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else
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base = n ;
break ;
case TIMER_BOOT :
/* CLOCK_MONOTONIC equals the uptime on Linux */
base = 0 ;
break ;
case TIMER_STARTUP :
base = t - > meta . manager - > startup_timestamp . monotonic ;
break ;
case TIMER_UNIT_ACTIVE :
if ( t - > unit - > meta . inactive_exit_timestamp . monotonic < = 0 )
continue ;
base = t - > unit - > meta . inactive_exit_timestamp . monotonic ;
break ;
case TIMER_UNIT_INACTIVE :
if ( t - > unit - > meta . inactive_enter_timestamp . monotonic < = 0 )
continue ;
base = t - > unit - > meta . inactive_enter_timestamp . monotonic ;
break ;
default :
assert_not_reached ( " Unknown timer base " ) ;
}
v - > next_elapse = base + v - > value ;
if ( ! initial & & v - > next_elapse < n ) {
v - > disabled = true ;
continue ;
}
if ( ! found )
t - > next_elapse = v - > next_elapse ;
else
t - > next_elapse = MIN ( t - > next_elapse , v - > next_elapse ) ;
found = true ;
}
if ( ! found ) {
timer_set_state ( t , TIMER_ELAPSED ) ;
return ;
}
delay = n < t - > next_elapse ? t - > next_elapse - n : 0 ;
if ( ( r = unit_watch_timer ( UNIT ( t ) , delay , & t - > timer_watch ) ) < 0 )
goto fail ;
timer_set_state ( t , TIMER_WAITING ) ;
return ;
fail :
log_warning ( " %s failed to enter waiting state: %s " , t - > meta . id , strerror ( - r ) ) ;
timer_enter_dead ( t , false ) ;
}
static void timer_enter_running ( Timer * t ) {
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DBusError error ;
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int r ;
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assert ( t ) ;
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dbus_error_init ( & error ) ;
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/* Don't start job if we are supposed to go down */
if ( t - > meta . job & & t - > meta . job - > type = = JOB_STOP )
return ;
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if ( ( r = manager_add_job ( t - > meta . manager , JOB_START , t - > unit , JOB_REPLACE , true , & error , NULL ) ) < 0 )
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goto fail ;
timer_set_state ( t , TIMER_RUNNING ) ;
return ;
fail :
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log_warning ( " %s failed to queue unit startup job: %s " , t - > meta . id , bus_error ( & error , r ) ) ;
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timer_enter_dead ( t , false ) ;
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dbus_error_free ( & error ) ;
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}
static int timer_start ( Unit * u ) {
Timer * t = TIMER ( u ) ;
assert ( t ) ;
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assert ( t - > state = = TIMER_DEAD | | t - > state = = TIMER_FAILED ) ;
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if ( t - > unit - > meta . load_state ! = UNIT_LOADED )
return - ENOENT ;
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t - > failure = false ;
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timer_enter_waiting ( t , true ) ;
return 0 ;
}
static int timer_stop ( Unit * u ) {
Timer * t = TIMER ( u ) ;
assert ( t ) ;
assert ( t - > state = = TIMER_WAITING | | t - > state = = TIMER_RUNNING | | t - > state = = TIMER_ELAPSED ) ;
timer_enter_dead ( t , true ) ;
return 0 ;
}
static int timer_serialize ( Unit * u , FILE * f , FDSet * fds ) {
Timer * t = TIMER ( u ) ;
assert ( u ) ;
assert ( f ) ;
assert ( fds ) ;
unit_serialize_item ( u , f , " state " , timer_state_to_string ( t - > state ) ) ;
return 0 ;
}
static int timer_deserialize_item ( Unit * u , const char * key , const char * value , FDSet * fds ) {
Timer * t = TIMER ( u ) ;
assert ( u ) ;
assert ( key ) ;
assert ( value ) ;
assert ( fds ) ;
if ( streq ( key , " state " ) ) {
TimerState state ;
if ( ( state = timer_state_from_string ( value ) ) < 0 )
log_debug ( " Failed to parse state value %s " , value ) ;
else
t - > deserialized_state = state ;
} else
log_debug ( " Unknown serialization key '%s' " , key ) ;
return 0 ;
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}
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static UnitActiveState timer_active_state ( Unit * u ) {
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assert ( u ) ;
return state_translation_table [ TIMER ( u ) - > state ] ;
}
static const char * timer_sub_state_to_string ( Unit * u ) {
assert ( u ) ;
return timer_state_to_string ( TIMER ( u ) - > state ) ;
}
static void timer_timer_event ( Unit * u , uint64_t elapsed , Watch * w ) {
Timer * t = TIMER ( u ) ;
assert ( t ) ;
assert ( elapsed = = 1 ) ;
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if ( t - > state ! = TIMER_WAITING )
return ;
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log_debug ( " Timer elapsed on %s " , u - > meta . id ) ;
timer_enter_running ( t ) ;
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}
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void timer_unit_notify ( Unit * u , UnitActiveState new_state ) {
char * n ;
int r ;
Iterator i ;
if ( u - > meta . type = = UNIT_TIMER )
return ;
SET_FOREACH ( n , u - > meta . names , i ) {
char * k ;
Unit * p ;
Timer * t ;
TimerValue * v ;
if ( ! ( k = unit_name_change_suffix ( n , " .timer " ) ) ) {
r = - ENOMEM ;
goto fail ;
}
p = manager_get_unit ( u - > meta . manager , k ) ;
free ( k ) ;
if ( ! p )
continue ;
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if ( p - > meta . load_state ! = UNIT_LOADED )
continue ;
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t = TIMER ( p ) ;
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if ( t - > unit ! = u )
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continue ;
/* Reenable all timers that depend on unit state */
LIST_FOREACH ( value , v , t - > values )
if ( v - > base = = TIMER_UNIT_ACTIVE | |
v - > base = = TIMER_UNIT_INACTIVE )
v - > disabled = false ;
switch ( t - > state ) {
case TIMER_WAITING :
case TIMER_ELAPSED :
/* Recalculate sleep time */
timer_enter_waiting ( t , false ) ;
break ;
case TIMER_RUNNING :
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if ( UNIT_IS_INACTIVE_OR_FAILED ( new_state ) ) {
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log_debug ( " %s got notified about unit deactivation. " , t - > meta . id ) ;
timer_enter_waiting ( t , false ) ;
}
break ;
case TIMER_DEAD :
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case TIMER_FAILED :
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break ;
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default :
assert_not_reached ( " Unknown timer state " ) ;
}
}
return ;
fail :
log_error ( " Failed find timer unit: %s " , strerror ( - r ) ) ;
}
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static void timer_reset_failed ( Unit * u ) {
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Timer * t = TIMER ( u ) ;
assert ( t ) ;
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if ( t - > state = = TIMER_FAILED )
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timer_set_state ( t , TIMER_DEAD ) ;
t - > failure = false ;
}
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static const char * const timer_state_table [ _TIMER_STATE_MAX ] = {
[ TIMER_DEAD ] = " dead " ,
[ TIMER_WAITING ] = " waiting " ,
[ TIMER_RUNNING ] = " running " ,
[ TIMER_ELAPSED ] = " elapsed " ,
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[ TIMER_FAILED ] = " failed "
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} ;
DEFINE_STRING_TABLE_LOOKUP ( timer_state , TimerState ) ;
static const char * const timer_base_table [ _TIMER_BASE_MAX ] = {
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[ TIMER_ACTIVE ] = " OnActiveSec " ,
[ TIMER_BOOT ] = " OnBootSec " ,
[ TIMER_STARTUP ] = " OnStartupSec " ,
[ TIMER_UNIT_ACTIVE ] = " OnUnitActiveSec " ,
[ TIMER_UNIT_INACTIVE ] = " OnUnitInactiveSec "
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} ;
DEFINE_STRING_TABLE_LOOKUP ( timer_base , TimerBase ) ;
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const UnitVTable timer_vtable = {
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. suffix = " .timer " ,
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. init = timer_init ,
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. done = timer_done ,
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. load = timer_load ,
. coldplug = timer_coldplug ,
. dump = timer_dump ,
. start = timer_start ,
. stop = timer_stop ,
. serialize = timer_serialize ,
. deserialize_item = timer_deserialize_item ,
. active_state = timer_active_state ,
. sub_state_to_string = timer_sub_state_to_string ,
. timer_event = timer_timer_event ,
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. reset_failed = timer_reset_failed ,
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. bus_interface = " org.freedesktop.systemd1.Timer " ,
. bus_message_handler = bus_timer_message_handler ,
. bus_invalidating_properties = bus_timer_invalidating_properties
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} ;