I have a global var foo="some value" and a background process back_func, I want to the background process to access $foo and modify its value, which can be seen by the main process. It's something like the following:
#!/bin/bash
foo=0
function back_func {
foo=$(($foo+1))
echo "back $foo"
}
(back_func) &
echo "global $foo"
The result of the above script is
global 0
back 1
How could I get the result of global and back are both '1'?, i.e. the back ground process's modification can return back to the main process.
Playing with bash_ipc_demo
adding completion and a graph generator.
If you wanna have two independant process which could communicate, you have to place a rendez-vous somewhere both process can reach.
This could be a simple file, a fifo pipe, a unix socket, a TCP socket or maybe else (Rexx port).
Bash don't have a equivalent to rexx port, so there is a little sample, using a rendez-vous file, that work (on my Linux).
I'm using shared memory /dev/shm
, to reduce disk load.
$ back_func() {
while :;do
echo $(($(</dev/shm/foo)+1)) >/dev/shm/foo;
sleep .3;
done;
}
Let play
$ echo 1 >/dev/shm/foo
$ back_func &
$ echo $(</dev/shm/foo)
4
$ echo $(</dev/shm/foo)
21
Than stop now:
$ fg
back_func
^C
or
$ kill $!
$
[1]+ Terminated back_func
For having many vars, there could by a nice manner:
$ back_func() {
declare -A MYGLOBAL
local vars
while :; do
((MYGLOBAL["counter"]++))
IFS=\ / read -a vars <<< "$(</proc/uptime) $(</proc/loadavg)"
MYGLOBAL["uptime"]=$vars
MYGLOBAL["idle"]=${vars[1]}
MYGLOBAL["l01m"]=${vars[2]}
MYGLOBAL["l05m"]=${vars[3]}
MYGLOBAL["l15m"]=${vars[4]}
MYGLOBAL["active"]=${vars[5]}
MYGLOBAL["procs"]=${vars[6]}
MYGLOBAL["lpid"]=${vars[7]}
MYGLOBAL["rand"]=$RANDOM
MYGLOBAL["crt"]=$SECONDS
declare -p MYGLOBAL > /dev/shm/foo
sleep 1
done
}
Then
$ back_func &
[1] 27429
$ . /dev/shm/foo
$ echo ${MYGLOBAL['counter']}
5
$ echo ${MYGLOBAL['lpid']}
27432
and from there, why not:
$ dumpMyGlobal() {
. /dev/shm/foo
printf "%8s " ${!MYGLOBAL[@]}
echo
printf "%8s " ${MYGLOBAL[@]}
echo
}
$ dumpMyGlobal
l15m uptime crt procs lpid active rand idle l05m
counter l01m
0.42 13815568.06 95 554 649 1 31135 21437004.95
0.38 73 0.50
$ dumpMyGlobal
l15m uptime crt procs lpid active rand idle l05m
counter l01m
0.41 13815593.29 120 553 727 2 3849 21437046.41
0.35 98 0.33
or
$ dumpMyGlobal() {
. /dev/shm/foo
sort <(
paste <(
printf "%-12s\n" ${!MYGLOBAL[@]}
) <(printf "%s\n" ${MYGLOBAL[@]})
)
}
$ dumpMyGlobal
active 1
counter 297
crt 337
idle 21435798.86
l01m 0.40
l05m 0.44
l15m 0.45
lpid 30418
procs 553
rand 7328
uptime 13814820.80
and finally getMyGlobalVar
function
$ declare -A MYGLOBALLOCK # snapshot variable
$ getMyGlobalVar () {
local i sync=false
[ "$1" == "--sync" ] && shift && sync=true
if [ -z "${MYGLOBALLOCK[*]}" ] || $sync; then
. /dev/shm/foo
for i in ${!MYGLOBAL[@]}
do
MYGLOBALLOCK[$i]=${MYGLOBAL[$i]}
done
fi
echo ${MYGLOBALLOCK[$1]}
}
will require --sync
flag for re-reading rendez-vous in order to let you look about each fields from the same snapshot.
$ getMyGlobalVar --sync idle
362084.12
$ getMyGlobalVar idle
362084.12
$ getMyGlobalVar rand
1533
$ getMyGlobalVar rand
1533
$ getMyGlobalVar --sync rand
43256
$ getMyGlobalVar idle
362127.63
There is a full sample: bash_ipc_demo or bash_ipc_demo.shz
You could use by:
wget http://f-hauri.ch/vrac/bash_ipc_demo
source bash_ipc_demo
back_func help
Usage: back_func [-q] [start [-g N]|stop|restart|status|get|dump|help]
-q Quiet
-g N Start daemon, setting uptime_useGraph to N values
back_func status
Background loop function is not running.
back_func start -g 3600
back_func status
Background loop function (19939) is running.
From there, if you source bash_ipc_demo
in another terminal, you could do the list into them.
You could even close the first terminal.
back_func dump
backFunc_count 13
backFunc_now 2016-04-06 17:03:19
backFunc_pid 19939
backFunc_running yes
backFunc_start 2016-04-06 17:03:07
cpu_numcores 2
loadavg_15min 0.44
loadavg_1min 0.66
loadavg_5min 0.54
loadavg_active 1
loadavg_last_pid 20005
loadavg_process 650
random 3714432
uptime_graph_val 3600
uptime_idle 425499.43
uptime_up 495423.53
uptime_usage1sec 9.90
uptime_usage 57.06
uptime_useGraph 57.06 8.91 7.50 6.93 12.00 9.41 7.84 9.90 7.50 11.88 7.92 9.31
9.90
Then, you could get one value
back_func get backFunc_pid newVar
echo $newVar
19939
or build a quick cpu graph:
lastMinuteGraph -p -o /tmp/lastMinuteGraph.png -W 640 -H 220
This will render a 640x220 PNG graphic, with uptime_graph_val
values.
In this case, as back_func start
was invoked with -g 3600
from more
than one hour, graphic show 3600 peek on 640 columns and 0-100% on 220 lines:
(Nota: Command was originaly named lastMinuteGraph
as 1st version of this just stored 60 values, now this use uptime_graph_val
for number of values to store. As I've used -g 3600
argument, this command could by named lastHourGraph
).
Then:
back_func stop
back_func get backFunc_end
2019-01-02 16:35:00