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#!/usr/bin/env bats -*- bats -*-
#
# tests for podman kill
#
load helpers
@test "podman kill - test signal handling in containers" {
# Start a container that will handle all signals by emitting 'got: N'
local -a signals=(1 2 3 4 5 6 8 10 12 13 14 15 16 20 21 22 23 24 25 26 64)
run_podman run -d $IMAGE sh -c "for i in ${signals[*]}; do trap \"echo got: \$i\" \$i; done; echo READY; while ! test -e /stop; do sleep 0.05; done;echo DONE"
cid="$output"
# Run 'logs -f' on that container, but run it in the background with
# redirection to a named pipe from which we (foreground job) read
# and confirm that signals are received. We can't use run_podman here.
local fifo=${PODMAN_TMPDIR}/podman-kill-fifo.$(random_string 10)
mkfifo $fifo
$PODMAN logs -f $cid >$fifo </dev/null &
podman_log_pid=$!
# Open the FIFO for reading, and keep it open. This prevents a race
# condition in which the container can exit (e.g. if for some reason
# it doesn't handle the signal) and we (this test) try to read from
# the FIFO. Since there wouldn't be an active writer, the open()
# would hang forever. With this exec we keep the FD open, allowing
# 'read -t' to time out and report a useful error.
exec 5<$fifo
# First container emits READY when ready; wait for it.
read -t 10 -u 5 ready
is "$ready" "READY" "first log message from container"
# Helper function: send the given signal, verify that it's received.
kill_and_check() {
local signal=$1
local signum=${2:-$1} # e.g. if signal=HUP, we expect to see '1'
run_podman kill -s $signal $cid
read -t 10 -u 5 actual || die "Timed out: no ACK for kill -s $signal"
is "$actual" "got: $signum" "Signal $signal handled by container"
}
# Send signals in random order; make sure each one is received
for s in $(fmt --width=2 <<< "${signals[*]}" | sort --random-sort);do
kill_and_check $s
done
# Variations: with leading dash; by name, with/without dash or SIG
kill_and_check -1 1
kill_and_check -INT 2
kill_and_check FPE 8
kill_and_check -SIGUSR1 10
kill_and_check SIGUSR2 12
# Done. Tell the container to stop, and wait for final DONE
run_podman exec $cid touch /stop
read -t 5 -u 5 done || die "Timed out waiting for DONE from container"
is "$done" "DONE" "final log message from container"
# Clean up
run_podman wait $cid
run_podman rm $cid
wait $podman_log_pid
}
@test "podman kill - rejects invalid args" {
# These errors are thrown by the imported docker/signal.ParseSignal()
local -a bad_signal_names=(0 SIGBADSIG SIG BADSIG %% ! "''" '""' " ")
for s in ${bad_signal_names[@]}; do
# 'nosuchcontainer' is fine: podman should bail before it gets there
run_podman 125 kill -s $s nosuchcontainer
is "$output" "Error: Invalid signal: $s" "Error from kill -s $s"
run_podman 125 pod kill -s $s nosuchpod
is "$output" "Error: Invalid signal: $s" "Error from pod kill -s $s"
done
# Special case: these too are thrown by docker/signal.ParseSignal(),
# but the dash sign is stripped by our wrapper in utils, so the
# error message doesn't include the dash.
local -a bad_dash_signals=(-0 -SIGBADSIG -SIG -BADSIG -)
for s in ${bad_dash_signals[@]}; do
run_podman 125 kill -s $s nosuchcontainer
is "$output" "Error: Invalid signal: ${s##-}" "Error from kill -s $s"
done
# This error (signal out of range) is thrown by our wrapper
local -a bad_signal_nums=(65 -65 96 999 99999999)
for s in ${bad_signal_nums[@]}; do
run_podman 125 kill -s $s nosuchcontainer
is "$output" "Error: valid signals are 1 through 64" \
"Error from kill -s $s"
done
# 'podman create' uses the same parsing code
run_podman 125 create --stop-signal=99 $IMAGE
is "$output" "Error: valid signals are 1 through 64" "podman create"
}
# vim: filetype=sh
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