linux-zen-server/tools/testing/selftests/gpio/gpio-mockup.sh

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2023-08-30 17:53:23 +02:00
#!/bin/bash -efu
# SPDX-License-Identifier: GPL-2.0
#exit status
#0: success
#1: fail
#4: skip test - including run as non-root user
BASE=${0%/*}
DEBUGFS=
GPIO_DEBUGFS=
dev_type="cdev"
module="gpio-mockup"
verbose=
full_test=
random=
uapi_opt=
active_opt=
bias_opt=
line_set_pid=
# Kselftest return codes
ksft_fail=1
ksft_skip=4
usage()
{
echo "Usage:"
echo "$0 [-frv] [-t type]"
echo "-f: full test (minimal set run by default)"
echo "-r: test random lines as well as fence posts"
echo "-t: interface type:"
echo " cdev (character device ABI) - default"
echo " cdev_v1 (deprecated character device ABI)"
echo " sysfs (deprecated SYSFS ABI)"
echo "-v: verbose progress reporting"
exit $ksft_fail
}
skip()
{
echo "$*" >&2
echo "GPIO $module test SKIP"
exit $ksft_skip
}
prerequisite()
{
[ $(id -u) -eq 0 ] || skip "must be run as root"
DEBUGFS=$(grep -w debugfs /proc/mounts | cut -f2 -d' ')
[ -d "$DEBUGFS" ] || skip "debugfs is not mounted"
GPIO_DEBUGFS=$DEBUGFS/$module
}
remove_module()
{
modprobe -r -q $module
}
cleanup()
{
set +e
release_line
remove_module
jobs -p | xargs -r kill > /dev/null 2>&1
}
fail()
{
echo "test failed: $*" >&2
echo "GPIO $module test FAIL"
exit $ksft_fail
}
try_insert_module()
{
modprobe -q $module "$1" || fail "insert $module failed with error $?"
}
log()
{
[ -z "$verbose" ] || echo "$*"
}
# The following line helpers, release_Line, get_line and set_line, all
# make use of the global $chip and $offset variables.
#
# This implementation drives the GPIO character device (cdev) uAPI.
# Other implementations may override these to test different uAPIs.
# Release any resources related to the line
release_line()
{
[ "$line_set_pid" ] && kill $line_set_pid && wait $line_set_pid || true
line_set_pid=
}
# Read the current value of the line
get_line()
{
release_line
local cdev_opts=${uapi_opt}${active_opt}
$BASE/gpio-mockup-cdev $cdev_opts /dev/$chip $offset
echo $?
}
# Set the state of the line
#
# Changes to line configuration are provided as parameters.
# The line is assumed to be an output if the line value 0 or 1 is
# specified, else an input.
set_line()
{
local val=
release_line
# parse config options...
for option in $*; do
case $option in
active-low)
active_opt="-l "
;;
active-high)
active_opt=
;;
bias-none)
bias_opt=
;;
pull-down)
bias_opt="-bpull-down "
;;
pull-up)
bias_opt="-bpull-up "
;;
0)
val=0
;;
1)
val=1
;;
esac
done
local cdev_opts=${uapi_opt}${active_opt}
if [ "$val" ]; then
$BASE/gpio-mockup-cdev $cdev_opts -s$val /dev/$chip $offset &
# failure to set is detected by reading mockup and toggling values
line_set_pid=$!
# allow for gpio-mockup-cdev to launch and request line
# (there is limited value in checking if line has been requested)
sleep 0.01
elif [ "$bias_opt" ]; then
cdev_opts=${cdev_opts}${bias_opt}
$BASE/gpio-mockup-cdev $cdev_opts /dev/$chip $offset || true
fi
}
assert_line()
{
local val
# don't need any retry here as set_mock allows for propagation
val=$(get_line)
[ "$val" = "$1" ] || fail "line value is ${val:-empty} when $1 was expected"
}
# The following mockup helpers all make use of the $mock_line
assert_mock()
{
local backoff_wait=10
local retry=0
local val
# retry allows for set propagation from uAPI to mockup
while true; do
val=$(< $mock_line)
[ "$val" = "$1" ] && break
retry=$((retry + 1))
[ $retry -lt 5 ] || fail "mockup $mock_line value ${val:-empty} when $1 expected"
sleep $(printf "%0.2f" $((backoff_wait))e-3)
backoff_wait=$((backoff_wait * 2))
done
}
set_mock()
{
echo "$1" > $mock_line
# allow for set propagation - so we won't be in a race with set_line
assert_mock "$1"
}
# test the functionality of a line
#
# The line is set from the mockup side and is read from the userspace side
# (input), and is set from the userspace side and is read from the mockup side
# (output).
#
# Setting the mockup pull using the userspace interface bias settings is
# tested where supported by the userspace interface (cdev).
test_line()
{
chip=$1
offset=$2
log "test_line $chip $offset"
mock_line=$GPIO_DEBUGFS/$chip/$offset
[ -e "$mock_line" ] || fail "missing line $chip:$offset"
# test input active-high
set_mock 1
set_line input active-high
assert_line 1
set_mock 0
assert_line 0
set_mock 1
assert_line 1
if [ "$full_test" ]; then
if [ "$dev_type" != "sysfs" ]; then
# test pulls
set_mock 0
set_line input pull-up
assert_line 1
set_mock 0
assert_line 0
set_mock 1
set_line input pull-down
assert_line 0
set_mock 1
assert_line 1
set_line bias-none
fi
# test input active-low
set_mock 0
set_line active-low
assert_line 1
set_mock 1
assert_line 0
set_mock 0
assert_line 1
# test output active-high
set_mock 1
set_line active-high 0
assert_mock 0
set_line 1
assert_mock 1
set_line 0
assert_mock 0
fi
# test output active-low
set_mock 0
set_line active-low 0
assert_mock 1
set_line 1
assert_mock 0
set_line 0
assert_mock 1
release_line
}
test_no_line()
{
log test_no_line "$*"
[ ! -e "$GPIO_DEBUGFS/$1/$2" ] || fail "unexpected line $1:$2"
}
# Load the module and check that the expected number of gpiochips, with the
# expected number of lines, are created and are functional.
#
# $1 is the gpio_mockup_ranges parameter for the module
# The remaining parameters are the number of lines, n, expected for each of
# the gpiochips expected to be created.
#
# For each gpiochip the fence post lines, 0 and n-1, are tested, and the
# line on the far side of the fence post, n, is tested to not exist.
#
# If the $random flag is set then a random line in the middle of the
# gpiochip is tested as well.
insmod_test()
{
local ranges=
local gc=
local width=
[ "${1:-}" ] || fail "missing ranges"
ranges=$1 ; shift
try_insert_module "gpio_mockup_ranges=$ranges"
log "GPIO $module test with ranges: <$ranges>:"
# e.g. /sys/kernel/debug/gpio-mockup/gpiochip1
gpiochip=$(find "$DEBUGFS/$module/" -name gpiochip* -type d | sort)
for chip in $gpiochip; do
gc=${chip##*/}
[ "${1:-}" ] || fail "unexpected chip - $gc"
width=$1 ; shift
test_line $gc 0
if [ "$random" -a $width -gt 2 ]; then
test_line $gc $((RANDOM % ($width - 2) + 1))
fi
test_line $gc $(($width - 1))
test_no_line $gc $width
done
[ "${1:-}" ] && fail "missing expected chip of width $1"
remove_module || fail "failed to remove module with error $?"
}
while getopts ":frvt:" opt; do
case $opt in
f)
full_test=true
;;
r)
random=true
;;
t)
dev_type=$OPTARG
;;
v)
verbose=true
;;
*)
usage
;;
esac
done
shift $((OPTIND - 1))
[ "${1:-}" ] && fail "unknown argument '$1'"
prerequisite
trap 'exit $ksft_fail' SIGTERM SIGINT
trap cleanup EXIT
case "$dev_type" in
sysfs)
source $BASE/gpio-mockup-sysfs.sh
echo "WARNING: gpio sysfs ABI is deprecated."
;;
cdev_v1)
echo "WARNING: gpio cdev ABI v1 is deprecated."
uapi_opt="-u1 "
;;
cdev)
;;
*)
fail "unknown interface type: $dev_type"
;;
esac
remove_module || fail "can't remove existing $module module"
# manual gpio allocation tests fail if a physical chip already exists
[ "$full_test" -a -e "/dev/gpiochip0" ] && skip "full tests conflict with gpiochip0"
echo "1. Module load tests"
echo "1.1. dynamic allocation of gpio"
insmod_test "-1,32" 32
insmod_test "-1,23,-1,32" 23 32
insmod_test "-1,23,-1,26,-1,32" 23 26 32
if [ "$full_test" ]; then
echo "1.2. manual allocation of gpio"
insmod_test "0,32" 32
insmod_test "0,32,32,60" 32 28
insmod_test "0,32,40,64,64,96" 32 24 32
echo "1.3. dynamic and manual allocation of gpio"
insmod_test "-1,32,32,62" 32 30
insmod_test "-1,22,-1,23,0,24,32,64" 22 23 24 32
insmod_test "-1,32,32,60,-1,29" 32 28 29
insmod_test "-1,32,40,64,-1,5" 32 24 5
insmod_test "0,32,32,44,-1,22,-1,31" 32 12 22 31
fi
echo "2. Module load error tests"
echo "2.1 gpio overflow"
# Currently: The max number of gpio(1024) is defined in arm architecture.
insmod_test "-1,1024"
if [ "$full_test" ]; then
echo "2.2 no lines defined"
insmod_test "0,0"
echo "2.3 ignore range overlap"
insmod_test "0,32,0,1" 32
insmod_test "0,32,1,5" 32
insmod_test "0,32,30,35" 32
insmod_test "0,32,31,32" 32
insmod_test "10,32,30,35" 22
insmod_test "10,32,9,14" 22
insmod_test "0,32,20,21,40,56" 32 16
insmod_test "0,32,32,64,32,40" 32 32
insmod_test "0,32,32,64,36,37" 32 32
insmod_test "0,32,35,64,34,36" 32 29
insmod_test "0,30,35,64,35,45" 30 29
insmod_test "0,32,40,56,30,33" 32 16
insmod_test "0,32,40,56,30,41" 32 16
insmod_test "0,32,40,56,39,45" 32 16
fi
echo "GPIO $module test PASS"