#!/bin/bash # SPDX-License-Identifier: GPL-2.0 # # Test for cpuset v2 partition root state (PRS) # # The sched verbose flag can be optionally set so that the console log # can be examined for the correct setting of scheduling domain. # skip_test() { echo "$1" echo "Test SKIPPED" exit 4 # ksft_skip } [[ $(id -u) -eq 0 ]] || skip_test "Test must be run as root!" # Get wait_inotify location WAIT_INOTIFY=$(cd $(dirname $0); pwd)/wait_inotify # Find cgroup v2 mount point CGROUP2=$(mount -t cgroup2 | head -1 | awk -e '{print $3}') [[ -n "$CGROUP2" ]] || skip_test "Cgroup v2 mount point not found!" SUBPARTS_CPUS=$CGROUP2/.__DEBUG__.cpuset.cpus.subpartitions CPULIST=$(cat $CGROUP2/cpuset.cpus.effective) NR_CPUS=$(lscpu | grep "^CPU(s):" | sed -e "s/.*:[[:space:]]*//") [[ $NR_CPUS -lt 8 ]] && skip_test "Test needs at least 8 cpus available!" # Check to see if /dev/console exists and is writable if [[ -c /dev/console && -w /dev/console ]] then CONSOLE=/dev/console else CONSOLE=/dev/null fi # Set verbose flag and delay factor PROG=$1 VERBOSE=0 DELAY_FACTOR=1 SCHED_DEBUG= while [[ "$1" = -* ]] do case "$1" in -v) ((VERBOSE++)) # Enable sched/verbose can slow thing down [[ $DELAY_FACTOR -eq 1 ]] && DELAY_FACTOR=2 ;; -d) DELAY_FACTOR=$2 shift ;; *) echo "Usage: $PROG [-v] [-d " exit ;; esac shift done # Set sched verbose flag if available when "-v" option is specified if [[ $VERBOSE -gt 0 && -d /sys/kernel/debug/sched ]] then # Used to restore the original setting during cleanup SCHED_DEBUG=$(cat /sys/kernel/debug/sched/verbose) echo Y > /sys/kernel/debug/sched/verbose fi cd $CGROUP2 echo +cpuset > cgroup.subtree_control # # If cpuset has been set up and used in child cgroups, we may not be able to # create partition under root cgroup because of the CPU exclusivity rule. # So we are going to skip the test if this is the case. # [[ -d test ]] || mkdir test echo 0-6 > test/cpuset.cpus echo root > test/cpuset.cpus.partition cat test/cpuset.cpus.partition | grep -q invalid RESULT=$? echo member > test/cpuset.cpus.partition echo "" > test/cpuset.cpus [[ $RESULT -eq 0 ]] && skip_test "Child cgroups are using cpuset!" # # If isolated CPUs have been reserved at boot time (as shown in # cpuset.cpus.isolated), these isolated CPUs should be outside of CPUs 0-8 # that will be used by this script for testing purpose. If not, some of # the tests may fail incorrectly. Wait a bit and retry again just in case # these isolated CPUs are leftover from previous run and have just been # cleaned up earlier in this script. # # These pre-isolated CPUs should stay in an isolated state throughout the # testing process for now. # BOOT_ISOLCPUS=$(cat $CGROUP2/cpuset.cpus.isolated) [[ -n "$BOOT_ISOLCPUS" ]] && { sleep 0.5 BOOT_ISOLCPUS=$(cat $CGROUP2/cpuset.cpus.isolated) } if [[ -n "$BOOT_ISOLCPUS" ]] then [[ $(echo $BOOT_ISOLCPUS | sed -e "s/[,-].*//") -le 8 ]] && skip_test "Pre-isolated CPUs ($BOOT_ISOLCPUS) overlap CPUs to be tested" echo "Pre-isolated CPUs: $BOOT_ISOLCPUS" fi cleanup() { online_cpus cd $CGROUP2 rmdir A1/A2/A3 A1/A2 A1 B1 test/A1 test/B1 test > /dev/null 2>&1 rmdir rtest/p1/c11 rtest/p1/c12 rtest/p2/c21 \ rtest/p2/c22 rtest/p1 rtest/p2 rtest > /dev/null 2>&1 [[ -n "$SCHED_DEBUG" ]] && echo "$SCHED_DEBUG" > /sys/kernel/debug/sched/verbose } # Pause in ms pause() { DELAY=$1 LOOP=0 while [[ $LOOP -lt $DELAY_FACTOR ]] do sleep $DELAY ((LOOP++)) done return 0 } console_msg() { MSG=$1 echo "$MSG" echo "" > $CONSOLE echo "$MSG" > $CONSOLE pause 0.01 } test_partition() { EXPECTED_VAL=$1 echo $EXPECTED_VAL > cpuset.cpus.partition [[ $? -eq 0 ]] || exit 1 ACTUAL_VAL=$(cat cpuset.cpus.partition) [[ $ACTUAL_VAL != $EXPECTED_VAL ]] && { echo "cpuset.cpus.partition: expect $EXPECTED_VAL, found $ACTUAL_VAL" echo "Test FAILED" exit 1 } } test_effective_cpus() { EXPECTED_VAL=$1 ACTUAL_VAL=$(cat cpuset.cpus.effective) [[ "$ACTUAL_VAL" != "$EXPECTED_VAL" ]] && { echo "cpuset.cpus.effective: expect '$EXPECTED_VAL', found '$ACTUAL_VAL'" echo "Test FAILED" exit 1 } } # Adding current process to cgroup.procs as a test test_add_proc() { OUTSTR="$1" ERRMSG=$((echo $$ > cgroup.procs) |& cat) echo $ERRMSG | grep -q "$OUTSTR" [[ $? -ne 0 ]] && { echo "cgroup.procs: expect '$OUTSTR', got '$ERRMSG'" echo "Test FAILED" exit 1 } echo $$ > $CGROUP2/cgroup.procs # Move out the task } # # Cpuset controller state transition test matrix. # # Cgroup test hierarchy # # root # | # +------+------+ # | | # A1 B1 # | # A2 # | # A3 # # P = set cpus.partition (0:member, 1:root, 2:isolated) # C = add cpu-list to cpuset.cpus # X = add cpu-list to cpuset.cpus.exclusive # T = put a task into cgroup # CX = add cpu-list to both cpuset.cpus and cpuset.cpus.exclusive # O= = Write to CPU online file of # # ECPUs - effective CPUs of cpusets # Pstate - partition root state # ISOLCPUS - isolated CPUs ([,]) # # Note that if there are 2 fields in ISOLCPUS, the first one is for # sched-debug matching which includes offline CPUs and single-CPU partitions # while the second one is for matching cpuset.cpus.isolated. # SETUP_A123_PARTITIONS="C1-3:P1 C2-3:P1 C3:P1" TEST_MATRIX=( # old-A1 old-A2 old-A3 old-B1 new-A1 new-A2 new-A3 new-B1 fail ECPUs Pstate ISOLCPUS # ------ ------ ------ ------ ------ ------ ------ ------ ---- ----- ------ -------- " C0-1 . . C2-3 . C4-5 . . 0 A2:0-1" " C0-1 . . C2-3 P1 . . . 0 " " C0-1 . . C2-3 P1 C0-1:P1 . . 0 " " C0-1 . . C2-3 P1 C1:P1 . . 0 " " C0-1 . . C2-3 . . . P1 0 " " C0-1:P1 . . C2-3 . C1 . . 0 " " C0-1:P1 . . C2-3 . C1:P1 . . 0 " " C0-1:P1 . . C2-3 . C1:P1 . P1 0 " " C0-1:P1 . . C2-3 C4-5 . . . 0 A1:4-5" " C0-1 . . C2-3:P1 . . . C2 0 " " C0-1 . . C2-3:P1 . . . C4-5 0 B1:4-5" " C0-3:P1 C2-3:P1 . . . . . . 0 A1:0-1|A2:2-3|XA2:2-3" " C0-3:P1 C2-3:P1 . . C1-3 . . . 0 A1:1|A2:2-3|XA2:2-3" " C2-3:P1 C3:P1 . . C3 . . . 0 A1:|A2:3|XA2:3 A1:P1|A2:P1" " C2-3:P1 C3:P1 . . C3 P0 . . 0 A1:3|A2:3 A1:P1|A2:P0" " C2-3:P1 C2:P1 . . C2-4 . . . 0 A1:3-4|A2:2" " C2-3:P1 C3:P1 . . C3 . . C0-2 0 A1:|B1:0-2 A1:P1|A2:P1" "$SETUP_A123_PARTITIONS . C2-3 . . . 0 A1:|A2:2|A3:3 A1:P1|A2:P1|A3:P1" # CPU offlining cases: " C0-1 . . C2-3 . C4-5 . O2=0 0 A1:0-1|B1:3" " C0-3:P1 C2-3:P1 . . O2=0 . . . 0 A1:0-1|A2:3" " C0-3:P1 C2-3:P1 . . O2=0 O2=1 . . 0 A1:0-1|A2:2-3" " C0-3:P1 C2-3:P1 . . O1=0 . . . 0 A1:0|A2:2-3" " C0-3:P1 C2-3:P1 . . O1=0 O1=1 . . 0 A1:0-1|A2:2-3" " C2-3:P1 C3:P1 . . O3=0 O3=1 . . 0 A1:2|A2:3 A1:P1|A2:P1" " C2-3:P1 C3:P2 . . O3=0 O3=1 . . 0 A1:2|A2:3 A1:P1|A2:P2" " C2-3:P1 C3:P1 . . O2=0 O2=1 . . 0 A1:2|A2:3 A1:P1|A2:P1" " C2-3:P1 C3:P2 . . O2=0 O2=1 . . 0 A1:2|A2:3 A1:P1|A2:P2" " C2-3:P1 C3:P1 . . O2=0 . . . 0 A1:|A2:3 A1:P1|A2:P1" " C2-3:P1 C3:P1 . . O3=0 . . . 0 A1:2|A2: A1:P1|A2:P1" " C2-3:P1 C3:P1 . . T:O2=0 . . . 0 A1:3|A2:3 A1:P1|A2:P-1" " C2-3:P1 C3:P1 . . . T:O3=0 . . 0 A1:2|A2:2 A1:P1|A2:P-1" " C2-3:P1 C3:P2 . . T:O2=0 . . . 0 A1:3|A2:3 A1:P1|A2:P-2" " C1-3:P1 C3:P2 . . . T:O3=0 . . 0 A1:1-2|A2:1-2 A1:P1|A2:P-2 3|" " C1-3:P1 C3:P2 . . . T:O3=0 O3=1 . 0 A1:1-2|A2:3 A1:P1|A2:P2 3" "$SETUP_A123_PARTITIONS . O1=0 . . . 0 A1:|A2:2|A3:3 A1:P1|A2:P1|A3:P1" "$SETUP_A123_PARTITIONS . O2=0 . . . 0 A1:1|A2:|A3:3 A1:P1|A2:P1|A3:P1" "$SETUP_A123_PARTITIONS . O3=0 . . . 0 A1:1|A2:2|A3: A1:P1|A2:P1|A3:P1" "$SETUP_A123_PARTITIONS . T:O1=0 . . . 0 A1:2-3|A2:2-3|A3:3 A1:P1|A2:P-1|A3:P-1" "$SETUP_A123_PARTITIONS . . T:O2=0 . . 0 A1:1|A2:3|A3:3 A1:P1|A2:P1|A3:P-1" "$SETUP_A123_PARTITIONS . . . T:O3=0 . 0 A1:1|A2:2|A3:2 A1:P1|A2:P1|A3:P-1" "$SETUP_A123_PARTITIONS . T:O1=0 O1=1 . . 0 A1:1|A2:2|A3:3 A1:P1|A2:P1|A3:P1" "$SETUP_A123_PARTITIONS . . T:O2=0 O2=1 . 0 A1:1|A2:2|A3:3 A1:P1|A2:P1|A3:P1" "$SETUP_A123_PARTITIONS . . . T:O3=0 O3=1 0 A1:1|A2:2|A3:3 A1:P1|A2:P1|A3:P1" "$SETUP_A123_PARTITIONS . T:O1=0 O2=0 O1=1 . 0 A1:1|A2:|A3:3 A1:P1|A2:P1|A3:P1" "$SETUP_A123_PARTITIONS . T:O1=0 O2=0 O2=1 . 0 A1:2-3|A2:2-3|A3:3 A1:P1|A2:P-1|A3:P-1" # old-A1 old-A2 old-A3 old-B1 new-A1 new-A2 new-A3 new-B1 fail ECPUs Pstate ISOLCPUS # ------ ------ ------ ------ ------ ------ ------ ------ ---- ----- ------ -------- # # Remote partition and cpuset.cpus.exclusive tests # " C0-3 C1-3 C2-3 . X2-3 . . . 0 A1:0-3|A2:1-3|A3:2-3|XA1:2-3" " C0-3 C1-3 C2-3 . X2-3 X2-3:P2 . . 0 A1:0-1|A2:2-3|A3:2-3 A1:P0|A2:P2 2-3" " C0-3 C1-3 C2-3 . X2-3 X3:P2 . . 0 A1:0-2|A2:3|A3:3 A1:P0|A2:P2 3" " C0-3 C1-3 C2-3 . X2-3 X2-3 X2-3:P2 . 0 A1:0-1|A2:1|A3:2-3 A1:P0|A3:P2 2-3" " C0-3 C1-3 C2-3 . X2-3 X2-3 X2-3:P2:C3 . 0 A1:0-1|A2:1|A3:2-3 A1:P0|A3:P2 2-3" " C0-3 C1-3 C2-3 C2-3 . . . P2 0 A1:0-1|A2:1|A3:1|B1:2-3 A1:P0|A3:P0|B1:P2" " C0-3 C1-3 C2-3 C4-5 . . . P2 0 B1:4-5 B1:P2 4-5" " C0-3 C1-3 C2-3 C4 X2-3 X2-3 X2-3:P2 P2 0 A3:2-3|B1:4 A3:P2|B1:P2 2-4" " C0-3 C1-3 C2-3 C4 X2-3 X2-3 X2-3:P2:C1-3 P2 0 A3:2-3|B1:4 A3:P2|B1:P2 2-4" " C0-3 C1-3 C2-3 C4 X1-3 X1-3:P2 P2 . 0 A2:1|A3:2-3 A2:P2|A3:P2 1-3" " C0-3 C1-3 C2-3 C4 X2-3 X2-3 X2-3:P2 P2:C4-5 0 A3:2-3|B1:4-5 A3:P2|B1:P2 2-5" " C4:X0-3 X1-3 X2-3 . . P2 . . 0 A1:4|A2:1-3|A3:1-3 A2:P2 1-3" " C4:X0-3 X1-3 X2-3 . . . P2 . 0 A1:4|A2:4|A3:2-3 A3:P2 2-3" # Nested remote/local partition tests " C0-3 C1-3 C2-3 C4-5 X2-3 X2-3:P1 P2 P1 0 A1:0-1|A2:|A3:2-3|B1:4-5 \ A1:P0|A2:P1|A3:P2|B1:P1 2-3" " C0-3 C1-3 C2-3 C4 X2-3 X2-3:P1 P2 P1 0 A1:0-1|A2:|A3:2-3|B1:4 \ A1:P0|A2:P1|A3:P2|B1:P1 2-4|2-3" " C0-3 C1-3 C2-3 C4 X2-3 X2-3:P1 . P1 0 A1:0-1|A2:2-3|A3:2-3|B1:4 \ A1:P0|A2:P1|A3:P0|B1:P1" " C0-3 C1-3 C3 C4 X2-3 X2-3:P1 P2 P1 0 A1:0-1|A2:2|A3:3|B1:4 \ A1:P0|A2:P1|A3:P2|B1:P1 2-4|3" " C0-4 C1-4 C2-4 . X2-4 X2-4:P2 X4:P1 . 0 A1:0-1|A2:2-3|A3:4 \ A1:P0|A2:P2|A3:P1 2-4|2-3" " C0-4 C1-4 C2-4 . X2-4 X2-4:P2 X3-4:P1 . 0 A1:0-1|A2:2|A3:3-4 \ A1:P0|A2:P2|A3:P1 2" " C0-4:X2-4 C1-4:X2-4:P2 C2-4:X4:P1 \ . . X5 . . 0 A1:0-4|A2:1-4|A3:2-4 \ A1:P0|A2:P-2|A3:P-1 ." " C0-4:X2-4 C1-4:X2-4:P2 C2-4:X4:P1 \ . . . X1 . 0 A1:0-1|A2:2-4|A3:2-4 \ A1:P0|A2:P2|A3:P-1 2-4" # Remote partition offline tests " C0-3 C1-3 C2-3 . X2-3 X2-3 X2-3:P2:O2=0 . 0 A1:0-1|A2:1|A3:3 A1:P0|A3:P2 2-3" " C0-3 C1-3 C2-3 . X2-3 X2-3 X2-3:P2:O2=0 O2=1 0 A1:0-1|A2:1|A3:2-3 A1:P0|A3:P2 2-3" " C0-3 C1-3 C3 . X2-3 X2-3 P2:O3=0 . 0 A1:0-2|A2:1-2|A3: A1:P0|A3:P2 3" " C0-3 C1-3 C3 . X2-3 X2-3 T:P2:O3=0 . 0 A1:0-2|A2:1-2|A3:1-2 A1:P0|A3:P-2 3|" # An invalidated remote partition cannot self-recover from hotplug " C0-3 C1-3 C2 . X2-3 X2-3 T:P2:O2=0 O2=1 0 A1:0-3|A2:1-3|A3:2 A1:P0|A3:P-2 ." # cpus.exclusive.effective clearing test " C0-3 C1-3 C2 . X2-3:X . . . 0 A1:0-3|A2:1-3|A3:2|XA1:" # Invalid to valid remote partition transition test " C0-3 C1-3 . . . X3:P2 . . 0 A1:0-3|A2:1-3|XA2: A2:P-2 ." " C0-3 C1-3:X3:P2 . . X2-3 P2 . . 0 A1:0-2|A2:3|XA2:3 A2:P2 3" # Invalid to valid local partition direct transition tests " C1-3:P2 X4:P2 . . . . . . 0 A1:1-3|XA1:1-3|A2:1-3:XA2: A1:P2|A2:P-2 1-3" " C1-3:P2 X4:P2 . . . X3:P2 . . 0 A1:1-2|XA1:1-3|A2:3:XA2:3 A1:P2|A2:P2 1-3" " C0-3:P2 . . C4-6 C0-4 . . . 0 A1:0-4|B1:5-6 A1:P2|B1:P0" " C0-3:P2 . . C4-6 C0-4:C0-3 . . . 0 A1:0-3|B1:4-6 A1:P2|B1:P0 0-3" # Local partition invalidation tests " C0-3:X1-3:P2 C1-3:X2-3:P2 C2-3:X3:P2 \ . . . . . 0 A1:1|A2:2|A3:3 A1:P2|A2:P2|A3:P2 1-3" " C0-3:X1-3:P2 C1-3:X2-3:P2 C2-3:X3:P2 \ . . X4 . . 0 A1:1-3|A2:1-3|A3:2-3|XA2:|XA3: A1:P2|A2:P-2|A3:P-2 1-3" " C0-3:X1-3:P2 C1-3:X2-3:P2 C2-3:X3:P2 \ . . C4:X . . 0 A1:1-3|A2:1-3|A3:2-3|XA2:|XA3: A1:P2|A2:P-2|A3:P-2 1-3" # Local partition CPU change tests " C0-5:P2 C4-5:P1 . . . C3-5 . . 0 A1:0-2|A2:3-5 A1:P2|A2:P1 0-2" " C0-5:P2 C4-5:P1 . . C1-5 . . . 0 A1:1-3|A2:4-5 A1:P2|A2:P1 1-3" # cpus_allowed/exclusive_cpus update tests " C0-3:X2-3 C1-3:X2-3 C2-3:X2-3 \ . X:C4 . P2 . 0 A1:4|A2:4|XA2:|XA3:|A3:4 \ A1:P0|A3:P-2 ." " C0-3:X2-3 C1-3:X2-3 C2-3:X2-3 \ . X1 . P2 . 0 A1:0-3|A2:1-3|XA1:1|XA2:|XA3:|A3:2-3 \ A1:P0|A3:P-2 ." " C0-3:X2-3 C1-3:X2-3 C2-3:X2-3 \ . . X3 P2 . 0 A1:0-2|A2:1-2|XA2:3|XA3:3|A3:3 \ A1:P0|A3:P2 3" " C0-3:X2-3 C1-3:X2-3 C2-3:X2-3:P2 \ . . X3 . . 0 A1:0-2|A2:1-2|XA2:3|XA3:3|A3:3|XA3:3 \ A1:P0|A3:P2 3" " C0-3:X2-3 C1-3:X2-3 C2-3:X2-3:P2 \ . X4 . . . 0 A1:0-3|A2:1-3|A3:2-3|XA1:4|XA2:|XA3 \ A1:P0|A3:P-2" # old-A1 old-A2 old-A3 old-B1 new-A1 new-A2 new-A3 new-B1 fail ECPUs Pstate ISOLCPUS # ------ ------ ------ ------ ------ ------ ------ ------ ---- ----- ------ -------- # # Incorrect change to cpuset.cpus[.exclusive] invalidates partition root # # Adding CPUs to partition root that are not in parent's # cpuset.cpus is allowed, but those extra CPUs are ignored. " C2-3:P1 C3:P1 . . . C2-4 . . 0 A1:|A2:2-3 A1:P1|A2:P1" # Taking away all CPUs from parent or itself if there are tasks # will make the partition invalid. " C2-3:P1 C3:P1 . . T C2-3 . . 0 A1:2-3|A2:2-3 A1:P1|A2:P-1" " C3:P1 C3 . . T P1 . . 0 A1:3|A2:3 A1:P1|A2:P-1" "$SETUP_A123_PARTITIONS . T:C2-3 . . . 0 A1:2-3|A2:2-3|A3:3 A1:P1|A2:P-1|A3:P-1" "$SETUP_A123_PARTITIONS . T:C2-3:C1-3 . . . 0 A1:1|A2:2|A3:3 A1:P1|A2:P1|A3:P1" # Changing a partition root to member makes child partitions invalid " C2-3:P1 C3:P1 . . P0 . . . 0 A1:2-3|A2:3 A1:P0|A2:P-1" "$SETUP_A123_PARTITIONS . C2-3 P0 . . 0 A1:2-3|A2:2-3|A3:3 A1:P1|A2:P0|A3:P-1" # cpuset.cpus can contains cpus not in parent's cpuset.cpus as long # as they overlap. " C2-3:P1 . . . . C3-4:P1 . . 0 A1:2|A2:3 A1:P1|A2:P1" # Deletion of CPUs distributed to child cgroup is allowed. " C0-1:P1 C1 . C2-3 C4-5 . . . 0 A1:4-5|A2:4-5" # To become a valid partition root, cpuset.cpus must overlap parent's # cpuset.cpus. " C0-1:P1 . . C2-3 . C4-5:P1 . . 0 A1:0-1|A2:0-1 A1:P1|A2:P-1" # Enabling partition with child cpusets is allowed " C0-1 C1 . C2-3 P1 . . . 0 A1:0-1|A2:1 A1:P1" # A partition root with non-partition root parent is invalid| but it # can be made valid if its parent becomes a partition root too. " C0-1 C1 . C2-3 . P2 . . 0 A1:0-1|A2:1 A1:P0|A2:P-2" " C0-1 C1:P2 . C2-3 P1 . . . 0 A1:0|A2:1 A1:P1|A2:P2 0-1|1" # A non-exclusive cpuset.cpus change will not invalidate its siblings partition. " C0-1:P1 . . C2-3 C0-2 . . . 0 A1:0-2|B1:3 A1:P1|B1:P0" " C0-1:P1 . . P1:C2-3 C0-2 . . . 0 A1:0-1|XA1:0-1|B1:2-3 A1:P1|B1:P1" " C0-1 . . P1:C2-3 C0-2 . . . 0 A1:0-1|B1:2-3 A1:P0|B1:P1" # cpuset.cpus can overlap with sibling cpuset.cpus.exclusive but not subsumed by it " C0-3 . . C4-5 X5 . . . 0 A1:0-3|B1:4-5" # Child partition root that try to take all CPUs from parent partition # with tasks will remain invalid. " C1-4:P1 P1 . . . . . . 0 A1:1-4|A2:1-4 A1:P1|A2:P-1" " C1-4:P1 P1 . . . C1-4 . . 0 A1|A2:1-4 A1:P1|A2:P1" " C1-4:P1 P1 . . T C1-4 . . 0 A1:1-4|A2:1-4 A1:P1|A2:P-1" # Clearing of cpuset.cpus with a preset cpuset.cpus.exclusive shouldn't # affect cpuset.cpus.exclusive.effective. " C1-4:X3 C1:X3 . . . C . . 0 A2:1-4|XA2:3" # cpuset.cpus can contain CPUs that overlap a sibling cpuset with cpus.exclusive # but creating a local partition out of it is not allowed. Similarly and change # in cpuset.cpus of a local partition that overlaps sibling exclusive CPUs will # invalidate it. " CX1-4 CX2-4:P2 . C5-6 . . . P1 0 A1:1|A2:2-4|B1:5-6|XB1:5-6 \ A1:P0|A2:P2:B1:P1 2-4" " CX1-4 CX2-4:P2 . C3-6 . . . P1 0 A1:1|A2:2-4|B1:5-6 \ A1:P0|A2:P2:B1:P-1 2-4" " CX1-4 CX2-4:P2 . C5-6 . . . P1:C3-6 0 A1:1|A2:2-4|B1:5-6 \ A1:P0|A2:P2:B1:P-1 2-4" # When multiple partitions with conflicting cpuset.cpus are created, the # latter created ones will only get what are left of the available exclusive # CPUs. " C1-3:P1 . . . . . . C3-5:P1 0 A1:1-3|B1:4-5:XB1:4-5 A1:P1|B1:P1" # cpuset.cpus can be set to a subset of sibling's cpuset.cpus.exclusive " C1-3:X1-3 . . C4-5 . . . C1-2 0 A1:1-3|B1:1-2" # cpuset.cpus can become empty with task in it as it inherits parent's effective CPUs " C1-3 C2 . . . T:C . . 0 A1:1-3|A2:1-3" # old-A1 old-A2 old-A3 old-B1 new-A1 new-A2 new-A3 new-B1 fail ECPUs Pstate ISOLCPUS # ------ ------ ------ ------ ------ ------ ------ ------ ---- ----- ------ -------- # Failure cases: # A task cannot be added to a partition with no cpu " C2-3:P1 C3:P1 . . O2=0:T . . . 1 A1:|A2:3 A1:P1|A2:P1" # Changes to cpuset.cpus.exclusive that violate exclusivity rule is rejected " C0-3 . . C4-5 X0-3 . . X3-5 1 A1:0-3|B1:4-5" # cpuset.cpus.exclusive cannot be set to a superset of sibling's cpuset.cpus " C0-3 . . C4-5 X3-5 . . . 1 A1:0-3|B1:4-5" ) # # Cpuset controller remote partition test matrix. # # Cgroup test hierarchy # # root # | # rtest (cpuset.cpus.exclusive=1-7) # | # +------+------+ # | | # p1 p2 # +--+--+ +--+--+ # | | | | # c11 c12 c21 c22 # # REMOTE_TEST_MATRIX uses the same notational convention as TEST_MATRIX. # Only CPUs 1-7 should be used. # REMOTE_TEST_MATRIX=( # old-p1 old-p2 old-c11 old-c12 old-c21 old-c22 # new-p1 new-p2 new-c11 new-c12 new-c21 new-c22 ECPUs Pstate ISOLCPUS # ------ ------ ------- ------- ------- ------- ----- ------ -------- " X1-3 X4-6 X1-2 X3 X4-5 X6 \ . . P2 P2 P2 P2 c11:1-2|c12:3|c21:4-5|c22:6 \ c11:P2|c12:P2|c21:P2|c22:P2 1-6" " CX1-4 . X1-2:P2 C3 . . \ . . . C3-4 . . p1:3-4|c11:1-2|c12:3-4 \ p1:P0|c11:P2|c12:P0 1-2" " CX1-4 . X1-2:P2 . . . \ X2-4 . . . . . p1:1,3-4|c11:2 \ p1:P0|c11:P2 2" " CX1-5 . X1-2:P2 X3-5:P1 . . \ X2-4 . . . . . p1:1,5|c11:2|c12:3-4 \ p1:P0|c11:P2|c12:P1 2" " CX1-4 . X1-2:P2 X3-4:P1 . . \ . . X2 . . . p1:1|c11:2|c12:3-4 \ p1:P0|c11:P2|c12:P1 2" # p1 as member, will get its effective CPUs from its parent rtest " CX1-4 . X1-2:P2 X3-4:P1 . . \ . . X1 CX2-4 . . p1:5-7|c11:1|c12:2-4 \ p1:P0|c11:P2|c12:P1 1" " CX1-4 X5-6:P1 . . . . \ . . X1-2:P2 X4-5:P1 . X1-7:P2 p1:3|c11:1-2|c12:4:c22:5-6 \ p1:P0|p2:P1|c11:P2|c12:P1|c22:P2 \ 1-2,4-6|1-2,5-6" # c12 whose cpuset.cpus CPUs are all granted to c11 will become invalid partition " C1-5:P1 . C1-4:P1 C2-3 . . \ . . . P1 . . p1:5|c11:1-4|c12:5 \ p1:P1|c11:P1|c12:P-1" ) # # Write to the cpu online file # $1 - = where = cpu number, value to be written # write_cpu_online() { CPU=${1%=*} VAL=${1#*=} CPUFILE=//sys/devices/system/cpu/cpu${CPU}/online if [[ $VAL -eq 0 ]] then OFFLINE_CPUS="$OFFLINE_CPUS $CPU" else [[ -n "$OFFLINE_CPUS" ]] && { OFFLINE_CPUS=$(echo $CPU $CPU $OFFLINE_CPUS | fmt -1 |\ sort | uniq -u) } fi echo $VAL > $CPUFILE pause 0.05 } # # Set controller state # $1 - cgroup directory # $2 - state # $3 - showerr # # The presence of ":" in state means transition from one to the next. # set_ctrl_state() { TMPMSG=/tmp/.msg_$$ CGRP=$1 STATE=$2 SHOWERR=${3} HASERR=0 REDIRECT="2> $TMPMSG" [[ -z "$STATE" || "$STATE" = '.' ]] && return 0 [[ $VERBOSE -gt 0 ]] && SHOWERR=1 rm -f $TMPMSG for CMD in $(echo $STATE | sed -e "s/:/ /g") do TFILE=$CGRP/cgroup.procs PFILE=$CGRP/cpuset.cpus.partition CFILE=$CGRP/cpuset.cpus XFILE=$CGRP/cpuset.cpus.exclusive # Enable cpuset controller if not enabled yet [[ -f $CFILE ]] || { COMM="echo +cpuset > $CGRP/../cgroup.subtree_control" eval $COMM $REDIRECT } case $CMD in X*) CPUS=${CMD#?} COMM="echo $CPUS > $XFILE" eval $COMM $REDIRECT ;; CX*) CPUS=${CMD#??} COMM="echo $CPUS > $CFILE; echo $CPUS > $XFILE" eval $COMM $REDIRECT ;; C*) CPUS=${CMD#?} COMM="echo $CPUS > $CFILE" eval $COMM $REDIRECT ;; P*) VAL=${CMD#?} case $VAL in 0) VAL=member ;; 1) VAL=root ;; 2) VAL=isolated ;; *) echo "Invalid partition state - $VAL" exit 1 ;; esac COMM="echo $VAL > $PFILE" eval $COMM $REDIRECT ;; O*) VAL=${CMD#?} write_cpu_online $VAL ;; T*) COMM="echo 0 > $TFILE" eval $COMM $REDIRECT ;; *) echo "Unknown command: $CMD" exit 1 ;; esac RET=$? [[ $RET -ne 0 ]] && { [[ -n "$SHOWERR" ]] && { echo "$COMM" cat $TMPMSG } HASERR=1 } pause 0.01 rm -f $TMPMSG done return $HASERR } set_ctrl_state_noerr() { CGRP=$1 STATE=$2 [[ -d $CGRP ]] || mkdir $CGRP set_ctrl_state $CGRP $STATE 1 [[ $? -ne 0 ]] && { echo "ERROR: Failed to set $2 to cgroup $1!" exit 1 } } online_cpus() { [[ -n "OFFLINE_CPUS" ]] && { for C in $OFFLINE_CPUS do write_cpu_online ${C}=1 done } } # # Remove all the test cgroup directories # reset_cgroup_states() { echo 0 > $CGROUP2/cgroup.procs online_cpus rmdir $RESET_LIST > /dev/null 2>&1 } dump_states() { for DIR in $CGROUP_LIST do CPUS=$DIR/cpuset.cpus ECPUS=$DIR/cpuset.cpus.effective XCPUS=$DIR/cpuset.cpus.exclusive XECPUS=$DIR/cpuset.cpus.exclusive.effective PRS=$DIR/cpuset.cpus.partition PCPUS=$DIR/.__DEBUG__.cpuset.cpus.subpartitions ISCPUS=$DIR/cpuset.cpus.isolated [[ -e $CPUS ]] && echo "$CPUS: $(cat $CPUS)" [[ -e $XCPUS ]] && echo "$XCPUS: $(cat $XCPUS)" [[ -e $ECPUS ]] && echo "$ECPUS: $(cat $ECPUS)" [[ -e $XECPUS ]] && echo "$XECPUS: $(cat $XECPUS)" [[ -e $PRS ]] && echo "$PRS: $(cat $PRS)" [[ -e $PCPUS ]] && echo "$PCPUS: $(cat $PCPUS)" [[ -e $ISCPUS ]] && echo "$ISCPUS: $(cat $ISCPUS)" done } # # Set the actual cgroup directory into $CGRP_DIR # $1 - cgroup name # set_cgroup_dir() { CGRP_DIR=$1 [[ $CGRP_DIR = A2 ]] && CGRP_DIR=A1/A2 [[ $CGRP_DIR = A3 ]] && CGRP_DIR=A1/A2/A3 [[ $CGRP_DIR = c11 ]] && CGRP_DIR=p1/c11 [[ $CGRP_DIR = c12 ]] && CGRP_DIR=p1/c12 [[ $CGRP_DIR = c21 ]] && CGRP_DIR=p2/c21 [[ $CGRP_DIR = c22 ]] && CGRP_DIR=p2/c22 } # # Check effective cpus # $1 - check string, format: :[|:]* # check_effective_cpus() { CHK_STR=$1 for CHK in $(echo $CHK_STR | sed -e "s/|/ /g") do set -- $(echo $CHK | sed -e "s/:/ /g") CGRP=$1 EXPECTED_CPUS=$2 ACTUAL_CPUS= if [[ $CGRP = X* ]] then CGRP=${CGRP#X} FILE=cpuset.cpus.exclusive.effective else FILE=cpuset.cpus.effective fi set_cgroup_dir $CGRP [[ -e $CGRP_DIR/$FILE ]] || return 1 ACTUAL_CPUS=$(cat $CGRP_DIR/$FILE) [[ $EXPECTED_CPUS = $ACTUAL_CPUS ]] || return 1 done } # # Check cgroup states # $1 - check string, format: :[|:]* # check_cgroup_states() { CHK_STR=$1 for CHK in $(echo $CHK_STR | sed -e "s/|/ /g") do set -- $(echo $CHK | sed -e "s/:/ /g") CGRP=$1 EXPECTED_STATE=$2 FILE= EVAL=$(expr substr $EXPECTED_STATE 2 2) set_cgroup_dir $CGRP case $EXPECTED_STATE in P*) FILE=$CGRP_DIR/cpuset.cpus.partition ;; *) echo "Unknown state: $EXPECTED_STATE!" exit 1 ;; esac ACTUAL_STATE=$(cat $FILE) case "$ACTUAL_STATE" in member) VAL=0 ;; root) VAL=1 ;; isolated) VAL=2 ;; "root invalid"*) VAL=-1 ;; "isolated invalid"*) VAL=-2 ;; esac [[ $EVAL != $VAL ]] && return 1 # # For root partition, dump sched-domains info to console if # verbose mode set for manual comparison with sched debug info. # [[ $VAL -eq 1 && $VERBOSE -gt 0 ]] && { DOMS=$(cat $CGRP_DIR/cpuset.cpus.effective) [[ -n "$DOMS" ]] && echo " [$CGRP_DIR] sched-domain: $DOMS" > $CONSOLE } done return 0 } # # Get isolated (including offline) CPUs by looking at # /sys/kernel/debug/sched/domains and cpuset.cpus.isolated control file, # if available, and compare that with the expected value. # # Note that isolated CPUs from the sched/domains context include offline # CPUs as well as CPUs in non-isolated 1-CPU partition. Those CPUs may # not be included in the cpuset.cpus.isolated control file which contains # only CPUs in isolated partitions as well as those that are isolated at # boot time. # # $1 - expected isolated cpu list(s) {|} # - expected sched/domains value # - cpuset.cpus.isolated value = if not defined # check_isolcpus() { EXPECTED_ISOLCPUS=$1 ISCPUS=${CGROUP2}/cpuset.cpus.isolated ISOLCPUS=$(cat $ISCPUS) HKICPUS=$(cat /sys/devices/system/cpu/isolated) LASTISOLCPU= SCHED_DOMAINS=/sys/kernel/debug/sched/domains if [[ $EXPECTED_ISOLCPUS = . ]] then EXPECTED_ISOLCPUS= EXPECTED_SDOMAIN= elif [[ $(expr $EXPECTED_ISOLCPUS : ".*|.*") > 0 ]] then set -- $(echo $EXPECTED_ISOLCPUS | sed -e "s/|/ /g") EXPECTED_ISOLCPUS=$2 EXPECTED_SDOMAIN=$1 else EXPECTED_SDOMAIN=$EXPECTED_ISOLCPUS fi # # Appending pre-isolated CPUs # Even though CPU #8 isn't used for testing, it can't be pre-isolated # to make appending those CPUs easier. # [[ -n "$BOOT_ISOLCPUS" ]] && { EXPECTED_ISOLCPUS=${EXPECTED_ISOLCPUS:+${EXPECTED_ISOLCPUS},}${BOOT_ISOLCPUS} EXPECTED_SDOMAIN=${EXPECTED_SDOMAIN:+${EXPECTED_SDOMAIN},}${BOOT_ISOLCPUS} } # # Check cpuset.cpus.isolated cpumask # [[ "$EXPECTED_ISOLCPUS" != "$ISOLCPUS" ]] && { # Take a 50ms pause and try again pause 0.05 ISOLCPUS=$(cat $ISCPUS) } [[ "$EXPECTED_ISOLCPUS" != "$ISOLCPUS" ]] && return 1 ISOLCPUS= EXPECTED_ISOLCPUS=$EXPECTED_SDOMAIN # # The inverse of HK_TYPE_DOMAIN cpumask in $HKICPUS should match $ISOLCPUS # [[ "$ISOLCPUS" != "$HKICPUS" ]] && return 1 # # Use the sched domain in debugfs to check isolated CPUs, if available # [[ -d $SCHED_DOMAINS ]] || return 0 for ((CPU=0; CPU < $NR_CPUS; CPU++)) do [[ -n "$(ls ${SCHED_DOMAINS}/cpu$CPU)" ]] && continue if [[ -z "$LASTISOLCPU" ]] then ISOLCPUS=$CPU LASTISOLCPU=$CPU elif [[ "$LASTISOLCPU" -eq $((CPU - 1)) ]] then echo $ISOLCPUS | grep -q "\<$LASTISOLCPU\$" if [[ $? -eq 0 ]] then ISOLCPUS=${ISOLCPUS}- fi LASTISOLCPU=$CPU else if [[ $ISOLCPUS = *- ]] then ISOLCPUS=${ISOLCPUS}$LASTISOLCPU fi ISOLCPUS=${ISOLCPUS},$CPU LASTISOLCPU=$CPU fi done [[ "$ISOLCPUS" = *- ]] && ISOLCPUS=${ISOLCPUS}$LASTISOLCPU [[ "$EXPECTED_SDOMAIN" = "$ISOLCPUS" ]] } test_fail() { TESTNUM=$1 TESTTYPE=$2 ADDINFO=$3 echo "Test $TEST[$TESTNUM] failed $TESTTYPE check!" [[ -n "$ADDINFO" ]] && echo "*** $ADDINFO ***" eval echo \${$TEST[$I]} echo dump_states exit 1 } # # Check to see if there are unexpected isolated CPUs left beyond the boot # time isolated ones. # null_isolcpus_check() { [[ $VERBOSE -gt 0 ]] || return 0 # Retry a few times before printing error RETRY=0 while [[ $RETRY -lt 8 ]] do pause 0.02 check_isolcpus "." [[ $? -eq 0 ]] && return 0 ((RETRY++)) done echo "Unexpected isolated CPUs: $ISOLCPUS" dump_states exit 1 } # # Check state transition test result # $1 - Test number # $2 - Expected effective CPU values # $3 - Expected partition states # $4 - Expected isolated CPUs # check_test_results() { _NR=$1 _ECPUS="$2" _PSTATES="$3" _ISOLCPUS="$4" [[ -n "$_ECPUS" && "$_ECPUS" != . ]] && { check_effective_cpus $_ECPUS [[ $? -ne 0 ]] && test_fail $_NR "effective CPU" \ "Cgroup $CGRP: expected $EXPECTED_CPUS, got $ACTUAL_CPUS" } [[ -n "$_PSTATES" && "$_PSTATES" != . ]] && { check_cgroup_states $_PSTATES [[ $? -ne 0 ]] && test_fail $_NR states \ "Cgroup $CGRP: expected $EXPECTED_STATE, got $ACTUAL_STATE" } # Compare the expected isolated CPUs with the actual ones, # if available [[ -n "$_ISOLCPUS" ]] && { check_isolcpus $_ISOLCPUS [[ $? -ne 0 ]] && { [[ -n "$BOOT_ISOLCPUS" ]] && _ISOLCPUS=${_ISOLCPUS},${BOOT_ISOLCPUS} test_fail $_NR "isolated CPU" \ "Expect $_ISOLCPUS, get $ISOLCPUS instead" } } reset_cgroup_states # # Check to see if effective cpu list changes # _NEWLIST=$(cat $CGROUP2/cpuset.cpus.effective) RETRY=0 while [[ $_NEWLIST != $CPULIST && $RETRY -lt 8 ]] do # Wait a bit longer & recheck a few times pause 0.02 ((RETRY++)) _NEWLIST=$(cat $CGROUP2/cpuset.cpus.effective) done [[ $_NEWLIST != $CPULIST ]] && { echo "Effective cpus changed to $_NEWLIST after test $_NR!" exit 1 } null_isolcpus_check [[ $VERBOSE -gt 0 ]] && echo "Test $I done." } # # Run cpuset state transition test # $1 - test matrix name # # This test is somewhat fragile as delays (sleep x) are added in various # places to make sure state changes are fully propagated before the next # action. These delays may need to be adjusted if running in a slower machine. # run_state_test() { TEST=$1 CGROUP_LIST=". A1 A1/A2 A1/A2/A3 B1" RESET_LIST="A1/A2/A3 A1/A2 A1 B1" I=0 eval CNT="\${#$TEST[@]}" reset_cgroup_states console_msg "Running state transition test ..." while [[ $I -lt $CNT ]] do echo "Running test $I ..." > $CONSOLE [[ $VERBOSE -gt 1 ]] && { echo "" eval echo \${$TEST[$I]} } eval set -- "\${$TEST[$I]}" OLD_A1=$1 OLD_A2=$2 OLD_A3=$3 OLD_B1=$4 NEW_A1=$5 NEW_A2=$6 NEW_A3=$7 NEW_B1=$8 RESULT=$9 ECPUS=${10} STATES=${11} ICPUS=${12} set_ctrl_state_noerr A1 $OLD_A1 set_ctrl_state_noerr A1/A2 $OLD_A2 set_ctrl_state_noerr A1/A2/A3 $OLD_A3 set_ctrl_state_noerr B1 $OLD_B1 RETVAL=0 set_ctrl_state A1 $NEW_A1; ((RETVAL += $?)) set_ctrl_state A1/A2 $NEW_A2; ((RETVAL += $?)) set_ctrl_state A1/A2/A3 $NEW_A3; ((RETVAL += $?)) set_ctrl_state B1 $NEW_B1; ((RETVAL += $?)) [[ $RETVAL -ne $RESULT ]] && test_fail $I result check_test_results $I "$ECPUS" "$STATES" "$ICPUS" ((I++)) done echo "All $I tests of $TEST PASSED." } # # Run cpuset remote partition state transition test # $1 - test matrix name # run_remote_state_test() { TEST=$1 [[ -d rtest ]] || mkdir rtest cd rtest echo +cpuset > cgroup.subtree_control echo "1-7" > cpuset.cpus echo "1-7" > cpuset.cpus.exclusive CGROUP_LIST=".. . p1 p2 p1/c11 p1/c12 p2/c21 p2/c22" RESET_LIST="p1/c11 p1/c12 p2/c21 p2/c22 p1 p2" I=0 eval CNT="\${#$TEST[@]}" reset_cgroup_states console_msg "Running remote partition state transition test ..." while [[ $I -lt $CNT ]] do echo "Running test $I ..." > $CONSOLE [[ $VERBOSE -gt 1 ]] && { echo "" eval echo \${$TEST[$I]} } eval set -- "\${$TEST[$I]}" OLD_p1=$1 OLD_p2=$2 OLD_c11=$3 OLD_c12=$4 OLD_c21=$5 OLD_c22=$6 NEW_p1=$7 NEW_p2=$8 NEW_c11=$9 NEW_c12=${10} NEW_c21=${11} NEW_c22=${12} ECPUS=${13} STATES=${14} ICPUS=${15} set_ctrl_state_noerr p1 $OLD_p1 set_ctrl_state_noerr p2 $OLD_p2 set_ctrl_state_noerr p1/c11 $OLD_c11 set_ctrl_state_noerr p1/c12 $OLD_c12 set_ctrl_state_noerr p2/c21 $OLD_c21 set_ctrl_state_noerr p2/c22 $OLD_c22 RETVAL=0 set_ctrl_state p1 $NEW_p1 ; ((RETVAL += $?)) set_ctrl_state p2 $NEW_p2 ; ((RETVAL += $?)) set_ctrl_state p1/c11 $NEW_c11; ((RETVAL += $?)) set_ctrl_state p1/c12 $NEW_c12; ((RETVAL += $?)) set_ctrl_state p2/c21 $NEW_c21; ((RETVAL += $?)) set_ctrl_state p2/c22 $NEW_c22; ((RETVAL += $?)) [[ $RETVAL -ne 0 ]] && test_fail $I result check_test_results $I "$ECPUS" "$STATES" "$ICPUS" ((I++)) done cd .. rmdir rtest echo "All $I tests of $TEST PASSED." } # # Testing the new "isolated" partition root type # test_isolated() { cd $CGROUP2/test echo 2-3 > cpuset.cpus TYPE=$(cat cpuset.cpus.partition) [[ $TYPE = member ]] || echo member > cpuset.cpus.partition console_msg "Change from member to root" test_partition root console_msg "Change from root to isolated" test_partition isolated console_msg "Change from isolated to member" test_partition member console_msg "Change from member to isolated" test_partition isolated console_msg "Change from isolated to root" test_partition root console_msg "Change from root to member" test_partition member # # Testing partition root with no cpu # console_msg "Distribute all cpus to child partition" echo +cpuset > cgroup.subtree_control test_partition root mkdir A1 cd A1 echo 2-3 > cpuset.cpus test_partition root test_effective_cpus 2-3 cd .. test_effective_cpus "" console_msg "Moving task to partition test" test_add_proc "No space left" cd A1 test_add_proc "" cd .. console_msg "Shrink and expand child partition" cd A1 echo 2 > cpuset.cpus cd .. test_effective_cpus 3 cd A1 echo 2-3 > cpuset.cpus cd .. test_effective_cpus "" # Cleaning up console_msg "Cleaning up" echo $$ > $CGROUP2/cgroup.procs [[ -d A1 ]] && rmdir A1 null_isolcpus_check pause 0.05 } # # Wait for inotify event for the given file and read it # $1: cgroup file to wait for # $2: file to store the read result # wait_inotify() { CGROUP_FILE=$1 OUTPUT_FILE=$2 $WAIT_INOTIFY $CGROUP_FILE cat $CGROUP_FILE > $OUTPUT_FILE } # # Test if inotify events are properly generated when going into and out of # invalid partition state. # test_inotify() { ERR=0 PRS=/tmp/.prs_$$ cd $CGROUP2/test [[ -f $WAIT_INOTIFY ]] || { echo "wait_inotify not found, inotify test SKIPPED." return } pause 0.01 echo 1 > cpuset.cpus echo 0 > cgroup.procs echo root > cpuset.cpus.partition pause 0.01 rm -f $PRS wait_inotify $PWD/cpuset.cpus.partition $PRS & pause 0.01 set_ctrl_state . "O1=0" pause 0.01 check_cgroup_states ".:P-1" if [[ $? -ne 0 ]] then echo "FAILED: Inotify test - partition not invalid" ERR=1 elif [[ ! -f $PRS ]] then echo "FAILED: Inotify test - event not generated" ERR=1 kill %1 elif [[ $(cat $PRS) != "root invalid"* ]] then echo "FAILED: Inotify test - incorrect state" cat $PRS ERR=1 fi online_cpus echo member > cpuset.cpus.partition echo 0 > ../cgroup.procs if [[ $ERR -ne 0 ]] then exit 1 else echo "Inotify test PASSED" fi echo member > cpuset.cpus.partition echo "" > cpuset.cpus } trap cleanup 0 2 3 6 run_state_test TEST_MATRIX run_remote_state_test REMOTE_TEST_MATRIX test_isolated test_inotify echo "All tests PASSED."