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+#!/bin/bash
+# SPDX-License-Identifier: GPL-2.0
+# Copyright(c) 2023 Intel Corporation.
+
+TEST_ROOT_CG=selftest
+cgcreate -g misc:$TEST_ROOT_CG
+if [ $? -ne 0 ]; then
+ echo "# Please make sure cgroup-tools is installed, and misc cgroup is mounted."
+ exit 1
+fi
+TEST_CG_SUB1=$TEST_ROOT_CG/test1
+TEST_CG_SUB2=$TEST_ROOT_CG/test2
+# We will only set limit in test1 and run tests in test3
+TEST_CG_SUB3=$TEST_ROOT_CG/test1/test3
+TEST_CG_SUB4=$TEST_ROOT_CG/test4
+
+cgcreate -g misc:$TEST_CG_SUB1
+cgcreate -g misc:$TEST_CG_SUB2
+cgcreate -g misc:$TEST_CG_SUB3
+cgcreate -g misc:$TEST_CG_SUB4
+
+# Default to V2
+CG_MISC_ROOT=/sys/fs/cgroup
+CG_MEM_ROOT=/sys/fs/cgroup
+CG_V1=0
+if [ ! -d "/sys/fs/cgroup/misc" ]; then
+ echo "# cgroup V2 is in use."
+else
+ echo "# cgroup V1 is in use."
+ CG_MISC_ROOT=/sys/fs/cgroup/misc
+ CG_MEM_ROOT=/sys/fs/cgroup/memory
+ CG_V1=1
+fi
+
+CAPACITY=$(grep "sgx_epc" "$CG_MISC_ROOT/misc.capacity" | awk '{print $2}')
+# This is below number of VA pages needed for enclave of capacity size. So
+# should fail oversubscribed cases
+SMALL=$(( CAPACITY / 512 ))
+
+# At least load one enclave of capacity size successfully, maybe up to 4.
+# But some may fail if we run more than 4 concurrent enclaves of capacity size.
+LARGE=$(( SMALL * 4 ))
+
+# Load lots of enclaves
+LARGER=$CAPACITY
+echo "# Setting up limits."
+echo "sgx_epc $SMALL" > $CG_MISC_ROOT/$TEST_CG_SUB1/misc.max
+echo "sgx_epc $LARGE" > $CG_MISC_ROOT/$TEST_CG_SUB2/misc.max
+echo "sgx_epc $LARGER" > $CG_MISC_ROOT/$TEST_CG_SUB4/misc.max
+
+timestamp=$(date +%Y%m%d_%H%M%S)
+
+test_cmd="./test_sgx -t unclobbered_vdso_oversubscribed"
+
+wait_check_process_status() {
+ local pid=$1
+ local check_for_success=$2 # If 1, check for success;
+ # If 0, check for failure
+ wait "$pid"
+ local status=$?
+
+ if [[ $check_for_success -eq 1 && $status -eq 0 ]]; then
+ echo "# Process $pid succeeded."
+ return 0
+ elif [[ $check_for_success -eq 0 && $status -ne 0 ]]; then
+ echo "# Process $pid returned failure."
+ return 0
+ fi
+ return 1
+}
+
+wait_and_detect_for_any() {
+ local pids=("$@")
+ local check_for_success=$1 # If 1, check for success;
+ # If 0, check for failure
+ local detected=1 # 0 for success detection
+
+ for pid in "${pids[@]:1}"; do
+ if wait_check_process_status "$pid" "$check_for_success"; then
+ detected=0
+ # Wait for other processes to exit
+ fi
+ done
+
+ return $detected
+}
+
+echo "# Start unclobbered_vdso_oversubscribed with SMALL limit, expecting failure..."
+# Always use leaf node of misc cgroups so it works for both v1 and v2
+# these may fail on OOM
+cgexec -g misc:$TEST_CG_SUB3 $test_cmd >cgtest_small_$timestamp.log 2>&1
+if [[ $? -eq 0 ]]; then
+ echo "# Fail on SMALL limit, not expecting any test passes."
+ cgdelete -r -g misc:$TEST_ROOT_CG
+ exit 1
+else
+ echo "# Test failed as expected."
+fi
+
+echo "# PASSED SMALL limit."
+
+echo "# Start 4 concurrent unclobbered_vdso_oversubscribed tests with LARGE limit,
+ expecting at least one success...."
+
+pids=()
+for i in {1..4}; do
+ (
+ cgexec -g misc:$TEST_CG_SUB2 $test_cmd >cgtest_large_positive_$timestamp.$i.log 2>&1
+ ) &
+ pids+=($!)
+done
+
+
+if wait_and_detect_for_any 1 "${pids[@]}"; then
+ echo "# PASSED LARGE limit positive testing."
+else
+ echo "# Failed on LARGE limit positive testing, no test passes."
+ cgdelete -r -g misc:$TEST_ROOT_CG
+ exit 1
+fi
+
+echo "# Start 5 concurrent unclobbered_vdso_oversubscribed tests with LARGE limit,
+ expecting at least one failure...."
+pids=()
+for i in {1..5}; do
+ (
+ cgexec -g misc:$TEST_CG_SUB2 $test_cmd >cgtest_large_negative_$timestamp.$i.log 2>&1
+ ) &
+ pids+=($!)
+done
+
+if wait_and_detect_for_any 0 "${pids[@]}"; then
+ echo "# PASSED LARGE limit negative testing."
+else
+ echo "# Failed on LARGE limit negative testing, no test fails."
+ cgdelete -r -g misc:$TEST_ROOT_CG
+ exit 1
+fi
+
+echo "# Start 8 concurrent unclobbered_vdso_oversubscribed tests with LARGER limit,
+ expecting no failure...."
+pids=()
+for i in {1..8}; do
+ (
+ cgexec -g misc:$TEST_CG_SUB4 $test_cmd >cgtest_larger_$timestamp.$i.log 2>&1
+ ) &
+ pids+=($!)
+done
+
+if wait_and_detect_for_any 0 "${pids[@]}"; then
+ echo "# Failed on LARGER limit, at least one test fails."
+ cgdelete -r -g misc:$TEST_ROOT_CG
+ exit 1
+else
+ echo "# PASSED LARGER limit tests."
+fi
+
+echo "# Start 8 concurrent unclobbered_vdso_oversubscribed tests with LARGER limit,
+ randomly kill one, expecting no failure...."
+pids=()
+for i in {1..8}; do
+ (
+ cgexec -g misc:$TEST_CG_SUB4 $test_cmd >cgtest_larger_kill_$timestamp.$i.log 2>&1
+ ) &
+ pids+=($!)
+done
+
+sleep $((RANDOM % 10 + 5))
+
+# Randomly select a PID to kill
+RANDOM_INDEX=$((RANDOM % 8))
+PID_TO_KILL=${pids[RANDOM_INDEX]}
+
+kill $PID_TO_KILL
+echo "# Killed process with PID: $PID_TO_KILL"
+
+any_failure=0
+for pid in "${pids[@]}"; do
+ wait "$pid"
+ status=$?
+ if [ "$pid" != "$PID_TO_KILL" ]; then
+ if [[ $status -ne 0 ]]; then
+ echo "# Process $pid returned failure."
+ any_failure=1
+ fi
+ fi
+done
+
+if [[ $any_failure -ne 0 ]]; then
+ echo "# Failed on random killing, at least one test fails."
+ cgdelete -r -g misc:$TEST_ROOT_CG
+ exit 1
+fi
+echo "# PASSED LARGER limit test with a process randomly killed."
+
+cgcreate -g memory:$TEST_CG_SUB2
+if [ $? -ne 0 ]; then
+ echo "# Failed creating memory controller."
+ cgdelete -r -g misc:$TEST_ROOT_CG
+ exit 1
+fi
+MEM_LIMIT_TOO_SMALL=$((CAPACITY - 2 * LARGE))
+
+if [[ $CG_V1 -eq 0 ]]; then
+ echo "$MEM_LIMIT_TOO_SMALL" > $CG_MEM_ROOT/$TEST_CG_SUB2/memory.max
+else
+ echo "$MEM_LIMIT_TOO_SMALL" > $CG_MEM_ROOT/$TEST_CG_SUB2/memory.limit_in_bytes
+ echo "$MEM_LIMIT_TOO_SMALL" > $CG_MEM_ROOT/$TEST_CG_SUB2/memory.memsw.limit_in_bytes
+fi
+
+echo "# Start 4 concurrent unclobbered_vdso_oversubscribed tests with LARGE EPC limit,
+ and too small RAM limit, expecting all failures...."
+pids=()
+for i in {1..4}; do
+ (
+ cgexec -g memory:$TEST_CG_SUB2 -g misc:$TEST_CG_SUB2 $test_cmd \
+ >cgtest_large_oom_$timestamp.$i.log 2>&1
+ ) &
+ pids+=($!)
+done
+
+if wait_and_detect_for_any 1 "${pids[@]}"; then
+ echo "# Failed on tests with memcontrol, some tests did not fail."
+ cgdelete -r -g misc:$TEST_ROOT_CG
+ if [[ $CG_V1 -ne 0 ]]; then
+ cgdelete -r -g memory:$TEST_ROOT_CG
+ fi
+ exit 1
+else
+ echo "# PASSED LARGE limit tests with memcontrol."
+fi
+
+sleep 2
+
+USAGE=$(grep '^sgx_epc' "$CG_MISC_ROOT/$TEST_ROOT_CG/misc.current" | awk '{print $2}')
+if [ "$USAGE" -ne 0 ]; then
+ echo "# Failed: Final usage is $USAGE, not 0."
+else
+ echo "# PASSED leakage check."
+ echo "# PASSED ALL cgroup limit tests, cleanup cgroups..."
+fi
+cgdelete -r -g misc:$TEST_ROOT_CG
+if [[ $CG_V1 -ne 0 ]]; then
+ cgdelete -r -g memory:$TEST_ROOT_CG
+fi
+echo "# done."
new file mode 100755
@@ -0,0 +1,13 @@
+#!/bin/bash
+# SPDX-License-Identifier: GPL-2.0
+# Copyright(c) 2023 Intel Corporation.
+
+if [ -z "$1" ]
+ then
+ echo "No argument supplied, please provide 'max', 'current' or 'events'"
+ exit 1
+fi
+
+watch -n 1 "find /sys/fs/cgroup -wholename */test*/misc.$1 -exec sh -c \
+ 'echo \"\$1:\"; cat \"\$1\"' _ {} \;"
+
The scripts rely on cgroup-tools package from libcgroup [1]. To run selftests for epc cgroup: sudo ./run_epc_cg_selftests.sh To watch misc cgroup 'current' changes during testing, run this in a separate terminal: ./watch_misc_for_tests.sh current With different cgroups, the script starts one or multiple concurrent SGX selftests, each to run one unclobbered_vdso_oversubscribed test. Each of such test tries to load an enclave of EPC size equal to the EPC capacity available on the platform. The script checks results against the expectation set for each cgroup and reports success or failure. The script creates 3 different cgroups at the beginning with following expectations: 1) SMALL - intentionally small enough to fail the test loading an enclave of size equal to the capacity. 2) LARGE - large enough to run up to 4 concurrent tests but fail some if more than 4 concurrent tests are run. The script starts 4 expecting at least one test to pass, and then starts 5 expecting at least one test to fail. 3) LARGER - limit is the same as the capacity, large enough to run lots of concurrent tests. The script starts 8 of them and expects all pass. Then it reruns the same test with one process randomly killed and usage checked to be zero after all process exit. The script also includes a test with low mem_cg limit and LARGE sgx_epc limit to verify that the RAM used for per-cgroup reclamation is charged to a proper mem_cg. [1] https://github.com/libcgroup/libcgroup/blob/main/README Signed-off-by: Haitao Huang <haitao.huang@linux.intel.com> --- V7: - Added memcontrol test. V5: - Added script with automatic results checking, remove the interactive script. - The script can run independent from the series below. --- .../selftests/sgx/run_epc_cg_selftests.sh | 246 ++++++++++++++++++ .../selftests/sgx/watch_misc_for_tests.sh | 13 + 2 files changed, 259 insertions(+) create mode 100755 tools/testing/selftests/sgx/run_epc_cg_selftests.sh create mode 100755 tools/testing/selftests/sgx/watch_misc_for_tests.sh