#!/bin/sh # Miscellaneous Intel PT testing # SPDX-License-Identifier: GPL-2.0 set -e # Skip if no Intel PT perf list | grep -q 'intel_pt//' || exit 2 shelldir=$(dirname "$0") . "${shelldir}"/lib/waiting.sh skip_cnt=0 ok_cnt=0 err_cnt=0 temp_dir=$(mktemp -d /tmp/perf-test-intel-pt-sh.XXXXXXXXXX) tmpfile="${temp_dir}/tmp-perf.data" perfdatafile="${temp_dir}/test-perf.data" outfile="${temp_dir}/test-out.txt" errfile="${temp_dir}/test-err.txt" workload="${temp_dir}/workload" awkscript="${temp_dir}/awkscript" cleanup() { trap - EXIT TERM INT sane=$(echo "${temp_dir}" | cut -b 1-26) if [ "${sane}" = "/tmp/perf-test-intel-pt-sh" ] ; then echo "--- Cleaning up ---" rm -f "${temp_dir}/"* rmdir "${temp_dir}" fi } trap_cleanup() { cleanup exit 1 } trap trap_cleanup EXIT TERM INT have_workload=false cat << _end_of_file_ | /usr/bin/cc -o "${workload}" -xc - -pthread && have_workload=true #include #include void work(void) { struct timespec tm = { .tv_nsec = 1000000, }; int i; /* Run for about 30 seconds */ for (i = 0; i < 30000; i++) nanosleep(&tm, NULL); } void *threadfunc(void *arg) { work(); return NULL; } int main(void) { pthread_t th; pthread_create(&th, NULL, threadfunc, NULL); work(); pthread_join(th, NULL); return 0; } _end_of_file_ can_cpu_wide() { echo "Checking for CPU-wide recording on CPU $1" if ! perf record -o "${tmpfile}" -B -N --no-bpf-event -e dummy:u -C "$1" true >/dev/null 2>&1 ; then echo "No so skipping" return 2 fi echo OK return 0 } test_system_wide_side_band() { echo "--- Test system-wide sideband ---" # Need CPU 0 and CPU 1 can_cpu_wide 0 || return $? can_cpu_wide 1 || return $? # Record on CPU 0 a task running on CPU 1 perf record -B -N --no-bpf-event -o "${perfdatafile}" -e intel_pt//u -C 0 -- taskset --cpu-list 1 uname # Should get MMAP events from CPU 1 because they can be needed to decode mmap_cnt=$(perf script -i "${perfdatafile}" --no-itrace --show-mmap-events -C 1 2>/dev/null | grep -c MMAP) if [ "${mmap_cnt}" -gt 0 ] ; then echo OK return 0 fi echo "Failed to record MMAP events on CPU 1 when tracing CPU 0" return 1 } can_kernel() { perf record -o "${tmpfile}" -B -N --no-bpf-event -e dummy:k true >/dev/null 2>&1 || return 2 return 0 } test_per_thread() { k="$1" desc="$2" echo "--- Test per-thread ${desc}recording ---" if ! $have_workload ; then echo "No workload, so skipping" return 2 fi if [ "${k}" = "k" ] ; then can_kernel || return 2 fi cat <<- "_end_of_file_" > "${awkscript}" BEGIN { s = "[ ]*" u = s"[0-9]+"s d = s"[0-9-]+"s x = s"[0-9a-fA-FxX]+"s mmapping = "idx"u": mmapping fd"u set_output = "idx"u": set output fd"u"->"u perf_event_open = "sys_perf_event_open: pid"d"cpu"d"group_fd"d"flags"x"="u } /perf record opening and mmapping events/ { if (!done) active = 1 } /perf record done opening and mmapping events/ { active = 0 done = 1 } $0 ~ perf_event_open && active { match($0, perf_event_open) $0 = substr($0, RSTART, RLENGTH) pid = $3 cpu = $5 fd = $11 print "pid " pid " cpu " cpu " fd " fd " : " $0 fd_array[fd] = fd pid_array[fd] = pid cpu_array[fd] = cpu } $0 ~ mmapping && active { match($0, mmapping) $0 = substr($0, RSTART, RLENGTH) fd = $5 print "fd " fd " : " $0 if (fd in fd_array) { mmap_array[fd] = 1 } else { print "Unknown fd " fd exit 1 } } $0 ~ set_output && active { match($0, set_output) $0 = substr($0, RSTART, RLENGTH) fd = $6 fd_to = $8 print "fd " fd " fd_to " fd_to " : " $0 if (fd in fd_array) { if (fd_to in fd_array) { set_output_array[fd] = fd_to } else { print "Unknown fd " fd_to exit 1 } } else { print "Unknown fd " fd exit 1 } } END { print "Checking " length(fd_array) " fds" for (fd in fd_array) { if (fd in mmap_array) { pid = pid_array[fd] if (pid != -1) { if (pid in pids) { print "More than 1 mmap for PID " pid exit 1 } pids[pid] = 1 } cpu = cpu_array[fd] if (cpu != -1) { if (cpu in cpus) { print "More than 1 mmap for CPU " cpu exit 1 } cpus[cpu] = 1 } } else if (!(fd in set_output_array)) { print "No mmap for fd " fd exit 1 } } n = length(pids) if (n != thread_cnt) { print "Expected " thread_cnt " per-thread mmaps - found " n exit 1 } } _end_of_file_ $workload & w1=$! $workload & w2=$! echo "Workload PIDs are $w1 and $w2" wait_for_threads ${w1} 2 wait_for_threads ${w2} 2 perf record -B -N --no-bpf-event -o "${perfdatafile}" -e intel_pt//u"${k}" -vvv --per-thread -p "${w1},${w2}" 2>"${errfile}" >"${outfile}" & ppid=$! echo "perf PID is $ppid" wait_for_perf_to_start ${ppid} "${errfile}" || return 1 kill ${w1} wait_for_process_to_exit ${w1} || return 1 is_running ${ppid} || return 1 kill ${w2} wait_for_process_to_exit ${w2} || return 1 wait_for_process_to_exit ${ppid} || return 1 awk -v thread_cnt=4 -f "${awkscript}" "${errfile}" || return 1 echo OK return 0 } count_result() { if [ "$1" -eq 2 ] ; then skip_cnt=$((skip_cnt + 1)) return fi if [ "$1" -eq 0 ] ; then ok_cnt=$((ok_cnt + 1)) return fi err_cnt=$((err_cnt + 1)) ret=0 } ret=0 test_system_wide_side_band || ret=$? ; count_result $ret test_per_thread "" "" || ret=$? ; count_result $ret test_per_thread "k" "(incl. kernel) " || ret=$? ; count_result $ret cleanup echo "--- Done ---" if [ ${err_cnt} -gt 0 ] ; then exit 1 fi if [ ${ok_cnt} -gt 0 ] ; then exit 0 fi exit 2