tools/perf/tests/shell/record.sh - linux - Git at Google

 #!/bin/bash
 # perf record tests
 # SPDX-License-Identifier: GPL-2.0

 set -e

 shelldir=$(dirname "$0")
 # shellcheck source=lib/waiting.sh
 . "${shelldir}"/lib/waiting.sh

 # shellcheck source=lib/perf_has_symbol.sh
 . "${shelldir}"/lib/perf_has_symbol.sh

 testsym="test_loop"

 skip_test_missing_symbol ${testsym}

 err=0
 perfdata=$(mktemp /tmp/__perf_test.perf.data.XXXXX)
 testprog="perf test -w thloop"
 cpu_pmu_dir="/sys/bus/event_source/devices/cpu*"
 br_cntr_file="/caps/branch_counter_nr"
 br_cntr_output="branch stack counters"
 br_cntr_script_output="br_cntr: A"

 default_fd_limit=$(ulimit -Sn)
 # With option --threads=cpu the number of open file descriptors should be
 # equal to sum of:    nmb_cpus * nmb_events (2+dummy),
 #                     nmb_threads for perf.data.n (equal to nmb_cpus) and
 #                     2*nmb_cpus of pipes = 4*nmb_cpus (each pipe has 2 ends)
 # All together it needs 8*nmb_cpus file descriptors plus some are also used
 # outside of testing, thus raising the limit to 16*nmb_cpus
 min_fd_limit=$(($(getconf _NPROCESSORS_ONLN) * 16))

 cleanup() {
   rm -rf "${perfdata}"
   rm -rf "${perfdata}".old

   trap - EXIT TERM INT
 }

 trap_cleanup() {
   cleanup
   exit 1
 }
 trap trap_cleanup EXIT TERM INT

 test_per_thread() {
   echo "Basic --per-thread mode test"
   if ! perf record -o /dev/null --quiet ${testprog} 2> /dev/null
   then
     echo "Per-thread record [Skipped event not supported]"
     return
   fi
   if ! perf record --per-thread -o "${perfdata}" ${testprog} 2> /dev/null
   then
     echo "Per-thread record [Failed record]"
     err=1
     return
   fi
   if ! perf report -i "${perfdata}" -q | grep -q "${testsym}"
   then
     echo "Per-thread record [Failed missing output]"
     err=1
     return
   fi

   # run the test program in background (for 30 seconds)
   ${testprog} 30 &
   TESTPID=$!

   rm -f "${perfdata}"

   wait_for_threads ${TESTPID} 2
   perf record -p "${TESTPID}" --per-thread -o "${perfdata}" sleep 1 2> /dev/null
   kill ${TESTPID}

   if [ ! -e "${perfdata}" ]
   then
     echo "Per-thread record [Failed record -p]"
     err=1
     return
   fi
   if ! perf report -i "${perfdata}" -q | grep -q "${testsym}"
   then
     echo "Per-thread record [Failed -p missing output]"
     err=1
     return
   fi

   echo "Basic --per-thread mode test [Success]"
 }

 test_register_capture() {
   echo "Register capture test"
   if ! perf list | grep -q 'br_inst_retired.near_call'
   then
     echo "Register capture test [Skipped missing event]"
     return
   fi
   if ! perf record --intr-regs=\? 2>&1 | grep -q 'available registers: AX BX CX DX SI DI BP SP IP FLAGS CS SS R8 R9 R10 R11 R12 R13 R14 R15'
   then
     echo "Register capture test [Skipped missing registers]"
     return
   fi
   if ! perf record -o - --intr-regs=di,r8,dx,cx -e br_inst_retired.near_call \
     -c 1000 --per-thread ${testprog} 2> /dev/null \
     | perf script -F ip,sym,iregs -i - 2> /dev/null \
     | grep -q "DI:"
   then
     echo "Register capture test [Failed missing output]"
     err=1
     return
   fi
   echo "Register capture test [Success]"
 }

 test_system_wide() {
   echo "Basic --system-wide mode test"
   if ! perf record -aB --synth=no -o "${perfdata}" ${testprog} 2> /dev/null
   then
     echo "System-wide record [Skipped not supported]"
     return
   fi
   if ! perf report -i "${perfdata}" -q | grep -q "${testsym}"
   then
     echo "System-wide record [Failed missing output]"
     err=1
     return
   fi
   if ! perf record -aB --synth=no -e cpu-clock,cs --threads=cpu \
     -o "${perfdata}" ${testprog} 2> /dev/null
   then
     echo "System-wide record [Failed record --threads option]"
     err=1
     return
   fi
   if ! perf report -i "${perfdata}" -q | grep -q "${testsym}"
   then
     echo "System-wide record [Failed --threads missing output]"
     err=1
     return
   fi
   echo "Basic --system-wide mode test [Success]"
 }

 test_workload() {
   echo "Basic target workload test"
   if ! perf record -o "${perfdata}" ${testprog} 2> /dev/null
   then
     echo "Workload record [Failed record]"
     err=1
     return
   fi
   if ! perf report -i "${perfdata}" -q | grep -q "${testsym}"
   then
     echo "Workload record [Failed missing output]"
     err=1
     return
   fi
   if ! perf record -e cpu-clock,cs --threads=package \
     -o "${perfdata}" ${testprog} 2> /dev/null
   then
     echo "Workload record [Failed record --threads option]"
     err=1
     return
   fi
   if ! perf report -i "${perfdata}" -q | grep -q "${testsym}"
   then
     echo "Workload record [Failed --threads missing output]"
     err=1
     return
   fi
   echo "Basic target workload test [Success]"
 }

 test_branch_counter() {
   echo "Branch counter test"
   # Check if the branch counter feature is supported
   for dir in $cpu_pmu_dir
   do
     if [ ! -e "$dir$br_cntr_file" ]
     then
       echo "branch counter feature not supported on all core PMUs ($dir) [Skipped]"
       return
     fi
   done
   if ! perf record -o "${perfdata}" -e "{branches:p,instructions}" -j any,counter ${testprog} 2> /dev/null
   then
     echo "Branch counter record test [Failed record]"
     err=1
     return
   fi
   if ! perf report -i "${perfdata}" -D -q | grep -q "$br_cntr_output"
   then
     echo "Branch counter report test [Failed missing output]"
     err=1
     return
   fi
   if ! perf script -i "${perfdata}" -F +brstackinsn,+brcntr | grep -q "$br_cntr_script_output"
   then
     echo " Branch counter script test [Failed missing output]"
     err=1
     return
   fi
   echo "Branch counter test [Success]"
 }

 test_cgroup() {
   echo "Cgroup sampling test"
   if ! perf record -aB --synth=cgroup --all-cgroups -o "${perfdata}" ${testprog} 2> /dev/null
   then
     echo "Cgroup sampling [Skipped not supported]"
     return
   fi
   if ! perf report -i "${perfdata}" -D | grep -q "CGROUP"
   then
     echo "Cgroup sampling [Failed missing output]"
     err=1
     return
   fi
   if ! perf script -i "${perfdata}" -F cgroup | grep -q -v "unknown"
   then
     echo "Cgroup sampling [Failed cannot resolve cgroup names]"
     err=1
     return
   fi
   echo "Cgroup sampling test [Success]"
 }

 # raise the limit of file descriptors to minimum
 if [[ $default_fd_limit -lt $min_fd_limit ]]; then
        ulimit -Sn $min_fd_limit
 fi

 test_per_thread
 test_register_capture
 test_system_wide
 test_workload
 test_branch_counter
 test_cgroup

 # restore the default value
 ulimit -Sn $default_fd_limit

 cleanup
 exit $err
	#!/bin/bash
	# perf record tests
	# SPDX-License-Identifier: GPL-2.0

	set -e

	shelldir=$(dirname "$0")
	# shellcheck source=lib/waiting.sh
	. "${shelldir}"/lib/waiting.sh

	# shellcheck source=lib/perf_has_symbol.sh
	. "${shelldir}"/lib/perf_has_symbol.sh

	testsym="test_loop"

	skip_test_missing_symbol ${testsym}

	err=0
	perfdata=$(mktemp /tmp/__perf_test.perf.data.XXXXX)
	testprog="perf test -w thloop"
	cpu_pmu_dir="/sys/bus/event_source/devices/cpu*"
	br_cntr_file="/caps/branch_counter_nr"
	br_cntr_output="branch stack counters"
	br_cntr_script_output="br_cntr: A"

	default_fd_limit=$(ulimit -Sn)
	# With option --threads=cpu the number of open file descriptors should be
	# equal to sum of: nmb_cpus * nmb_events (2+dummy),
	# nmb_threads for perf.data.n (equal to nmb_cpus) and
	# 2nmb_cpus of pipes = 4nmb_cpus (each pipe has 2 ends)
	# All together it needs 8*nmb_cpus file descriptors plus some are also used
	# outside of testing, thus raising the limit to 16*nmb_cpus
	min_fd_limit=$(($(getconf _NPROCESSORS_ONLN) * 16))

	cleanup() {
	rm -rf "${perfdata}"
	rm -rf "${perfdata}".old

	trap - EXIT TERM INT
	}

	trap_cleanup() {
	cleanup
	exit 1
	}
	trap trap_cleanup EXIT TERM INT

	test_per_thread() {
	echo "Basic --per-thread mode test"
	if ! perf record -o /dev/null --quiet ${testprog} 2> /dev/null
	then
	echo "Per-thread record [Skipped event not supported]"
	return
	fi
	if ! perf record --per-thread -o "${perfdata}" ${testprog} 2> /dev/null
	then
	echo "Per-thread record [Failed record]"
	err=1
	return
	fi
	if ! perf report -i "${perfdata}" -q \| grep -q "${testsym}"
	then
	echo "Per-thread record [Failed missing output]"
	err=1
	return
	fi

	# run the test program in background (for 30 seconds)
	${testprog} 30 &
	TESTPID=$!

	rm -f "${perfdata}"

	wait_for_threads ${TESTPID} 2
	perf record -p "${TESTPID}" --per-thread -o "${perfdata}" sleep 1 2> /dev/null
	kill ${TESTPID}

	if [ ! -e "${perfdata}" ]
	then
	echo "Per-thread record [Failed record -p]"
	err=1
	return
	fi
	if ! perf report -i "${perfdata}" -q \| grep -q "${testsym}"
	then
	echo "Per-thread record [Failed -p missing output]"
	err=1
	return
	fi

	echo "Basic --per-thread mode test [Success]"
	}

	test_register_capture() {
	echo "Register capture test"
	if ! perf list \| grep -q 'br_inst_retired.near_call'
	then
	echo "Register capture test [Skipped missing event]"
	return
	fi
	if ! perf record --intr-regs=\? 2>&1 \| grep -q 'available registers: AX BX CX DX SI DI BP SP IP FLAGS CS SS R8 R9 R10 R11 R12 R13 R14 R15'
	then
	echo "Register capture test [Skipped missing registers]"
	return
	fi
	if ! perf record -o - --intr-regs=di,r8,dx,cx -e br_inst_retired.near_call \
	-c 1000 --per-thread ${testprog} 2> /dev/null \
	\| perf script -F ip,sym,iregs -i - 2> /dev/null \
	\| grep -q "DI:"
	then
	echo "Register capture test [Failed missing output]"
	err=1
	return
	fi
	echo "Register capture test [Success]"
	}

	test_system_wide() {
	echo "Basic --system-wide mode test"
	if ! perf record -aB --synth=no -o "${perfdata}" ${testprog} 2> /dev/null
	then
	echo "System-wide record [Skipped not supported]"
	return
	fi
	if ! perf report -i "${perfdata}" -q \| grep -q "${testsym}"
	then
	echo "System-wide record [Failed missing output]"
	err=1
	return
	fi
	if ! perf record -aB --synth=no -e cpu-clock,cs --threads=cpu \
	-o "${perfdata}" ${testprog} 2> /dev/null
	then
	echo "System-wide record [Failed record --threads option]"
	err=1
	return
	fi
	if ! perf report -i "${perfdata}" -q \| grep -q "${testsym}"
	then
	echo "System-wide record [Failed --threads missing output]"
	err=1
	return
	fi
	echo "Basic --system-wide mode test [Success]"
	}

	test_workload() {
	echo "Basic target workload test"
	if ! perf record -o "${perfdata}" ${testprog} 2> /dev/null
	then
	echo "Workload record [Failed record]"
	err=1
	return
	fi
	if ! perf report -i "${perfdata}" -q \| grep -q "${testsym}"
	then
	echo "Workload record [Failed missing output]"
	err=1
	return
	fi
	if ! perf record -e cpu-clock,cs --threads=package \
	-o "${perfdata}" ${testprog} 2> /dev/null
	then
	echo "Workload record [Failed record --threads option]"
	err=1
	return
	fi
	if ! perf report -i "${perfdata}" -q \| grep -q "${testsym}"
	then
	echo "Workload record [Failed --threads missing output]"
	err=1
	return
	fi
	echo "Basic target workload test [Success]"
	}

	test_branch_counter() {
	echo "Branch counter test"
	# Check if the branch counter feature is supported
	for dir in $cpu_pmu_dir
	do
	if [ ! -e "$dir$br_cntr_file" ]
	then
	echo "branch counter feature not supported on all core PMUs ($dir) [Skipped]"
	return
	fi
	done
	if ! perf record -o "${perfdata}" -e "{branches:p,instructions}" -j any,counter ${testprog} 2> /dev/null
	then
	echo "Branch counter record test [Failed record]"
	err=1
	return
	fi
	if ! perf report -i "${perfdata}" -D -q \| grep -q "$br_cntr_output"
	then
	echo "Branch counter report test [Failed missing output]"
	err=1
	return
	fi
	if ! perf script -i "${perfdata}" -F +brstackinsn,+brcntr \| grep -q "$br_cntr_script_output"
	then
	echo " Branch counter script test [Failed missing output]"
	err=1
	return
	fi
	echo "Branch counter test [Success]"
	}

	test_cgroup() {
	echo "Cgroup sampling test"
	if ! perf record -aB --synth=cgroup --all-cgroups -o "${perfdata}" ${testprog} 2> /dev/null
	then
	echo "Cgroup sampling [Skipped not supported]"
	return
	fi
	if ! perf report -i "${perfdata}" -D \| grep -q "CGROUP"
	then
	echo "Cgroup sampling [Failed missing output]"
	err=1
	return
	fi
	if ! perf script -i "${perfdata}" -F cgroup \| grep -q -v "unknown"
	then
	echo "Cgroup sampling [Failed cannot resolve cgroup names]"
	err=1
	return
	fi
	echo "Cgroup sampling test [Success]"
	}

	# raise the limit of file descriptors to minimum
	if [[ $default_fd_limit -lt $min_fd_limit ]]; then
	ulimit -Sn $min_fd_limit
	fi

	test_per_thread
	test_register_capture
	test_system_wide
	test_workload
	test_branch_counter
	test_cgroup

	# restore the default value
	ulimit -Sn $default_fd_limit

	cleanup
	exit $err