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262 lines
10 KiB
Bash
Executable File
262 lines
10 KiB
Bash
Executable File
#!/bin/sh
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# Copyright (c) 2005, Google Inc.
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# All rights reserved.
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#
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# Redistribution and use in source and binary forms, with or without
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# modification, are permitted provided that the following conditions are
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# met:
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#
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# * Redistributions of source code must retain the above copyright
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# notice, this list of conditions and the following disclaimer.
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# * Redistributions in binary form must reproduce the above
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# copyright notice, this list of conditions and the following disclaimer
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# in the documentation and/or other materials provided with the
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# distribution.
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# * Neither the name of Google Inc. nor the names of its
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# contributors may be used to endorse or promote products derived from
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# this software without specific prior written permission.
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#
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# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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# ---
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# Author: Craig Silverstein
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#
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# Runs the 4 profiler unittests and makes sure their profiles look
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# appropriate. We expect two commandline args, as described below.
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#
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# We run under the assumption that if $PROFILER1 is run with no
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# arguments, it prints a usage line of the form
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# USAGE: <actual executable being run> [...]
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#
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# This is because libtool sometimes turns the 'executable' into a
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# shell script which runs an actual binary somewhere else.
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# We expect BINDIR and PPROF_PATH to be set in the environment.
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# If not, we set them to some reasonable values
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BINDIR="${BINDIR:-.}"
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PPROF_PATH="${PPROF_PATH:-$BINDIR/src/pprof}"
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if [ "x$1" = "x-h" -o "x$1" = "x--help" ]; then
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echo "USAGE: $0 [unittest dir] [path to pprof]"
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echo " By default, unittest_dir=$BINDIR, pprof_path=$PPROF_PATH"
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exit 1
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fi
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TMPDIR=/tmp/profile_info
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UNITTEST_DIR=${1:-$BINDIR}
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PPROF=${2:-$PPROF_PATH}
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# We test the sliding-window functionality of the cpu-profile reader
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# by using a small stride, forcing lots of reads.
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PPROF_FLAGS="--test_stride=128"
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PROFILER1="$UNITTEST_DIR/profiler1_unittest"
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PROFILER2="$UNITTEST_DIR/profiler2_unittest"
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PROFILER3="$UNITTEST_DIR/profiler3_unittest"
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PROFILER4="$UNITTEST_DIR/profiler4_unittest"
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# Unfortunately, for us, libtool can replace executables with a shell
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# script that does some work before calling the 'real' executable
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# under a different name. We need the 'real' executable name to run
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# pprof on it. We've constructed all the binaries used in this
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# unittest so when they are called with no arguments, they report
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# their argv[0], which is the real binary name.
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Realname() {
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"$1" 2>&1 | awk '{print $2; exit;}'
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}
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PROFILER1_REALNAME=`Realname "$PROFILER1"`
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PROFILER2_REALNAME=`Realname "$PROFILER2"`
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PROFILER3_REALNAME=`Realname "$PROFILER3"`
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PROFILER4_REALNAME=`Realname "$PROFILER4"`
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# It's meaningful to the profiler, so make sure we know its state
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unset CPUPROFILE
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rm -rf "$TMPDIR"
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mkdir "$TMPDIR" || exit 2
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num_failures=0
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RegisterFailure() {
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num_failures=`expr $num_failures + 1`
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}
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# Takes two filenames representing profiles, with their executable scripts,
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# and a multiplier, and verifies that the 'contentful' functions in
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# each profile take the same time (possibly scaled by the given
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# multiplier). It used to be "same" meant within 50%, after adding an
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# noise-reducing X units to each value. But even that would often
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# spuriously fail, so now it's "both non-zero". We're pretty forgiving.
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VerifySimilar() {
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prof1="$TMPDIR/$1"
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exec1="$2"
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prof2="$TMPDIR/$3"
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exec2="$4"
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mult="$5"
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# We are careful not to put exec1 and exec2 in quotes, because if
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# they are the empty string, it means we want to use the 1-arg
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# version of pprof.
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mthread1=`"$PPROF" $PPROF_FLAGS $exec1 "$prof1" | grep test_main_thread | awk '{print $1}'`
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mthread2=`"$PPROF" $PPROF_FLAGS $exec2 "$prof2" | grep test_main_thread | awk '{print $1}'`
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mthread1_plus=`expr $mthread1 + 5`
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mthread2_plus=`expr $mthread2 + 5`
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if [ -z "$mthread1" ] || [ -z "$mthread2" ] || \
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[ "$mthread1" -le 0 -o "$mthread2" -le 0 ]
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# || [ `expr $mthread1_plus \* $mult` -gt `expr $mthread2_plus \* 2` -o \
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# `expr $mthread1_plus \* $mult \* 2` -lt `expr $mthread2_plus` ]
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then
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echo
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echo ">>> profile on $exec1 vs $exec2 with multiplier $mult failed:"
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echo "Actual times (in profiling units) were '$mthread1' vs. '$mthread2'"
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echo
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RegisterFailure
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fi
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}
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# Takes two filenames representing profiles, and optionally their
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# executable scripts (these may be empty if the profiles include
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# symbols), and verifies that the two profiles are identical.
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VerifyIdentical() {
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prof1="$TMPDIR/$1"
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exec1="$2"
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prof2="$TMPDIR/$3"
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exec2="$4"
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# We are careful not to put exec1 and exec2 in quotes, because if
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# they are the empty string, it means we want to use the 1-arg
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# version of pprof.
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"$PPROF" $PPROF_FLAGS $exec1 "$prof1" > "$TMPDIR/out1"
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"$PPROF" $PPROF_FLAGS $exec2 "$prof2" > "$TMPDIR/out2"
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diff=`diff "$TMPDIR/out1" "$TMPDIR/out2"`
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if [ ! -z "$diff" ]; then
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echo
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echo ">>> profile doesn't match, args: $exec1 $prof1 vs. $exec2 $prof2"
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echo ">>> Diff:"
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echo "$diff"
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echo
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RegisterFailure
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fi
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}
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# Takes a filename representing a profile, with its executable,
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# and a multiplier, and verifies that the main-thread function takes
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# the same amount of time as the other-threads function (possibly scaled
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# by the given multiplier). Figuring out the multiplier can be tricky,
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# since by design the main thread runs twice as long as each of the
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# 'other' threads! It used to be "same" meant within 50%, after adding an
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# noise-reducing X units to each value. But even that would often
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# spuriously fail, so now it's "both non-zero". We're pretty forgiving.
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VerifyAcrossThreads() {
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prof1="$TMPDIR/$1"
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# We need to run the script with no args to get the actual exe name
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exec1="$2"
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mult="$3"
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# We are careful not to put exec1 in quotes, because if it is the
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# empty string, it means we want to use the 1-arg version of pprof.
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mthread=`$PPROF $PPROF_FLAGS $exec1 "$prof1" | grep test_main_thread | awk '{print $1}'`
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othread=`$PPROF $PPROF_FLAGS $exec1 "$prof1" | grep test_other_thread | awk '{print $1}'`
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if [ -z "$mthread" ] || [ -z "$othread" ] || \
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[ "$mthread" -le 0 -o "$othread" -le 0 ]
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# || [ `expr $mthread \* $mult \* 3` -gt `expr $othread \* 10` -o \
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# `expr $mthread \* $mult \* 10` -lt `expr $othread \* 3` ]
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then
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echo
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echo ">>> profile on $exec1 (main vs thread) with multiplier $mult failed:"
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echo "Actual times (in profiling units) were '$mthread' vs. '$othread'"
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echo
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RegisterFailure
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fi
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}
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echo
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echo ">>> WARNING <<<"
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echo "This test looks at timing information to determine correctness."
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echo "If your system is loaded, the test may spuriously fail."
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echo "If the test does fail with an 'Actual times' error, try running again."
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echo
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# profiler1 is a non-threaded version
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"$PROFILER1" 50 1 "$TMPDIR/p1" || RegisterFailure
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"$PROFILER1" 100 1 "$TMPDIR/p2" || RegisterFailure
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VerifySimilar p1 "$PROFILER1_REALNAME" p2 "$PROFILER1_REALNAME" 2
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# Verify the same thing works if we statically link
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"$PROFILER2" 50 1 "$TMPDIR/p3" || RegisterFailure
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"$PROFILER2" 100 1 "$TMPDIR/p4" || RegisterFailure
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VerifySimilar p3 "$PROFILER2_REALNAME" p4 "$PROFILER2_REALNAME" 2
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# Verify the same thing works if we specify via CPUPROFILE
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CPUPROFILE="$TMPDIR/p5" "$PROFILER2" 50 || RegisterFailure
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CPUPROFILE="$TMPDIR/p6" "$PROFILER2" 100 || RegisterFailure
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VerifySimilar p5 "$PROFILER2_REALNAME" p6 "$PROFILER2_REALNAME" 2
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CPUPROFILE="$TMPDIR/p5b" "$PROFILER3" 30 || RegisterFailure
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CPUPROFILE="$TMPDIR/p5c" "$PROFILER3" 60 || RegisterFailure
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VerifySimilar p5b "$PROFILER3_REALNAME" p5c "$PROFILER3_REALNAME" 2
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# Now try what happens when we use threads
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"$PROFILER3" 30 2 "$TMPDIR/p7" || RegisterFailure
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"$PROFILER3" 60 2 "$TMPDIR/p8" || RegisterFailure
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VerifySimilar p7 "$PROFILER3_REALNAME" p8 "$PROFILER3_REALNAME" 2
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"$PROFILER4" 30 2 "$TMPDIR/p9" || RegisterFailure
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"$PROFILER4" 60 2 "$TMPDIR/p10" || RegisterFailure
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VerifySimilar p9 "$PROFILER4_REALNAME" p10 "$PROFILER4_REALNAME" 2
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# More threads!
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"$PROFILER4" 25 3 "$TMPDIR/p9" || RegisterFailure
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"$PROFILER4" 50 3 "$TMPDIR/p10" || RegisterFailure
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VerifySimilar p9 "$PROFILER4_REALNAME" p10 "$PROFILER4_REALNAME" 2
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# Compare how much time the main thread takes compared to the other threads
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# Recall the main thread runs twice as long as the other threads, by design.
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"$PROFILER4" 20 4 "$TMPDIR/p11" || RegisterFailure
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VerifyAcrossThreads p11 "$PROFILER4_REALNAME" 2
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# Test symbol save and restore
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"$PROFILER1" 50 1 "$TMPDIR/p12" || RegisterFailure
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"$PPROF" $PPROF_FLAGS "$PROFILER1_REALNAME" "$TMPDIR/p12" --raw \
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>"$TMPDIR/p13" 2>/dev/null || RegisterFailure
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VerifyIdentical p12 "$PROFILER1_REALNAME" p13 "" || RegisterFailure
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"$PROFILER3" 30 2 "$TMPDIR/p14" || RegisterFailure
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"$PPROF" $PPROF_FLAGS "$PROFILER3_REALNAME" "$TMPDIR/p14" --raw \
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>"$TMPDIR/p15" 2>/dev/null || RegisterFailure
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VerifyIdentical p14 "$PROFILER3_REALNAME" p15 "" || RegisterFailure
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# Test using ITIMER_REAL instead of ITIMER_PROF.
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env CPUPROFILE_REALTIME=1 "$PROFILER3" 30 2 "$TMPDIR/p16" || RegisterFailure
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env CPUPROFILE_REALTIME=1 "$PROFILER3" 60 2 "$TMPDIR/p17" || RegisterFailure
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VerifySimilar p16 "$PROFILER3_REALNAME" p17 "$PROFILER3_REALNAME" 2
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# Make sure that when we have a process with a fork, the profiles don't
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# clobber each other
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CPUPROFILE="$TMPDIR/pfork" "$PROFILER1" 1 -2 || RegisterFailure
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n=`ls $TMPDIR/pfork* | wc -l`
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if [ $n != 3 ]; then
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echo "FORK test FAILED: expected 3 profiles (for main + 2 children), found $n"
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num_failures=`expr $num_failures + 1`
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fi
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rm -rf "$TMPDIR" # clean up
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echo "Tests finished with $num_failures failures"
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exit $num_failures
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