Tools/Scripts/webkitruby/jsc-stress-test-writer-default.rb - WebKit - Git at Google

 # Copyright (C) 2013-2016 Apple Inc. All rights reserved.
 #
 # Redistribution and use in source and binary forms, with or without
 # modification, are permitted provided that the following conditions
 # are met:
 #
 # 1.  Redistributions of source code must retain the above copyright
 #     notice, this list of conditions and the following disclaimer.
 # 2.  Redistributions in binary form must reproduce the above copyright
 #     notice, this list of conditions and the following disclaimer in the
 #     documentation and/or other materials provided with the distribution.
 #
 # THIS SOFTWARE IS PROVIDED BY APPLE AND ITS CONTRIBUTORS "AS IS" AND ANY
 # EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
 # WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
 # DISCLAIMED. IN NO EVENT SHALL APPLE OR ITS CONTRIBUTORS BE LIABLE FOR ANY
 # DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
 # (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
 # LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
 # ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 # (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
 # THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

 def prefixCommand(prefix)
     "awk " + Shellwords.shellescape("{ printf #{(prefix + ': ').inspect}; print }")
 end

 def redirectAndPrefixCommand(prefix)
     prefixCommand(prefix) + " 2>&1"
 end

 def pipeAndPrefixCommand(outputFilename, prefix)
     "tee " + Shellwords.shellescape(outputFilename.to_s) + " | " + prefixCommand(prefix)
 end

 # Output handler for tests that are expected to be silent.
 def silentOutputHandler
     Proc.new {
         | name |
         " | " + pipeAndPrefixCommand((Pathname("..") + (name + ".out")).to_s, name)
     }
 end

 # Output handler for tests that are expected to produce meaningful output.
 def noisyOutputHandler
     Proc.new {
         | name |
         " | cat > " + Shellwords.shellescape((Pathname("..") + (name + ".out")).to_s)
     }
 end

 # Error handler for tests that fail exactly when they return non-zero exit status.
 # This is useful when a test is expected to fail.
 def simpleErrorHandler
     Proc.new {
         | outp, plan |
         outp.puts "if test -e #{plan.failFile}"
         outp.puts "then"
         outp.puts "    (echo ERROR: Unexpected exit code: `cat #{plan.failFile}`) | " + redirectAndPrefixCommand(plan.name)
         outp.puts "    " + plan.failCommand
         outp.puts "else"
         outp.puts "    " + plan.successCommand
         outp.puts "fi"
     }
 end

 # Error handler for tests that fail exactly when they return zero exit status.
 def expectedFailErrorHandler
     Proc.new {
         | outp, plan |
         outp.puts "if test -e #{plan.failFile}"
         outp.puts "then"
         outp.puts "    " + plan.successCommand
         outp.puts "else"
         outp.puts "    (echo ERROR: Unexpected exit code: 0) | " + redirectAndPrefixCommand(plan.name)
         outp.puts "    " + plan.failCommand
         outp.puts "fi"
     }
 end

 # Error handler for tests that fail exactly when they return non-zero exit status and produce
 # lots of spew. This will echo that spew when the test fails.
 def noisyErrorHandler
     Proc.new {
         | outp, plan |
         outputFilename = Shellwords.shellescape((Pathname("..") + (plan.name + ".out")).to_s)

         outp.puts "if test -e #{plan.failFile}"
         outp.puts "then"
         outp.puts "    (cat #{outputFilename} && echo ERROR: Unexpected exit code: `cat #{plan.failFile}`) | " + redirectAndPrefixCommand(plan.name)
         outp.puts "    " + plan.failCommand
         outp.puts "else"
         outp.puts "    " + plan.successCommand
         outp.puts "fi"
     }
 end

 # Error handler for tests that diff their output with some expectation.
 def diffErrorHandler(expectedFilename)
     Proc.new {
         | outp, plan |
         outputFilename = Shellwords.shellescape((Pathname("..") + (plan.name + ".out")).to_s)
         diffFilename = Shellwords.shellescape((Pathname("..") + (plan.name + ".diff")).to_s)

         outp.puts "if test -e #{plan.failFile}"
         outp.puts "then"
         outp.puts "    (cat #{outputFilename} && echo ERROR: Unexpected exit code: `cat #{plan.failFile}`) | " + redirectAndPrefixCommand(plan.name)
         outp.puts "    " + plan.failCommand
         outp.puts "elif test -e ../#{Shellwords.shellescape(expectedFilename)}"
         outp.puts "then"
         outp.puts "    diff --strip-trailing-cr -u ../#{Shellwords.shellescape(expectedFilename)} #{outputFilename} > #{diffFilename}"
         outp.puts "    if [ $? -eq 0 ]"
         outp.puts "    then"
         outp.puts "    " + plan.successCommand
         outp.puts "    else"
         outp.puts "        (echo \"DIFF FAILURE!\" && cat #{diffFilename}) | " + redirectAndPrefixCommand(plan.name)
         outp.puts "        " + plan.failCommand
         outp.puts "    fi"
         outp.puts "else"
         outp.puts "    (echo \"NO EXPECTATION!\" && cat #{outputFilename}) | " + redirectAndPrefixCommand(plan.name)
         outp.puts "    " + plan.failCommand
         outp.puts "fi"
     }
 end

 # Error handler for tests that report error by saying "failed!". This is used by Mozilla
 # tests.
 def mozillaErrorHandler
     Proc.new {
         | outp, plan |
         outputFilename = Shellwords.shellescape((Pathname("..") + (plan.name + ".out")).to_s)

         outp.puts "if test -e #{plan.failFile}"
         outp.puts "then"
         outp.puts "    (cat #{outputFilename} && echo ERROR: Unexpected exit code: `cat #{plan.failFile}`) | " + redirectAndPrefixCommand(plan.name)
         outp.puts "    " + plan.failCommand
         outp.puts "elif grep -i -q failed! #{outputFilename}"
         outp.puts "then"
         outp.puts "    (echo Detected failures: && cat #{outputFilename}) | " + redirectAndPrefixCommand(plan.name)
         outp.puts "    " + plan.failCommand
         outp.puts "else"
         outp.puts "    " + plan.successCommand
         outp.puts "fi"
     }
 end

 # Error handler for tests that report error by saying "failed!", and are expected to
 # fail. This is used by Mozilla tests.
 def mozillaFailErrorHandler
     Proc.new {
         | outp, plan |
         outputFilename = Shellwords.shellescape((Pathname("..") + (plan.name + ".out")).to_s)

         outp.puts "if test -e #{plan.failFile}"
         outp.puts "then"
         outp.puts "    " + plan.successCommand
         outp.puts "elif grep -i -q failed! #{outputFilename}"
         outp.puts "then"
         outp.puts "    " + plan.successCommand
         outp.puts "else"
         outp.puts "    (echo NOTICE: You made this test pass, but it was expected to fail) | " + redirectAndPrefixCommand(plan.name)
         outp.puts "    " + plan.failCommand
         outp.puts "fi"
     }
 end

 # Error handler for tests that report error by saying "failed!", and are expected to have
 # an exit code of 3.
 def mozillaExit3ErrorHandler
     Proc.new {
         | outp, plan |
         outputFilename = Shellwords.shellescape((Pathname("..") + (plan.name + ".out")).to_s)

         outp.puts "if test -e #{plan.failFile}"
         outp.puts "then"
         outp.puts "    if [ `cat #{plan.failFile}` -eq 3 ]"
         outp.puts "    then"
         outp.puts "        if grep -i -q failed! #{outputFilename}"
         outp.puts "        then"
         outp.puts "            (echo Detected failures: && cat #{outputFilename}) | " + redirectAndPrefixCommand(plan.name)
         outp.puts "            " + plan.failCommand
         outp.puts "        else"
         outp.puts "            " + plan.successCommand
         outp.puts "        fi"
         outp.puts "    else"
         outp.puts "        (cat #{outputFilename} && echo ERROR: Unexpected exit code: `cat #{plan.failFile}`) | " + redirectAndPrefixCommand(plan.name)
         outp.puts "        " + plan.failCommand
         outp.puts "    fi"
         outp.puts "else"
         outp.puts "    (cat #{outputFilename} && echo ERROR: Test expected to fail, but returned successfully) | " + redirectAndPrefixCommand(plan.name)
         outp.puts "    " + plan.failCommand
         outp.puts "fi"
     }
 end

 # Error handler for tests that report success by saying "Passed" or error by saying "FAILED".
 # This is used by Chakra tests.
 def chakraPassFailErrorHandler
     Proc.new {
         | outp, plan |
         outputFilename = Shellwords.shellescape((Pathname("..") + (plan.name + ".out")).to_s)

         outp.puts "if test -e #{plan.failFile}"
         outp.puts "then"
         outp.puts "    (cat #{outputFilename} && echo ERROR: Unexpected exit code: `cat #{plan.failFile}`) | " + redirectAndPrefixCommand(plan.name)
         outp.puts "    " + plan.failCommand
         outp.puts "elif grep -i -q FAILED #{outputFilename}"
         outp.puts "then"
         outp.puts "    (echo Detected failures: && cat #{outputFilename}) | " + redirectAndPrefixCommand(plan.name)
         outp.puts "    " + plan.failCommand
         outp.puts "else"
         outp.puts "    " + plan.successCommand
         outp.puts "fi"
     }
 end

 class Plan
     attr_reader :directory, :arguments, :family, :name, :outputHandler, :errorHandler, :additionalEnv
     attr_accessor :index

     def initialize(directory, arguments, family, name, outputHandler, errorHandler)
         @directory = directory
         @arguments = arguments
         @family = family
         @name = name
         @outputHandler = outputHandler
         @errorHandler = errorHandler
         @isSlow = !!$runCommandOptions[:isSlow]
         @additionalEnv = []
     end

     def shellCommand
         # It's important to remember that the test is actually run in a subshell, so if we change directory
         # in the subshell when we return we will be in our original directory. This is nice because we don't
         # have to bend over backwards to do things relative to the root.
         script = "(cd ../#{Shellwords.shellescape(@directory.to_s)} && ("
         ($envVars + additionalEnv).each { |var| script += "export " << var << "; " }
         script += "\"$@\" " + escapeAll(@arguments) + "))"
         return script
     end

     def reproScriptCommand
         # We have to find our way back to the .runner directory since that's where all of the relative
         # paths assume they start out from.
         script = "CURRENT_DIR=\"$( cd \"$( dirname \"${BASH_SOURCE[0]}\" )\" && pwd )\"\n"
         script += "cd $CURRENT_DIR\n"
         Pathname.new(@name).dirname.each_filename {
             | pathComponent |
             script += "cd ..\n"
         }
         script += "cd .runner\n"

         script += "export DYLD_FRAMEWORK_PATH=$(cd #{$testingFrameworkPath.dirname}; pwd)\n"
         script += "export JSCTEST_timeout=#{Shellwords.shellescape(ENV['JSCTEST_timeout'])}\n"
         $envVars.each { |var| script += "export " << var << "\n" }
         script += "#{shellCommand} || exit 1"
         "echo #{Shellwords.shellescape(script)} > #{Shellwords.shellescape((Pathname.new("..") + @name).to_s)}"
     end

     def failCommand
         "echo FAIL: #{Shellwords.shellescape(@name)} ; touch #{failFile} ; " + reproScriptCommand
     end

     def successCommand
         if $progressMeter or $verbosity >= 2
             "rm -f #{failFile} ; echo PASS: #{Shellwords.shellescape(@name)}"
         else
             "rm -f #{failFile}"
         end
     end

     def failFile
         "test_fail_#{@index}"
     end

     def writeRunScript(filename)
         File.open(filename, "w") {
             | outp |
             outp.puts "echo Running #{Shellwords.shellescape(@name)}"
             cmd  = "(" + shellCommand + " || (echo $? > #{failFile})) 2>&1 "
             cmd += @outputHandler.call(@name)
             if $verbosity >= 3
                 outp.puts "echo #{Shellwords.shellescape(cmd)}"
             end
             outp.puts cmd
             @errorHandler.call(outp, self)
         }
     end
 end

 def prepareShellTestRunner
     FileUtils.cp SCRIPTS_PATH + "jsc-stress-test-helpers" + "shell-runner.sh", $runnerDir + "runscript"
 end

 def prepareMakeTestRunner(remoteIndex)
     # The goals of our parallel test runner are scalability and simplicity. The
     # simplicity part is particularly important. We don't want to have to have
     # a full-time contributor just philosophising about parallel testing.
     #
     # As such, we just pass off all of the hard work to 'make'. This creates a
     # dummy directory ("$outputDir/.runner") in which we create a dummy
     # Makefile. The Makefile has an 'all' rule that depends on all of the tests.
     # That is, for each test we know we will run, there is a rule in the
     # Makefile and 'all' depends on it. Running 'make -j <whatever>' on this
     # Makefile results in 'make' doing all of the hard work:
     #
     # - Load balancing just works. Most systems have a great load balancer in
     #   'make'. If your system doesn't then just install a real 'make'.
     #
     # - Interruptions just work. For example Ctrl-C handling in 'make' is
     #   exactly right. You don't have to worry about zombie processes.
     #
     # We then do some tricks to make failure detection work and to make this
     # totally sound. If a test fails, we don't want the whole 'make' job to
     # stop. We also don't have any facility for makefile-escaping of path names.
     # We do have such a thing for shell-escaping, though. We fix both problems
     # by having the actual work for each of the test rules be done in a shell
     # script on the side. There is one such script per test. The script responds
     # to failure by printing something on the console and then touching a
     # failure file for that test, but then still returns 0. This makes 'make'
     # continue past that failure and complete all the tests anyway.
     #
     # In the end, this script collects all of the failures by searching for
     # files in the .runner directory whose name matches /^test_fail_/, where
     # the thing after the 'fail_' is the test index. Those are the files that
     # would be created by the test scripts if they detect failure. We're
     # basically using the filesystem as a concurrent database of test failures.
     # Even if two tests fail at the same time, since they're touching different
     # files we won't miss any failures.
     runIndices = []
     $runlist.each {
         | plan |
         if !$remote or plan.index % $remoteHosts.length == remoteIndex
             runIndices << plan.index
         end
     }

     File.open($runnerDir + "Makefile.#{remoteIndex}", "w") {
         | outp |
         outp.puts("all: " + runIndices.map{|v| "test_done_#{v}"}.join(' '))
         runIndices.each {
             | index |
             plan = $runlist[index]
             outp.puts "test_done_#{index}:"
             outp.puts "\tsh test_script_#{plan.index}"
         }
     }
 end

 def prepareRubyTestRunner
     File.open($runnerDir + "runscript", "w") {
         | outp |
         $runlist.each {
             | plan |
             outp.puts "print `sh test_script_#{plan.index} 2>&1`"
         }
     }
 end

 def testRunnerCommand(remoteIndex=0)
     case $testRunnerType
     when :shell
         command = "sh runscript"
     when :make
         command = "make -j #{$numChildProcesses} -s -f Makefile.#{remoteIndex}"
     when :ruby
         command = "ruby runscript"
     else
         raise "Unknown test runner type: #{$testRunnerType.to_s}"
     end
     return command
 end
	# Copyright (C) 2013-2016 Apple Inc. All rights reserved.
	#
	# Redistribution and use in source and binary forms, with or without
	# modification, are permitted provided that the following conditions
	# are met:
	#
	# 1. Redistributions of source code must retain the above copyright
	# notice, this list of conditions and the following disclaimer.
	# 2. Redistributions in binary form must reproduce the above copyright
	# notice, this list of conditions and the following disclaimer in the
	# documentation and/or other materials provided with the distribution.
	#
	# THIS SOFTWARE IS PROVIDED BY APPLE AND ITS CONTRIBUTORS "AS IS" AND ANY
	# EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
	# WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
	# DISCLAIMED. IN NO EVENT SHALL APPLE OR ITS CONTRIBUTORS BE LIABLE FOR ANY
	# DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
	# (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
	# LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
	# ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
	# THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

	def prefixCommand(prefix)
	"awk " + Shellwords.shellescape("{ printf #{(prefix + ': ').inspect}; print }")
	end

	def redirectAndPrefixCommand(prefix)
	prefixCommand(prefix) + " 2>&1"
	end

	def pipeAndPrefixCommand(outputFilename, prefix)
	"tee " + Shellwords.shellescape(outputFilename.to_s) + " \| " + prefixCommand(prefix)
	end

	# Output handler for tests that are expected to be silent.
	def silentOutputHandler
	Proc.new {
	\| name \|
	" \| " + pipeAndPrefixCommand((Pathname("..") + (name + ".out")).to_s, name)
	}
	end

	# Output handler for tests that are expected to produce meaningful output.
	def noisyOutputHandler
	Proc.new {
	\| name \|
	" \| cat > " + Shellwords.shellescape((Pathname("..") + (name + ".out")).to_s)
	}
	end

	# Error handler for tests that fail exactly when they return non-zero exit status.
	# This is useful when a test is expected to fail.
	def simpleErrorHandler
	Proc.new {
	\| outp, plan \|
	outp.puts "if test -e #{plan.failFile}"
	outp.puts "then"
	outp.puts " (echo ERROR: Unexpected exit code: `cat #{plan.failFile}`) \| " + redirectAndPrefixCommand(plan.name)
	outp.puts " " + plan.failCommand
	outp.puts "else"
	outp.puts " " + plan.successCommand
	outp.puts "fi"
	}
	end

	# Error handler for tests that fail exactly when they return zero exit status.
	def expectedFailErrorHandler
	Proc.new {
	\| outp, plan \|
	outp.puts "if test -e #{plan.failFile}"
	outp.puts "then"
	outp.puts " " + plan.successCommand
	outp.puts "else"
	outp.puts " (echo ERROR: Unexpected exit code: 0) \| " + redirectAndPrefixCommand(plan.name)
	outp.puts " " + plan.failCommand
	outp.puts "fi"
	}
	end

	# Error handler for tests that fail exactly when they return non-zero exit status and produce
	# lots of spew. This will echo that spew when the test fails.
	def noisyErrorHandler
	Proc.new {
	\| outp, plan \|
	outputFilename = Shellwords.shellescape((Pathname("..") + (plan.name + ".out")).to_s)

	outp.puts "if test -e #{plan.failFile}"
	outp.puts "then"
	outp.puts " (cat #{outputFilename} && echo ERROR: Unexpected exit code: `cat #{plan.failFile}`) \| " + redirectAndPrefixCommand(plan.name)
	outp.puts " " + plan.failCommand
	outp.puts "else"
	outp.puts " " + plan.successCommand
	outp.puts "fi"
	}
	end

	# Error handler for tests that diff their output with some expectation.
	def diffErrorHandler(expectedFilename)
	Proc.new {
	\| outp, plan \|
	outputFilename = Shellwords.shellescape((Pathname("..") + (plan.name + ".out")).to_s)
	diffFilename = Shellwords.shellescape((Pathname("..") + (plan.name + ".diff")).to_s)

	outp.puts "if test -e #{plan.failFile}"
	outp.puts "then"
	outp.puts " (cat #{outputFilename} && echo ERROR: Unexpected exit code: `cat #{plan.failFile}`) \| " + redirectAndPrefixCommand(plan.name)
	outp.puts " " + plan.failCommand
	outp.puts "elif test -e ../#{Shellwords.shellescape(expectedFilename)}"
	outp.puts "then"
	outp.puts " diff --strip-trailing-cr -u ../#{Shellwords.shellescape(expectedFilename)} #{outputFilename} > #{diffFilename}"
	outp.puts " if [ $? -eq 0 ]"
	outp.puts " then"
	outp.puts " " + plan.successCommand
	outp.puts " else"
	outp.puts " (echo \"DIFF FAILURE!\" && cat #{diffFilename}) \| " + redirectAndPrefixCommand(plan.name)
	outp.puts " " + plan.failCommand
	outp.puts " fi"
	outp.puts "else"
	outp.puts " (echo \"NO EXPECTATION!\" && cat #{outputFilename}) \| " + redirectAndPrefixCommand(plan.name)
	outp.puts " " + plan.failCommand
	outp.puts "fi"
	}
	end

	# Error handler for tests that report error by saying "failed!". This is used by Mozilla
	# tests.
	def mozillaErrorHandler
	Proc.new {
	\| outp, plan \|
	outputFilename = Shellwords.shellescape((Pathname("..") + (plan.name + ".out")).to_s)

	outp.puts "if test -e #{plan.failFile}"
	outp.puts "then"
	outp.puts " (cat #{outputFilename} && echo ERROR: Unexpected exit code: `cat #{plan.failFile}`) \| " + redirectAndPrefixCommand(plan.name)
	outp.puts " " + plan.failCommand
	outp.puts "elif grep -i -q failed! #{outputFilename}"
	outp.puts "then"
	outp.puts " (echo Detected failures: && cat #{outputFilename}) \| " + redirectAndPrefixCommand(plan.name)
	outp.puts " " + plan.failCommand
	outp.puts "else"
	outp.puts " " + plan.successCommand
	outp.puts "fi"
	}
	end

	# Error handler for tests that report error by saying "failed!", and are expected to
	# fail. This is used by Mozilla tests.
	def mozillaFailErrorHandler
	Proc.new {
	\| outp, plan \|
	outputFilename = Shellwords.shellescape((Pathname("..") + (plan.name + ".out")).to_s)

	outp.puts "if test -e #{plan.failFile}"
	outp.puts "then"
	outp.puts " " + plan.successCommand
	outp.puts "elif grep -i -q failed! #{outputFilename}"
	outp.puts "then"
	outp.puts " " + plan.successCommand
	outp.puts "else"
	outp.puts " (echo NOTICE: You made this test pass, but it was expected to fail) \| " + redirectAndPrefixCommand(plan.name)
	outp.puts " " + plan.failCommand
	outp.puts "fi"
	}
	end

	# Error handler for tests that report error by saying "failed!", and are expected to have
	# an exit code of 3.
	def mozillaExit3ErrorHandler
	Proc.new {
	\| outp, plan \|
	outputFilename = Shellwords.shellescape((Pathname("..") + (plan.name + ".out")).to_s)

	outp.puts "if test -e #{plan.failFile}"
	outp.puts "then"
	outp.puts " if [ `cat #{plan.failFile}` -eq 3 ]"
	outp.puts " then"
	outp.puts " if grep -i -q failed! #{outputFilename}"
	outp.puts " then"
	outp.puts " (echo Detected failures: && cat #{outputFilename}) \| " + redirectAndPrefixCommand(plan.name)
	outp.puts " " + plan.failCommand
	outp.puts " else"
	outp.puts " " + plan.successCommand
	outp.puts " fi"
	outp.puts " else"
	outp.puts " (cat #{outputFilename} && echo ERROR: Unexpected exit code: `cat #{plan.failFile}`) \| " + redirectAndPrefixCommand(plan.name)
	outp.puts " " + plan.failCommand
	outp.puts " fi"
	outp.puts "else"
	outp.puts " (cat #{outputFilename} && echo ERROR: Test expected to fail, but returned successfully) \| " + redirectAndPrefixCommand(plan.name)
	outp.puts " " + plan.failCommand
	outp.puts "fi"
	}
	end

	# Error handler for tests that report success by saying "Passed" or error by saying "FAILED".
	# This is used by Chakra tests.
	def chakraPassFailErrorHandler
	Proc.new {
	\| outp, plan \|
	outputFilename = Shellwords.shellescape((Pathname("..") + (plan.name + ".out")).to_s)

	outp.puts "if test -e #{plan.failFile}"
	outp.puts "then"
	outp.puts " (cat #{outputFilename} && echo ERROR: Unexpected exit code: `cat #{plan.failFile}`) \| " + redirectAndPrefixCommand(plan.name)
	outp.puts " " + plan.failCommand
	outp.puts "elif grep -i -q FAILED #{outputFilename}"
	outp.puts "then"
	outp.puts " (echo Detected failures: && cat #{outputFilename}) \| " + redirectAndPrefixCommand(plan.name)
	outp.puts " " + plan.failCommand
	outp.puts "else"
	outp.puts " " + plan.successCommand
	outp.puts "fi"
	}
	end

	class Plan
	attr_reader :directory, :arguments, :family, :name, :outputHandler, :errorHandler, :additionalEnv
	attr_accessor :index

	def initialize(directory, arguments, family, name, outputHandler, errorHandler)
	@directory = directory
	@arguments = arguments
	@family = family
	@name = name
	@outputHandler = outputHandler
	@errorHandler = errorHandler
	@isSlow = !!$runCommandOptions[:isSlow]
	@additionalEnv = []
	end

	def shellCommand
	# It's important to remember that the test is actually run in a subshell, so if we change directory
	# in the subshell when we return we will be in our original directory. This is nice because we don't
	# have to bend over backwards to do things relative to the root.
	script = "(cd ../#{Shellwords.shellescape(@directory.to_s)} && ("
	($envVars + additionalEnv).each { \|var\| script += "export " << var << "; " }
	script += "\"$@\" " + escapeAll(@arguments) + "))"
	return script
	end

	def reproScriptCommand
	# We have to find our way back to the .runner directory since that's where all of the relative
	# paths assume they start out from.
	script = "CURRENT_DIR=\"$( cd \"$( dirname \"${BASH_SOURCE[0]}\" )\" && pwd )\"\n"
	script += "cd $CURRENT_DIR\n"
	Pathname.new(@name).dirname.each_filename {
	\| pathComponent \|
	script += "cd ..\n"
	}
	script += "cd .runner\n"

	script += "export DYLD_FRAMEWORK_PATH=$(cd #{$testingFrameworkPath.dirname}; pwd)\n"
	script += "export JSCTEST_timeout=#{Shellwords.shellescape(ENV['JSCTEST_timeout'])}\n"
	$envVars.each { \|var\| script += "export " << var << "\n" }
	script += "#{shellCommand} \|\| exit 1"
	"echo #{Shellwords.shellescape(script)} > #{Shellwords.shellescape((Pathname.new("..") + @name).to_s)}"
	end

	def failCommand
	"echo FAIL: #{Shellwords.shellescape(@name)} ; touch #{failFile} ; " + reproScriptCommand
	end

	def successCommand
	if $progressMeter or $verbosity >= 2
	"rm -f #{failFile} ; echo PASS: #{Shellwords.shellescape(@name)}"
	else
	"rm -f #{failFile}"
	end
	end

	def failFile
	"test_fail_#{@index}"
	end

	def writeRunScript(filename)
	File.open(filename, "w") {
	\| outp \|
	outp.puts "echo Running #{Shellwords.shellescape(@name)}"
	cmd = "(" + shellCommand + " \|\| (echo $? > #{failFile})) 2>&1 "
	cmd += @outputHandler.call(@name)
	if $verbosity >= 3
	outp.puts "echo #{Shellwords.shellescape(cmd)}"
	end
	outp.puts cmd
	@errorHandler.call(outp, self)
	}
	end
	end

	def prepareShellTestRunner
	FileUtils.cp SCRIPTS_PATH + "jsc-stress-test-helpers" + "shell-runner.sh", $runnerDir + "runscript"
	end

	def prepareMakeTestRunner(remoteIndex)
	# The goals of our parallel test runner are scalability and simplicity. The
	# simplicity part is particularly important. We don't want to have to have
	# a full-time contributor just philosophising about parallel testing.
	#
	# As such, we just pass off all of the hard work to 'make'. This creates a
	# dummy directory ("$outputDir/.runner") in which we create a dummy
	# Makefile. The Makefile has an 'all' rule that depends on all of the tests.
	# That is, for each test we know we will run, there is a rule in the
	# Makefile and 'all' depends on it. Running 'make -j <whatever>' on this
	# Makefile results in 'make' doing all of the hard work:
	#
	# - Load balancing just works. Most systems have a great load balancer in
	# 'make'. If your system doesn't then just install a real 'make'.
	#
	# - Interruptions just work. For example Ctrl-C handling in 'make' is
	# exactly right. You don't have to worry about zombie processes.
	#
	# We then do some tricks to make failure detection work and to make this
	# totally sound. If a test fails, we don't want the whole 'make' job to
	# stop. We also don't have any facility for makefile-escaping of path names.
	# We do have such a thing for shell-escaping, though. We fix both problems
	# by having the actual work for each of the test rules be done in a shell
	# script on the side. There is one such script per test. The script responds
	# to failure by printing something on the console and then touching a
	# failure file for that test, but then still returns 0. This makes 'make'
	# continue past that failure and complete all the tests anyway.
	#
	# In the end, this script collects all of the failures by searching for
	# files in the .runner directory whose name matches /^test_fail_/, where
	# the thing after the 'fail_' is the test index. Those are the files that
	# would be created by the test scripts if they detect failure. We're
	# basically using the filesystem as a concurrent database of test failures.
	# Even if two tests fail at the same time, since they're touching different
	# files we won't miss any failures.
	runIndices = []
	$runlist.each {
	\| plan \|
	if !$remote or plan.index % $remoteHosts.length == remoteIndex
	runIndices << plan.index
	end
	}

	File.open($runnerDir + "Makefile.#{remoteIndex}", "w") {
	\| outp \|
	outp.puts("all: " + runIndices.map{\|v\| "test_done_#{v}"}.join(' '))
	runIndices.each {
	\| index \|
	plan = $runlist[index]
	outp.puts "test_done_#{index}:"
	outp.puts "\tsh test_script_#{plan.index}"
	}
	}
	end

	def prepareRubyTestRunner
	File.open($runnerDir + "runscript", "w") {
	\| outp \|
	$runlist.each {
	\| plan \|
	outp.puts "print `sh test_script_#{plan.index} 2>&1`"
	}
	}
	end

	def testRunnerCommand(remoteIndex=0)
	case $testRunnerType
	when :shell
	command = "sh runscript"
	when :make
	command = "make -j #{$numChildProcesses} -s -f Makefile.#{remoteIndex}"
	when :ruby
	command = "ruby runscript"
	else
	raise "Unknown test runner type: #{$testRunnerType.to_s}"
	end
	return command
	end