JDK14/Java14源码在线阅读
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import os
from os.path import join, dirname, basename, exists, abspath
from argparse import ArgumentParser
import sanitycheck
import re
import mx
from mx_gate import Task
from sanitycheck import _noneAsEmptyList
from mx_unittest import unittest
from mx_graal_bench import dacapo
import mx_gate
import mx_unittest
_suite = mx.suite('graal')
_jdk = mx.get_jdk(tag='default')
assert _jdk.javaCompliance >= "1.9"
def isJVMCIEnabled(vm):
return True
_jvmciModes = {
'hosted' : ['-XX:+UnlockExperimentalVMOptions', '-XX:+EnableJVMCI'],
'jit' : ['-XX:+UnlockExperimentalVMOptions', '-XX:+EnableJVMCI', '-XX:+UseJVMCICompiler'],
'disabled' : []
}
def get_vm():
"""
Gets the name of the currently selected JVM variant.
"""
return 'server'
class JVMCIMode:
"""
A context manager for setting the current JVMCI mode.
"""
def __init__(self, jvmciMode=None):
self.update(jvmciMode)
def update(self, jvmciMode=None):
assert jvmciMode is None or jvmciMode in _jvmciModes, jvmciMode
self.jvmciMode = jvmciMode or _vm.jvmciMode
def __enter__(self):
global _vm
self.previousVm = _vm
_vm = self
def __exit__(self, exc_type, exc_value, traceback):
global _vm
_vm = self.previousVm
_vm = JVMCIMode(jvmciMode='jit')
class BootClasspathDist(object):
"""
Extra info for a Distribution that must be put onto the boot class path.
"""
def __init__(self, name):
self._name = name
def dist(self):
return mx.distribution(self._name)
def get_classpath_repr(self):
return self.dist().classpath_repr()
_compilers = ['graal-economy', 'graal']
_bootClasspathDists = [
BootClasspathDist('GRAAL'),
]
def add_compiler(compilerName):
_compilers.append(compilerName)
def add_boot_classpath_dist(dist):
_bootClasspathDists.append(dist)
mx_gate.add_jacoco_includes(['org.graalvm.compiler.*'])
mx_gate.add_jacoco_excluded_annotations(['@Snippet', '@ClassSubstitution'])
# This is different than the 'jmh' commmand in that it
# looks for internal JMH benchmarks (i.e. those that
# depend on the JMH library).
def microbench(args):
"""run JMH microbenchmark projects"""
parser = ArgumentParser(prog='mx microbench', description=microbench.__doc__,
usage="%(prog)s [command options|VM options] [-- [JMH options]]")
parser.add_argument('--jar', help='Explicitly specify micro-benchmark location')
known_args, args = parser.parse_known_args(args)
vmArgs, jmhArgs = mx.extract_VM_args(args, useDoubleDash=True)
# look for -f in JMH arguments
forking = True
for i in range(len(jmhArgs)):
arg = jmhArgs[i]
if arg.startswith('-f'):
if arg == '-f' and (i+1) < len(jmhArgs):
arg += jmhArgs[i+1]
try:
if int(arg[2:]) == 0:
forking = False
except ValueError:
pass
if known_args.jar:
# use the specified jar
args = ['-jar', known_args.jar]
if not forking:
args += vmArgs
else:
# find all projects with a direct JMH dependency
jmhProjects = []
for p in mx.projects_opt_limit_to_suites():
if 'JMH' in [x.name for x in p.deps]:
jmhProjects.append(p.name)
cp = mx.classpath(jmhProjects)
# execute JMH runner
args = ['-cp', cp]
if not forking:
args += vmArgs
args += ['org.openjdk.jmh.Main']
if forking:
jvm = get_vm()
def quoteSpace(s):
if " " in s:
return '"' + s + '"'
return s
forkedVmArgs = map(quoteSpace, _parseVmArgs(_jdk, vmArgs))
args += ['--jvmArgsPrepend', ' '.join(['-' + jvm] + forkedVmArgs)]
run_vm(args + jmhArgs)
def ctw(args, extraVMarguments=None):
"""run CompileTheWorld"""
defaultCtwopts = '-Inline'
parser = ArgumentParser(prog='mx ctw')
parser.add_argument('--ctwopts', action='store', help='space separated JVMCI options used for CTW compilations (default: --ctwopts="' + defaultCtwopts + '")', default=defaultCtwopts, metavar='<options>')
parser.add_argument('--cp', '--jar', action='store', help='jar or class path denoting classes to compile', metavar='<path>')
args, vmargs = parser.parse_known_args(args)
if args.ctwopts:
# Replace spaces with '#' since -G: options cannot contain spaces
vmargs.append('-G:CompileTheWorldConfig=' + re.sub(r'\s+', '#', args.ctwopts))
if args.cp:
cp = os.path.abspath(args.cp)
else:
cp = join(_jdk.home, 'lib', 'modules', 'bootmodules.jimage')
vmargs.append('-G:CompileTheWorldExcludeMethodFilter=sun.awt.X11.*.*')
# suppress menubar and dock when running on Mac; exclude x11 classes as they may cause vm crashes (on Solaris)
vmargs = ['-Djava.awt.headless=true'] + vmargs
if _vm.jvmciMode == 'disabled':
vmargs += ['-XX:+CompileTheWorld', '-Xbootclasspath/p:' + cp]
else:
if _vm.jvmciMode == 'jit':
vmargs += ['-XX:+BootstrapJVMCI']
vmargs += ['-G:CompileTheWorldClasspath=' + cp, 'org.graalvm.compiler.hotspot.CompileTheWorld']
run_vm(vmargs + _noneAsEmptyList(extraVMarguments))
class UnitTestRun:
def __init__(self, name, args):
self.name = name
self.args = args
def run(self, suites, tasks, extraVMarguments=None):
for suite in suites:
with Task(self.name + ': hosted-release ' + suite, tasks) as t:
if t: unittest(['--suite', suite, '--enable-timing', '--verbose', '--fail-fast'] + self.args + _noneAsEmptyList(extraVMarguments))
class BootstrapTest:
def __init__(self, name, args, suppress=None):
self.name = name
self.args = args
self.suppress = suppress
def run(self, tasks, extraVMarguments=None):
with JVMCIMode('jit'):
with Task(self.name, tasks) as t:
if t:
if self.suppress:
out = mx.DuplicateSuppressingStream(self.suppress).write
else:
out = None
run_vm(self.args + _noneAsEmptyList(extraVMarguments) + ['-XX:-TieredCompilation', '-XX:+BootstrapJVMCI', '-version'], out=out)
class MicrobenchRun:
def __init__(self, name, args):
self.name = name
self.args = args
def run(self, tasks, extraVMarguments=None):
with Task(self.name + ': hosted-product ', tasks) as t:
if t: microbench(_noneAsEmptyList(extraVMarguments) + ['--'] + self.args)
def compiler_gate_runner(suites, unit_test_runs, bootstrap_tests, tasks, extraVMarguments=None):
# Run unit tests in hosted mode
with JVMCIMode('hosted'):
for r in unit_test_runs:
r.run(suites, tasks, extraVMarguments)
# Run microbench in hosted mode (only for testing the JMH setup)
with JVMCIMode('hosted'):
for r in [MicrobenchRun('Microbench', ['TestJMH'])]:
r.run(tasks, extraVMarguments)
# Run ctw against rt.jar on server-hosted-jvmci
with JVMCIMode('hosted'):
with Task('CTW:hosted', tasks) as t:
if t: ctw(['--ctwopts', '-Inline +ExitVMOnException', '-esa', '-G:+CompileTheWorldMultiThreaded', '-G:-InlineDuringParsing', '-G:-CompileTheWorldVerbose', '-XX:ReservedCodeCacheSize=300m'], _noneAsEmptyList(extraVMarguments))
# bootstrap tests
for b in bootstrap_tests:
b.run(tasks, extraVMarguments)
# run dacapo sanitychecks
for test in sanitycheck.getDacapos(level=sanitycheck.SanityCheckLevel.Gate, gateBuildLevel='release', extraVmArguments=extraVMarguments) \
+ sanitycheck.getScalaDacapos(level=sanitycheck.SanityCheckLevel.Gate, gateBuildLevel='release', extraVmArguments=extraVMarguments):
with Task(str(test) + ':' + 'release', tasks) as t:
if t and not test.test('jvmci'):
t.abort(test.name + ' Failed')
# ensure -Xbatch still works
with JVMCIMode('jit'):
with Task('DaCapo_pmd:BatchMode', tasks) as t:
if t: dacapo(_noneAsEmptyList(extraVMarguments) + ['-Xbatch', 'pmd'])
# ensure benchmark counters still work
with JVMCIMode('jit'):
with Task('DaCapo_pmd:BenchmarkCounters:product', tasks) as t:
if t: dacapo(_noneAsEmptyList(extraVMarguments) + ['-G:+LIRProfileMoves', '-G:+GenericDynamicCounters', '-XX:JVMCICounterSize=10', 'pmd'])
# ensure -Xcomp still works
with JVMCIMode('jit'):
with Task('XCompMode:product', tasks) as t:
if t: run_vm(_noneAsEmptyList(extraVMarguments) + ['-Xcomp', '-version'])
graal_unit_test_runs = [
UnitTestRun('UnitTests', []),
]
_registers = 'o0,o1,o2,o3,f8,f9,d32,d34' if mx.get_arch() == 'sparcv9' else 'rbx,r11,r10,r14,xmm3,xmm11,xmm14'
graal_bootstrap_tests = [
BootstrapTest('BootstrapWithSystemAssertions', ['-esa']),
BootstrapTest('BootstrapWithSystemAssertionsNoCoop', ['-esa', '-XX:-UseCompressedOops', '-G:+ExitVMOnException']),
BootstrapTest('BootstrapWithGCVerification', ['-XX:+UnlockDiagnosticVMOptions', '-XX:+VerifyBeforeGC', '-XX:+VerifyAfterGC', '-G:+ExitVMOnException'], suppress=['VerifyAfterGC:', 'VerifyBeforeGC:']),
BootstrapTest('BootstrapWithG1GCVerification', ['-XX:+UnlockDiagnosticVMOptions', '-XX:-UseSerialGC', '-XX:+UseG1GC', '-XX:+VerifyBeforeGC', '-XX:+VerifyAfterGC', '-G:+ExitVMOnException'], suppress=['VerifyAfterGC:', 'VerifyBeforeGC:']),
BootstrapTest('BootstrapEconomyWithSystemAssertions', ['-esa', '-Djvmci.compiler=graal-economy', '-G:+ExitVMOnException']),
BootstrapTest('BootstrapWithExceptionEdges', ['-esa', '-G:+StressInvokeWithExceptionNode', '-G:+ExitVMOnException']),
BootstrapTest('BootstrapWithRegisterPressure', ['-esa', '-G:RegisterPressure=' + _registers, '-G:+ExitVMOnException', '-G:+LIRUnlockBackendRestart']),
BootstrapTest('BootstrapTraceRAWithRegisterPressure', ['-esa', '-G:+TraceRA', '-G:RegisterPressure=' + _registers, '-G:+ExitVMOnException', '-G:+LIRUnlockBackendRestart']),
BootstrapTest('BootstrapWithImmutableCode', ['-esa', '-G:+ImmutableCode', '-G:+VerifyPhases', '-G:+ExitVMOnException']),
]
def _graal_gate_runner(args, tasks):
compiler_gate_runner(['graal'], graal_unit_test_runs, graal_bootstrap_tests, tasks, args.extra_vm_argument)
mx_gate.add_gate_runner(_suite, _graal_gate_runner)
mx_gate.add_gate_argument('--extra-vm-argument', action='append', help='add extra vm argument to gate tasks if applicable (multiple occurrences allowed)')
def _unittest_vm_launcher(vmArgs, mainClass, mainClassArgs):
run_vm(vmArgs + [mainClass] + mainClassArgs)
mx_unittest.set_vm_launcher('JDK9 VM launcher', _unittest_vm_launcher)
def _parseVmArgs(jdk, args, addDefaultArgs=True):
args = mx.expand_project_in_args(args, insitu=False)
jacocoArgs = mx_gate.get_jacoco_agent_args()
if jacocoArgs:
args = jacocoArgs + args
# Support for -G: options
def translateGOption(arg):
if arg.startswith('-G:+'):
if '=' in arg:
mx.abort('Mixing + and = in -G: option specification: ' + arg)
arg = '-Dgraal.' + arg[len('-G:+'):] + '=true'
elif arg.startswith('-G:-'):
if '=' in arg:
mx.abort('Mixing - and = in -G: option specification: ' + arg)
arg = '-Dgraal.' + arg[len('-G:+'):] + '=false'
elif arg.startswith('-G:'):
if '=' not in arg:
mx.abort('Missing "=" in non-boolean -G: option specification: ' + arg)
arg = '-Dgraal.' + arg[len('-G:'):]
return arg
args = map(translateGOption, args)
if '-G:+PrintFlags' in args and '-Xcomp' not in args:
mx.warn('Using -G:+PrintFlags may have no effect without -Xcomp as Graal initialization is lazy')
bcp = []
if _jvmciModes[_vm.jvmciMode]:
if _add_jvmci_to_bootclasspath:
bcp.append(mx.library('JVMCI').classpath_repr())
bcp.extend([d.get_classpath_repr() for d in _bootClasspathDists])
if bcp:
args = ['-Xbootclasspath/p:' + os.pathsep.join(bcp)] + args
# Remove JVMCI from class path. It's only there to support compilation.
cpIndex, cp = mx.find_classpath_arg(args)
if cp:
jvmciLib = mx.library('JVMCI').path
cp = os.pathsep.join([e for e in cp.split(os.pathsep) if e != jvmciLib])
args[cpIndex] = cp
# Set the default JVMCI compiler
jvmciCompiler = _compilers[-1]
args = ['-Djvmci.compiler=' + jvmciCompiler] + args
if '-version' in args:
ignoredArgs = args[args.index('-version') + 1:]
if len(ignoredArgs) > 0:
mx.log("Warning: The following options will be ignored by the vm because they come after the '-version' argument: " + ' '.join(ignoredArgs))
return jdk.processArgs(args, addDefaultArgs=addDefaultArgs)
def run_java(jdk, args, nonZeroIsFatal=True, out=None, err=None, cwd=None, timeout=None, env=None, addDefaultArgs=True):
args = _parseVmArgs(jdk, args, addDefaultArgs=addDefaultArgs)
jvmciModeArgs = _jvmciModes[_vm.jvmciMode]
cmd = [jdk.java] + ['-' + get_vm()] + jvmciModeArgs + args
return mx.run(cmd, nonZeroIsFatal=nonZeroIsFatal, out=out, err=err, cwd=cwd)
_JVMCI_JDK_TAG = 'jvmci'
class GraalJVMCI9JDKConfig(mx.JDKConfig):
def __init__(self, original):
self._original = original
mx.JDKConfig.__init__(self, original.home, tag=_JVMCI_JDK_TAG)
def run_java(self, args, **kwArgs):
run_java(self._original, args, **kwArgs)
class GraalJDKFactory(mx.JDKFactory):
def getJDKConfig(self):
return GraalJVMCI9JDKConfig(_jdk)
def description(self):
return "JVMCI JDK with Graal"
# This will override the 'generic' JVMCI JDK with a Graal JVMCI JDK that has
# support for -G style Graal options.
mx.addJDKFactory(_JVMCI_JDK_TAG, mx.JavaCompliance('9'), GraalJDKFactory())
def run_vm(args, vm=None, nonZeroIsFatal=True, out=None, err=None, cwd=None, timeout=None, debugLevel=None, vmbuild=None):
"""run a Java program by executing the java executable in a JVMCI JDK"""
return run_java(_jdk, args, nonZeroIsFatal=nonZeroIsFatal, out=out, err=err, cwd=cwd, timeout=timeout)
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