原文地址:JVM Anatomy Park #17: Trust Nonstatic Final Fields
问题
JVM 是否可以信任非静态 final 字段?
理论
正如我们在《#15: 即时常量》中提到的,编译器信任 static final 字段,因为这个值不依赖特定对象,而且是不能改变的。但是如果我们准确的知道对象身份,例如引用自身是 static final,那么我们可以信任它的 final 实例字段么?例如:
class M {
final int x;
M(int x) { this.x = x; }
}
static final M KNOWN_M = new M(1337);
void work() {
// We know exactly the slot that holds the variable, can we just
// inline the value 1337 here?
return KNOWN_M.x;
}
棘手的问题是,如果字段被修改,会发生什么?《Java 语言规范》允许看不到这样的更新,因为字段是 final 的。很不幸,真正的框架设法依靠更强的行为:字段更新将会被看到。下面将要进行的实验激进地优化了这些场景,当写操作发生的时候就尝试逆优化。当前的状态是只有某些内部类是隐式信任的:
static bool trust_final_non_static_fields(ciInstanceKlass* holder) {
if (holder == NULL)
return false;
if (holder->name() == ciSymbol::java_lang_System())
// Never trust strangely unstable finals: System.out, etc.
return false;
// Even if general trusting is disabled, trust system-built closures in these packages.
if (holder->is_in_package("java/lang/invoke") || holder->is_in_package("sun/invoke"))
return true;
// Trust VM anonymous classes. They are private API (sun.misc.Unsafe) and can't be serialized,
// so there is no hacking of finals going on with them.
if (holder->is_anonymous())
return true;
// Trust final fields in all boxed classes
if (holder->is_box_klass())
return true;
// Trust final fields in String
if (holder->name() == ciSymbol::java_lang_String())
return true;
// Trust Atomic*FieldUpdaters: they are very important for performance, and make up one
// more reason not to use Unsafe, if their final fields are trusted. See more in JDK-8140483.
if (holder->name() == ciSymbol::java_util_concurrent_atomic_AtomicIntegerFieldUpdater_Impl() ||
holder->name() == ciSymbol::java_util_concurrent_atomic_AtomicLongFieldUpdater_CASUpdater() ||
holder->name() == ciSymbol::java_util_concurrent_atomic_AtomicLongFieldUpdater_LockedUpdater() ||
holder->name() == ciSymbol::java_util_concurrent_atomic_AtomicReferenceFieldUpdater_Impl()) {
return true;
}
return TrustFinalNonStaticFields;
}
当提供实验性的 -XX:+TrustFinalNonStaticFields 参数的时候,常规的 final 字段才被信任。
实践
我们可以在实践中观察么?修改 《#15: 即时常量》中的 JMH 测试用例,使用对象中的 final 字段,而不是对象本身:
@Warmup(iterations = 5, time = 1, timeUnit = TimeUnit.SECONDS)
@Measurement(iterations = 5, time = 1, timeUnit = TimeUnit.SECONDS)
@Fork(3)
@BenchmarkMode(Mode.AverageTime)
@OutputTimeUnit(TimeUnit.NANOSECONDS)
@State(Scope.Benchmark)
public class TrustFinalFields {
static final T t_static_final;
static T t_static;
final T t_inst_final;
T t_inst;
static {
t_static_final = new T(1000);
t_static = new T(1000);
}
{
t_inst_final = new T(1000);
t_inst = new T(1000);
}
static class T {
final int x;
public T(int x) {
this.x = x;
}
}
@Benchmark public int _static_final() { return 1000 / t_static_final.x; }
@Benchmark public int _static() { return 1000 / t_static.x; }
@Benchmark public int _inst_final() { return 1000 / t_inst_final.x; }
@Benchmark public int _inst() { return 1000 / t_inst.x; }
}
在我的机器上,这个测试用例输出:
Benchmark Mode Cnt Score Error Units
TrustFinalFields._inst avgt 15 4.316 ± 0.003 ns/op
TrustFinalFields._inst_final avgt 15 4.317 ± 0.002 ns/op
TrustFinalFields._static avgt 15 4.282 ± 0.011 ns/op
TrustFinalFields._static_final avgt 15 4.202 ± 0.002 ns/op
看起来 static final 并没有太大帮助。确实如此,你可以看一下生成的指令:
0.02% ↗ movabs $0x782b67520,%r10 ; {oop(a 'org/openjdk/TrustFinalFields$T';)}
│ mov 0x10(%r10),%r10d ; get field $x
│ ...
0.19% │ cltd
0.02% │ idiv %r10d ; idiv
│ ...
0.16% │ test %r11d,%r11d ; check and run @Benchmark again
╰ je BACK
对象被信任位于堆中的给定位置($0x782b67520),但是我们不信任这个字段!配置参数 -XX:+TrustFinalNonStaticFields,再运行:
Benchmark Mode Cnt Score Error Units
TrustFinalFields._inst avgt 15 4.318 ± 0.001 ns/op
TrustFinalFields._inst_final avgt 15 4.317 ± 0.003 ns/op
TrustFinalFields._static avgt 15 4.290 ± 0.002 ns/op
TrustFinalFields._static_final avgt 15 1.901 ± 0.001 ns/op # <--- !!!
这次 final 字段被折叠了,就像我们在 perfasm 输出中看到的:
3.04% ↗ mov %r10,(%rsp)
│ mov 0x38(%rsp),%rsi
8.26% │ mov $0x1,%edx ; <--- constant folded to 1
│ ...
0.04% │ test %r11d,%r11d ; check and run @Benchmark again
╰ je BACK
观察
如果要信任实例 final 字段,那么必须知道当前操作的对象。但即使是这样,当我们确定它不会破坏应用程序时,我们可以务实地这样做 —— 至少对已知的系统类可以。对于来自核心库的 MethodHandle、VarHandle、Atomic*FieldUpdaters 等高性能实现,折叠 final 字段为常量是实现高性能的基石。应用程序可以尝试使用实验性的 VM 参数,但是来自不正常应用程序的潜在危害可能会严重抑制性能收益。
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