原文轉(zhuǎn)載：http://www.hollischuang.com/archives/1883

synchronized，是Java中用于解決并發(fā)情況下數(shù)據(jù)同步訪問的一個很重要的關(guān)鍵字。當(dāng)我們想要保證一個共享資源在同一時間只會被一個線程訪問到時，我們可以在代碼中使用synchronized關(guān)鍵字對類或者對象加鎖。那么，本文來介紹一下synchronized關(guān)鍵字的實現(xiàn)原理是什么。在閱讀本文之間，建議先看下Java虛擬機是如何執(zhí)行線程同步的 。

反編譯

眾所周知，在Java中，synchronized有兩種使用形式，同步方法和同步代碼塊。代碼如下：

/**
 * @author Hollis 17/11/9.
 */
public class SynchronizedTest {

    public synchronized void doSth(){
        System.out.println("Hello World");
    }

    public void doSth1(){
        synchronized (SynchronizedTest.class){
            System.out.println("Hello World");
        }
    }
}

我們先來使用Javap來反編譯以上代碼，結(jié)果如下（部分無用信息過濾掉了）：

  public synchronized void doSth();
    descriptor: ()V
    flags: ACC_PUBLIC, ACC_SYNCHRONIZED
    Code:
      stack=2, locals=1, args_size=1
         0: getstatic     #2                  // Field java/lang/System.out:Ljava/io/PrintStream;
         3: ldc           #3                  // String Hello World
         5: invokevirtual #4                  // Method java/io/PrintStream.println:(Ljava/lang/String;)V
         8: return

  public void doSth1();
    descriptor: ()V
    flags: ACC_PUBLIC
    Code:
      stack=2, locals=3, args_size=1
         0: ldc           #5                  // class com/hollis/SynchronizedTest
         2: dup
         3: astore_1
         4: monitorenter
         5: getstatic     #2                  // Field java/lang/System.out:Ljava/io/PrintStream;
         8: ldc           #3                  // String Hello World
        10: invokevirtual #4                  // Method java/io/PrintStream.println:(Ljava/lang/String;)V
        13: aload_1
        14: monitorexit
        15: goto          23
        18: astore_2
        19: aload_1
        20: monitorexit
        21: aload_2
        22: athrow
        23: return

反編譯后，我們可以看到Java編譯器為我們生成的字節(jié)碼。在對于doSth和doSth1的處理上稍有不同。也就是說。JVM對于同步方法和同步代碼塊的處理方式不同。

對于同步方法，JVM采用ACC_SYNCHRONIZED標記符來實現(xiàn)同步。 對于同步代碼塊。JVM采用monitorenter、monitorexit兩個指令來實現(xiàn)同步。

關(guān)于這部分內(nèi)容，在JVM規(guī)范中也可以找到相關(guān)的描述。

同步方法

The Java? Virtual Machine Specification中有關(guān)于方法級同步的介紹：

Method-level synchronization is performed implicitly, as part of method invocation and return. A synchronized method is distinguished in the run-time constant pool’s method_info structure by the ACC_SYNCHRONIZED flag, which is checked by the method invocation instructions. When invoking a method for which ACC_SYNCHRONIZED is set, the executing thread enters a monitor, invokes the method itself, and exits the monitor whether the method invocation completes normally or abruptly. During the time the executing thread owns the monitor, no other thread may enter it. If an exception is thrown during invocation of the synchronized method and the synchronized method does not handle the exception, the monitor for the method is automatically exited before the exception is rethrown out of the synchronized method.

主要說的是： 方法級的同步是隱式的。同步方法的常量池中會有一個ACC_SYNCHRONIZED標志。當(dāng)某個線程要訪問某個方法的時候，會檢查是否有ACC_SYNCHRONIZED，如果有設(shè)置，則需要先獲得監(jiān)視器鎖，然后開始執(zhí)行方法，方法執(zhí)行之后再釋放監(jiān)視器鎖。這時如果其他線程來請求執(zhí)行方法，會因為無法獲得監(jiān)視器鎖而被阻斷住。值得注意的是，如果在方法執(zhí)行過程中，發(fā)生了異常，并且方法內(nèi)部并沒有處理該異常，那么在異常被拋到方法外面之前監(jiān)視器鎖會被自動釋放。

同步代碼塊

同步代碼塊使用monitorenter和monitorexit兩個指令實現(xiàn)。 The Java? Virtual Machine Specification 中有關(guān)于這兩個指令的介紹：

monitorenter

Each object is associated with a monitor. A monitor is locked if and only if it has an owner. The thread that executes monitorenter attempts to gain ownership of the monitor associated with objectref, as follows:

If the entry count of the monitor associated with objectref is zero, the thread enters the monitor and sets its entry count to one. The thread is then the owner of the monitor.

If the thread already owns the monitor associated with objectref, it reenters the monitor, incrementing its entry count.

If another thread already owns the monitor associated with objectref, the thread blocks until the monitor’s entry count is zero, then tries again to gain ownership.

monitorexit

The thread that executes monitorexit must be the owner of the monitor associated with the instance referenced by objectref.

The thread decrements the entry count of the monitor associated with objectref. If as a result the value of the entry count is zero, the thread exits the monitor and is no longer its owner. Other threads that are blocking to enter the monitor are allowed to attempt to do so.

大致內(nèi)容如下： 可以把執(zhí)行monitorenter指令理解為加鎖，執(zhí)行monitorexit理解為釋放鎖。 每個對象維護著一個記錄著被鎖次數(shù)的計數(shù)器。未被鎖定的對象的該計數(shù)器為0，當(dāng)一個線程獲得鎖（執(zhí)行monitorenter）后，該計數(shù)器自增變?yōu)?1 ，當(dāng)同一個線程再次獲得該對象的鎖的時候，計數(shù)器再次自增。當(dāng)同一個線程釋放鎖（執(zhí)行monitorexit指令）的時候，計數(shù)器再自減。當(dāng)計數(shù)器為0的時候。鎖將被釋放，其他線程便可以獲得鎖。

總結(jié)

同步方法通過ACC_SYNCHRONIZED關(guān)鍵字隱式的對方法進行加鎖。當(dāng)線程要執(zhí)行的方法被標注上ACC_SYNCHRONIZED時，需要先獲得鎖才能執(zhí)行該方法。

同步代碼塊通過monitorenter和monitorexit執(zhí)行來進行加鎖。當(dāng)線程執(zhí)行到monitorenter的時候要先獲得所鎖，才能執(zhí)行后面的方法。當(dāng)線程執(zhí)行到monitorexit的時候則要釋放鎖。

每個對象自身維護這一個被加鎖次數(shù)的計數(shù)器，當(dāng)計數(shù)器數(shù)字為0時表示可以被任意線程獲得鎖。當(dāng)計數(shù)器不為0時，只有獲得鎖的線程才能再次獲得鎖。即可重入鎖。

至此，我們大致了解了Synchronized的原理。但是還有幾個問題并沒有介紹清楚，比如，Monitor到底是什么？對象的鎖的狀態(tài)保存在哪里？ 別急，后面會再介紹。

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