日常說到高并發往往針對共享資源進行讀寫操作很容易得到錯誤的結果,這個時候就需要應用到各種個樣的鎖,本文通過4種鎖進行分享:
- synchronized
- ReentrantLock(可重入鎖)
- ReentrantReadWriteLock(讀寫鎖)
- StampedLock(戳鎖)
Part-1:synchronized
- 同步代碼塊
public void testSynchronizedCode() {
synchronized (lockObject) {
System.out.println("同步代碼塊");
}
}
運行:javap -verbose testSynchronized.class
public void testSynchronizedCode();
descriptor: ()V
flags: ACC_PUBLIC
Code:
stack=2, locals=3, args_size=1
0: aload_0
1: getfield #3 // Field lockObject:Ljava/lang/Object;
4: dup
5: astore_1
6: monitorenter
7: getstatic #6 // Field java/lang/System.out:Ljava/io/PrintStream;
10: ldc #9 // String 同步代碼塊
12: invokevirtual #8 // Method java/io/PrintStream.println:(Ljava/lang/String;)V
15: aload_1
16: monitorexit
17: goto 25
20: astore_2
21: aload_1
22: monitorexit
23: aload_2
24: athrow
25: return
Exception table:
from to target type
7 17 20 any
20 23 20 any
進入代碼塊之前先通過monitorenter獲取monitor鎖,如果代碼塊執行程序中沒有例外通過monitorexit釋放monitor鎖,
例外則通過monitorexit鎖釋放monitor鎖
- 同步方法塊
public synchronized void testSynchronizedMethod() {
System.out.println("同步方法");
}
運行:javap -verbose testSynchronized.class
public synchronized void testSynchronizedMethod();
descriptor: ()V
flags: ACC_PUBLIC, ACC_SYNCHRONIZED
Code:
stack=2, locals=1, args_size=1
0: getstatic #6 // Field java/lang/System.out:Ljava/io/PrintStream;
3: ldc #7 // String 同步方法
5: invokevirtual #8 // Method java/io/PrintStream.println:(Ljava/lang/String;)V
8: return
LineNumberTable:
line 18: 0
line 19: 8
LocalVariableTable:
Start Length Slot Name Signature
0 9 0 this Llsf/study/testSynchronized;
Part-2:ReentrantLock可重入鎖
// 引數fair 代表是否公平鎖,默認為false
public ReentrantLock(boolean fair) {
sync = fair ? new FairSync() : new NonfairSync();
}
//重入鎖配合Condition進行使用實作等待功能
private final ReentrantLock reentrantLock = new ReentrantLock(true);
private final Condition addCondition = reentrantLock.newCondition();
private final Condition subCondition = reentrantLock.newCondition();
private int count = 0;
public void add() {
reentrantLock.lock();
try {
while (count >= 10) {
System.out.println("加法-等待區");
addCondition.await();
}
count++;
System.out.println("加---結果:" + count);
subCondition.signal();
} catch (Exception ex) {
ex.printStackTrace();
} finally {
reentrantLock.unlock();
}
}
public void sub() {
reentrantLock.lock();
try {
while (count <= 0) {
System.out.println("減法-等待區");
subCondition.await();
}
count--;
System.out.println("減---結果:" + count);
addCondition.signal();
} catch (Exception ex) {
ex.printStackTrace();
} finally {
reentrantLock.unlock();
}
}
Part-3:ReentrantReadWriteLock可重入讀寫鎖
- 鎖升級:ReentrantReadWriteLock中不支持
ReentrantReadWriteLock reentrantReadWriteLock=new ReentrantReadWriteLock();
reentrantReadWriteLock.readLock().lock();
System.out.println("讀鎖獲取完畢");
reentrantReadWriteLock.writeLock().lock();
System.out.println("寫鎖獲取完畢");
運行結果:
讀鎖獲取完畢
- 鎖降級:釋放鎖的順序可以調整
ReentrantReadWriteLock reentrantReadWriteLock=new ReentrantReadWriteLock();
reentrantReadWriteLock.writeLock().lock();
System.out.println("寫鎖獲取完畢");
reentrantReadWriteLock.readLock().lock();
System.out.println("讀鎖獲取完畢");
reentrantReadWriteLock.writeLock().unlock();
System.out.println("寫鎖釋放完畢");
reentrantReadWriteLock.readLock().unlock();
System.out.println("讀鎖釋放完畢");
reentrantReadWriteLock.writeLock().lock();
System.out.println("寫鎖獲取完畢");
運行結果:
寫鎖獲取完畢
讀鎖獲取完畢
寫鎖釋放完畢
讀鎖釋放完畢
寫鎖獲取完畢
總結如下:讀讀共享、寫讀互斥,讀寫互斥、寫寫互斥
Part-4:StampedLock戳鎖
StampedLock和ReadWriteLock相比,改進讀的程序中也允許獲取寫鎖后寫入!我們讀的資料就可能不一致,
需要額外代碼判斷讀的程序中是否有寫入,這種讀鎖是一種樂觀鎖,
通過StampedLocked類提供樣例代碼進行分析
class Point {
private double x, y;
private final StampedLock sl = new StampedLock();
void move(double deltaX, double deltaY) { // an exclusively locked method
long stamp = sl.writeLock();
try {
x += deltaX;
y += deltaY;
} finally {
sl.unlockWrite(stamp);
}
}
double distanceFromOrigin() { // A read-only method
long stamp = sl.tryOptimisticRead();// 嘗試獲取樂觀鎖
double currentX = x, currentY = y;
if (!sl.validate(stamp)) { //判斷讀的程序中是否有寫入,如果沒有則沒有鎖
stamp = sl.readLock(); // 獲取讀鎖
try {
currentX = x;
currentY = y;
} finally {
sl.unlockRead(stamp);
}
}
return Math.sqrt(currentX * currentX + currentY * currentY);
}
void moveIfAtOrigin(double newX, double newY) { // upgrade
// Could instead start with optimistic, not read mode
long stamp = sl.readLock();
try {
while (x == 0.0 && y == 0.0) {
long ws = sl.tryConvertToWriteLock(stamp);//嘗試轉化為寫鎖
if (ws != 0L) {
// 升級成功,更新鎖戳標,退出回圈
stamp = ws;
x = newX;
y = newY;
break;
} else {
// 讀鎖升級寫鎖失敗,顯示獲取獨占鎖,回圈重試
sl.unlockRead(stamp);
stamp = sl.writeLock();
}
}
} finally {
sl.unlock(stamp);
}
}
}
ReentrantReadWriteLock其他執行緒嘗試獲取寫鎖的時候,會被阻塞,
StampedLock在樂觀獲取鎖后,其他執行緒嘗試獲取寫鎖,也不會被阻塞,這其實是對讀鎖的優化,
在獲取樂觀讀鎖后,還需要對結果進行校驗,
Part-5:總結
- Synchronized:在日常使用種無需關注鎖的釋放,并且是原生內容后期優化空間很大,一般開發種也最常用
- ReentrantLock:鎖的細粒度和靈活度,可以指定鎖分配策略(公平/非公平)
- ReentrantReadWriteLock:在讀多寫少的場景比較合適
- StampedLock:Jdk1.8版本新增功能,性能優于ReentrantReadWriteLock
參考資料
- https://blog.takipi.com/java-8-stampedlocks-vs-readwritelocks-and-synchronized/
- https://www.liaoxuefeng.com/wiki/1252599548343744/1309138673991714
- JDK原始碼
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