如果是在生产环境中直接排查 JVM 的话,最简单的做法就是使用 JDK 自带的 6 个非常实用的命令行工具来排查。它们分别是:jps、jstat、jinfo、jmap、jhat 和 jstack,它们都位于 JDK 的 bin 目录下,可以使用命令行工具直接运行。
1. jps(虚拟机进程状况工具)
jps(JVM Process Status tool,虚拟机进程状况工具)它的功能和 Linux 中的 ps 命令比较类似,用于列出正在运行的 JVM 的 LVMID(Local Virtual Machine IDentifier,本地虚拟机唯一 ID),以及 JVM 的执行主类、JVM 启动参数等信息。语法如下:
jps [options] [hostid]
常用的 options 选项:
- -l:用于输出运行主类的全名,如果是 jar 包,则输出 jar 包的路径;
- -q:用于输出 LVMID(Local Virtual Machine Identifier,虚拟机唯一 ID);
- -m:用于输出虚拟机启动时传递给主类 main() 方法的参数;
- -v:用于输出启动时的 JVM 参数。
使用实例:
➜ jps -l
68848
40085 org.jetbrains.jps.cmdline.Launcher
40086 com.example.optimize.NativeOptimize
40109 jdk.jcmd/sun.tools.jps.Jps
68879 org.jetbrains.idea.maven.server.RemoteMavenServer36
➜ jps -q
40368
68848
40085
40086
68879
➜ jps -m
40400 Jps -m
68848
40085 Launcher /Applications/IntelliJ IDEA2.app/Contents/lib/idea_rt.jar:/Applications/IntelliJ IDEA2.app/Contents/lib/oro-2.0.8.jar:/Applications/IntelliJ IDEA2.app/Contents/lib/resources_en.jar:/Applications/IntelliJ IDEA2.app/Contents/lib/maven-model-3.6.1.jar:/Applications/IntelliJ IDEA2.app/Contents/lib/qdox-2.0-M10.jar:/Applications/IntelliJ IDEA2.app/Contents/lib/plexus-component-annotations-1.7.1.jar:/Applications/IntelliJ IDEA2.app/Contents/lib/httpcore-4.4.13.jar:/Applications/IntelliJ IDEA2.app/Contents/lib/maven-resolver-api-1.3.3.jar:/Applications/IntelliJ IDEA2.app/Contents/lib/netty-common-4.1.47.Final.jar:/Applications/IntelliJ IDEA2.app/Contents/plugins/java/lib/maven-resolver-connector-basic-1.3.3.jar:/Applications/IntelliJ IDEA2.app/Contents/lib/maven-artifact-3.6.1.jar:/Applications/IntelliJ IDEA2.app/Contents/lib/plexus-utils-3.2.0.jar:/Applications/IntelliJ IDEA2.app/Contents/lib/netty-resolver-4.1.47.Final.jar:/Applications/IntelliJ IDEA2.app/Contents/lib/guava-28.2-
40086 NativeOptimize
68879 RemoteMavenServer36
➜ jps -v
68848 -Xms128m -Xmx2048m -XX:ReservedCodeCacheSize=240m -XX:+UseCompressedOops -Dfile.encoding=UTF-8 -XX:+UseConcMarkSweepGC -XX:SoftRefLRUPolicyMSPerMB=50 -ea -XX:CICompilerCount=2 -Dsun.io.useCanonPrefixCache=false -Djava.net.preferIPv4Stack=true -Djdk.http.auth.tunneling.disabledSchemes="" -XX:+HeapDumpOnOutOfMemoryError -XX:-OmitStackTraceInFastThrow -Djdk.attach.allowAttachSelf -Dkotlinx.coroutines.debug=off -Djdk.module.illegalAccess.silent=true -Xverify:none -XX:ErrorFile=/Users/admin/java_error_in_idea_%p.log -XX:HeapDumpPath=/Users/admin/java_error_in_idea.hprof -javaagent:/Users/admin/.jetbrains/jetbrains-agent-v3.2.0.de72.619 -Djb.vmOptionsFile=/Users/admin/Library/Application Support/JetBrains/IntelliJIdea2020.1/idea.vmoptions -Didea.paths.selector=IntelliJIdea2020.1 -Didea.executable=idea -Didea.home.path=/Applications/IntelliJ IDEA2.app/Contents -Didea.vendor.name=JetBrains
40085 Launcher -Xmx700m -Djava.awt.headless=true -Djava.endorsed.dirs="" -Djdt.compiler.useSingleThread=true -Dpreload.project.path=/Users/admin/github/blog-example/blog-example -Dpreload.config.path=/Users/admin/Library/Application Support/JetBrains/IntelliJIdea2020.1/options -Dcompile.parallel=false -Drebuild.on.dependency.change=true -Djava.net.preferIPv4Stack=true -Dio.netty.initialSeedUniquifier=1366842080359982660 -Dfile.encoding=UTF-8 -Duser.language=zh -Duser.country=CN -Didea.paths.selector=IntelliJIdea2020.1 -Didea.home.path=/Applications/IntelliJ IDEA2.app/Contents -Didea.config.path=/Users/admin/Library/Application Support/JetBrains/IntelliJIdea2020.1 -Didea.plugins.path=/Users/admin/Library/Application Support/JetBrains/IntelliJIdea2020.1/plugins -Djps.log.dir=/Users/admin/Library/Logs/JetBrains/IntelliJIdea2020.1/build-log -Djps.fallback.jdk.home=/Applications/IntelliJ IDEA2.app/Contents/jbr/Contents/Home -Djps.fallback.jdk.version=11.0.6 -Dio.netty.noUnsafe=true -Djava.io.tmpdir=/Users/admin/Library/Caches/Je
40086 NativeOptimize -Dfile.encoding=UTF-8
40425 Jps -Dapplication.home=/Users/admin/Library/Java/JavaVirtualMachines/openjdk-14/Contents/Home -Xms8m -Djdk.module.main=jdk.jcmd
68879 RemoteMavenServer36 -Djava.awt.headless=true -Dmaven.defaultProjectBuilder.disableGlobalModelCache=true -Xmx768m -Didea.maven.embedder.version=3.6.1 -Dmaven.ext.class.path=/Applications/IntelliJ IDEA2.app/Contents/plugins/maven/lib/maven-event-listener.jar -Dfile.encoding=UTF-8
2. jstat(虚拟机统计信息监视工具)
jstat(JVM Statistics Monitoring Tool,虚拟机统计信息监视工具)用于监控虚拟机的运行状态信息。
例如,我们用它来查询某个 Java 进程的垃圾收集情况,示例如下:参数说明如下表所示:
| 参数 | 说明 |
|---|---|
| S0C | 年轻代中第一个存活区的大小 |
| S1C | 年轻代中第二个存活区的大小 |
| S0U | 年轻代中第一个存活区已使用的空间(字节) |
| S1U | 年轻代中第二个存活区已使用的空间(字节) |
| EC | Edem 区大小 |
| EU | 年轻代中 Edem 区已使用的空间(字节) |
| OC | 老年代大小 |
| OU | 老年代已使用的空间(字节) |
| YGC | 从应用程序启动到采样时 young gc 的次数 |
| YGCT | 从应用程序启动到采样时 young gc 的所用的时间(s) |
| FGC | 从应用程序启动到采样时 full gc 的次数 |
| FGCT | 从应用程序启动到采样时 full gc 的所用的时间 |
| GCT | 从应用程序启动到采样时整个 gc 所用的时间 |
注意:年轻代的 Edem 区满了会触发 young gc,老年代满了会触发 old gc。full gc 指的是清除整个堆,包括 young 区 和 old 区。
jstat 常用的查询参数有:
-class,查询类加载器信息;
-compiler,JIT 相关信息;
-gc,GC 堆状态;
-gcnew,新生代统计信息;
-gcutil,GC 堆统计汇总信息。3. jinfo(查询虚拟机参数配置工具)
查看 JVM 参数示例如下:
➜ jinfo -flags 45129
VM Flags:
-XX:CICompilerCount=3 -XX:InitialHeapSize=268435456 -XX:MaxHeapSize=4294967296 -XX:MaxNewSize=1431306240 -XX:MinHeapDeltaBytes=524288 -XX:NewSize=89128960 -XX:OldSize=179306496 -XX:+UseCompressedClassPointers -XX:+UseCompressedOops -XX:+UseFastUnorderedTimeStamps -XX:+UseParallelGC
其中 45129 是使用 jps 查询的 LVMID。
我们可以通过 jinfo -flag [+/-]name 来修改虚拟机的参数值,比如下面的示例:
➜ jinfo -flag PrintGC 45129 # 查询是否开启 GC 打印
-XX:-PrintGC
➜ jinfo -flag +PrintGC 45129 # 开启 GC 打印
➜ jinfo -flag PrintGC 45129 # 查询是否开启 GC 打印
-XX:+PrintGC
➜ jinfo -flag -PrintGC 45129 # 关闭 GC 打印
➜ jinfo -flag PrintGC 45129 # 查询是否开启 GC 打印
-XX:-PrintGC
4. jmap(堆快照生成工具)
jmap(Memory Map for Java)用于查询堆的快照信息。
查询堆信息示例如下:
➜ jmap -heap 45129
Attaching to process ID 45129, please wait...
Debugger attached successfully.
Server compiler detected.
JVM version is 25.101-b13
using thread-local object allocation.
Parallel GC with 6 thread(s)
Heap Configuration:
MinHeapFreeRatio = 0
MaxHeapFreeRatio = 100
MaxHeapSize = 4294967296 (4096.0MB)
NewSize = 89128960 (85.0MB)
MaxNewSize = 1431306240 (1365.0MB)
OldSize = 179306496 (171.0MB)
NewRatio = 2
SurvivorRatio = 8
MetaspaceSize = 21807104 (20.796875MB)
CompressedClassSpaceSize = 1073741824 (1024.0MB)
MaxMetaspaceSize = 17592186044415 MB
G1HeapRegionSize = 0 (0.0MB)
Heap Usage:
PS Young Generation
Eden Space:
capacity = 67108864 (64.0MB)
used = 5369232 (5.1204986572265625MB)
free = 61739632 (58.87950134277344MB)
8.000779151916504% used
From Space:
capacity = 11010048 (10.5MB)
used = 0 (0.0MB)
free = 11010048 (10.5MB)
0.0% used
To Space:
capacity = 11010048 (10.5MB)
used = 0 (0.0MB)
free = 11010048 (10.5MB)
0.0% used
PS Old Generation
capacity = 179306496 (171.0MB)
used = 0 (0.0MB)
free = 179306496 (171.0MB)
0.0% used
2158 interned Strings occupying 152472 bytes.
我们也可以直接生成堆快照文件,示例如下:
➜ jmap -dump:format=b,file=/Users/admin/Documents/2020.dump 47380
Dumping heap to /Users/admin/Documents/2020.dump ...
Heap dump file created
5. jhat(堆快照分析功能)
jhat(JVM Heap Analysis Tool,堆快照分析工具)和 jmap 搭配使用,用于启动一个 web 站点来分析 jmap 生成的快照文件。
执行示例如下:
jhat /Users/admin/Documents/2020.dump
Reading from /Users/admin/Documents/2020.dump...
Dump file created Tue May 26 16:12:41 CST 2020
Snapshot read, resolving...
Resolving 17797 objects...
Chasing references, expect 3 dots...
Eliminating duplicate references...
Snapshot resolved.
Started HTTP server on port 7000
Server is ready.
上述信息表示 jhat 启动了一个 http 的服务器端口为 7000 的站点来展示信息,此时我们在浏览器中输入:http://localhost:7000/,会看到如下图所示的信息:
6. jstack(查询虚拟机当前的线程快照信息)
我们使用 jstack 工具打印一下当前线程的快照信息,结果如下:
➜ bin jstack -l 50016
2020-05-26 18:01:41
Full thread dump Java HotSpot(TM) 64-Bit Server VM (25.101-b13 mixed mode):
"Attach Listener" #10 daemon prio=9 os_prio=31 tid=0x00007f8c00840800 nid=0x3c03 waiting on condition [0x0000000000000000]
java.lang.Thread.State: RUNNABLE
Locked ownable synchronizers:
- None
"Thread-0" #9 prio=5 os_prio=31 tid=0x00007f8c00840000 nid=0x3e03 waiting for monitor entry [0x00007000100c8000]
java.lang.Thread.State: BLOCKED (on object monitor)
at com.example.optimize.NativeOptimize$1.run(NativeOptimize.java:25)
- waiting to lock <0x000000076abb62d0> (a java.lang.Object)
- locked <0x000000076abb62e0> (a java.lang.Object)
at java.lang.Thread.run(Thread.java:745)
Locked ownable synchronizers:
- None
"Service Thread" #8 daemon prio=9 os_prio=31 tid=0x00007f8c01814800 nid=0x4103 runnable [0x0000000000000000]
java.lang.Thread.State: RUNNABLE
Locked ownable synchronizers:
- None
"C1 CompilerThread2" #7 daemon prio=9 os_prio=31 tid=0x00007f8c0283c800 nid=0x4303 waiting on condition [0x0000000000000000]
java.lang.Thread.State: RUNNABLE
Locked ownable synchronizers:
- None
"C2 CompilerThread1" #6 daemon prio=9 os_prio=31 tid=0x00007f8c0300a800 nid=0x4403 waiting on condition [0x0000000000000000]
java.lang.Thread.State: RUNNABLE
Locked ownable synchronizers:
- None
"C2 CompilerThread0" #5 daemon prio=9 os_prio=31 tid=0x00007f8c0283c000 nid=0x3603 waiting on condition [0x0000000000000000]
java.lang.Thread.State: RUNNABLE
Locked ownable synchronizers:
- None
"Signal Dispatcher" #4 daemon prio=9 os_prio=31 tid=0x00007f8c0283b000 nid=0x4603 runnable [0x0000000000000000]
java.lang.Thread.State: RUNNABLE
Locked ownable synchronizers:
- None
"Finalizer" #3 daemon prio=8 os_prio=31 tid=0x00007f8c03001000 nid=0x5003 in Object.wait() [0x000070000f8ad000]
java.lang.Thread.State: WAITING (on object monitor)
at java.lang.Object.wait(Native Method)
- waiting on <0x000000076ab08ee0> (a java.lang.ref.ReferenceQueue$Lock)
at java.lang.ref.ReferenceQueue.remove(ReferenceQueue.java:143)
- locked <0x000000076ab08ee0> (a java.lang.ref.ReferenceQueue$Lock)
at java.lang.ref.ReferenceQueue.remove(ReferenceQueue.java:164)
at java.lang.ref.Finalizer$FinalizerThread.run(Finalizer.java:209)
Locked ownable synchronizers:
- None
"Reference Handler" #2 daemon prio=10 os_prio=31 tid=0x00007f8c03000000 nid=0x2f03 in Object.wait() [0x000070000f7aa000]
java.lang.Thread.State: WAITING (on object monitor)
at java.lang.Object.wait(Native Method)
- waiting on <0x000000076ab06b50> (a java.lang.ref.Reference$Lock)
at java.lang.Object.wait(Object.java:502)
at java.lang.ref.Reference.tryHandlePending(Reference.java:191)
- locked <0x000000076ab06b50> (a java.lang.ref.Reference$Lock)
at java.lang.ref.Reference$ReferenceHandler.run(Reference.java:153)
Locked ownable synchronizers:
- None
"main" #1 prio=5 os_prio=31 tid=0x00007f8c00802800 nid=0x1003 waiting for monitor entry [0x000070000ef92000]
java.lang.Thread.State: BLOCKED (on object monitor)
at com.example.optimize.NativeOptimize.main(NativeOptimize.java:41)
- waiting to lock <0x000000076abb62e0> (a java.lang.Object)
- locked <0x000000076abb62d0> (a java.lang.Object)
Locked ownable synchronizers:
- None
"VM Thread" os_prio=31 tid=0x00007f8c01008800 nid=0x2e03 runnable
"GC task thread#0 (ParallelGC)" os_prio=31 tid=0x00007f8c00803000 nid=0x2007 runnable
"GC task thread#1 (ParallelGC)" os_prio=31 tid=0x00007f8c00006800 nid=0x2403 runnable
"GC task thread#2 (ParallelGC)" os_prio=31 tid=0x00007f8c01800800 nid=0x2303 runnable
"GC task thread#3 (ParallelGC)" os_prio=31 tid=0x00007f8c01801800 nid=0x2a03 runnable
"GC task thread#4 (ParallelGC)" os_prio=31 tid=0x00007f8c01802000 nid=0x5403 runnable
"GC task thread#5 (ParallelGC)" os_prio=31 tid=0x00007f8c01006800 nid=0x2d03 runnable
"VM Periodic Task Thread" os_prio=31 tid=0x00007f8c00010800 nid=0x3803 waiting on condition
JNI global references: 6
Found one Java-level deadlock:
=============================
"Thread-0":
waiting to lock monitor 0x00007f8c000102a8 (object 0x000000076abb62d0, a java.lang.Object),
which is held by "main"
"main":
waiting to lock monitor 0x00007f8c0000ed58 (object 0x000000076abb62e0, a java.lang.Object),
which is held by "Thread-0"
Java stack information for the threads listed above:
===================================================
"Thread-0":
at com.example.optimize.NativeOptimize$1.run(NativeOptimize.java:25)
- waiting to lock <0x000000076abb62d0> (a java.lang.Object)
- locked <0x000000076abb62e0> (a java.lang.Object)
at java.lang.Thread.run(Thread.java:745)
"main":
at com.example.optimize.NativeOptimize.main(NativeOptimize.java:41)
- waiting to lock <0x000000076abb62e0> (a java.lang.Object)
- locked <0x000000076abb62d0> (a java.lang.Object)
Found 1 deadlock.
JConsole, JVisualVM(可视化工具)
JVM 调优
JVM 调优主要是根据实际的硬件配置信息重新设置 JVM 参数来进行调优的,例如,硬件的内存配置很高,但 JVM 因为是默认参数,所以最大内存和初始化堆内存很小,这样就不能更好地利用本地的硬件优势了。因此,需要调整这些参数,让 JVM 在固定的配置下发挥最大的价值。
JVM 常见调优参数包含以下这些:
- -Xmx,设置最大堆内存大小;
- -Xms,设置初始堆内存大小;
- -XX:MaxNewSize,设置新生代的最大内存;
- -XX:MaxTenuringThreshold,设置新生代对象经过一定的次数晋升到老生代;
- -XX:PretrnureSizeThreshold,设置大对象的值,超过这个值的对象会直接进入老生代;
- -XX:NewRatio,设置分代垃圾回收器新生代和老生代内存占比;
- -XX:SurvivorRatio,设置新生代 Eden、Form Survivor、To Survivor 占比。
我们要根据自己的业务场景和硬件配置来设置这些值。例如,当我们的业务场景会有很多大的临时对象产生时,因为这些大对象只有很短的生命周期,因此需要把“-XX:MaxNewSize”的值设置的尽量大一些,否则就会造成大量短生命周期的大对象进入老生代,从而很快消耗掉了老生代的内存,这样就会频繁地触发 full gc,从而影响了业务的正常运行。