Code Cache
JVM生成的native code存放的内存空间称之为Code Cache;JIT编译、JNI等都会编译代码到native code,其中JIT生成的native code占用了Code Cache的绝大部分空间
相关参数
Codecache Size Options
- -XX:InitialCodeCacheSize
用于设置初始CodeCache大小
- -XX:ReservedCodeCacheSize
用于设置Reserved code cache的最大大小,通常默认是240M
- -XX:CodeCacheExpansionSize
用于设置code cache的expansion size,通常默认是64K
Codecache Flush Options
- -XX:+UseCodeCacheFlushing
是否在code cache满的时候先尝试清理一下,如果还是不够用再关闭编译,默认开启
Compilation Policy Options
- -XX:CompileThreshold
方法触发编译时的调用次数,默认是10000
- -XX:OnStackReplacePercentage
方法中循环执行部分代码的执行次数触发OSR编译时的阈值,默认是140
Compilation Limit Options
- -XX:MaxInlineLevel
针对嵌套调用的最大内联深度,默认为9
- -XX:MaxInlineSize
方法可以被内联的最大bytecode大小,默认为35
- -XX:MinInliningThreshold
方法可以被内联的最小调用次数,默认为250
- -XX:+InlineSynchronizedMethods
是否允许内联synchronized methods,默认为true
Diagnostic Options
- -XX:+PrintFlagsFinal(默认没有启用)
用于查看所有可设置的参数及最终值(JDK 6 update 21开始才可以用),默认是不包括diagnostic或experimental系的。如果要在-XX:+PrintFlagsFinal的输出里看到这两种参数的信息,分别需要显式指定-XX:+UnlockDiagnosticVMOptions / -XX:+UnlockExperimentalVMOptions(-XX:+PrintCommandLineFlags 这个参数的作用是显示出VM初始化完毕后所有跟最初的默认值不同的参数及它们的值)
- -XX:+PrintCodeCache(默认没有启用)
-XX:+PrintCodeCache用于jvm关闭时输出code cache的使用情况
- -XX:+PrintCodeCacheOnCompilation(默认没有启用)
用于在方法每次被编译时输出code cache的使用情况
查看Code Cache的使用情况
-XX:+PrintCodeCache
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CodeHeap 'non-profiled nmethods': size=120032Kb used=2154Kb max_used=2160Kb free=117877Kb bounds [0x00000001178ea000, 0x0000000117b5a000, 0x000000011ee22000]CodeHeap 'profiled nmethods': size=120028Kb used=10849Kb max_used=11005Kb free=109178Kb bounds [0x00000001103b3000, 0x0000000110e73000, 0x00000001178ea000]CodeHeap 'non-nmethods': size=5700Kb used=1177Kb max_used=1239Kb free=4522Kb bounds [0x000000010fe22000, 0x0000000110092000, 0x00000001103b3000] total_blobs=5638 nmethods=4183 adapters=435 compilation: enabled stopped_count=0, restarted_count=0 full_count=0 |
- jvm启动参数加上-XX:+PrintCodeCache,可以在jvm关闭时输出code cache的使用情况
- 这里分了non-profiled nmethods、profiled nmethods、non-nmethods三部分来展示
- 其中size就是限制的最大大小,used表示实际使用量,max_used就是使用大小的high water mark,free由size-used得来
jcmd pid Compiler.codecache
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/ # jcmd 1 Compiler.codecache1:CodeHeap 'non-profiled nmethods': size=120036Kb used=1582Kb max_used=1582Kb free=118453Kb bounds [0x00007f1e42226000, 0x00007f1e42496000, 0x00007f1e4975f000]CodeHeap 'profiled nmethods': size=120032Kb used=9621Kb max_used=9621Kb free=110410Kb bounds [0x00007f1e3acee000, 0x00007f1e3b65e000, 0x00007f1e42226000]CodeHeap 'non-nmethods': size=5692Kb used=1150Kb max_used=1198Kb free=4541Kb bounds [0x00007f1e3a75f000, 0x00007f1e3a9cf000, 0x00007f1e3acee000] total_blobs=5610 nmethods=4369 adapters=412 compilation: enabled stopped_count=0, restarted_count=0 full_count=0 |
使用jcmd的Compiler.codecache也可以查看code cache的使用情况,输出跟-XX:+PrintCodeCache相同
jcmd pid VM.native_memory
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/ # jcmd 1 VM.native_memory1:Native Memory Tracking:Total: reserved=1928023KB, committed=231182KB- Java Heap (reserved=511488KB, committed=140288KB) (mmap: reserved=511488KB, committed=140288KB)- Class (reserved=1090832KB, committed=46608KB) (classes #8218) ( instance classes #7678, array classes #540) (malloc=1296KB #19778) (mmap: reserved=1089536KB, committed=45312KB) ( Metadata: ) ( reserved=40960KB, committed=39680KB) ( used=38821KB) ( free=859KB) ( waste=0KB =0.00%) ( Class space:) ( reserved=1048576KB, committed=5632KB) ( used=5190KB) ( free=442KB) ( waste=0KB =0.00%)- Thread (reserved=37130KB, committed=2806KB) (thread #36) (stack: reserved=36961KB, committed=2636KB) (malloc=127KB #189) (arena=42KB #70)- Code (reserved=248651KB, committed=15351KB) (malloc=963KB #4600) (mmap: reserved=247688KB, committed=14388KB)- GC (reserved=21403KB, committed=7611KB) (malloc=5419KB #9458) (mmap: reserved=15984KB, committed=2192KB)- Compiler (reserved=150KB, committed=150KB) (malloc=20KB #447) (arena=131KB #5)- Internal (reserved=3744KB, committed=3744KB) (malloc=1696KB #6416) (mmap: reserved=2048KB, committed=2048KB)- Other (reserved=24KB, committed=24KB) (malloc=24KB #2)- Symbol (reserved=10094KB, committed=10094KB) (malloc=7305KB #219914) (arena=2789KB #1)- Native Memory Tracking (reserved=4130KB, committed=4130KB) (malloc=12KB #158) (tracking overhead=4119KB)- Arena Chunk (reserved=177KB, committed=177KB) (malloc=177KB)- Logging (reserved=7KB, committed=7KB) (malloc=7KB #264)- Arguments (reserved=18KB, committed=18KB) (malloc=18KB #500)- Module (reserved=165KB, committed=165KB) (malloc=165KB #1699)- Safepoint (reserved=4KB, committed=4KB) (mmap: reserved=4KB, committed=4KB)- Unknown (reserved=4KB, committed=4KB) (mmap: reserved=4KB, committed=4KB) |
使用jcmd的VM.native_memory也可以查看code cache的使用情况(Code部分),Compiler部分为Memory tracking used by the compiler when generating code
使用MemoryPoolMXBean查看
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@Testpublic void testGetCodeCacheUsage(){ ManagementFactory.getPlatformMXBeans(MemoryPoolMXBean.class) .stream() .filter(e -> MemoryType.NON_HEAP == e.getType()) .filter(e -> e.getName().startsWith("CodeHeap")) .forEach(e -> { LOGGER.info("name:{},info:{}",e.getName(),e.getUsage()); });} |
MemoryPoolMXBean包含了HEAP及NON_HEAP,其中code cache属于NON_HEAP,其输出如下:
12:21:10.728 [main] INFO com.example.CodeCacheTest - name:CodeHeap 'non-nmethods',info:init = 2555904(2496K) used = 1117696(1091K) committed = 2555904(2496K) max = 5836800(5700K)
12:21:10.743 [main] INFO com.example.CodeCacheTest - name:CodeHeap 'profiled nmethods',info:init = 2555904(2496K) used = 1543808(1507K) committed = 2555904(2496K) max = 122908672(120028K)
12:21:10.743 [main] INFO com.example.CodeCacheTest - name:CodeHeap 'non-profiled nmethods',info:init = 2555904(2496K) used = 319616(312K) committed = 2555904(2496K) max = 122912768(120032K)
spring boot应用查看
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/ # curl -i "http://localhost:8080/actuator/metrics/jvm.memory.used?tag=area:nonheap"HTTP/1.1 200Content-Disposition: inline;filename=f.txtContent-Type: application/vnd.spring-boot.actuator.v2+json;charset=UTF-8Transfer-Encoding: chunkedDate: Sat, 30 Mar 2019 04:26:39 GMT{"name":"jvm.memory.used","description":"The amount of used memory","baseUnit":"bytes","measurements":[{"statistic":"VALUE","value":6.5295408E7}],"availableTags":[{"tag":"id","values":["CodeHeap 'non-profiled nmethods'","CodeHeap 'profiled nmethods'","Compressed Class Space","Metaspace","CodeHeap 'non-nmethods'"]}]}/ # curl -i "http://localhost:8080/actuator/metrics/jvm.memory.used?tag=area:nonheap&tag=id:CodeHeap%20%27non-profiled%20nmethods%27"HTTP/1.1 200Content-Disposition: inline;filename=f.txtContent-Type: application/vnd.spring-boot.actuator.v2+json;charset=UTF-8Transfer-Encoding: chunkedDate: Sat, 30 Mar 2019 04:24:58 GMT{"name":"jvm.memory.used","description":"The amount of used memory","baseUnit":"bytes","measurements":[{"statistic":"VALUE","value":1592448.0}],"availableTags":[]} |
springboot使用micrometer,通过/actuator/metrics接口提供相关指标查询功能,其中code cache在jvm.memory.used这个metric中
它是基于MemoryPoolMXBean来实现的,具体详见micrometer-core-1.1.3-sources.jar!/io/micrometer/core/instrument/binder/jvm/JvmMemoryMetrics.java
小结
- JVM生成的native code存放的内存空间称之为Code Cache;JIT编译、JNI等都会编译代码到native code,其中JIT生成的native code占用了Code Cache的绝大部分空间
- -XX:ReservedCodeCacheSize用于设置Reserved code cache的最大大小,通常默认是240M;对于有些应用来说240M可能太大,code cache可能都填不满,相当于unconstrained,此时JIT就会继续编译任何它认为可以编译的code
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查看Code Cache的内存使用情况有好几种方法:
- jvm启动参数加上-XX:+PrintCodeCache,可以在jvm关闭时输出code cache的使用情况
- 使用jcmd的Compiler.codecache,其输出跟-XX:+PrintCodeCache相同;
-
使用jcmd的VM.native_memory也可以查看code cache的使用情况(
Code部分) - 使用JMX来获取NON_HEAP类型中的name为CodeHeap开头的MemoryPoolMXBean可以得到code cache的使用情况
- 如果是springboot应用,它使用micrometer,通过/actuator/metrics接口提供相关指标查询功能,其中code cache在jvm.memory.used这个metric中
doc
15 Codecache Tuning
What are ReservedCodeCacheSize and InitialCodeCacheSize?
Why does the JVM have a maximum inline depth?
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原文链接:https://www.jianshu.com/p/b064274536ed
