在我们对Java应用做问题分析的时候,往往采用log进行问题定位和分析,但是如果我们的log缺乏相关的信息呢?远程调试会影响应用的正常工作,修改代码重新部署应用,实时性和灵活性难以保证,有没有不影响正常应用运行,又灵活并无侵入性的方法呢?
答案是有,它就是Java中的神器-BTrace
BTrace使用Java的Attach技术,可以让我们无缝的将我们BTrace脚本挂到JVM上,通过脚本你可以获取到任何你想拿到的数据,在侵入性和安全性都非常可靠,特别是定位线上问题的神器。
BTrace是基于动态字节码修改技术(Hotswap)向目标程序的字节码注入追踪代码。
关于BTrace的安装配置使用,此处就不再重复造轮子,网上有太多的教程。
官网地址:https://github.com/btraceio/btrace
生产环境可以使用,但修改的字节码不会被还原,使用Btrace时,需要确保追踪的动作是只读的(即:追踪行为不能修改目标程序的状态)和有限的行为(即:追踪行为需要在有限的时间内终止),一个追踪行为需要满足以下的限制:
不能创建新的对象
不能创建新的数组
不能抛出异常
不能捕获异常
不能对实例或静态方法调用-只有从BTraceUtils中的public static方法中或在当前脚本中声明的方法,可以被BTrace调用
不能有外部,内部,嵌套或本地类
不能有同步块或同步方法
不能有循环(for,while,do..while)
不能继承抽象类(父类必须是java.lang.Object)
不能实现接口
不能有断言语句
不能有class保留字
以上的限制可以通过通过unsafe模式绕过。追踪脚本和引擎都必须设置为unsafe模式。脚本需要使用注解为 @BTrace(unsafe=true)
,需要修改BTrace安装目录下bin中btrace脚本将 -Dcom.sun.btrace.unsafe=false
改为 -Dcom.sun.btrace.unsafe=true
。
注:关于unsafe的使用,如果你的程序一旦被btrace追踪过,那么unsafe的设置会一直伴随该进程的整个生命周期。如果你修改了unsafe的设置,只有通过重启目标进程,才能获得想要的结果。所以该用法不是很好使用,如果你的应用不能随便重启,那么你在第一次使用btrace最终目标进程之前,先想好到底使用那种模式来启动引擎。
control方法
@GetMapping(value = "/arg1")
public String arg1(@RequestParam("name") String name) throws InterruptedException {
Thread.sleep(2000);
return "7DGroup," + name;
}
BTrace脚本
/**
* 拦截示例
*/
@BTrace
public class PrintArgSimple {
@OnMethod(
//类名
clazz = "com.techstar.monitordemo.controller.UserController",
//方法名
method = "arg1",
//拦截时刻:入口
location = @Location(Kind.ENTRY))
/**
* 拦截类名和方法名
*/ public static void anyRead(@ProbeClassName String pcn, @ProbeMethodName String pmn, AnyType[] args) {
BTraceUtils.printArray(args);
BTraceUtils.println(pcn + "," + pmn);
BTraceUtils.println();
}
}
拦截结果:
192:Btrace apple$ jps -l
369
5889 /Users/apple/Downloads/performance/apache-jmeter-4.0/bin/ApacheJMeter.jar
25922 sun.tools.jps.Jps
23011 org.jetbrains.idea.maven.server.RemoteMavenServer
25914 org.jetbrains.jps.cmdline.Launcher
25915 com.techstar.monitordemo.MonitordemoApplication
192:Btrace apple$ btrace 25915 PrintArgSimple.java
[zuozewei, ]
com.techstar.monitordemo.controller.UserController,arg1
[zee, ]
com.techstar.monitordemo.controller.UserController,arg1
构造函数
@Data
public class User {
private int id;
private String name;
}
control方法
@GetMapping(value = "/arg2")
public User arg2(User user) {
return user;
}
BTrace脚本
/**
* 拦截构造函数
*/
@BTrace
public class PrintConstructor {
@OnMethod(clazz = "com.techstar.monitordemo.domain.User", method = "<init>")
public static void anyRead(@ProbeClassName String pcn, @ProbeMethodName String pmn, AnyType[] args) {
BTraceUtils.println(pcn + "," + pmn);
BTraceUtils.printArray(args);
BTraceUtils.println();
}
}
拦截结果
192:Btrace apple$ btrace 34119 PrintConstructor.java
com.techstar.monitordemo.domain.User,<init>
[1, zuozewei, ]
control方法
@GetMapping(value = "/same1")
public String same(@RequestParam("name") String name) {
return "7DGroup," + name;
}
@GetMapping(value = "/same2")
public String same(@RequestParam("id") int id, @RequestParam("name") String name) {
return "7DGroup," + name + "," + id;
}
BTrace脚本
/**
* 拦截同名函数,通过输入的参数区分
*/
@BTrace
public class PrintSame {
@OnMethod(clazz = "com.techstar.monitordemo.controller.UserController", method = "same")
public static void anyRead(@ProbeClassName String pcn, @ProbeMethodName String pmn, String name) {
BTraceUtils.println(pcn + "," + pmn + "," + name);
BTraceUtils.println();
}
}
拦截结果
192:Btrace apple$ jps -l
369
5889 /Users/apple/Downloads/performance/apache-jmeter-4.0/bin/ApacheJMeter.jar
34281 sun.tools.jps.Jps
34220 org.jetbrains.jps.cmdline.Launcher
34221 com.techstar.monitordemo.MonitordemoApplication
192:Btrace apple$ btrace 34221 PrintSame.java
com.techstar.monitordemo.controller.UserController,same,zuozewei
com.techstar.monitordemo.controller.UserController,same,zuozewei
com.techstar.monitordemo.controller.UserController,same,zuozewei
BTrace脚本
/**
* 拦截返回值
*/
@BTrace
public class PrintReturn {
@OnMethod(clazz = "com.techstar.monitordemo.controller.UserController", method = "arg1",
//拦截时刻:返回值
location = @Location(Kind.RETURN))
public static void anyRead(@ProbeClassName String pcn, @ProbeMethodName String pmn, @Return AnyType result) {
BTraceUtils.println(pcn + "," + pmn + "," + result);
BTraceUtils.println();
}
}
拦截结果
192:Btrace apple$ jps -l
34528 org.jetbrains.jps.cmdline.Launcher
34529 com.techstar.monitordemo.MonitordemoApplication
369
5889 /Users/apple/Downloads/performance/apache-jmeter-4.0/bin/ApacheJMeter.jar
34533 sun.tools.jps.Jps
192:Btrace apple$ btrace 34529 PrintReturn.java
com.techstar.monitordemo.controller.UserController,arg1,7DGroup,zuozewei
有时候开发人员对异常处理不合理,导致某些重要异常人为被吃掉,并且没有日志或者日志不详细,导致性能分析定位问题困难,我们可以使用BTrace来处理
control方法
@GetMapping(value = "/exception")
public String exception() {
try {
System.out.println("start...");
System.out.println(1 / 0); //模拟异常
System.out.println("end...");
} catch (Exception e) {}
return "successful...";
}
BTrace脚本
/**
* 有时候,有些异常被人为吃掉,日志又没有打印,这个时候可以用该类定位问题
* This example demonstrates printing stack trace
* of an exception and thread local variables. This
* trace script prints exception stack trace whenever
* java.lang.Throwable's constructor returns. This way
* you can trace all exceptions that may be caught and
* "eaten" silently by the traced program. Note that the
* assumption is that the exceptions are thrown soon after
* creation [like in "throw new FooException();"] rather
* that be stored and thrown later.
*/
@BTrace
public class PrintOnThrow {
// store current exception in a thread local
// variable (@TLS annotation). Note that we can't
// store it in a global variable!
@TLS
static Throwable currentException;
// introduce probe into every constructor of java.lang.Throwable
// class and store "this" in the thread local variable.
@OnMethod(clazz = "java.lang.Throwable", method = "<init>")
public static void onthrow(@Self Throwable self) {
currentException = self;
}
@OnMethod(clazz = "java.lang.Throwable", method = "<init>")
public static void onthrow1(@Self Throwable self, String s) {
currentException = self;
}
@OnMethod(clazz = "java.lang.Throwable", method = "<init>")
public static void onthrow1(@Self Throwable self, String s, Throwable cause) {
currentException = self;
}
@OnMethod(clazz = "java.lang.Throwable", method = "<init>")
public static void onthrow2(@Self Throwable self, Throwable cause) {
currentException = self;
}
// when any constructor of java.lang.Throwable returns
// print the currentException's stack trace.
@OnMethod(clazz = "java.lang.Throwable", method = "<init>", location = @Location(Kind.RETURN))
public static void onthrowreturn() {
if (currentException != null) {
Threads.jstack(currentException);
BTraceUtils.println("=====================");
currentException = null;
}
}
}
拦截结果
192:Btrace apple$ jps -l
369
5889 /Users/apple/Downloads/performance/apache-jmeter-4.0/bin/ApacheJMeter.jar
34727 sun.tools.jps.Jps
34666 org.jetbrains.jps.cmdline.Launcher
34667 com.techstar.monitordemo.MonitordemoApplication
192:Btrace apple$ btrace 34667 PrintOnThrow.java
java.lang.ClassNotFoundException: org.apache.catalina.webresources.WarResourceSet
java.net.URLClassLoader.findClass(URLClassLoader.java:381)
java.lang.ClassLoader.loadClass(ClassLoader.java:424)
java.lang.ClassLoader.loadClass(ClassLoader.java:411)
sun.misc.Launcher$AppClassLoader.loadClass(Launcher.java:349)
java.lang.ClassLoader.loadClass(ClassLoader.java:357)
org.apache.catalina.webresources.StandardRoot.isPackedWarFile(StandardRoot.java:656)
org.apache.catalina.webresources.CachedResource.validateResource(CachedResource.java:109)
org.apache.catalina.webresources.Cache.getResource(Cache.java:69)
org.apache.catalina.webresources.StandardRoot.getResource(StandardRoot.java:216)
org.apache.catalina.webresources.StandardRoot.getResource(StandardRoot.java:206)
org.apache.catalina.mapper.Mapper.internalMapWrapper(Mapper.java:1027)
org.apache.catalina.mapper.Mapper.internalMap(Mapper.java:842)
org.apache.catalina.mapper.Mapper.map(Mapper.java:698)
org.apache.catalina.connector.CoyoteAdapter.postParseRequest(CoyoteAdapter.java:679)
org.apache.catalina.connector.CoyoteAdapter.service(CoyoteAdapter.java:336)
org.apache.coyote.http11.Http11Processor.service(Http11Processor.java:800)
org.apache.coyote.AbstractProcessorLight.process(AbstractProcessorLight.java:66)
org.apache.coyote.AbstractProtocol$ConnectionHandler.process(AbstractProtocol.java:800)
org.apache.tomcat.util.net.NioEndpoint$SocketProcessor.doRun(NioEndpoint.java:1471)
org.apache.tomcat.util.net.SocketProcessorBase.run(SocketProcessorBase.java:49)
java.util.concurrent.ThreadPoolExecutor.runWorker(ThreadPoolExecutor.java:1149)
java.util.concurrent.ThreadPoolExecutor$Worker.run(ThreadPoolExecutor.java:624)
org.apache.tomcat.util.threads.TaskThread$WrappingRunnable.run(TaskThread.java:61)
java.lang.Thread.run(Thread.java:748)
=====================
...
BTrace脚本
**
* 探测某个包路径下的方法执行时间是否超过某个阈值的程序,如果超过了该阀值,则打印当前线程的栈信息。
*/
import com.sun.btrace.BTraceUtils;
import com.sun.btrace.annotations.*;
import static com.sun.btrace.BTraceUtils.*;
@BTrace
public class PrintDurationTracer {
@OnMethod(clazz = "/com\\.techstar\\.monitordemo\\..*/", method = "/.*/", location = @Location(Kind.RETURN))
public static void trace(@ProbeClassName String pcn, @ProbeMethodName String pmn, @Duration long duration) {
//duration的单位是纳秒
if (duration > 1000 * 1000 * 2) {
BTraceUtils.println(Strings.strcat(Strings.strcat(pcn, "."), pmn));
BTraceUtils.print(" 耗时:");
BTraceUtils.print(duration);
BTraceUtils.println("纳秒,堆栈信息如下");
jstack();
}
}
}
拦截结果
192:Btrace apple$ btrace 39644 PrintDurationTracer.java
com.techstar.monitordemo.controller.Adder.execute 耗时:1715294657纳秒,堆栈信息如下
com.techstar.monitordemo.controller.Adder.execute(Adder.java:13)
com.techstar.monitordemo.controller.Main.main(Main.java:10)
com.techstar.monitordemo.controller.Adder.execute 耗时:893795666纳秒,堆栈信息如下
com.techstar.monitordemo.controller.Adder.execute(Adder.java:13)
com.techstar.monitordemo.controller.Main.main(Main.java:10)
com.techstar.monitordemo.controller.Adder.execute 耗时:1331363658纳秒,堆栈信息如下
com.techstar.monitordemo.controller.Adder.execute(Adder.java:13)
BTrace脚本
/**
* 追踪某个方法的执行时间,实现原理同AOP一样。
*/
@BTrace
public class PrintExecuteTimeTracer {
@TLS
static long beginTime;
@OnMethod(clazz = "com.techstar.monitordemo.controller.Adder", method = "execute")
public static void traceExecuteBegin() {
beginTime = timeMillis();
}
@OnMethod(clazz = "com.techstar.monitordemo.controller.Adder", method = "execute", location = @Location(Kind.RETURN))
public static void traceExecute(int arg1, int arg2, @Return int result) {
BTraceUtils.println(strcat(strcat("Adder.execute 耗时:", str(timeMillis() - beginTime)), "ms"));
BTraceUtils.println(strcat("返回结果为:", str(result)));
}
}
拦截结果
192:Btrace apple$ btrace 40863 PrintExecuteTimeTracer.java
Adder.execute 耗时:803ms
返回结果为:797
Adder.execute 耗时:1266ms
返回结果为:1261
Adder.execute 耗时:788ms
返回结果为:784
Adder.execute 耗时:1524ms
返回结果为:1521
Adder.execute 耗时:1775ms
压测的时候经常发现某一个服务变慢了,但是由于这个服务有很多的业务逻辑和方法构成,这个时候就不好定位到底慢在哪个地方。BTrace可以解决这个问题,只需要大概定位问题可能存在的地方,通过包路径模糊匹配,就可以找到问题。
BTrace脚本
/**
*
* Description:
* This script demonstrates new capabilities built into BTrace 1.2
* Shortened syntax - when omitting "public" identifier in the class
* definition one can safely omit all other modifiers when declaring methods
* and variables
* Extended syntax for @ProbeMethodName annotation - you can use
* parameter to request a fully qualified method name instead of
* the short one
* Profiling support - you can use {@linkplain Profiler} instance to gather
* performance data with the smallest overhead possible
*/
@BTrace
class Profiling {
@Property
Profiler profiler = BTraceUtils.Profiling.newProfiler();
@OnMethod(clazz = "/com\\.techstar\\..*/", method = "/.*/")
void entry(@ProbeMethodName(fqn = true) String probeMethod) {
BTraceUtils.Profiling.recordEntry(profiler, probeMethod);
}
@OnMethod(clazz = "/com\\.techstar\\..*/", method = "/.*/", location = @Location(value = Kind.RETURN))
void exit(@ProbeMethodName(fqn = true) String probeMethod, @Duration long duration) {
BTraceUtils.Profiling.recordExit(profiler, probeMethod, duration);
}
@OnTimer(5000)
void timer() {
BTraceUtils.Profiling.printSnapshot("Performance profile", profiler);
}
我们怀疑程序是否有死锁,可以通过以下的脚本扫描追踪,非常简单方便。
/**
* This BTrace program demonstrates deadlocks
* built-in function. This example prints
* deadlocks (if any) once every 4 seconds.
*/
@BTrace
public class PrintDeadlock {
@OnTimer(4000)
public static void print() {
deadlocks();
}
}
BTrace是一个事后工具,所谓的事后工具就是在服务已经上线或者压测后,但是发现有问题的时候,可以使用BTrace动态跟踪分析。
比如哪些方法执行太慢,例如监控方法执行时间超过1秒的方法;
查看哪些方法调用了system.gc( ),调用栈是怎样的;
查看方法的参数和属性
哪些方法发生了异常
.....
总之,这里只是将部分经常用的列举了下抛砖引玉,还有很多没有列举,大家可以参考官方的其他Sample去玩下。