可运行jar包的几种打包/部署方式(转)
转自:https://www.cnblogs.com/yjmyzz/p/executable-jar.html
java项目开发中,最终生成的jar,大概可分为二类,一类是一些通用的工具类(不包含main入口方法),另一类是可直接运行的jar包(有main入口方法),下面主要讲的是后者,要让一个jar文件可直接运行,通常有几下三种方式:
动工之前,先搭一个项目架子便于后面分析:
项目结构图:
这是一个gradle项目(当然,也可以换成ant项目或maven项目,这不重要),里面有二个模块,my-jar的DemoApp里提供了main入口方法,通常一个可运行的java项目,都会依赖其它一些jar包,所以另一个模块my-lib模拟工具类的jar包,即:简单来说,my-jar依赖my-lib。
my-lib中DemoLib类的源代码:
1 package yjmyzz.runnable.lib; 2 3 public class DemoLib { 4 5 public static void demo() { 6 System.out.println("我是DemoLib中的demo方法"); 7 } 8 }
my-jar中DemoApp类的源代码:
1 package yjmyzz.runnable.jar; 2 3 import yjmyzz.runnable.lib.DemoLib; 4 5 public class DemoApp { 6 7 public static void main(String[] args) { 8 DemoLib.demo(); 9 } 10 }
二个项目编译后,会得到二个jar包:my-jar.jar及my-lib.jar
方法一:不借助manifest文件
java -classpath jar1:jar2:jar3... mainClassName
解解一下:
红色的是固定部分,中间蓝色的是jar包的路径(多个jar之间用:号连接),最后绿色的部分是main方法所在的类名,按这个思路
把这二个jar包扔同一个目录下,输入如下命令:
java -classpath my-jar.jar:my-lib.jar yjmyzz.runnable.jar.DemoApp
程序就能跑起来了
方法二:借助manifest文件
想办法在my-jar.jar中添加MANIFEST.MF文件,内容参考下面这样:
Main-Class: yjmyzz.runnable.jar.DemoApp
Class-Path: my-lib.jar
同样,将这二个jar包扔在一起,然后
java -jar my-jar.jar 就能运行了,至于如何在打包里,自动添加MANIFEST.MF文件,gradle下可以这么做:
jar { manifest { attributes 'Main-Class': 'yjmyzz.runnable.jar.DemoApp' attributes 'Class-Path': 'my-lib.jar' } }
build.gradle中添加这一段即可,如果是maven项目,请参考 maven: 打包可运行的jar包(java application)及依赖项处理 一文
方法三:借助spring-boot 插件
前面二种方法,主程序的jar包,与依赖的jar包是分开的,这在云环境中,上传部署比较麻烦,得传多个文件(或者上传前,先压缩成一个包,再传到服务器上解压),服务器节点多时,操作起来太累。又到我大Spring出场了,将my-jar项目中的build.gradle改成下面这样:
apply plugin: 'java' apply plugin: 'spring-boot' buildscript { repositories { maven { url 'http://maven.oschina.net/content/groups/public/' } } dependencies { classpath("org.springframework.boot:spring-boot-gradle-plugin:1.3.0.RELEASE") } } repositories { maven { url 'http://maven.oschina.net/content/groups/public/' } } dependencies { compile project(':my-lib') }
然后命令行输入 gradle bootRepackage 将在build/libs下生成二个文件my-jar.jar以及my-jar.jar.original(先不用管这个original文件是啥)
直接java -jar my-jar.jar 就能运行了(注意:这种方式下,并不需要my-lib.jar这类依赖的jar文件),其原理在于spring-boot插件把所有依赖的jar包,全都打到一个jar包里了。
基本上,到这里这篇文章就可以完结了,如果有同学对spring-boot这种打包方式比较好奇,想深入研究,可以继续向下看,把my-jar.jar.original改名为my-jar-origin.jar,然后输入jar tf my-jar-origin.jar 即显示这个jar包的内容,会得到以下输出:
META-INF/ META-INF/MANIFEST.MF yjmyzz/ yjmyzz/runnable/ yjmyzz/runnable/jar/ yjmyzz/runnable/jar/DemoApp.class
即.original文件,其实就是一个普通的jar包,其中的MANIFEST.MF并没有什么实质性内容,只是一个空壳,这样的jar包,跟方法1得到的jar包是一样的。
再输入jar tf my-jar.jar,会得到以下输出:
1 META-INF/ 2 META-INF/MANIFEST.MF 3 yjmyzz/ 4 yjmyzz/runnable/ 5 yjmyzz/runnable/jar/ 6 yjmyzz/runnable/jar/DemoApp.class 7 lib/ 8 lib/my-lib.jar 9 org/ 10 org/springframework/ 11 org/springframework/boot/ 12 org/springframework/boot/loader/ 13 org/springframework/boot/loader/LaunchedURLClassLoader$Java7LockProvider.class 14 org/springframework/boot/loader/PropertiesLauncher$ArchiveEntryFilter.class 15 org/springframework/boot/loader/PropertiesLauncher$PrefixMatchingArchiveFilter.class 16 org/springframework/boot/loader/ExecutableArchiveLauncher$1.class 17 org/springframework/boot/loader/PropertiesLauncher.class 18 org/springframework/boot/loader/LaunchedURLClassLoader$ResourceEnumeration.class 19 org/springframework/boot/loader/data/ 20 org/springframework/boot/loader/data/ByteArrayRandomAccessData.class 21 org/springframework/boot/loader/data/RandomAccessDataFile$DataInputStream.class 22 org/springframework/boot/loader/data/RandomAccessData.class 23 org/springframework/boot/loader/data/RandomAccessDataFile$FilePool.class 24 org/springframework/boot/loader/data/RandomAccessDataFile.class 25 org/springframework/boot/loader/data/RandomAccessData$ResourceAccess.class 26 org/springframework/boot/loader/util/ 27 org/springframework/boot/loader/util/SystemPropertyUtils.class 28 org/springframework/boot/loader/util/AsciiBytes.class 29 org/springframework/boot/loader/LaunchedURLClassLoader$1.class 30 org/springframework/boot/loader/InputArgumentsJavaAgentDetector.class 31 org/springframework/boot/loader/Launcher.class 32 org/springframework/boot/loader/LaunchedURLClassLoader.class 33 org/springframework/boot/loader/JarLauncher.class 34 org/springframework/boot/loader/jar/ 35 org/springframework/boot/loader/jar/JarEntryFilter.class 36 org/springframework/boot/loader/jar/JarURLConnection.class 37 org/springframework/boot/loader/jar/JarEntry.class 38 org/springframework/boot/loader/jar/Bytes.class 39 org/springframework/boot/loader/jar/CentralDirectoryEndRecord.class 40 org/springframework/boot/loader/jar/JarFile$2.class 41 org/springframework/boot/loader/jar/ZipInflaterInputStream.class 42 org/springframework/boot/loader/jar/JarFile.class 43 org/springframework/boot/loader/jar/JarFile$1.class 44 org/springframework/boot/loader/jar/JarURLConnection$1.class 45 org/springframework/boot/loader/jar/Handler.class 46 org/springframework/boot/loader/jar/JarURLConnection$JarEntryName.class 47 org/springframework/boot/loader/jar/JarEntryData.class 48 org/springframework/boot/loader/MainMethodRunner.class 49 org/springframework/boot/loader/InputArgumentsJavaAgentDetector$1.class 50 org/springframework/boot/loader/WarLauncher.class 51 org/springframework/boot/loader/PropertiesLauncher$1.class 52 org/springframework/boot/loader/ExecutableArchiveLauncher.class 53 org/springframework/boot/loader/LaunchedURLClassLoader$LockProvider.class 54 org/springframework/boot/loader/archive/ 55 org/springframework/boot/loader/archive/JarFileArchive$JarFileEntry.class 56 org/springframework/boot/loader/archive/JarFileArchive.class 57 org/springframework/boot/loader/archive/FilteredArchive.class 58 org/springframework/boot/loader/archive/JarFileArchive$1.class 59 org/springframework/boot/loader/archive/ExplodedArchive.class 60 org/springframework/boot/loader/archive/FilteredArchive$2.class 61 org/springframework/boot/loader/archive/Archive$Entry.class 62 org/springframework/boot/loader/archive/ExplodedArchive$1.class 63 org/springframework/boot/loader/archive/Archive$EntryFilter.class 64 org/springframework/boot/loader/archive/FilteredArchive$1.class 65 org/springframework/boot/loader/archive/ExplodedArchive$FileEntry.class 66 org/springframework/boot/loader/archive/Archive.class 67 org/springframework/boot/loader/archive/Archive$EntryRenameFilter.class 68 org/springframework/boot/loader/archive/ExplodedArchive$FilteredURLStreamHandler.class 69 org/springframework/boot/loader/archive/ExplodedArchive$FileNotFoundURLConnection.class 70 org/springframework/boot/loader/JavaAgentDetector.class
很明显,多出了很多内容,注意第8行,可以发现my-lib.jar这个依赖的jar包,已经打包到my-jar.jar内部了,这时的MANIFEST.MF内容为:
1 Manifest-Version: 1.0 2 Start-Class: yjmyzz.runnable.jar.DemoApp 3 Spring-Boot-Version: 1.3.0.RELEASE 4 Main-Class: org.springframework.boot.loader.JarLauncher
Main-Class被设置成org.springframework.boot.loader.JarLauncher,此外还增加了Start-Class指向我们真正的程序入口yjmyzz.runnable.jar.DemoApp,换句话说,程序运行时,先调用org.springframework.boot.loader.JarLauncher,然后找到Start-Class对应的类,最终运行,运行过程中,会查找内部lib下的依赖jar包my-lib.jar,当然这一切是需要有额外的代码来处理的,所以多出来的org/springframework/boot下的一堆class,就是spring用来干这件事儿的。
第三种方式,很适合云环境的部署,只需要扔一个jar包上去就完事了,这种all-in-one的jar包,也被称为fat-jar。
参考文章:
http://docs.spring.io/spring-boot/docs/current/reference/htmlsingle/#executable-jar