此文件似乎是二进制XML格式。这种格式是什么以及如何以编程方式解析(与在SDK中使用aapt dump工具相反)?
文档here中未讨论此二进制格式。
注意:我想从Android环境外部访问此信息,最好是从Java访问。
答案 0 :(得分:164)
有一个应用程序可以读取apk文件并将XML解码为接近原始形式。
用法:
apktool d Gmail.apk && cat Gmail/AndroidManifest.xml
检查android-apktool以获取更多信息
答案 1 :(得分:67)
这个在Android上运行的Java方法记录了(我能够解释的).apk包中AndroidManifest.xml文件的二进制格式。第二个代码框显示了如何调用decompressXML以及如何从设备上的app包文件加载byte []。 (有些字段的目的我不明白,如果你知道它们的含义,请告诉我,我会更新信息。)
// decompressXML -- Parse the 'compressed' binary form of Android XML docs
// such as for AndroidManifest.xml in .apk files
public static int endDocTag = 0x00100101;
public static int startTag = 0x00100102;
public static int endTag = 0x00100103;
public void decompressXML(byte[] xml) {
// Compressed XML file/bytes starts with 24x bytes of data,
// 9 32 bit words in little endian order (LSB first):
// 0th word is 03 00 08 00
// 3rd word SEEMS TO BE: Offset at then of StringTable
// 4th word is: Number of strings in string table
// WARNING: Sometime I indiscriminently display or refer to word in
// little endian storage format, or in integer format (ie MSB first).
int numbStrings = LEW(xml, 4*4);
// StringIndexTable starts at offset 24x, an array of 32 bit LE offsets
// of the length/string data in the StringTable.
int sitOff = 0x24; // Offset of start of StringIndexTable
// StringTable, each string is represented with a 16 bit little endian
// character count, followed by that number of 16 bit (LE) (Unicode) chars.
int stOff = sitOff + numbStrings*4; // StringTable follows StrIndexTable
// XMLTags, The XML tag tree starts after some unknown content after the
// StringTable. There is some unknown data after the StringTable, scan
// forward from this point to the flag for the start of an XML start tag.
int xmlTagOff = LEW(xml, 3*4); // Start from the offset in the 3rd word.
// Scan forward until we find the bytes: 0x02011000(x00100102 in normal int)
for (int ii=xmlTagOff; ii<xml.length-4; ii+=4) {
if (LEW(xml, ii) == startTag) {
xmlTagOff = ii; break;
}
} // end of hack, scanning for start of first start tag
// XML tags and attributes:
// Every XML start and end tag consists of 6 32 bit words:
// 0th word: 02011000 for startTag and 03011000 for endTag
// 1st word: a flag?, like 38000000
// 2nd word: Line of where this tag appeared in the original source file
// 3rd word: FFFFFFFF ??
// 4th word: StringIndex of NameSpace name, or FFFFFFFF for default NS
// 5th word: StringIndex of Element Name
// (Note: 01011000 in 0th word means end of XML document, endDocTag)
// Start tags (not end tags) contain 3 more words:
// 6th word: 14001400 meaning??
// 7th word: Number of Attributes that follow this tag(follow word 8th)
// 8th word: 00000000 meaning??
// Attributes consist of 5 words:
// 0th word: StringIndex of Attribute Name's Namespace, or FFFFFFFF
// 1st word: StringIndex of Attribute Name
// 2nd word: StringIndex of Attribute Value, or FFFFFFF if ResourceId used
// 3rd word: Flags?
// 4th word: str ind of attr value again, or ResourceId of value
// TMP, dump string table to tr for debugging
//tr.addSelect("strings", null);
//for (int ii=0; ii<numbStrings; ii++) {
// // Length of string starts at StringTable plus offset in StrIndTable
// String str = compXmlString(xml, sitOff, stOff, ii);
// tr.add(String.valueOf(ii), str);
//}
//tr.parent();
// Step through the XML tree element tags and attributes
int off = xmlTagOff;
int indent = 0;
int startTagLineNo = -2;
while (off < xml.length) {
int tag0 = LEW(xml, off);
//int tag1 = LEW(xml, off+1*4);
int lineNo = LEW(xml, off+2*4);
//int tag3 = LEW(xml, off+3*4);
int nameNsSi = LEW(xml, off+4*4);
int nameSi = LEW(xml, off+5*4);
if (tag0 == startTag) { // XML START TAG
int tag6 = LEW(xml, off+6*4); // Expected to be 14001400
int numbAttrs = LEW(xml, off+7*4); // Number of Attributes to follow
//int tag8 = LEW(xml, off+8*4); // Expected to be 00000000
off += 9*4; // Skip over 6+3 words of startTag data
String name = compXmlString(xml, sitOff, stOff, nameSi);
//tr.addSelect(name, null);
startTagLineNo = lineNo;
// Look for the Attributes
StringBuffer sb = new StringBuffer();
for (int ii=0; ii<numbAttrs; ii++) {
int attrNameNsSi = LEW(xml, off); // AttrName Namespace Str Ind, or FFFFFFFF
int attrNameSi = LEW(xml, off+1*4); // AttrName String Index
int attrValueSi = LEW(xml, off+2*4); // AttrValue Str Ind, or FFFFFFFF
int attrFlags = LEW(xml, off+3*4);
int attrResId = LEW(xml, off+4*4); // AttrValue ResourceId or dup AttrValue StrInd
off += 5*4; // Skip over the 5 words of an attribute
String attrName = compXmlString(xml, sitOff, stOff, attrNameSi);
String attrValue = attrValueSi!=-1
? compXmlString(xml, sitOff, stOff, attrValueSi)
: "resourceID 0x"+Integer.toHexString(attrResId);
sb.append(" "+attrName+"=\""+attrValue+"\"");
//tr.add(attrName, attrValue);
}
prtIndent(indent, "<"+name+sb+">");
indent++;
} else if (tag0 == endTag) { // XML END TAG
indent--;
off += 6*4; // Skip over 6 words of endTag data
String name = compXmlString(xml, sitOff, stOff, nameSi);
prtIndent(indent, "</"+name+"> (line "+startTagLineNo+"-"+lineNo+")");
//tr.parent(); // Step back up the NobTree
} else if (tag0 == endDocTag) { // END OF XML DOC TAG
break;
} else {
prt(" Unrecognized tag code '"+Integer.toHexString(tag0)
+"' at offset "+off);
break;
}
} // end of while loop scanning tags and attributes of XML tree
prt(" end at offset "+off);
} // end of decompressXML
public String compXmlString(byte[] xml, int sitOff, int stOff, int strInd) {
if (strInd < 0) return null;
int strOff = stOff + LEW(xml, sitOff+strInd*4);
return compXmlStringAt(xml, strOff);
}
public static String spaces = " ";
public void prtIndent(int indent, String str) {
prt(spaces.substring(0, Math.min(indent*2, spaces.length()))+str);
}
// compXmlStringAt -- Return the string stored in StringTable format at
// offset strOff. This offset points to the 16 bit string length, which
// is followed by that number of 16 bit (Unicode) chars.
public String compXmlStringAt(byte[] arr, int strOff) {
int strLen = arr[strOff+1]<<8&0xff00 | arr[strOff]&0xff;
byte[] chars = new byte[strLen];
for (int ii=0; ii<strLen; ii++) {
chars[ii] = arr[strOff+2+ii*2];
}
return new String(chars); // Hack, just use 8 byte chars
} // end of compXmlStringAt
// LEW -- Return value of a Little Endian 32 bit word from the byte array
// at offset off.
public int LEW(byte[] arr, int off) {
return arr[off+3]<<24&0xff000000 | arr[off+2]<<16&0xff0000
| arr[off+1]<<8&0xff00 | arr[off]&0xFF;
} // end of LEW
此方法将AndroidManifest读入byte []进行处理:
public void getIntents(String path) {
try {
JarFile jf = new JarFile(path);
InputStream is = jf.getInputStream(jf.getEntry("AndroidManifest.xml"));
byte[] xml = new byte[is.available()];
int br = is.read(xml);
//Tree tr = TrunkFactory.newTree();
decompressXML(xml);
//prt("XML\n"+tr.list());
} catch (Exception ex) {
console.log("getIntents, ex: "+ex); ex.printStackTrace();
}
} // end of getIntents
大多数应用程序存储在/ system / app中,可以在没有root我的Evo的情况下读取,其他应用程序在/ data / app中我需要root才能看到。上面的'path'参数类似于:“/ system / app /Weather.apk”
答案 2 :(得分:31)
如何将Android SDK中的 Android资产包装工具(aapt)用于Python(或其他)脚本?
通过aapt(http://elinux.org/Android_aapt),您确实可以检索有关 .apk 包及其 AndroidManifest.xml 文件的信息。特别是,您可以通过'dump'子命令提取 .apk 包中各个元素的值。例如,您可以通过以下方式在 .apk 包中的 AndroidManifest.xml 文件中提取用户权限:
$ aapt dump permissions package.apk
package.apk 是您的 .apk 包。
此外,您可以使用Unix管道命令清除输出。例如:
$ aapt dump permissions package.apk | sed 1d | awk '{ print $NF }'
这是一个以编程方式编写的Python脚本:
import os
import subprocess
#Current directory and file name:
curpath = os.path.dirname( os.path.realpath(__file__) )
filepath = os.path.join(curpath, "package.apk")
#Extract the AndroidManifest.xml permissions:
command = "aapt dump permissions " + filepath + " | sed 1d | awk '{ print $NF }'"
process = subprocess.Popen(command, stdout=subprocess.PIPE, stderr=None, shell=True)
permissions = process.communicate()[0]
print permissions
以类似的方式,您可以提取 AndroidManifest.xml 的其他信息(例如包,应用名称等...) :
#Extract the APK package info:
shellcommand = "aapt dump badging " + filepath
process = subprocess.Popen(shellcommand, stdout=subprocess.PIPE, stderr=None, shell=True)
apkInfo = process.communicate()[0].splitlines()
for info in apkInfo:
#Package info:
if string.find(info, "package:", 0) != -1:
print "App Package: " + findBetween(info, "name='", "'")
print "App Version: " + findBetween(info, "versionName='", "'")
continue
#App name:
if string.find(info, "application:", 0) != -1:
print "App Name: " + findBetween(info, "label='", "'")
continue
def findBetween(s, prefix, suffix):
try:
start = s.index(prefix) + len(prefix)
end = s.index(suffix, start)
return s[start:end]
except ValueError:
return ""
如果您要解析整个AndroidManifest XML树,可以使用 xmltree 命令以类似的方式执行此操作:
aapt dump xmltree package.apk AndroidManifest.xml
像以前一样使用Python:
#Extract the AndroidManifest XML tree:
shellcommand = "aapt dump xmltree " + filepath + " AndroidManifest.xml"
process = subprocess.Popen(shellcommand, stdout=subprocess.PIPE, stderr=None, shell=True)
xmlTree = process.communicate()[0]
print "Number of Activities: " + str(xmlTree.count("activity"))
print "Number of Services: " + str(xmlTree.count("service"))
print "Number of BroadcastReceivers: " + str(xmlTree.count("receiver"))
答案 3 :(得分:15)
您可以在 android-random 项目中使用之前开发的 axml2xml.pl 工具。它将从二进制文件生成文本清单文件(AndroidManifest.xml)。
我说的是“ textual ”,而不是“原始”,因为像许多逆向工程工具一样,这个工具并不完美,结果不会完成。我认为它从来没有功能完整或只是不向前兼容(使用更新的二进制编码方案)。无论什么原因, axml2xml.pl 工具将无法正确提取所有属性值。这些属性是minSdkVersion,targetSdkVersion,基本上所有引用资源的属性(如字符串,图标等),即只有类名(活动,服务等)被正确提取。
但是,您仍然可以通过在原始Android应用文件( .apk )上运行 aapt 工具找到这些缺失的信息:
aapt l -a &lt; someapp.apk&gt;
答案 4 :(得分:11)
检查以下WPF Project,以正确解码属性。
答案 5 :(得分:9)
apk-parser,https://github.com/caoqianli/apk-parser,java的轻量级impl,对aapt或其他二进制文件没有依赖性,适用于解析二进制xml文件和其他apk信息。
ApkParser apkParser = new ApkParser(new File(filePath));
// set a locale to translate resource tag into specific strings in language the locale specified, you set locale to Locale.ENGLISH then get apk title 'WeChat' instead of '@string/app_name' for example
apkParser.setPreferredLocale(locale);
String xml = apkParser.getManifestXml();
System.out.println(xml);
String xml2 = apkParser.transBinaryXml(xmlPathInApk);
System.out.println(xml2);
ApkMeta apkMeta = apkParser.getApkMeta();
System.out.println(apkMeta);
Set<Locale> locales = apkParser.getLocales();
for (Locale l : locales) {
System.out.println(l);
}
apkParser.close();
答案 6 :(得分:9)
使用最新的SDK-Tools,您现在可以使用名为apkanalyzer的工具打印出APK的AndroidManifest.xml(以及其他部分,例如资源)。
[android sdk]/tools/bin/apkanalyzer manifest print [app.apk]
答案 7 :(得分:6)
如果它有用,这里是Ribo发布的Java片段的C ++版本:
struct decompressXML
{
// decompressXML -- Parse the 'compressed' binary form of Android XML docs
// such as for AndroidManifest.xml in .apk files
enum
{
endDocTag = 0x00100101,
startTag = 0x00100102,
endTag = 0x00100103
};
decompressXML(const BYTE* xml, int cb) {
// Compressed XML file/bytes starts with 24x bytes of data,
// 9 32 bit words in little endian order (LSB first):
// 0th word is 03 00 08 00
// 3rd word SEEMS TO BE: Offset at then of StringTable
// 4th word is: Number of strings in string table
// WARNING: Sometime I indiscriminently display or refer to word in
// little endian storage format, or in integer format (ie MSB first).
int numbStrings = LEW(xml, cb, 4*4);
// StringIndexTable starts at offset 24x, an array of 32 bit LE offsets
// of the length/string data in the StringTable.
int sitOff = 0x24; // Offset of start of StringIndexTable
// StringTable, each string is represented with a 16 bit little endian
// character count, followed by that number of 16 bit (LE) (Unicode) chars.
int stOff = sitOff + numbStrings*4; // StringTable follows StrIndexTable
// XMLTags, The XML tag tree starts after some unknown content after the
// StringTable. There is some unknown data after the StringTable, scan
// forward from this point to the flag for the start of an XML start tag.
int xmlTagOff = LEW(xml, cb, 3*4); // Start from the offset in the 3rd word.
// Scan forward until we find the bytes: 0x02011000(x00100102 in normal int)
for (int ii=xmlTagOff; ii<cb-4; ii+=4) {
if (LEW(xml, cb, ii) == startTag) {
xmlTagOff = ii; break;
}
} // end of hack, scanning for start of first start tag
// XML tags and attributes:
// Every XML start and end tag consists of 6 32 bit words:
// 0th word: 02011000 for startTag and 03011000 for endTag
// 1st word: a flag?, like 38000000
// 2nd word: Line of where this tag appeared in the original source file
// 3rd word: FFFFFFFF ??
// 4th word: StringIndex of NameSpace name, or FFFFFFFF for default NS
// 5th word: StringIndex of Element Name
// (Note: 01011000 in 0th word means end of XML document, endDocTag)
// Start tags (not end tags) contain 3 more words:
// 6th word: 14001400 meaning??
// 7th word: Number of Attributes that follow this tag(follow word 8th)
// 8th word: 00000000 meaning??
// Attributes consist of 5 words:
// 0th word: StringIndex of Attribute Name's Namespace, or FFFFFFFF
// 1st word: StringIndex of Attribute Name
// 2nd word: StringIndex of Attribute Value, or FFFFFFF if ResourceId used
// 3rd word: Flags?
// 4th word: str ind of attr value again, or ResourceId of value
// TMP, dump string table to tr for debugging
//tr.addSelect("strings", null);
//for (int ii=0; ii<numbStrings; ii++) {
// // Length of string starts at StringTable plus offset in StrIndTable
// String str = compXmlString(xml, sitOff, stOff, ii);
// tr.add(String.valueOf(ii), str);
//}
//tr.parent();
// Step through the XML tree element tags and attributes
int off = xmlTagOff;
int indent = 0;
int startTagLineNo = -2;
while (off < cb) {
int tag0 = LEW(xml, cb, off);
//int tag1 = LEW(xml, off+1*4);
int lineNo = LEW(xml, cb, off+2*4);
//int tag3 = LEW(xml, off+3*4);
int nameNsSi = LEW(xml, cb, off+4*4);
int nameSi = LEW(xml, cb, off+5*4);
if (tag0 == startTag) { // XML START TAG
int tag6 = LEW(xml, cb, off+6*4); // Expected to be 14001400
int numbAttrs = LEW(xml, cb, off+7*4); // Number of Attributes to follow
//int tag8 = LEW(xml, off+8*4); // Expected to be 00000000
off += 9*4; // Skip over 6+3 words of startTag data
std::string name = compXmlString(xml, cb, sitOff, stOff, nameSi);
//tr.addSelect(name, null);
startTagLineNo = lineNo;
// Look for the Attributes
std::string sb;
for (int ii=0; ii<numbAttrs; ii++) {
int attrNameNsSi = LEW(xml, cb, off); // AttrName Namespace Str Ind, or FFFFFFFF
int attrNameSi = LEW(xml, cb, off+1*4); // AttrName String Index
int attrValueSi = LEW(xml, cb, off+2*4); // AttrValue Str Ind, or FFFFFFFF
int attrFlags = LEW(xml, cb, off+3*4);
int attrResId = LEW(xml, cb, off+4*4); // AttrValue ResourceId or dup AttrValue StrInd
off += 5*4; // Skip over the 5 words of an attribute
std::string attrName = compXmlString(xml, cb, sitOff, stOff, attrNameSi);
std::string attrValue = attrValueSi!=-1
? compXmlString(xml, cb, sitOff, stOff, attrValueSi)
: "resourceID 0x"+toHexString(attrResId);
sb.append(" "+attrName+"=\""+attrValue+"\"");
//tr.add(attrName, attrValue);
}
prtIndent(indent, "<"+name+sb+">");
indent++;
} else if (tag0 == endTag) { // XML END TAG
indent--;
off += 6*4; // Skip over 6 words of endTag data
std::string name = compXmlString(xml, cb, sitOff, stOff, nameSi);
prtIndent(indent, "</"+name+"> (line "+toIntString(startTagLineNo)+"-"+toIntString(lineNo)+")");
//tr.parent(); // Step back up the NobTree
} else if (tag0 == endDocTag) { // END OF XML DOC TAG
break;
} else {
prt(" Unrecognized tag code '"+toHexString(tag0)
+"' at offset "+toIntString(off));
break;
}
} // end of while loop scanning tags and attributes of XML tree
prt(" end at offset "+off);
} // end of decompressXML
std::string compXmlString(const BYTE* xml, int cb, int sitOff, int stOff, int strInd) {
if (strInd < 0) return std::string("");
int strOff = stOff + LEW(xml, cb, sitOff+strInd*4);
return compXmlStringAt(xml, cb, strOff);
}
void prt(std::string str)
{
printf("%s", str.c_str());
}
void prtIndent(int indent, std::string str) {
char spaces[46];
memset(spaces, ' ', sizeof(spaces));
spaces[min(indent*2, sizeof(spaces) - 1)] = 0;
prt(spaces);
prt(str);
prt("\n");
}
// compXmlStringAt -- Return the string stored in StringTable format at
// offset strOff. This offset points to the 16 bit string length, which
// is followed by that number of 16 bit (Unicode) chars.
std::string compXmlStringAt(const BYTE* arr, int cb, int strOff) {
if (cb < strOff + 2) return std::string("");
int strLen = arr[strOff+1]<<8&0xff00 | arr[strOff]&0xff;
char* chars = new char[strLen + 1];
chars[strLen] = 0;
for (int ii=0; ii<strLen; ii++) {
if (cb < strOff + 2 + ii * 2)
{
chars[ii] = 0;
break;
}
chars[ii] = arr[strOff+2+ii*2];
}
std::string str(chars);
free(chars);
return str;
} // end of compXmlStringAt
// LEW -- Return value of a Little Endian 32 bit word from the byte array
// at offset off.
int LEW(const BYTE* arr, int cb, int off) {
return (cb > off + 3) ? ( arr[off+3]<<24&0xff000000 | arr[off+2]<<16&0xff0000
| arr[off+1]<<8&0xff00 | arr[off]&0xFF ) : 0;
} // end of LEW
std::string toHexString(DWORD attrResId)
{
char ch[20];
sprintf_s(ch, 20, "%lx", attrResId);
return std::string(ch);
}
std::string toIntString(int i)
{
char ch[20];
sprintf_s(ch, 20, "%ld", i);
return std::string(ch);
}
};
答案 8 :(得分:6)
如果您使用Python或使用Androguard,Androguard Androaxml功能将为您执行此转换。该功能在this blog post中详细说明,其他documentation here和source here。
用法:
$ ./androaxml.py -h
Usage: androaxml.py [options]
Options:
-h, --help show this help message and exit
-i INPUT, --input=INPUT
filename input (APK or android's binary xml)
-o OUTPUT, --output=OUTPUT
filename output of the xml
-v, --version version of the API
$ ./androaxml.py -i yourfile.apk -o output.xml
$ ./androaxml.py -i AndroidManifest.xml -o output.xml
答案 9 :(得分:3)
这里的参考是我的Ribo代码版本。主要区别在于decompressXML()直接返回一个String,对我来说这是一个更合适的用法。
注意:我使用Ribo解决方案的唯一目的是从Manifest XML文件中获取.APK文件的已发布版本,并且我确认为此目的它可以很好地工作。
编辑[2013-03-16]:它工作得很漂亮 IF 版本被设置为纯文本,但是如果它被设置为引用资源XML,它将显示为'资源例如,0x1'。在这种特殊情况下,您可能必须将此解决方案耦合到另一个将获取正确字符串资源引用的解决方案。
/**
* Binary XML doc ending Tag
*/
public static int endDocTag = 0x00100101;
/**
* Binary XML start Tag
*/
public static int startTag = 0x00100102;
/**
* Binary XML end Tag
*/
public static int endTag = 0x00100103;
/**
* Reference var for spacing
* Used in prtIndent()
*/
public static String spaces = " ";
/**
* Parse the 'compressed' binary form of Android XML docs
* such as for AndroidManifest.xml in .apk files
* Source: http://stackoverflow.com/questions/2097813/how-to-parse-the-androidmanifest-xml-file-inside-an-apk-package/4761689#4761689
*
* @param xml Encoded XML content to decompress
*/
public static String decompressXML(byte[] xml) {
StringBuilder resultXml = new StringBuilder();
// Compressed XML file/bytes starts with 24x bytes of data,
// 9 32 bit words in little endian order (LSB first):
// 0th word is 03 00 08 00
// 3rd word SEEMS TO BE: Offset at then of StringTable
// 4th word is: Number of strings in string table
// WARNING: Sometime I indiscriminently display or refer to word in
// little endian storage format, or in integer format (ie MSB first).
int numbStrings = LEW(xml, 4*4);
// StringIndexTable starts at offset 24x, an array of 32 bit LE offsets
// of the length/string data in the StringTable.
int sitOff = 0x24; // Offset of start of StringIndexTable
// StringTable, each string is represented with a 16 bit little endian
// character count, followed by that number of 16 bit (LE) (Unicode) chars.
int stOff = sitOff + numbStrings*4; // StringTable follows StrIndexTable
// XMLTags, The XML tag tree starts after some unknown content after the
// StringTable. There is some unknown data after the StringTable, scan
// forward from this point to the flag for the start of an XML start tag.
int xmlTagOff = LEW(xml, 3*4); // Start from the offset in the 3rd word.
// Scan forward until we find the bytes: 0x02011000(x00100102 in normal int)
for (int ii=xmlTagOff; ii<xml.length-4; ii+=4) {
if (LEW(xml, ii) == startTag) {
xmlTagOff = ii; break;
}
} // end of hack, scanning for start of first start tag
// XML tags and attributes:
// Every XML start and end tag consists of 6 32 bit words:
// 0th word: 02011000 for startTag and 03011000 for endTag
// 1st word: a flag?, like 38000000
// 2nd word: Line of where this tag appeared in the original source file
// 3rd word: FFFFFFFF ??
// 4th word: StringIndex of NameSpace name, or FFFFFFFF for default NS
// 5th word: StringIndex of Element Name
// (Note: 01011000 in 0th word means end of XML document, endDocTag)
// Start tags (not end tags) contain 3 more words:
// 6th word: 14001400 meaning??
// 7th word: Number of Attributes that follow this tag(follow word 8th)
// 8th word: 00000000 meaning??
// Attributes consist of 5 words:
// 0th word: StringIndex of Attribute Name's Namespace, or FFFFFFFF
// 1st word: StringIndex of Attribute Name
// 2nd word: StringIndex of Attribute Value, or FFFFFFF if ResourceId used
// 3rd word: Flags?
// 4th word: str ind of attr value again, or ResourceId of value
// TMP, dump string table to tr for debugging
//tr.addSelect("strings", null);
//for (int ii=0; ii<numbStrings; ii++) {
// // Length of string starts at StringTable plus offset in StrIndTable
// String str = compXmlString(xml, sitOff, stOff, ii);
// tr.add(String.valueOf(ii), str);
//}
//tr.parent();
// Step through the XML tree element tags and attributes
int off = xmlTagOff;
int indent = 0;
int startTagLineNo = -2;
while (off < xml.length) {
int tag0 = LEW(xml, off);
//int tag1 = LEW(xml, off+1*4);
int lineNo = LEW(xml, off+2*4);
//int tag3 = LEW(xml, off+3*4);
int nameNsSi = LEW(xml, off+4*4);
int nameSi = LEW(xml, off+5*4);
if (tag0 == startTag) { // XML START TAG
int tag6 = LEW(xml, off+6*4); // Expected to be 14001400
int numbAttrs = LEW(xml, off+7*4); // Number of Attributes to follow
//int tag8 = LEW(xml, off+8*4); // Expected to be 00000000
off += 9*4; // Skip over 6+3 words of startTag data
String name = compXmlString(xml, sitOff, stOff, nameSi);
//tr.addSelect(name, null);
startTagLineNo = lineNo;
// Look for the Attributes
StringBuffer sb = new StringBuffer();
for (int ii=0; ii<numbAttrs; ii++) {
int attrNameNsSi = LEW(xml, off); // AttrName Namespace Str Ind, or FFFFFFFF
int attrNameSi = LEW(xml, off+1*4); // AttrName String Index
int attrValueSi = LEW(xml, off+2*4); // AttrValue Str Ind, or FFFFFFFF
int attrFlags = LEW(xml, off+3*4);
int attrResId = LEW(xml, off+4*4); // AttrValue ResourceId or dup AttrValue StrInd
off += 5*4; // Skip over the 5 words of an attribute
String attrName = compXmlString(xml, sitOff, stOff, attrNameSi);
String attrValue = attrValueSi!=-1
? compXmlString(xml, sitOff, stOff, attrValueSi)
: "resourceID 0x"+Integer.toHexString(attrResId);
sb.append(" "+attrName+"=\""+attrValue+"\"");
//tr.add(attrName, attrValue);
}
resultXml.append(prtIndent(indent, "<"+name+sb+">"));
indent++;
} else if (tag0 == endTag) { // XML END TAG
indent--;
off += 6*4; // Skip over 6 words of endTag data
String name = compXmlString(xml, sitOff, stOff, nameSi);
resultXml.append(prtIndent(indent, "</"+name+"> (line "+startTagLineNo+"-"+lineNo+")"));
//tr.parent(); // Step back up the NobTree
} else if (tag0 == endDocTag) { // END OF XML DOC TAG
break;
} else {
Log.e(TAG, " Unrecognized tag code '"+Integer.toHexString(tag0)
+"' at offset "+off);
break;
}
} // end of while loop scanning tags and attributes of XML tree
Log.i(TAG, " end at offset "+off);
return resultXml.toString();
} // end of decompressXML
/**
* Tool Method for decompressXML();
* Compute binary XML to its string format
* Source: Source: http://stackoverflow.com/questions/2097813/how-to-parse-the-androidmanifest-xml-file-inside-an-apk-package/4761689#4761689
*
* @param xml Binary-formatted XML
* @param sitOff
* @param stOff
* @param strInd
* @return String-formatted XML
*/
public static String compXmlString(byte[] xml, int sitOff, int stOff, int strInd) {
if (strInd < 0) return null;
int strOff = stOff + LEW(xml, sitOff+strInd*4);
return compXmlStringAt(xml, strOff);
}
/**
* Tool Method for decompressXML();
* Apply indentation
*
* @param indent Indentation level
* @param str String to indent
* @return Indented string
*/
public static String prtIndent(int indent, String str) {
return (spaces.substring(0, Math.min(indent*2, spaces.length()))+str);
}
/**
* Tool method for decompressXML()
* Return the string stored in StringTable format at
* offset strOff. This offset points to the 16 bit string length, which
* is followed by that number of 16 bit (Unicode) chars.
*
* @param arr StringTable array
* @param strOff Offset to get string from
* @return String from StringTable at offset strOff
*
*/
public static String compXmlStringAt(byte[] arr, int strOff) {
int strLen = arr[strOff+1]<<8&0xff00 | arr[strOff]&0xff;
byte[] chars = new byte[strLen];
for (int ii=0; ii<strLen; ii++) {
chars[ii] = arr[strOff+2+ii*2];
}
return new String(chars); // Hack, just use 8 byte chars
} // end of compXmlStringAt
/**
* Return value of a Little Endian 32 bit word from the byte array
* at offset off.
*
* @param arr Byte array with 32 bit word
* @param off Offset to get word from
* @return Value of Little Endian 32 bit word specified
*/
public static int LEW(byte[] arr, int off) {
return arr[off+3]<<24&0xff000000 | arr[off+2]<<16&0xff0000
| arr[off+1]<<8&0xff00 | arr[off]&0xFF;
} // end of LEW
希望它也可以帮助其他人。
答案 10 :(得分:1)
在Android studio 2.2中,您可以直接分析apk。转到build-analyze apk。选择apk,导航到androidmanifest.xml。你可以看到androidmanifest的详细信息。
答案 11 :(得分:0)
我发现AXMLPrinter2是Android4Me项目中的Java应用程序,可以在我所拥有的AndroidManifest.xml上正常工作(并以格式良好的方式打印出XML)。 http://code.google.com/p/android4me/downloads/detail?name=AXMLPrinter2.jar
一个注意事项..它(以及来自Ribo的答案中的代码)似乎并不处理我遇到的每个编译过的XML文件。我找到了一个存储字符串的地方,每个字符只有一个字节,而不是它假设的双字节格式。
答案 12 :(得分:0)
它可能会有所帮助
public static int vCodeApk(String path) {
PackageManager pm = G.context.getPackageManager();
PackageInfo info = pm.getPackageArchiveInfo(path, 0);
return info.versionCode;
// Toast.makeText(this, "VersionCode : " + info.versionCode + ", VersionName : " + info.versionName, Toast.LENGTH_LONG).show();
}
G是我的应用类:
public class G extends Application {
答案 13 :(得分:0)
我已经使用上面发布的Ribo代码运行了一年多,这对我们有好处。通过最近的更新(Gradle 3.x),我不再能够解析AndroidManifest.xml,我得到了索引超出范围的错误,并且通常它不再能够解析文件。
更新:我现在相信我们的问题是升级到Gradle 3.x.本文介绍了AirWatch如何出现问题,并且可以使用Gradle设置来修复,以使用aapt而不是aapt2 AirWatch seems to be incompatible with Android Plugin for Gradle 3.0.0-beta1
在搜索时,我遇到了这个开源项目,并且它正在维护,我能够达到这一点并阅读我以前可以解析的旧APK和来自Ribo的逻辑抛出异常的新APK
https://github.com/xgouchet/AXML
从他的例子来看,这就是我正在做的事情
zf = new ZipFile(apkFile);
//Getting the manifest
ZipEntry entry = zf.getEntry("AndroidManifest.xml");
InputStream is = zf.getInputStream(entry);
// Read our manifest Document
Document manifestDoc = new CompressedXmlParser().parseDOM(is);
// Make sure we got a doc, and that it has children
if (null != manifestDoc && manifestDoc.getChildNodes().getLength() > 0) {
//
Node firstNode = manifestDoc.getFirstChild();
// Now get the attributes out of the node
NamedNodeMap nodeMap = firstNode.getAttributes();
// Finally to a point where we can read out our values
versionName = nodeMap.getNamedItem("android:versionName").getNodeValue();
versionCode = nodeMap.getNamedItem("android:versionCode").getNodeValue();
}
答案 14 :(得分:0)
apkanalyzer将很有帮助
@echo off
::##############################################################################
::##
::## apkanalyzer start up script for Windows
::##
::## converted by ewwink
::##
::##############################################################################
::Attempt to set APP_HOME
SET SAVED=%cd%
SET APP_HOME=C:\android\sdk\tools
SET APP_NAME="apkanalyzer"
::Add default JVM options here. You can also use JAVA_OPTS and APKANALYZER_OPTS to pass JVM options to this script.
SET DEFAULT_JVM_OPTS=-Dcom.android.sdklib.toolsdir=%APP_HOME%
SET CLASSPATH=%APP_HOME%\lib\dvlib-26.0.0-dev.jar;%APP_HOME%\lib\util-2.2.1.jar;%APP_HOME%\lib\jimfs-1.1.jar;%APP_HOME%\lib\annotations-13.0.jar;%APP_HOME%\lib\ddmlib-26.0.0-dev.jar;%APP_HOME%\lib\repository-26.0.0-dev.jar;%APP_HOME%\lib\sdk-common-26.0.0-dev.jar;%APP_HOME%\lib\kotlin-stdlib-1.1.3-2.jar;%APP_HOME%\lib\protobuf-java-3.0.0.jar;%APP_HOME%\lib\apkanalyzer-cli.jar;%APP_HOME%\lib\gson-2.3.jar;%APP_HOME%\lib\httpcore-4.2.5.jar;%APP_HOME%\lib\dexlib2-2.2.1.jar;%APP_HOME%\lib\commons-compress-1.12.jar;%APP_HOME%\lib\generator.jar;%APP_HOME%\lib\error_prone_annotations-2.0.18.jar;%APP_HOME%\lib\commons-codec-1.6.jar;%APP_HOME%\lib\kxml2-2.3.0.jar;%APP_HOME%\lib\httpmime-4.1.jar;%APP_HOME%\lib\annotations-12.0.jar;%APP_HOME%\lib\bcpkix-jdk15on-1.56.jar;%APP_HOME%\lib\jsr305-3.0.0.jar;%APP_HOME%\lib\explainer.jar;%APP_HOME%\lib\builder-model-3.0.0-dev.jar;%APP_HOME%\lib\baksmali-2.2.1.jar;%APP_HOME%\lib\j2objc-annotations-1.1.jar;%APP_HOME%\lib\layoutlib-api-26.0.0-dev.jar;%APP_HOME%\lib\jcommander-1.64.jar;%APP_HOME%\lib\commons-logging-1.1.1.jar;%APP_HOME%\lib\annotations-26.0.0-dev.jar;%APP_HOME%\lib\builder-test-api-3.0.0-dev.jar;%APP_HOME%\lib\animal-sniffer-annotations-1.14.jar;%APP_HOME%\lib\bcprov-jdk15on-1.56.jar;%APP_HOME%\lib\httpclient-4.2.6.jar;%APP_HOME%\lib\common-26.0.0-dev.jar;%APP_HOME%\lib\jopt-simple-4.9.jar;%APP_HOME%\lib\sdklib-26.0.0-dev.jar;%APP_HOME%\lib\apkanalyzer.jar;%APP_HOME%\lib\shared.jar;%APP_HOME%\lib\binary-resources.jar;%APP_HOME%\lib\guava-22.0.jar
SET APP_ARGS=%*
::Collect all arguments for the java command, following the shell quoting and substitution rules
SET APKANALYZER_OPTS=%DEFAULT_JVM_OPTS% -classpath %CLASSPATH% com.android.tools.apk.analyzer.ApkAnalyzerCli %APP_ARGS%
::Determine the Java command to use to start the JVM.
SET JAVACMD="java"
where %JAVACMD% >nul 2>nul
if %errorlevel%==1 (
echo ERROR: 'java' command could be found in your PATH.
echo Please set the 'java' variable in your environment to match the
echo location of your Java installation.
echo.
exit /b 0
)
:: execute apkanalyzer
%JAVACMD% %APKANALYZER_OPTS%
答案 15 :(得分:0)
Kotlin版本如下:@Mathieu
fun main(args : Array<String>) {
val fileName = "app.apk"
ZipFile(fileName).use { zip ->
zip.entries().asSequence().forEach { entry ->
if(entry.name == "AndroidManifest.xml") {
zip.getInputStream(entry).use { input ->
val xml = decompressXML(input.readBytes())
//TODO: parse the XML
println(xml)
}
}
}
}
}
/**
* Binary XML doc ending Tag
*/
var endDocTag = 0x00100101
/**
* Binary XML start Tag
*/
var startTag = 0x00100102
/**
* Binary XML end Tag
*/
var endTag = 0x00100103
/**
* Reference var for spacing
* Used in prtIndent()
*/
var spaces = " "
/**
* Parse the 'compressed' binary form of Android XML docs
* such as for AndroidManifest.xml in .apk files
* Source: http://stackoverflow.com/questions/2097813/how-to-parse-the-androidmanifest-xml-file-inside-an-apk-package/4761689#4761689
*
* @param xml Encoded XML content to decompress
*/
fun decompressXML(xml: ByteArray): String {
val resultXml = StringBuilder()
// Compressed XML file/bytes starts with 24x bytes of data,
// 9 32 bit words in little endian order (LSB first):
// 0th word is 03 00 08 00
// 3rd word SEEMS TO BE: Offset at then of StringTable
// 4th word is: Number of strings in string table
// WARNING: Sometime I indiscriminently display or refer to word in
// little endian storage format, or in integer format (ie MSB first).
val numbStrings = LEW(xml, 4 * 4)
// StringIndexTable starts at offset 24x, an array of 32 bit LE offsets
// of the length/string data in the StringTable.
val sitOff = 0x24 // Offset of start of StringIndexTable
// StringTable, each string is represented with a 16 bit little endian
// character count, followed by that number of 16 bit (LE) (Unicode) chars.
val stOff = sitOff + numbStrings * 4 // StringTable follows StrIndexTable
// XMLTags, The XML tag tree starts after some unknown content after the
// StringTable. There is some unknown data after the StringTable, scan
// forward from this point to the flag for the start of an XML start tag.
var xmlTagOff = LEW(xml, 3 * 4) // Start from the offset in the 3rd word.
// Scan forward until we find the bytes: 0x02011000(x00100102 in normal int)
run {
var ii = xmlTagOff
while (ii < xml.size - 4) {
if (LEW(xml, ii) == startTag) {
xmlTagOff = ii
break
}
ii += 4
}
} // end of hack, scanning for start of first start tag
// XML tags and attributes:
// Every XML start and end tag consists of 6 32 bit words:
// 0th word: 02011000 for startTag and 03011000 for endTag
// 1st word: a flag?, like 38000000
// 2nd word: Line of where this tag appeared in the original source file
// 3rd word: FFFFFFFF ??
// 4th word: StringIndex of NameSpace name, or FFFFFFFF for default NS
// 5th word: StringIndex of Element Name
// (Note: 01011000 in 0th word means end of XML document, endDocTag)
// Start tags (not end tags) contain 3 more words:
// 6th word: 14001400 meaning??
// 7th word: Number of Attributes that follow this tag(follow word 8th)
// 8th word: 00000000 meaning??
// Attributes consist of 5 words:
// 0th word: StringIndex of Attribute Name's Namespace, or FFFFFFFF
// 1st word: StringIndex of Attribute Name
// 2nd word: StringIndex of Attribute Value, or FFFFFFF if ResourceId used
// 3rd word: Flags?
// 4th word: str ind of attr value again, or ResourceId of value
// TMP, dump string table to tr for debugging
//tr.addSelect("strings", null);
//for (int ii=0; ii<numbStrings; ii++) {
// // Length of string starts at StringTable plus offset in StrIndTable
// String str = compXmlString(xml, sitOff, stOff, ii);
// tr.add(String.valueOf(ii), str);
//}
//tr.parent();
// Step through the XML tree element tags and attributes
var off = xmlTagOff
var indent = 0
var startTagLineNo = -2
while (off < xml.size) {
val tag0 = LEW(xml, off)
//int tag1 = LEW(xml, off+1*4);
val lineNo = LEW(xml, off + 2 * 4)
//int tag3 = LEW(xml, off+3*4);
val nameNsSi = LEW(xml, off + 4 * 4)
val nameSi = LEW(xml, off + 5 * 4)
if (tag0 == startTag) { // XML START TAG
val tag6 = LEW(xml, off + 6 * 4) // Expected to be 14001400
val numbAttrs = LEW(xml, off + 7 * 4) // Number of Attributes to follow
//int tag8 = LEW(xml, off+8*4); // Expected to be 00000000
off += 9 * 4 // Skip over 6+3 words of startTag data
val name = compXmlString(xml, sitOff, stOff, nameSi)
//tr.addSelect(name, null);
startTagLineNo = lineNo
// Look for the Attributes
val sb = StringBuffer()
for (ii in 0 until numbAttrs) {
val attrNameNsSi = LEW(xml, off) // AttrName Namespace Str Ind, or FFFFFFFF
val attrNameSi = LEW(xml, off + 1 * 4) // AttrName String Index
val attrValueSi = LEW(xml, off + 2 * 4) // AttrValue Str Ind, or FFFFFFFF
val attrFlags = LEW(xml, off + 3 * 4)
val attrResId = LEW(xml, off + 4 * 4) // AttrValue ResourceId or dup AttrValue StrInd
off += 5 * 4 // Skip over the 5 words of an attribute
val attrName = compXmlString(xml, sitOff, stOff, attrNameSi)
val attrValue = if (attrValueSi != -1)
compXmlString(xml, sitOff, stOff, attrValueSi)
else
"resourceID 0x" + Integer.toHexString(attrResId)
sb.append(" $attrName=\"$attrValue\"")
//tr.add(attrName, attrValue);
}
resultXml.append(prtIndent(indent, "<$name$sb>"))
indent++
} else if (tag0 == endTag) { // XML END TAG
indent--
off += 6 * 4 // Skip over 6 words of endTag data
val name = compXmlString(xml, sitOff, stOff, nameSi)
resultXml.append(prtIndent(indent, "</$name> (line $startTagLineNo-$lineNo)"))
//tr.parent(); // Step back up the NobTree
} else if (tag0 == endDocTag) { // END OF XML DOC TAG
break
} else {
println(" Unrecognized tag code '" + Integer.toHexString(tag0)
+ "' at offset " + off
)
break
}
} // end of while loop scanning tags and attributes of XML tree
println(" end at offset $off")
return resultXml.toString()
} // end of decompressXML
/**
* Tool Method for decompressXML();
* Compute binary XML to its string format
* Source: Source: http://stackoverflow.com/questions/2097813/how-to-parse-the-androidmanifest-xml-file-inside-an-apk-package/4761689#4761689
*
* @param xml Binary-formatted XML
* @param sitOff
* @param stOff
* @param strInd
* @return String-formatted XML
*/
fun compXmlString(xml: ByteArray, sitOff: Int, stOff: Int, strInd: Int): String? {
if (strInd < 0) return null
val strOff = stOff + LEW(xml, sitOff + strInd * 4)
return compXmlStringAt(xml, strOff)
}
/**
* Tool Method for decompressXML();
* Apply indentation
*
* @param indent Indentation level
* @param str String to indent
* @return Indented string
*/
fun prtIndent(indent: Int, str: String): String {
return spaces.substring(0, Math.min(indent * 2, spaces.length)) + str
}
/**
* Tool method for decompressXML()
* Return the string stored in StringTable format at
* offset strOff. This offset points to the 16 bit string length, which
* is followed by that number of 16 bit (Unicode) chars.
*
* @param arr StringTable array
* @param strOff Offset to get string from
* @return String from StringTable at offset strOff
*/
fun compXmlStringAt(arr: ByteArray, strOff: Int): String {
val strLen = (arr[strOff + 1] shl (8 and 0xff00)) or (arr[strOff].toInt() and 0xff)
val chars = ByteArray(strLen)
for (ii in 0 until strLen) {
chars[ii] = arr[strOff + 2 + ii * 2]
}
return String(chars) // Hack, just use 8 byte chars
} // end of compXmlStringAt
/**
* Return value of a Little Endian 32 bit word from the byte array
* at offset off.
*
* @param arr Byte array with 32 bit word
* @param off Offset to get word from
* @return Value of Little Endian 32 bit word specified
*/
fun LEW(arr: ByteArray, off: Int): Int {
return (arr[off + 3] shl 24 and -0x1000000 or ((arr[off + 2] shl 16) and 0xff0000)
or (arr[off + 1] shl 8 and 0xff00) or (arr[off].toInt() and 0xFF))
} // end of LEW
private infix fun Byte.shl(i: Int): Int = (this.toInt() shl i)
private infix fun Int.shl(i: Int): Int = (this shl i)
这是上面答案的kotlin版本。