1.目标
在学习的过程中,会遇到有些算法比较麻烦,没有办法直接还原。那我们就另辟蹊径,不去分析具体的算法实现。直接使用rpc的方式调用算法函数,本文章以某安App的X-App-Token签名函数为例。
2.操作环境
- mac系统
- frida-dexdump:导出加固后dex文件
- Charles:抓取http接口
- 已Root安卓机:脱壳
- Python3.8:实现rpc功能
- Jadx:导出dex文件为源码
- Android Studio:静态分析
3.流程
寻找切入点
通过Charles抓包获取到关键词为X-App-Token,这也就是我们的切入点:
静态分析使用查壳工具发现该apk使用的是360加固,启动App后,使用frida-dexdump的frida-dexdump -FU命令导出dex文件:
由于dex文件较多,不方便查询,使用jadx把多个dex文件导出为源码:
import os
for file in os.listdir(os.curdir):
if file.find(".dex") > 0:
sh = 'jadx -j 1 -r -d ./ ./' + file
print(sh)
os.system(sh)
将以上的python脚本放到dex同级目录,切换到dex目录,并执行以上脚本,执行完成后会生成sources文件夹,使用Android Studio打开该文件夹,全局搜索X-App-Token:
找到关键函数:
private final String[] m13135() { String str; Locale locale = Locale.getDefault(); String valueOf = String.valueOf(Build.VERSION.SDK_INT); String str2 = locale.getLanguage() + '-' + ((Object) locale.getCountry()); byte[] bytes = (this.f16167.m13205() + "; ; ; " + this.f16167.m13207() + "; " + ((Object) Build.MANUFACTURER) + "; " + ((Object) Build.BRAND) + "; " + ((Object) Build.MODEL) + "; " + ((Object) Build.DISPLAY) + "; " + ((Object) C4765.m13174().m12851())).getBytes(Charsets.UTF_8); Intrinsics.checkNotNullExpressionValue(bytes, "this as java.lang.String).getBytes(charset)"); String encodeToString = Base64.encodeToString(bytes, 0); Intrinsics.checkNotNullExpressionValue(encodeToString, "encodeToString(device.to…eArray(), Base64.DEFAULT)"); String sb = new StringBuilder(encodeToString).reverse().toString(); Intrinsics.checkNotNullExpressionValue(sb, "StringBuilder(device).reverse().toString()"); String replace = new Regex("\\r\\n|\\r|\\n|=").replace(sb, BuildConfig.FLAVOR); String as = AuthUtils.getAS(this.f16166, replace); if (C4765.m13166().m13307()) { str = "1"; } else { str = C4765.m13166().m13300() ? "2" : "0"; } Intrinsics.checkNotNullExpressionValue(as, "appToken"); String r1 = this.f16167.m13203(); Intrinsics.checkNotNullExpressionValue(r1, "appMetadata.channel"); return new String[]{"User-Agent", this.f16170, "X-Requested-With", "XMLHttpRequest", "X-Sdk-Int", valueOf, "X-Sdk-Locale", str2, "X-App-Id", "com.coolapk.market", "X-App-Token", as, "X-App-Version", this.f16168, "X-App-Code", String.valueOf(this.f16169), "X-Api-Version", "12", "X-App-Device", replace, "X-Dark-Mode", str, "X-App-Channel", r1, "X-App-Mode", this.f16167.m13197().toString(), "X-App-Supported", String.valueOf(this.f16167.m13199())}; }
删除无关代码后:
private final String[] m13135() { byte[] bytes = (this.f16167.m13205() + "; ; ; " + this.f16167.m13207() + "; " + ((Object) Build.MANUFACTURER) + "; " + ((Object) Build.BRAND) + "; " + ((Object) Build.MODEL) + "; " + ((Object) Build.DISPLAY) + "; " + ((Object) C4765.m13174().m12851())).getBytes(Charsets.UTF_8); String encodeToString = Base64.encodeToString(bytes, 0); String sb = new StringBuilder(encodeToString).reverse().toString(); String replace = new Regex("\\r\\n|\\r|\\n|=").replace(sb, BuildConfig.FLAVOR); String as = AuthUtils.getAS(this.f16166, replace); }
由此可看出,X-App-Token参数由AuthUtils.getAS方法生成,本篇文章的目的是通过rpc直接调用getAS函数,所以不会去具体分析getAS方法的实现。调用getAS方法的入参有两个,第一个是context,第二个参数即为我们需要拼接的参数。看源码可知,该参数由多个参数拼成,然后再base64。具体查看每一个函数,整理后的结果如下:
- this.f16167.m13205():android_id
- this.f16167.m13207():wifi的mac地址
- ((Object) Build.MANUFACTURER):硬件制造商
- ((Object) Build.MODEL):系统定制商
- ((Object) Build.DISPLAY):显示屏参数
- ((Object) C4765.m13174().m12851()):这个参数为空,我们就暂且不管
你也可以直接使用命令frida-trace -UF -j '!getBytes*':
{ onEnter(log, args, state) { log(`String.getBytes=${this.toString()}=`) log(`String.getBytes(${args.map(JSON.stringify).join(', ')})`); }, onLeave(log, retval, state) { if (retval !== undefined) { log(`<= ${JSON.stringify(retval)}`); } }}
获取到结果如下,根据结果反推参数值e8e69e7384cb09c0; ; ; F4:F5:DB:24:A6:E1; Xiaomi; xiaomi; MI 5X; QL1515-tiffany-build-20171026203938; null
结果至此,我们的getAS函数的入参已经确定,接下来就是实现RPCpython源码如下:
import fridafrom flask import Flask, requestimport base64result = {}def on_message(message, data): if message['type'] == 'send': payload = message['payload'] if "###" in payload: global result array = payload.split("###") result[array[0]] = array[1] print(message['payload']) elif message['type'] == 'error': print(message['stack'])js_code = '''rpc.exports = { // 函数名getAS sign: function(params){ Java.perform(function(){ //拿到context上下文 var currentApplication = Java.use('android.app.ActivityThread').currentApplication(); var context = currentApplication.getApplicationContext(); // use 加载的类路径 var AuthUtils = Java.use('com.coolapk.market.util.AuthUtils'); var sign = AuthUtils.getAS(context, params); // context,params send(params+"###"+sign); } ) }};'''process = frida.get_usb_device().attach('酷安')script = process.create_script(js_code)script.on('message', on_message)script.load()app = Flask(__name__)@app.route('/get_sign')def get_sign(): device_id = request.args.get('device_id', '') mac_address = request.args.get('mac_address', '').upper() manufacturer = request.args.get('manufacturer', '') model = request.args.get('model', '') display = request.args.get('display', '') params = f'{device_id}; ; ; {mac_address}; {manufacturer}; {model}; {display}; null' base_en = base64.encodebytes(params.encode('utf-8')).decode('utf-8') base_en = base_en[::-1] base_en = base_en.replace('\n', '') base_en = base_en.replace('\r', '') base_en = base_en.replace('=', '') script.exports.sign(base_en) sign = result[base_en] return signif __name__ == '__main__': app.run()
运行python脚本后,浏览器调用get_sign方法即可获取到X-App-Token