【CTF MISC】XCTF GFSJ1086 [简单] 简单的base编码 Writeup(Base64编码+循环解码+Base92编码)

news2024/9/27 5:49:10

[简单] 简单的base编码

你懂base编码吗?

工具

  • 在线BASE92编码解码:https://ctf.bugku.com/tool/base92

解法

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

用 Base64 解码器解码。

解码后仍为 Base64。

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SkZiRFpXTVZwaFdWWlJlRk51VGxWaWEzQndWVzB4VTFReGJIUmxSWFJzVm0xU1dsa3dWbXRXTWtwWFYyeG9WMUo2VmxoV2EyUkxVakZPZFZGc1pHbFNia0Y2Vm1wR1lXRXhXWGhXYmtwaFVqTlNUMWxVUm5kVFZtUllaRWRHYVUxcldqQldiVFZMVjBkS1NHRkdXbGRpVkVaVVZtdGFkMWRIVmtsVWJHUnBVakZLTmxaclkzaGlNVlY0VjJ0YVdHRnNjRmhXYTFaeVpVWnNjVkpzY0d4U2JWSjRWako0UzFkR1NYbGhSbWhYWWxoU1dGZFdXbk5XTWs1SFYyeG9hVmRHU25sV2JURXdaREpXYzFkdVVrNVhSVFZZVkZaV2MwNXNiRlpWYkdSWFRVUkdXVlpXYUd0WFJscDBWV3M1WVZKRlJqUlZNV1JIVWpKR1IyRkdUazVOYldoU1ZtMHdlRTVIUlhoV1dHaFlWMGRvVjFsclpHOWpiRlYzV2taT1YxSnNTbGhXTW5Rd1lrZEtSMk5HYkdGU1ZsVXhWakJhU21ReVRrWmhSbkJPVW01Q01sWnFTbnBsUmtsNFZHNU9VbUpIVW05WlZFNURVMVprVlZOcVVtaE5helV3Vm0xMGExbFdTWGxoUnpsVlZrVktURlpYZUdGak1YQkpXa1pTVGxaVVJUQldWRVp2WXpGVmVWSlliRlppVkd4WFdXeG9iMVJHV25KWGJVWnFUV3RhUjFaSGVGTlViRnAxVVdwU1YxWjZRalJWYWtaaFkyc3hWMWRyTlZkU2EzQlpWbTB3ZUdJeVZuTlhiazVZWWxoU1ZWVnFSbUZUUmxsNVpVaGtWMDFWY0ZoWmFrNTNWMFphYzFkdGFGZGhhM0JVVlRCYVlXTnRTa2hTYkU1T1RVVndWbFl4WkRCaU1VVjNUbFZrV0dKcmNHRlVWRXBUVlVaYWRHVklUazlTYkd3MVZHeFZOV0ZIU2taalJXUldUV3BHZGxacVNrdFRSbFp5VDFaV1YySklRbTlXYWtKclZHMVdkRkpyWkdoU2F6VndWVzAxUWsxc1dYaFhiR1JhVmpCV05GWlhOVTlYUm1SSVpVYzVWbUV4V2pOV01GcHpWMGRTUm1SSGNHbFNiR3Q1VmxjeE1FMUhSblJTYWxwWFlrZG9XVmxVUm5kaFJteFhWMnQwYWsxck5VaFphMXB2VmpBd2VXRkhPVmRXZWtJMFZsY3hWMUl4Y0VsV2JFNXBVbFJXZDFadGVHRmtNV1JYVjJ0a1lWSkdTbFZVVmxVeFYwWlplV1ZIT1doTlZXOHlXV3RqTlZaV1duTlhhazVWVmxad2VsWnRlR3RqTVZKeldrWmthVk5GU2xwV01WSkRZVEZKZUZkc1pGaGlSMUp4VlRCV2QxZEdiSEpYYm1SVVVtNUNSMVl5ZERCaE1VbDNUbFZrVldKR2NISldSM2hoVjBkUmVtTkdaR2xYUjJoVlZsaHdRbVZHVGtkVGJHeG9VakJhVkZacVNtOVdiR1JZWkVkMGFVMXJiRFJXYlRWVFZHeGFObUpHYUZwaE1YQXpWRlZhZDFadFJraGtSbFpvWld0YVdWZFhkRk5VTVZsM1RWaEdWMkV6YUdGWlZFWjNWRVp3Umxkc1pHdFdNSEJJV1ZWa2IxUnNaRVpUYWxaWFlsUkdNMVY2Umt0a1JscHlZVVpXYUUxV2NGbFhWM1JyVlRGYVIxVnNWbFJpVkd4elZtMHhVMWRzYTNkV2JYUlhUV3R3V0ZZeWVHOVdNVW8yVm10NFdsWldjRXhaTW5oUFl6SkdSMWR0YkZOaE0wSmFWbTF3UjFsWFJYaFhXR2hYWW10d2FGVnFUbE5VTVd4VlVtNWtWRlpzY0hoVk1WSkhWVEF4VjJORmJGWmlSMmgyV1ZkNFQxSnJOVmRoUm5CcFVqSm9WVlpHVWtka01WbDRXa2hTYTFJelFuQlZha1pLWkRGYVJWSnRkR2xOVm13elZGWldhMkZGTUhsbFJtaGFZa1pLUTFwVlduTmpWa3B6WTBkNFUySldTalJXYWtvMFV6SkdTRk5yV21wU01taFpWbTB4VW1ReFpGZGFSbVJxVFZkU01WVnRlRTloVmtsNFUyNW9WMUpzY0hKV1ZFcFhZekpLUjFkdFJsUlNWRloyVm0weE5HUXlWbGRoTTJSV1lrVTFXRlJWVWtkWFZscFhZVWQwV0ZKc2NEQldWM2hQV1ZaYWMyTkhhRnBOYm1nelZXcEdkMUl5UmtkVWF6Vk9ZbGRqZUZadE1UUmhNREZIVjFob1ZWZEhhR2hWYlRGVFYwWnNkR1ZGZEdwTlZsWXpWbXhTUjFaVk1WZFRiR2hYVFdwV1VGWkVSbUZrVmtaeVdrWndWMVl4UmpOV2JYQkNaVVpLVjFOdVNsaGlSbkJ3VmpCV1MxTldXbkZUYWxKYVZteHNORlpITlU5VmJVcElWV3M1V21KVVJuWlpha1poWTFaR2RGSnNaRTVoZWxZMlYxUkNWMkl4VlhsVGEyaFdZa2RvVmxadGVHRk5NVnBZWlVkR2FrMVlRa3BYYTFwVFZHeGFXR1I2UWxkV1JWcDJXWHBHVm1WV1NsbGlSMmhVVWxWd1dGZFhlRzlVYlZaSFlUTmtXR0pyTlZoV2JYUmhUVlprY2xaVVJtaFdhM0F4VlZab2ExZEhTa2RYYmtaVllrZFNSMXBFUVhoV01XUnlUbFprVTJFelFscFdNV1F3WVRKSmVWVnVUbGhYUjFKWldXeG9VMVpXVm5GUmJVWlVVbTFTZVZZeU5XdGhSbHAwVld0c1dsWlhUVEZXYWtwTFZsWktWVkZzY0d4aE0wSlFWMnhXYTFReFNuUlNhMlJTWWtkU2NGWnRkSGRXYkZsNFdrUkNWMDFzUmpSWGEyaFBWMGRGZVdGSVRsWmhhelZFVmxWYVlXUkZNVmRVYkZKVFlrZDNNVlpIZUZaT1YwWklVMnRhYWxKdGVHRldiRnAzWld4YWNWTnJXbXhTYkhCYVdWVmtSMVV3TUhsaFJGcFhZbGhDU0ZkV1dtdFhSa3B5V2tkR1UxWkdXblpXUmxKRFV6Rk9SMWR1VW14U00xSlFWV3BDVjA1R1dsaE9WazVXVFd0d2VWUnNXbk5YYlVWNFkwZG9WMDFHY0hwV2JGcFBZekZPY2s1V1RtbFRSVXBJVm14amVHVnJOVmRYYTJSVVltdHdjVlV3WkRSWFJsSllUbGM1VTFKc2NIaFZNblF3VmtaYWNsZHFSbGhoTVhCeVdWVmtSbVF5VGtsaVJtaFhaV3RKTUZadGNFdFViVlpJVkd0YWFWSnNXbkJWYWtwdlpERmFkR1ZIUm10TlYxSklWakowYTFsV1RrbFJiazVXWWtaS1dGVXdXbXRqYlVaR1pFZG9VMkV6UWpWV1IzaHFUbFphVjFkdVRsaGhhelZXVm14YWQyRkdXWGRhUlRsUFlrWndlbGxWWkhOVk1rcHlVMnRzVjJKWVFrdGFWVnBLWlVaa2MxcEdhR2xoZWxaNFZsZHdTMkl4YkZkalJtaHJVakJhVDFSV1dtRmxiRmw1WlVkMGFHRjZSbGxXVnpWelZsZEtSMk5JU2xwV2JIQnlWVEJhVTJOV1ZuTmFSMnhZVWpKb05WWnJaREJoTVU1MFZteGtWbUpIZUc5VmJURnZZMFpzV1dOR1pGaGlSMUpZVmxkMGEyRXdNVmRqUm1oYVlUSm9URmRXV2t0T2JVcEhZa1phYVZaRlZYZFdha1poWTIxV2RGUnJXbUZTTW1oUFdWUk9RMU5zWkhOV2JVWm9UVlpzTTFSV2FFZFZNa1Y1WVVkR1YyRnJOWFpaVlZweVpWVXhWazlXVWxkTlJGWkpWMVpXYTJJeFVuTmFSVnBVVjBkNFdGbHNVa2ROTVZZMlVtczFiRlpzU2pGV1IzaFhZVmRGZWxGdVpGZFdla0kwVmxSR2ExSXlTa2xVYkdob1RWaENlVlpHV21Gak1EVkhWMWhzVGxaWFVsbFZha0ozVjBaWmVXUkhPVmROVlc4eVZtMTBORll3TVVoVmEzaFdZbGhOZUZacVNrZFNNV1IwWWtaT2FXRXdjRnBXYlhSclRrWktjazlXWkZKaVJYQlNWbXRTUWs5UlBUMD0=

再次解码,仍为 Base64 编码……

用 Python 写一个循环解码器。

import base64

data = 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"

def decode(x):
    while True:
        try:
            x = base64.b64decode(x)
            print(x)
        except:
            break
    return x

decode(data)

输出:

F#S<YRa[$*x7,>{F3DH5N/3.5+J6WD%P841JRN_i51F1Z!

用 Base92 解码器解码,得到 flag。

Flag

flag{d0_y0u_l1ke_base92_!??!_by_Sh3n}

声明

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