Base64 to Text
The “Base64 to Text” decoder is a simple online tool that allows you to convert Base64 to plain text (that is, it decodes the Base64 string and returns the original text). If you need more features and better customization for decoding Base64, please use the Base64 decoder.
Comments (113)
I hope you enjoy this discussion. In any case, I ask you to join it.
Ik5ldmVyIHRydXN0IGEgY29tcHV0ZXIgeW91IGNhbid0IHRocm93IG91dCBhIHdpbmRvdyIgLSBTdGV2ZSBXb3puaWFr
, how can I learn this?Could you explain please what exactly do you what to learn? Did you manage to decode your Base64 string into text?
Trying to decode this asap, can anyone help, please?
<h1>hi</h1>
"Never trust a computer you can't throw out a window" - Steve Wozniak
PCFET0NUWVBFIGh0bWwgUFVCTElDICItLy9XM0MvL0RURCBYSFRNTCAxLjAgVHJhbnNpdGlvbmFs...
remove the '...'
PCFET0NUWVBFIGh0bWwgUFVCTElDICItLy9XM0MvL0RURCBYSFRNTCAxLjAgVHJhbnNpdGlvbmFs
then use decoder
<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Transitional
kPfHlAOr4ZcGv/XCSRBeainjAYGaqsTMU6+mMvgXOMg=
neMaHS4sUE44BxKyxNgaTcCnK663C88hNtG75ALxzoE=
Are these 2 valid Base64 Hashes?
Yes, these values are valid Base64 strings. Please use Base64 Validator to find it out. Also, please note that Base64 is not a hashing algorithm.
gAN9cQAoWAUAAABtb25leXEBTfQBWAcAAABoaXN0b3J5cQJdcQNYEAAAAGFudGlfdGFtcGVyX2htYWNxBFggAAAAYWExYmE0ZGU1NTA0OGNmMjBlMGE3YTYzYjdmOGViNjJxBXUu
I get this
}q(XmoneyqM�Xhistoryq]qXanti_tamper_hmacqX aa1ba4de55048cf20e0a7a63b7f8eb62qu.
any head's up?
This seems to be a pickle object (for more info google for "Pickling" or "Python object serialization").
jtynn5XuYc9ZZ49bLIUcbRoOyym50mDuzHz0yGGxaLFEdNkkLdFAeOhsz6q22uvz3tyHjzsWMdkaheBZ
which I think is base64 since it looks like it but instead I get this?ܧ�a�Yg[,m�)��`��|��a�h�Dt�$-�@x�lϪ������;1��Y
Can someone help me out
I think your Base64 string may contain the result of a cryptographic function. Therefore, to decrypt it, you need to know the passphrase and algorithm.
YkNOnrRbhkDLifnLuT6arQ==
but the answer is this:
bCN��[�@ˉ�˹>��
why?
Please note that Base64 is used to encode various types of data, not just plain text. For example, your Base64 string may be a chunk of binary file or some raw bytes of hashing function. Moreover, this Base64 string may use a custom alphabet and to decode it you need to know the source indexes. And finally, it may not be a Base46 string at all.
When I decode it, i get 738 but it isnt working. Any heads up?
97398
64d5+/IY8+r3EJakcEJMMVytTBV+jEgQH5E8mpBWWZg=
KVFs/JmxlLzcCJsK9FNjng==
:T4k2Q1P0d
Isn't this a base64 hash?
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0c244382d3176609fe5436a01498f7d29874bf25c776e2f6ed6522d292ec8885
Where is my money ?
$CÓf þT6 ÷Òt¿%Çvâöíe"Òì
any one convert decode this text if any done i will give the money ,,, please any one...
reply
echo -n 'YUhSMGNITTZMeTl0WldkaExtNTZMMlp2YkdSbGNpOVRWa2xFZVZOQ1lpTllOekZpVUVwSmRISnVPVUZQYUZwcVVrUkxOMGhS' | base64 -d - | base64 -d -
its supposed to be a link to megauploadD3cupzIeZQxkZPH=
or
FSNgZwVmZUZ=
Is there a difference using this tool with Different browser e,g Chrome and Firefox( I think yes) - I have tried multiple time to encode PDF file to base64 using Firefox browser but then in most of the cases the binaries are not valid, when I did an API upload with these binaries the pdf couldn't open. Then a college of me told me that Firefox is not using standard UTF-8 but instead Latin-1, and Google Chrome is using always UTF-8 (the language of the browser was set to English) and with Chrome seems to work fine...
(How can view normal tex)?
V1U5VlVpQkJVRkJNU1VOQlZFbFBUaUJRVWs5VVJVTlVSVVFnUWxrZ1NVRk5XQT09
"YOUR APPLICATION PROTECTED BY IAMX"
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Is there any way to convert Base64 to HTML code (text)?
It is important to insert it in a Javascript or PHP, or as you suggest me. But without the intervention of these dialog boxes, but with language instructions. Thank you very much in advance.
'''52c735fec7449b10b6ece4ab233eaae63d21872f16fbb8a74b494c9b82f609f6'''
I want to know how to decode this:
4D44DVDF6D FD44D444DXDF6D 64DF F44466DF4VDX DV44V4 64DFD4F46FFD46 6444 4FDD44F66D4VFX 6DDDDFFX6D4V4VFD 446D 4XFF6FFX6D4V4VFD
?and what types of codes/cipher is this?
1Gl3+bxLWeULv4zstVqrOQRHkvW64mDcjTvsec7z/9k=
CLTD BTYL TFS
. what code is this?773307715d1486956da81857d89d14958dcb650b016f61ad6155e129f873f82f87d6f61e0c002253fb09ba0c2a03511290565b52a128e804584639515ef0afad14a126079c4c0724975e10941f552b383141dc5985c6a64c6102d34e2b374a520dc9625658122538f8dc0cca2030652e9005a3c3a487a13f52422646cb24b2dd720296e50d54f66bc3e811ab7e2503d46cfaf07115a2300104e5def0a5b0f5addb15f512a9a3b289579ce1dc5049aa71c07b7130112f2f3d751a44a7757390b5ebd5766933d77c147ccd877a6e2088abd5122c3909875deb4c3ab31179b286a25bae2bbcfc1d7c7b6cc2e4da3b45ac596ab1d52082f32c0e606bb3f585ca6cab
j8LM5/ZHFlydW8XreMoznz3v+NxwAmccUVPGJhQshVS7qk21o2nyza/HurE9R7FVEWGLTl3/yc203vRroaSJGNLMhoo49lZJ9Jw1Rrp7KiFWQ7ZvMgOQbimOUZCwd/iS+qJTANIFIEs=
Decoded value should be :
a
Instead I got :
����G\[��x�3=���pgQS�&,T��M��i�ͯǺ�=G�UaN]��ʹ��k����8�VI�5F�{*!VC�o2n)Q�w���S� K
Please help me to get to the output. I just have lot of texts which needs to be encrypted as per above example but I have no other info such as which hash or passphrase was used.
Help me guys to get output.
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
HQUTeV0DZAViQANkJ1R9OBF1XUgwPANcYAQ/J2tWGDIfbGl6MBFZXhw+B0NeEj8OamphNwJ/cSAeE0VdGiwMWmEdOxJpUGASEh4MBDAte1sSPB9pXjgdCH1AHyQTankGHhNJXhEsAB1hZjcVfXkxASRacTEXAUl6DBcXeV0NZDxoayVjFW9pIBZ3VU8dBnZ+YQ0/Pn16YBweWlsGER4UDRIVJX1pZGASZEEhJh4feSIcLUlIFC4DBloUAXs=
4mz5f5szcdkkurlecmghsqppxasbbtj7sqlumwoicj3mgkvfxrrbqwid
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
ITCLUB{cf3k_k4h_b4nh??}
took me 3 seconds in a browser console using a loop ;)
8cXjLJER3B0=
for this message
R3FhQT0xTFg3JzFpbT4iMWZTIT9GKF1WcDBsQ1coQjVEaWxEKT8nRjwmOFZQNjg8mxCTUM9KEVkOUJxQi9GJG47SkJZckRjPy0=
and this the result. What's next??
decGqaA=1LX7'1im>"1fS!?F(]Vp0lCW(B5DilD)?'F<&8VP68<��P�JYP�P�щ�Ґ�\���
Begin RSA Private KEY
R3FhQT0xTFg3JzFpbT4iMWZTIT9GKF1WcDBsQ1coQjVEaWxEKT8nRjwmOFZQNjg8mxCTUM9KEVkOUJxQi9GJG47SkJZckRjPy0=
End RSA PRIVATE KEY
42 5a 68 39 31 41 59 26 53 59 f2 b5 03 56 00 00 64 0f 80 7f 62 3d ff 3f f0 3f ff df f0 30 01 39 2d b6 1a 9a 86 a3 d0 d4 c9 a6 8c 99 30 8f 49 a1 a3 46 8d 33 49 a1 14 d3 46 91 fa 90 c4 cd 26 46 4c 08 c0 46 26 4f 4d 06 a7 a9 a2 35 13 d4 da 87 e5 31 30 53 ca 7a 23 f5 47 a8 c2 03 d2 58 2f 10 8d fd c0 2d d9 5b 63 a4 6a 36 ec 7f 90 6e 4c 10 70 51 1a b1 46 4a c0 46 5a ef 78 80 e3 3f 7d b0 98 66 41 c5 78 02 4c f0 d1 18 4c c5 71 f3 8f a9 1e 9c 04 16 a7 d0 76 86 6d 45 b9 cd 3b e3 64 4a 44 93 8d 11 11 da 38 39 83 4c 3b 75 6b fd 37 c3 82 ca c6 6d 6e bb 06 dc 03 ab ba 4c 91 c9 4e 14 f3 9d cb f5 b5 22 02 53 59 9b c2 63 03 a9 80 28 57 5d d1 04 82 37 3e cc 2c 3d 53 a4 f5 a3 b6 e1 d5 12 45 af 34 dd 2e f0 b1 47 2e b6 36 43 86 f3 96 ca 55 af cb 4d 57 99 29 0c 47 2a bf 0c 19 d8 86 00 a6 1f 60 93 9c 1c 78 3a 14 c0 d8 9d a3 18 ad c4 d3 09 27 62 08 b8 ea f9 66 84 06 04 49 02 d2 b9 59 d1 d2 8c bc 4b 24 d5 20 2d e7 db a5 18 df 99 3f f5 e1 df cc 79 ca 20 a6 12 84 65 23 02 00 cb b8 96 45 2d f6 ab 62 aa 2e 8d 23 3a eb ba c5 95 24 c1 8e a9 ad d1 e1 32 7b ea b4 12 68 94 46 78 0a db 8b b9 22 9c 28 48 79 5a 81 ab 00
TmV2ZXIgZ29ubmEgZ2l2ZSB5b3UgdXAsIG5ldmVyIGdvbm5hIGxldCB5b3UgZG9vb3duIQ==
Begin RSA Private KEY
R3FhQT0xTFg3JzFpbT4iMWZTIT9GKF1WcDBsQ1coQjVEaWxEKT8nRjwmOFZQNjg8mxCTUM9KEVkOUJxQi9GJG47SkJZckRjPy0=
End RSA PRIVATE KEY
hash: bc73115bd3366b55ab8f63fca0fdb2c070c11415c804f87f87d08110896ff48ca25398c7c855c4b05cb5ff3f9ec746bb3e77cac6f26165fe2d9d8d1e27f731cf
salt: 8ae9c955b1c636c0d8155fd9526588|[[0,1,0,1,0],[0,0,0,0,0],[0,0,0,0,0],[0,0,0,0,0],[0,1,0,0,0]]|42adeb5d2f5a535c4cf0cc1490eeff5f
hash: a288d200072f40d6a5511a4f72e6e8426d5f6f9fb950b6170d2d1c76d84436825d69827a3ee8d94d5c7d6ddb72db9ba1395ac270c42f1a6fa973ea08a007dcc8
salt: e26efd128d7991c5872e84f999b9|[[0,0,0,0,0],[1,0,0,0,0],[0,0,0,0,0],[0,1,0,0,0],[0,0,0,0,1]]|a455f8e81bd0352bd1a104ca52973612bb41
hash: 8d7156b5c10de36fdfe487242139d008f43f3f4b180c4bcd59b0d654c2de1014b4fb971ffdb357797a465bae11c992aab8c2490f866efd585558aad3b3e7e500
salt: 1d14837c88cd898b3e05d7d9|[[0,0,0,0,0],[1,0,0,0,0],[0,0,0,0,0],[0,0,0,1,0],[0,0,0,0,1]]|bb7dff8f839b17bd92555701
plain text= budi123
i know the plain text, but i dont know how to decode
anyone can help?
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
its a songI8CN/A8/ReTaG6EZo2guWw==
this should be the password i see when inspect element > change type from "password" to "text".i need to decode this text ?
What this is tyoe of encryption
sTB+2AKN6seiZTUTBRDWGYkX/iBvpqJAkbcBzDoG0g5/ITMzIeMUnSEzOSEwVfL+htYjkeLN+kjovk1ThwE4bHizZg/Umg==
but it does not come out properly when decoding. Not sure what it could beVjFVNVZrbEZUa0pVYXpWUVZrTkNSbFV3VGtKVlJWVm5VbXhLVUZSVFFsWlZkejA5