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 (64)
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?
"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?
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
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?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
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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ITCLUB{cf3k_k4h_b4nh??}
took me 3 seconds in a browser console using a loop ;)
8cXjLJER3B0=