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Jan
25
revised Starting at what version of Visual Studio is vsnprintf mostly standard-conformant?
Add note following comment
Jan
25
revised Starting at what version of Visual Studio is vsnprintf mostly standard-conformant?
Clarify which edition of what
Jan
25
revised Starting at what version of Visual Studio is vsnprintf mostly standard-conformant?
Fixed prototype
Jan
25
asked Starting at what version of Visual Studio is vsnprintf mostly standard-conformant?
Nov
22
comment Decipher APDU for OpenPGP smart card applet
You are sending 0xCA+0x70=0x13A=314 data bytes in the composite APDU, not 313 bytes as stated. Also, I conjecture that removing the final 00 (Le) in the first command sent could only help (by removing the possibility that javax.smartcardio does a spurious Get Response). Disclaimer: I have no idea about what that INS=0x2a, P1=0x80, P2=0x86 APDU is supposed to mean to a Yubikey, much less what the 313 or 314 bytes you pass are, their formatting, or suitability.
Nov
18
revised Architectures to access Smart Card from a generic browser? Or: How to bridge the gap from browser to PC/SC stack?
better link
Nov
18
revised Architectures to access Smart Card from a generic browser? Or: How to bridge the gap from browser to PC/SC stack?
Link to archived SConnect API
Nov
18
revised Architectures to access Smart Card from a generic browser? Or: How to bridge the gap from browser to PC/SC stack?
More direct replacement for broken link
Nov
16
revised When produce random digits, why they start repeating sooner than people imagine, and is there any better method?
Reference another answer
Nov
16
revised When produce random digits, why they start repeating sooner than people imagine, and is there any better method?
Polish
Nov
16
revised When produce random digits, why they start repeating sooner than people imagine, and is there any better method?
Mention the Fisher-Yates shuffle
Nov
16
comment When produce random digits, why they start repeating sooner than people imagine, and is there any better method?
Agreed, I should have written "..a minimal definition of random in cryptography..". Still, with the LFSR technique, any odd ID N at least 1 is always followed by (N-1)/2, that's a very recognizable property!
Nov
16
comment When produce random digits, why they start repeating sooner than people imagine, and is there any better method?
One problem with the LFSR technique as illustrated is that knowing a number generated and the mask 0x2015, the next number can be easily computed. Even without knowledge of that constant, the next number can be computed from a small sequence of previous numbers. This goes against the accepted definition of random in CS: computationally indistinguishable from truly random.
Nov
16
answered When produce random digits, why they start repeating sooner than people imagine, and is there any better method?
Nov
7
revised How to calculate modulus of large numbers with large prime?
Fix misplaced digit
Nov
7
answered How to calculate modulus of large numbers with large prime?
Nov
7
revised RSA/ECB/OAEPWithSHA-256AndMGF1Padding but with MGF1 using SHA-256?
name -> transformation
Nov
7
comment RSA/ECB/OAEPWithSHA-256AndMGF1Padding but with MGF1 using SHA-256?
Convincing demonstration, thanks. This is a serious oversight IMHO. One of the justification of the complexity of the Java standard crypto provider is to allow specifying a transformation in a unified way, as implicit in the specification of Cipher: "A transformation is a string that describes the operation (or set of operations) to be performed on the given input, to produce some output."
Nov
7
accepted RSA/ECB/OAEPWithSHA-256AndMGF1Padding but with MGF1 using SHA-256?
Nov
6
revised RSA/ECB/OAEPWithSHA-256AndMGF1Padding but with MGF1 using SHA-256?
Typo