CryptGenRandom is a random number generator function in CryptoAPI in Windows. How much entropy has that random number generator ? I have already looked a lot, but I couldn't find it. Thanks in advance.


The exact algorithm of Windows CryptGenRandom was never published, therefore, some security experts suggest not to use it at all.

Some reverse-engineering and cryptanalysis was made. A published research (Cryptanalysis of the Windows Random Number Generator - Leo Dorrendorf, 2007) examined Windows 2000 RNG and found a number of weaknesses in the design and implementation.

The document also describes the entropy collector mechanism of the algorithm (section 4.2.3). The Entropy sources are:

Source                   Bytes requested
CircularHash              256
KSecDD                    256
GetCurrentProcessID()       8
GetCurrentThreadID()        8
GetTickCount()              8
GetLocalTime()             16
QueryPerformanceCounter()  24
GlobalMemoryStatus()       16
GetDiskFreeSpace()         40
GetComputerName()          16
GetUserName()             257
GetCursorPos()              8
GetMessageTime()           16
NTQuerySystemInformation calls:
ProcessorTimes             48
Performance               312
Exception                  16
Lookaside                  32
ProcessorStatistics       up to the remaining length (3584 bytes buffer)
ProcessesAndThreads       up to the remaining length

Since we are talking about a pseudo-number-generator and not a real-number-generator, you may say that there is no real entropy at all, or count only the sources that you may consider as "entropy" (pseudo-entropy).

I was unable to find information regarding newer versions on Windows.

  • 1
    what's about Windows Vista/7/8 entropy? – Eir Nym Jun 28 '12 at 12:49
  • The research link is bad. Can you adjust? – ahmd0 Jan 29 '14 at 19:13
  • Link is good... – Lior Kogan Jan 29 '14 at 19:32
  • A presentation is also available: wisdom.weizmann.ac.il/~naor/COURSE/PRIVACY/… – Lior Kogan Jan 29 '14 at 19:33
  • This is a very good answer! I really like your systematic approach. How can you determine the bytes requested for each algorithm? The performance's inspection has a very high proportion in the overall entropy (312 bits). Can you explain why? - - It would love to get your systematic approach also for the image analysis generally because I cannot find any quality preview about any algorithm, etc here cs.stackexchange.com/q/4935/10350 – Léo Léopold Hertz 준영 Aug 9 '16 at 13:53

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.