Is 1024 bit rsa secure, or is it crackable now? Is it safe for my program to use 1024 bit rsa? I read at http://pcworld.about.com/od/privacysecurity1/Researcher-RSA-1024-bit-encry.htm that 1024 bit encryption is unsecure, but I find 2048 bit slower, and also I see that various https sites (even paypal) use 1024 bit encryption. Is 1024 bit encryption secure enough?

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    Secure against whom? – whatsisname Dec 15 '09 at 0:37
  • secure against attacks ... it says that 1024 bit rsa may be cracked in the near future, but I see paypal uses 1024 bit rsa in the ssl cert, if it's unsecure why would they use it (as far as I know paypal ssl cert has never been hacked) – Andrew Hownik Dec 15 '09 at 0:47
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    secure against what? and for how long? – user177800 Jan 22 '10 at 16:59

Last time I checked, NIST recommends 2048-bit RSA and predicts that it will remain secure until 2030. Page 67 of this PDF has the table.

Edit: They actually predict 1024-bit is OK until 2010, then 2048-bit until 2030, then 3072-bit after that. And it's NIST, not the NSA. Been too long since I did my thesis, LOL.


What are you trying to protect? If you are encrypting something that is not terribly vital, then 1024 may be fine, but, if you are protecting something that is very vital, such as someone's medical or financial info then 4096 bits would be better.

The size of the key really depends on what you are protecting, and how long you expect the encryption to hold. If your timeframe is that the info is only valid for 10 mins then 1024 works fine, for 10 years of protection it isn't.

So, what are you protecting?


There is no easy answer to the question "is size n secure ?" because it depends on the resources of an expected attacker. This has two parts:

  • Resources that the attacker is willing to invest heavily depend on the situation: defeating your grandmother, a bored computer-science student, or the full secret service of some big, rich country, does not involve the same attack power. It also depends on the perceived value of the protected data.
  • When designing the system, you want some margin of security, which means that you will make some prophecies on how computing power will evolve in the future, and this raises the difficult question of the notion of cost.

So there are several estimates which have been proposed by various researchers and government institutes. This site offers a survey of such methods, with online calculators so that you may play a bit with some of the input parameters.

Short answer is that if you want short-term security (i.e. security is not relevant beyond, say, year 2015) and 1024 bits are not enough for you, then your enemies must be very powerful indeed. Scarily so. To the point that you should have other, more urgent trouble on your hands.


It is necessary to define the meaning of secure to get a useful answer.

Is your house secure? Mostly we make it "good enough." For example, making it harder to break in than the neighbors is often adequate. That way the thieves spend time trying to break into next door rather than your place.

It might be secure if it requires X hours to break in and the valuable content is worth Y. Converting time to money is tricky, but if it takes a cracker 100 hours of his time to break in, and the contents of your information is worth, say $100, then your data is probably secure enough.


Nothing is going to be totally secure forever. If you're that worried about it, just use 2048-bit and sacrifice speed for better security.

Besides, as the article states:

But determining the prime numbers that make up a huge integer is nearly impossible without lots of computers and lots of time.

It all depends on whether or not you think people will actually try that hard to get at whatever information you're trying to protect.


Found a recent paper addressing exactly this question:

On the Security of 1024-bit RSA and
160-bit Elliptic Curve Cryptography
version 2.1, September 1, 2009


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    They propose: "We consider what it means for the security of 1024-bit RSA – now, for the next five years, and for the next decade. At this point in time a brute-force attack against 1024-bit RSA would require about two years on a few million compute cores with many tens of gigabytes of memory per processor or mainboard. Though substantial, this is not an inconceivably large effort." – zen Dec 15 '09 at 1:34

When a locksmith sells you a lock, he doesn't tell you that you just need to know how to pick a lock to open the door...

When Security companies sell you a security algorithm, they do not tell you that you just need an honest science PhD to break the code.

C. Shannon, a famous WWII mathematician who worked as what we would call today computer sciences, said that the only mathematically secure cryptographic method is the one-time-pad. That is, for each ASCI character in your text, add a random number and do not reuse that random number.

So RSA, SHA, Difie-Hellman, Merkle, Elliptic curve... All can be decrypted real-time.

  • If you look at the source code of OpenSSL, you'll see the comment: Why bother... – PZX42 Feb 21 '13 at 1:51
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    Yes, a one-time-pad is the only mathematically secure algorithm (assuming it is used correctly; reuse any of the key values, and it becomes trivial to crack, of course). However, this doesn't really answer the question asked; We can assume that by 'secure', the OP meant 'reasonably secure for practical use' (since a OTP is useless for Internet usage) – Andrew Barber Feb 21 '13 at 2:11
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    Only the one-time-pad is secure against computationally unbounded attacker. But normal attackers have bounded computational power. At least academic researchers know no way to break RSA, DH, ECC, SHA-2, AES etc. with realistic efforts, provided sufficiently large keys are used. It's possible that NSA found some new algorithm that breaks them, but I doubt it. – CodesInChaos Feb 21 '13 at 10:58
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    This doesn't really answer the question at all. Of course every encryption can be broken. This doesn't mean that they aren't secure in practice. – RecursiveExceptionException Jan 27 '18 at 18:10

It is said that, currently 1024 bit numbers cannot be factored but, RSA 1024 bit (which is about 310 decimal digits) is not considered secured enough. It is advisable to use RSA with 2048 bit or more, if one needs long term security. There are too many research companies, which are well-funded, doing research and there is a chance that they would not share everything at all. So i think, we can say it is not secure at all. I mean, if one day I happened encrypt an important data, i would prefer 2048 bits or more considering the long term security and the unknown developments in that field.

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