Why is RSA keys in GnuPG limited to 4096 bits?
Would it be illegal for me to modify the source to increase the max size?
ssh-keygen does not have this limitation (e.g., I can create a key that's 32768 bits long). Why is that?
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How long does it take to break a 4096 bit key?– Lasse V. KarlsenMay 15, 2011 at 23:22
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4Depends who's breaking it, but that's besides the point. Why the limitation in the first place?– ArlenMay 15, 2011 at 23:31
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1You can modify the source to do anything you want.– President James K. PolkMay 16, 2011 at 0:51
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4 Answers
At keylength.com there is this:-
To protect a 256-bit symmetric key (e.g. AES-256), you may consider using at the minimum a 17120-bit asymmetric system (e.g. RSA).
The 4096 bit limit can be raised as described in a short article entitled "Generate large keys with GnuPG", reproduced below. This was done for the gnupg package in homebrew to allow for 8192 bit keys: PR 4201. A word of caution about memory allocation for the larger keys: comp.security.pgp.tech.
Generate large keys with GnuPG | David Norman
If you'd like to generate larger keys than 4096 bits with GnuPG, you can compile a new version that increases the upper limit of 4096. You'll probably find yourself generating it as RSA. Download the patch to your un-tared gnupg-1.4.19 directory and apply it with:
usbdrive@sandisk-extreme64:~/gnupg-1.4.19$ patch -p0 < gnupg_1.4.19_large_keygen.patch
patching file g10/keygen.c
usbdrive@sandisk-extreme64:~/gnupg-1.4.19$ ./configure --enable-large-secmem
[...]
checking whether to allocate extra secure memory... yes
[...]
usbdrive@sandisk-extreme64:~/gnupg-1.4.19$ make -j2
usbdrive@sandisk-extreme64:~/gnupg-1.4.19$ make check
usbdrive@sandisk-extreme64:~/gnupg-1.4.19$ sudo make install
usbdrive@sandisk-extreme64:~/gnupg-1.4.19$ gpg --gen-key --enable-large-rsa
Without the --enable-large-rsa flag, the key generation process will automatically downgrade the key to 4096.
To compile on a Mac, you'll need to download Xcode from the App Store first. The patch increases the upper limit of the key size to 15489 bits. Without increasing the secure memory limit, generating a key larger than about 7680-bits will fail because it won't be able to allocate enough memory to the process. Generating keys larger than around 7680-bits (192-bit symmetric equivalent) can also make it impossible to decrypt messages with standard secure memory limits set at compile time because the gpg binary won't be able to allocate enough secure memory to decrypt the message, even small ones.
gnupg_1.4.19_xlarge_key_gen.patch
--- g10/keygen.c 2015-02-26 12:24:21.000000000 -0500
+++ g10/keygen.c 2015-03-02 22:12:09.028419377 -0500
@@ -1041,8 +1041,9 @@
nbits = 2048;
log_info(_("keysize invalid; using %u bits\n"), nbits );
}
- else if (nbits > 4096) {
- nbits = 4096;
+ else if (nbits > 15489) {
+ /* fallback to RFC3766 256-bit symmetric equivalency */
+ nbits = 15489;
log_info(_("keysize invalid; using %u bits\n"), nbits );
}
@@ -1251,7 +1252,8 @@
PKT_public_key *pk;
MPI skey[6];
MPI *factors;
- const unsigned maxsize = (opt.flags.large_rsa ? 8192 : 4096);
+ /* New large key limit RFC3766 256-bit symmetric equivalency */
+ const unsigned maxsize = (opt.flags.large_rsa ? 15489 : 4096);
assert( is_RSA(algo) );
@@ -1578,7 +1580,7 @@
static unsigned int
ask_keysize (int algo, unsigned int primary_keysize)
{
- unsigned nbits, min, def=2048, max=4096;
+ unsigned nbits, min, def=2048, max=15489;
int for_subkey = !!primary_keysize;
int autocomp = 0;
gnupg_1.4.19_xlarge_secmem.patch
--- configure 2015-02-27 03:37:52.000000000 -0500
+++ configure 2015-03-02 22:28:31.488401783 -0500
@@ -5076,7 +5076,7 @@
{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $large_secmem" >&5
$as_echo "$large_secmem" >&6; }
if test "$large_secmem" = yes ; then
- SECMEM_BUFFER_SIZE=65536
+ SECMEM_BUFFER_SIZE=131072
else
SECMEM_BUFFER_SIZE=32768
fi
Article ends. Retrieved on 2016-02-26 from an archived copy of the original.
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Is there some backup of this page "Generate large keys with GnuPG"? It gives 404– WojtekFeb 19, 2016 at 10:43
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The author of "Generate large keys with GnuPG" article has resurrected it at its original url with the addition of some patches not present in the copy of the article reproduced here.– jahMar 19, 2016 at 14:41
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Emails,Attached-Files,etc in Mail-Server, Personal Files,Digital-Certs,etc in Flash-Storage, etc,etc where PEOPLE need2keep their data PRIVATE+SAFE for LONG TIME. Example: 5/10yrs Agreement/Legal Document, Proof of Transaction/TX Or Code to open some Account, etc requires-&-have PRIVATE data, & must-b-kept Secure+Encrypted+SAFE for atleast 10~15yrs with ability to withstand abuse from data THIEFs. So ENISA recommended in 2014 to use 15360-bits key in Pg-41 of enisa.europa.eu/publications/… . This requirement must-b much higher now(2020).– atErikSep 27, 2020 at 6:38
There is pretty sensible explanation (for similar question) by Fire Ant at Security Forums:
http://www.security-forums.com/viewtopic.php?p=317962#317962
All rights reserved there, but fair use citation of short excerpt shouldn't be inappropriate methinks:
Key sizes over 4096 are not currently supported in GPG. The reason for this is that 8192 keys are very slow. If you require a key greater than 4096-bit then you should really thing about what you are using that key for?
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25That's not a very convincing reason. It's like limiting image resolution to 1024 in GIMP because anything larger could be slow when applying filters to the image.– ArlenMay 20, 2011 at 4:43
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1If you're encrypting data that's interesting to an org with capability to break 4096 bit keys, odds approach certainty that you're doing something else incorrectly such that the length of your key will turn out to be moot. Is your swapfile also 16384 bit encrypted? Is your monitor TEMPEST shielded? Could any program that touched the data have written a temp file somewhere? Do you have a spouse or children who can be held hostage until you reveal your passphrase? Can you endure "enhanced interrogation" without revealing your key? Key length is irrelevant to a sufficiently motivated attacker.– pendorAug 22, 2013 at 14:36
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Why does it not support anything larger? Perhaps at the time of development of GnuPG (and the continued development of RSA for that matter) and the key sizes, computing limits at the time,both for the client side use cases and the potential of government agencies being able to break a 4096 key, developers and cryptographers felt a 4096 key was large enough. Really, 4096 is a really large key and would take a very long time to break with current technology. If a government agency was after you and really wanted to get your messages they would (in the US) get a court order to put a rootkit on your machines to not even worry about breaking encryption.
Now, I haven't looked at the source code specifically, but if you change the key size to anything larger than 4096, you might have problems with other users using your key if their software doesn't support a larger key size. For example, I have a 4096 key, a friend of mine cannot send me messages from an Android device because he cannot find an application that supports anything larger than 3072! Keep that in mind.
If you want to modify the source code, you can do so easily on Debian Linux with this script: Raising GnuPG key size limits and making ideal .conf files.
Here is a link to a bash script that increases the GnuPG key size limit beyond 4096 bits. The page also provides an ideal GnuPG .conf file. https://gist.github.com/anonymous/3d928a0bcbb3ed92c454
Please provide input and recommended changes.
