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1994-05-15
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Archive-name: ripem/attacks
Last-update: Mon, 25 Jan 93 11:00:00 -0500
SOME POSSIBLE ATTACKS ON RIPEM
This is a living list of potential weaknesses to keep your eyes open
for when using RIPEM for secure electronic mail. It does not go into
great detail, and is almost certainly not exhaustive. Obviously, many
of the weaknesses are weaknesses of cryptographically secured mail in
general, and will pertain to secure mail programs other than RIPEM.
It is maintained by Marc VanHeyningen <mvanheyn@whale.cs.indiana.edu>.
It is posted monthly to a variety of news groups; followups pertaining
specifically to RIPEM should go to alt.security.ripem.
CRYPTANALYSIS ATTACKS
- Breaking RSA would allow an attacker to find out your private key,
in which case he could read any mail encrypted to you and sign
messages with your private key.
RSA is generally believed to be resistant to all standard
cryptanalytic techniques. Even a standard key (about 516 bits with
RIPEM) is long enough to render this impractical, barring a
quite substantial investment in hardware.
- Breaking DES would allow an attacker to read any given message,
since the message itself is encrypted with DES. It would not allow
an attacker to claim to be you.
DES has only 56 bits in its key, and thus could conceivably be
compromised by brute force with sufficient hardware, but few agencies
have such money to devote to simply read one message. Since each
message has a different DES key, the work for each message would
remain high.
KEY MANAGEMENT ATTACKS
- Stealing your private key would allow the same benefits as breaking
RSA. To safeguard it, it is encrypted with a DES key which is derived
from a passphrase you type in. However, if an attacker can get a copy
of your private keyfile and your passphrase (by snooping network
packets, tapping lines, or whatever) he could break the whole scheme.
The main risk is that of transferring either the passphrase or the
private key file across an untrusted link. So don't do that. Run
RIPEM on a trusted machine, preferably one sitting right in front of
you. Ideally, your own machine in your own home (or maybe office)
which nobody else has physical access to.
- Fooling you into accepting a bogus public key for someone else could
allow an opponent to deceive you into sending secret messages to him
rather than to the real recipient. If the enemy can fool your
intended recipient as well, he could re-encrypt the messages with
the other bogus public key and pass them along.
It is important to get the proper public keys of other people.
The most common mechanism for this is finger; assuming the opponent
has not compromised routers or daemons or such, finger can be
given a fair amount of trust. The strongest method of key
authentication is to exchange keys in person; however, this is
not always practical. Having other people "vouch for you" by
signing a statement containing your key is possible, although
RIPEM doesn't have features for doing this as automatically as
does PGP.
PLAYBACK ATTACKS
- Even if an opponent cannot break the cryptography, an opponent could
still cause difficulties. For example, suppose you send a message
with MIC-ONLY to Alice which says "OK, let's do that." Your opponent
intercepts it, and now resends it to Bob, who now has a message which
is authenticated as from you telling him to do that. Of course, he
may interpret it in an entirely different context. Or your opponent
could transmit the same message to the same recipient much later,
figuring it would be seen differently at a later time. Or the
opponent could change the Originator-Name: to himself, register
your public key as his, and send a message hoping the recipient
will send him return mail indicating (perhaps even quoting!) the
unknown message.
To defeat playback attacks, the plaintext of each message should
include some indication of the sender and recipient, and a unique
identifier (typically the date). A good front-end script for RIPEM
should do this automatically (IMHO). As a recipient, you should be
sure that the Originator-Name: header and the sender indicated within
the plaintext are the same, that you really are a recipient, and that
the message is not an old one. Some this also can and should be
automated.
LOCAL ATTACKS
- Clearly, the security of RIPEM cannot be greater than the security of
the machine where the encryption is performed. For example, under
UNIX, a super-user could manage to get at your encrypted mail,
although it would take some planning and effort to do something like
replace the RIPEM executable with a Trojan horse or to get a copy of
the plaintext, depending how it's stored.
In addition, the link between you and the machine running RIPEM is
an extension of that. If you decrypt with RIPEM on a remote machine
which you are connected to via network (or, worse yet, modem), an
eavesdropper could see the plaintext (and probably also your
passphrase.)
RIPEM should only be executed on systems you trust, obviously. In
the extreme case, RIPEM should only be used on your own machine,
which you have total control over and which nobody else has access
to, which has only carefully examined software known to be free of
viruses, and so on. However, there's a very real trade-off between
convenience and security here.
A more moderately cautious user might use RIPEM on a UNIX workstation
where other people have access (even root access), but increase
security by keeping private keys and the (statically linked, of
course) executable on a floppy disk.
Some people will keep RIPEM on a multi-user system, but when dialing
in over an insecure line, they will download the message to their
own system and perform the RIPEM decryption there. However, the
security provided by such a mechanism is somewhat illusory; since
you presumably type your cleartext password to log in, you've just
given away the store, since the attacker can now log in as you and
install traps in your account to steal your private key next time
you use it from a less insecure line. This will likely remain the
situation as long as most systems use the rather quaint mechanism of
cleartext password authentication.
I find it nice to put a brief statement of how carefully I manage my
security arrangement in my .plan next to my public key, so that
potential correspondents can be aware what level of precautions are
in place. Some people use two keys, a short one which is not
carefully managed for ordinary use and a longer one which is treated
with greater care for critical correspondence.
UNTRUSTED PARTNER ATTACKS
- RIPEM's encryption will ensure that only a person with the private key
corresponding to the public key used to encrypt the data may read the
traffic. However, once someone with that key gets the message, she
may always make whatever kind of transformations she wishes. There
exist no cryptographic barriers to a recipient, say, taking an
ENCRYPTED message and converting it to a MIC-ONLY message, signed by
you and readable by anyone, although RIPEM does not provide this
functionality. Indeed, the latest PEM draft I have seen specifically
states that such transformations should be possible to allow
forwarding functions to work.
Including the recipients in the plaintext, as mentioned above, will
make it possible for recipients of a redistributed message to be aware
of its original nature. Naturally, the security of the cryptography
can never be greater than the security of the people using it.
