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I suppose, Gravatar generates the avatar image from e-mail addresses. If so, the reverse should be possible. How difficult would be to get the email associated with the image? Isn't it a potential spam threat?

What are your thoughts? (other than calling me paranoid ;) I did that already)

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closed as off topic by Jeremy, rene, ρяσѕρєя K, Flexo, Bill the Lizard Aug 5 '12 at 13:23

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Note one would attack the MD5 hash encoded in the image URL, as opposed to the actual content of the image. –  user359996 Jan 10 '11 at 0:24

10 Answers 10

up vote 46 down vote accepted

Edit 2: This answer has generated a lot of controversy. I urge the reader to read other answers and comments. I still stand by my original opinion that it doesn't matter for Gravatars, but there are definitely good arguments to the contrary as well.

EDIT: This answer was written over a year ago. See my addendum at the bottom.

@ICR: It IS absolutely impossible, no "but".

A Rainbow Table helps to get a match for a given Hash, but you will NEVER be able to get the exact input (well, there is indeed a chance of 1 to unlimited to get it, but you would not know whether or not that was the exact input). If you could get the exact Input from a 128-Bit Hash, you would just have invented the best compression algorhithm in the world.

There are unlimited possibilities that will all produce the exact same hash.

Let me explain a bit more in detail. Image a Hash algorithm where "foo" and "bar" will result in the same hash, let's say "HAsh1!".

Now, you get the Hash - HAsh1!. How do you know if the input data was "foo" or "bar"? You can't, and you will never ever be able to.

Now, what is the problem and what are rainbow tables used for?

Imagine you hack my user database, and you check the Users-Table. My Login is usually stored in cleartext, so you know to log in with "mstum". But my password is hashed. I used "trez" with incidentially also hashes to HAsh1!.

You check my hashed password, which us HAsh1!, but you do not know that my plaintext password is trez. But the point: You don't NEED to know that. You grab your Rainbow Table for HAsh1! and see "foo".

So you go to the page you just got the user data for, and you log in as "mstum" with "foo". Despite me having used "trez" as password, you will successfully log in with "foo" because the hash is exactly the same.

This is called a colision: 2 Input Values having the same hash. On MD5, there are only 128 Bit, whereas on SHA-512 there are 512 Bit, but you WILL still have infinite inputs which will result in the same hash.

So: Rainbow tables solve one of the two problems hackers want to solve - it allows them to authenticate as any user they got the hash for.

The second problem that hackers have is a bit off-topic: How do you give the user some file (for example, a manipulated Setup File that includes Malware or that is a modified version of a tool that does bad stuff) that will successfully have the same Hash? When you check some popular download pages or open source sites, they will have "Setup.exe, MD5 Hash: f387......". While there WILL BE infinite possibilities to produce something that hashes to f387..., the hacker needs to modify the Setup.exe in a way that it contains his Malware AND hashes to f387.... This hard, but possible. On MD5, this is now possible with a reasonable timeframe, which is why MD5 should not be used anymore unless a standard requires it or if security is not a concern.

For Gravatar, Security does not need to be a concern, so MD5 is fine and they want something that is fast since it's not security-related.

Edit: Here is a real world example, the one that was used to show collisions in MD5:

d131dd02c5e6eec4693d9a0698aff95c 2fcab58712467eab4004583eb8fb7f89 
55ad340609f4b30283e488832571415a 085125e8f7cdc99fd91dbdf280373c5b 
d8823e3156348f5bae6dacd436c919c6 dd53e2b487da03fd02396306d248cda0 
e99f33420f577ee8ce54b67080a80d1e c69821bcb6a8839396f9652b6ff72a70


d131dd02c5e6eec4693d9a0698aff95c 2fcab50712467eab4004583eb8fb7f89 
55ad340609f4b30283e4888325f1415a 085125e8f7cdc99fd91dbd7280373c5b 
d8823e3156348f5bae6dacd436c919c6 dd53e23487da03fd02396306d248cda0 
e99f33420f577ee8ce54b67080280d1e c69821bcb6a8839396f965ab6ff72a70 

both hash to 79054025255fb1a26e4bc422aef54eb4.

So, given the hash - how do you know which one of the two was used?

Addendum: I still stand by my original point: Decoding an e-Mail address from a Hash is impossible. You can brute force or use a rainbow table and you might get lucky to get an e-Mail address. As there are infinite inputs to a hash, there are consequently also infinite inputs that look like an e-mail address, but the chances of getting a valid one are really insignificant. So decoding from Hash is not an option. But there are some options that I haven't originally considered, outlined for example here. Basically, you can guess. I post with my real name, so you can try all sorts of combinations of michaelstum@, mstum@, michael.stum@ with all the big providers and run them through a hash function. This does not work in all cases, but as many people use GMail, Yahoo or Hotmail, the chance to hit is not that low. Would salting solve that? Maybe. Maybe not. You would have to figure out the salt, which almost certainly requires brute-force approaches. At least you have a known plaintext (your own e-Mail address), so you can run this brute force on your machine. Having a different salt per-user might be more secure, but I don't know if that could cause a significant risk of creating collisions.

Thinking about this, I think that salting with a long, random salt would indeed improve security as it defeats the one viable approach of guessing. I'd rather recommend using disposable/different e-Mail addresses as you never know what can happen (website databases get hacked every day, and those e-Mail addresses are certainly sold to spammers), but I realize that is impractical for people without a domain and a catchall-mailbox.

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Likelyhood of MD5 collision is incredibly small. Collision of two short strings that are valid e-mail addresses might just be absolutely impossible (number of plausible, valid e-mail addresses is finite). And even if collision happens, it doesn't matter - spammer will spam whatever he finds. –  porneL Nov 17 '08 at 21:32
More then 10% of stackoverflow users e-mails were hacked due to Gravatar weakness: tech.slashdot.org/story/09/12/15/2352218/… Clearly this is a significant problem if the success rate is 10%. Downvoted answer because it implies it is not a big problem. –  jwanagel Mar 13 '10 at 10:03
Downvote, this is just another example of why security topics should be banned from this site. Virtually no-one answers them correctly. –  Noon Silk Jan 1 '11 at 9:20
@Michael, Well, your post starts off not even addressing his question, but even in what you do address you are wrong (mostly practically, but arguably theoretically as well). Gravatar is strictly wrong for using MD5. It's no longer a cryptographic hash, it can be another type of hash, but for cryptography it is dead/finished/gone/years ago. So the point is, yes, the email address is just encoded therein. As to whether or not that is a risk? Depends. Depends how people treat their gravatars. Is it a spam threat? I would say yes. I mean, the mere existence of a centralising system like gravatar –  Noon Silk Jan 1 '11 at 10:19
... is an information-leaking threat. But this little comment box is not the place for this discussion. And, in my humble experience in participating in a few security threads here, I do not think the community is competence to vote on what is or is not correct. –  Noon Silk Jan 1 '11 at 10:20

Michael Stum is way off here, but he has a big green check mark that means his answer will forever appear as the "correct" one despite the mistakes...

Let's handle the second part of his answer first, which is a little off-topic. He's just completely wrong here. Given a file from an "open source site" and the MD5sum of that file you can't make another different file with the same hash. There may some day be a breakthrough that makes this possible, but that day is not here and may be years or decades away.

Why does Michael think this is possible? A simple mistake. He's read that it's possible to create two different files with the same MD5sum by forcing a certain type of collision, this result was reported in 2004 and has been improved since. But, this is not the same problem. In cryptography the type of attack Michael claimed was possible is called a pre-image attack, and for MD5 there is as yet no practical pre-image attack, where as what was actually found is merely a collision, the easiest type of attack to find against a hash, and no doubt a reason not to choose MD5 for new applications, but not, and this is worth emphasising, NOT a reason not to trust MD5sums provided for software downloads, nor a reason (on its own) to avoid MD5 in password hashes.

OK, now the more relevant earlier part of Michael's answer. Here's the trouble: Spammers and similar Attackers don't care that one person in a billion has an email address that looks like an exercise in obfuscated Perl - they want the bulk of addresses. Given a list of 5 million Gravatar hashes, at least 4 million are hashes of fairly ordinary looking email addresses like "firstname.lastname@example.com". These are 128-bit hashes, so any arbitrary string has a one in 2^128 chance of hashing to the same value, but that's a very big number and there simply aren't 2^128 plausible stereotypical email addresses. So long as we only want a reasonable factor like say 50% chance of reversing, we can brute force this problem. Try the ten million most likely firstname / lastname combinations, with up to a million domain names taken from registrar's lists, and you have 10 billion values to try. For a one shot attack you just do it brute-force, 10 billion MD5 calculations is childs play. But if you were a spammer and had access to a crawler looking for fresh Gravatar URIs every day, you'd build a rainbow table so that you can spread the compute time over a potentially unlimited supply of hashes.

Now, is there a way around this? Well, yes and no. There's no way to fix this without changing something. But the minimal change is fairly painless. The way to defeat rainbow tables is to add salt and waste CPU cycles, just as with passwords. You can add salt by asking everyone to pick a favourite word, and type that in along with their email address when generating a Gravatar or an account that needs a Gravatar. It doesn't matter what word they pick, so long as its always the same they get the same Gravatar. Now an attacker must guess not only a plausible email address, but also a random word. That makes their chances of success orders of magnitude smaller. Meanwhile you also switch from MD5 (designed to be fast) to a password hash (designed to be slow). When calculating the hash you now work a little harder, but the attacker must work proportionally harder too. If your CPU takes 0.5 seconds to generate your gravatar when creating an account, the attacker must waste 0.5 seconds per guess, and that will soon exhaust him.

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Arbitrary collision is here now. Pre-image attacks are not. One does not become the other by just throwing a bit more CPU at the problem, the only thing that will make a significant difference is further cryptographic breakthroughs. –  tialaramex Sep 17 '08 at 16:43
@Vinko Vrsalovic: spammers would much rather send to a million valid email addresses in that same time, so being able to filter a list of randomly generated addresses for ones for which there's a gravatar link is a big win for them. –  ysth Oct 31 '10 at 17:52
@Vinko: I don't think you have experience in the field. Keep in mind that the people finding the valid emails may not be those sending emails to them. –  Noon Silk Jan 1 '11 at 10:21
@Vinko Vrsalovic: Because you only get to try and deliver to a relatively small number of invalid addresses before your IP address is banned, not even botnets mail to randomly-generated addresses any more. Rather, spammers harvest addresses from websites and affiliates. –  user359996 Feb 2 '11 at 19:41
@user359996: Professional spammers control very large botnets, each computer of which will usually get a new IP within 3-12 months (residential broadband). They can afford to "burn through" some IP addresses by sending bad emails. They'll probably be banned based on the content of emails sent before having deliverability throttled due to hard bounces (btw I work in the field... of legitimate large-scale email, not botnets ;-) –  Eric J. May 18 '12 at 2:30

@Karl: You are right. I tried a reverse MD5 lookup on a few of the gravatars on stackoverflow and didn't get any results so I wrongly assumed they were salting.

I did some checking (instead off faulty reasoning) and the gravatar FAQ explains their justification for using plain md5 hashes:

"MD5 is plenty good for obfuscating the email address of users across the wire. if you're thinking of rainbow tables, those are all geared at passwords (which are generally shorter, and less globally different from one another) and not email addresses, furthermore they are geared at generating anything that matches the hash, NOT the original data being hashed. If you are thinking about being able to reproduce a collision, you still don't necessarily get the actual email address being hashed from the data generated to create the collision. In either case the work required to both construct and operate such a monstrocity would be prohibitively costly. If we left your password laying around in the open as a plain md5 hash someone might be able to find some data (not necessarily your password) which they could use to log in as you... Leaving your email address out as an md5 hash, however, is not going to cause a violent upsurge in the number of fake rolex watch emails that you get. Lets face it there are far more lucrative, easier, ways of getting email address. I hope this helps ease your mind."

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I'm pretty sure they aren't salting. Since you can drop a gravatar link on your website, the salt would need to be made public anyways. –  Karl Seguin Aug 2 '08 at 12:09
Passwords may be "shorter" than a typical email address, but they also contain more entropy. "@yahoo.com" can be considered a single symbol for purposes of harvesting a reasonable fraction of email addresses, and when's the last time a user voluntarily put a special character other than dot or underscore in their email address? –  Eric J. May 18 '12 at 2:33
It's not possible for Gravatar to use salts. The whole reason Gravatar works is that a site can show avatars for users knowing only the users' email address. –  thomasrutter Sep 9 '13 at 4:02

The hash collision answer is a nice one, but we're forgetting something here: we know what to expect!. We know that we're looking for realistic email addresses.

This not only gives us a pattern to match all potential results against, but also simplifies the attack pattern for brute force attacks.

Given that we don't require everyones address, but just want to get lots of addresses quickly, we could go even further: 80% of all email accounts are supplied by a major provider. Just trying @gmail.com, @hotmail.com, ... with short word or dictionary attacks are feasable, and building a good database for looking up many addresses also becomes much easier.

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MicroID is basically a hash calculated using a user's profile page URL and registered email address, producing a token that makes the email address vulnerable to dictionary attacks. To see how easy it was to crack these tokens, I conducted a small study, choosing 56,775 random Digg users, and cracking the email addresses of 14,294 of them (25%) using just their MicroID, username, and a list of popular email domains.


Not sure if this relates to the Gravatar hash, exactly, but interesting.

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10% of stackoverflow users e-mails were hacked due to Gravatar weakness: http://tech.slashdot.org/story/09/12/15/2352218/Gravatars-Can-Leak-Users-Email-Addresses?art%5Fpos=1&art%5Fpos=1

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http://www.golubev.com/hashgpu.htm reports being able to compute 5.6 billion MD5 hashes per second using an ATI HD 5970. This means (5.6 million * 60 * 60 * 24 =) 483 trillion MD5 computations per GPU per day. (N.B. these results are dependent on the key length--they did ~7 bytes, so this is a slight speed overestimate for the assumptions below).

Suppose, for now, that we limit ourselves to case-insensitive, alphanumeric (a-z and 0-9), 10-character local parts (i.e. the portion of an email address that is to the left of the "@") from a single domain. This gives a search space of (26+10)^10 = 3,656 trillion local parts.

Using a single ATI HD5970, it follows that the above space can be exhaustively searched in (3,656 / 483 =) 7.6 days.

Now, let's enlarge our search space to include local parts of length 1 to length 9, as well. Because of the joys of exponentiation, this is only negligibly more: (36^10 + 36^9 + 36^8 + ... + 36^1 =) 3,761 trillion local parts.

In a sample of 100,000 email addresses I have (from an active subscription list for a health and spirituality newsletter), just under 50% of the local parts are in the above space, and 90% of the addresses belong to one of only 35 domains. This means I could bruteforce about 45% of these addresses from an MD5 hash in 7.6 * 35 = 266 days per GPU.

With about $5,000, I could buy 10 ATI HD 5970s, and I would be able to crack nearly one half of all Gravatar-enabled addresses from their MD5 hashes in (266 days / 10 GPUs = 26.6 days =) about a month (assuming a domain and length distribution similar to my reference file; disregarding cost of hosting machines).

There would be many false positives, since hashes are not one-to-one, but it's really not that difficult to put together a model to decide the most likely address from a set of candidates. People do not choose addresses randomly, so a bigram-based model (e.g. choose the address for which the geometric mean conditional probability of the second character in each local part bigram occurring, given the first, is greatest) would probably be sufficient.

Obviously, domain distributions vary. There's also some hand-waving with the computation rate. Regardless, ignoring such constant factors, it's clear that if one has a few weeks/months and a few thousand dollars, it's a feasible crack. Restricting the search space from the beginning (via the aforementioned bigram method or a dictionary-based method) would likely bring time improvements of orders of magnitude, in return for a small probability of missing some of the addresses. I wouldn't be surprised if a few weeks of effort along these lines devised a strategy yielding upwards of 80% of the addresses for a month or so's computation.

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With Amazon's cluster GPU cloud offering, it becomes even more feasible: aws.amazon.com/ec2/hpc-applications –  user359996 Feb 3 '11 at 22:01

Gravatar uses an md5 hash. Now, typically you'd run the risk of a brute force dictionary attack, but emails tend to content pretty abnormal words...for example, I'd be surprised if a dictionary of words contained "stackoverflow", and then to add the permutations of ".com", ".net" and ".org" plus the many possibilities of usernames (which may be an alias rather an a real name), and I think it's reasonably safe.

That said, they probably could have used something other than MD5. MD5 is a hashing algorithm meant for speed. This is a common mistake for people who hash passwords. You should pick something intentionally slow, so that brute force attacks are even less likely.

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If you had enough time and incentive to crack a gravatar email address then I guess using wvdschel's method to building a hash table based on known domains (@gmail.com, @hotmail.com) would be the fastest approach, but than wouldn't you have a table with every possible gmail/ hotmail email address? from a@gmail.com to zzzz...zzz@gmail.com, so from a spammer point of view, why at that point would he/she need to crack the gravatar? as they could just spam every one under the sun, after all who cares if you get a few thousand bounce back when your a prince trying to get your gold out?

and on a side note, looking a cross section of people on stackoverflow (a site that uses gravatars), linking to your blog's, I can easily find email addresses for about 70ish% of users with a web site listed.

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I believe wvdschel was suggesting you combine the methods - get the possible strings that hash to the MD5 and weed out all the ones that don't look like 'realistic' email addresses. –  Bobby Jack Sep 11 '08 at 11:25
The reason the spammer cares is that their zombies will get blocked after they attempt to direct mail to too many invalid addresses. Without your botnet, you can't spam, so you don't want to needlessly abuse it. –  user359996 Nov 15 '10 at 21:00

@Re0sless You would indeed have a database of all email adresses, but 90% of those would bounce. So mailing to all those takes time (given the speed limits of real world networks), and thus reduces effectiveness of your spamrol.

Following through to the sites is indeed a more effecient way to get around this, but defeats the purpose of this question. Also, it requires a notion of context and site structure.

Besides, only a fool would show his own email in an easily bot-readable form on their site. I know, because I used to. Spambots find you in no time, just crawling the web with a simple email regex.

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