Microsoft Corp. today pushed software updates to plug more than 70 security holes in its Windows operating systems and related products, including two zero-day vulnerabilities that are already being exploited in active attacks.
Top of the heap on this Fat Patch Tuesday is CVE-2024-21412, a “security feature bypass” in the way Windows handles Internet Shortcut Files that Microsoft says is being targeted in active exploits. Redmond’s advisory for this bug says an attacker would need to convince or trick a user into opening a malicious shortcut file.
Researchers at Trend Micro have tied the ongoing exploitation of CVE-2024-21412 to an advanced persistent threat group dubbed “Water Hydra,” which they say has being using the vulnerability to execute a malicious Microsoft Installer File (.msi) that in turn unloads a remote access trojan (RAT) onto infected Windows systems.
The other zero-day flaw is CVE-2024-21351, another security feature bypass — this one in the built-in Windows SmartScreen component that tries to screen out potentially malicious files downloaded from the Web. Kevin Breen at Immersive Labs says it’s important to note that this vulnerability alone is not enough for an attacker to compromise a user’s workstation, and instead would likely be used in conjunction with something like a spear phishing attack that delivers a malicious file.
Satnam Narang, senior staff research engineer at Tenable, said this is the fifth vulnerability in Windows SmartScreen patched since 2022 and all five have been exploited in the wild as zero-days. They include CVE-2022-44698 in December 2022, CVE-2023-24880 in March 2023, CVE-2023-32049 in July 2023 and CVE-2023-36025 in November 2023.
Narang called special attention to CVE-2024-21410, an “elevation of privilege” bug in Microsoft Exchange Server that Microsoft says is likely to be exploited by attackers. Attacks on this flaw would lead to the disclosure of NTLM hashes, which could be leveraged as part of an NTLM relay or “pass the hash” attack, which lets an attacker masquerade as a legitimate user without ever having to log in.
“We know that flaws that can disclose sensitive information like NTLM hashes are very valuable to attackers,” Narang said. “A Russian-based threat actor leveraged a similar vulnerability to carry out attacks – CVE-2023-23397 is an Elevation of Privilege vulnerability in Microsoft Outlook patched in March 2023.”
Microsoft notes that prior to its Exchange Server 2019 Cumulative Update 14 (CU14), a security feature called Extended Protection for Authentication (EPA), which provides NTLM credential relay protections, was not enabled by default.
“Going forward, CU14 enables this by default on Exchange servers, which is why it is important to upgrade,” Narang said.
Rapid7’s lead software engineer Adam Barnett highlighted CVE-2024-21413, a critical remote code execution bug in Microsoft Office that could be exploited just by viewing a specially-crafted message in the Outlook Preview pane.
“Microsoft Office typically shields users from a variety of attacks by opening files with Mark of the Web in Protected View, which means Office will render the document without fetching potentially malicious external resources,” Barnett said. “CVE-2024-21413 is a critical RCE vulnerability in Office which allows an attacker to cause a file to open in editing mode as though the user had agreed to trust the file.”
Barnett stressed that administrators responsible for Office 2016 installations who apply patches outside of Microsoft Update should note the advisory lists no fewer than five separate patches which must be installed to achieve remediation of CVE-2024-21413; individual update knowledge base (KB) articles further note that partially-patched Office installations will be blocked from starting until the correct combination of patches has been installed.
It’s a good idea for Windows end-users to stay current with security updates from Microsoft, which can quickly pile up otherwise. That doesn’t mean you have to install them on Patch Tuesday. Indeed, waiting a day or three before updating is a sane response, given that sometimes updates go awry and usually within a few days Microsoft has fixed any issues with its patches. It’s also smart to back up your data and/or image your Windows drive before applying new updates.
For a more detailed breakdown of the individual flaws addressed by Microsoft today, check out the SANS Internet Storm Center’s list. For those admins responsible for maintaining larger Windows environments, it often pays to keep an eye on Askwoody.com, which frequently points out when specific Microsoft updates are creating problems for a number of users.
Ever hear one of those stories where as it unravels, you lean in ever closer and mutter “No way! No way! NO WAY!” This one, as far as infosec stories go, had me leaning and muttering like never before. Here goes:
Last week, someone reached out to me with what they claimed was a Spoutible data breach obtained by exploiting an enumerable API. Just your classic case of putting someone else's username in the URL and getting back data about them, which at first glance I assumed was another scraping situation like we recently saw with Trello. They sent me a file with 207k scraped records and a URL that looked like this:
https://spoutible.com/sptbl_system_api/main/user_profile_box?username=troyhunt
But they didn't send me my account, in fact I didn't even have an account at the time and if I'm honest, I had to go and look up exactly what Spoutible was. The penny dropped as I read into it: Spoutible emerged in the wake of Elon taking over Twitter, which left a bunch of folks unhappy with their new social overlord so they sought out alternate platforms. Mastodon and Bluesky were popular options, Spoutible was another which was clearly intended to be an alternative to the incumbent.
In order to unravel this saga in increasing increments of "no way!" reactions, let's just start with the basics of what that API endpoint was returning:
{
err_code: 0,
status: 200,
user: {
id: 735525,
username: "troyhunt",
fname: "Troy",
lname: "Hunt",
about: "Creator of Have I Been Pwned. Microsoft Regional Director. Pluralsight author. Online security, technology and “The Cloud”. Australian.",
Pretty standard stuff and I'd expect any of the major social platforms to do exactly the same thing. Name, username, bio and ID are all the sorts of data attributes you'd expect to find publicly available via an API or rendered into the HTML of the website. These fields, however, are quite different:
email: "[redacted]",
ip_address: "[redacted]",
verified_phone: "[redacted]",
gender: "M",
Ok, that's now a "no way!" because I had no expectation at all of any of that data being publicly available (note: phone number is optional, I chose to add mine). It's certainly not indicated on the pages where I entered it:
But it's also not that different to previous scraping incidents; the aforementioned Trello scrape exposed the association of email addresses to usernames and the Facebook scrape of a few years ago did the same thing with phone numbers. That's not unprecedented, but this is:
password: "$2y$10$B0EhY/bQsa5zUYXQ6J.NkunGvUfYeVOH8JM1nZwHyLPBagbVzpEM2",
No way! Is it... real? Is that genuinely a bcrypt hash of my own password? Yep, that's exactly what it is:
The Spoutible API enabled any user to retrieve the bcrypt hash of any other user's password.
I had to check, double check then triple check to make sure this was the case because I can only think of one other time I've ever seen an API do this...
<TangentialStory>
During my 14 years at Pfizer, I once reviewed an iOS app built for us by a low-cost off-shored development shop. I proxied the app through Fiddler, watched the requests and found an API that was returning every user record in the system and for each user, their corresponding password in plain text. When quizzing the developers about this design decision, their response was - and I kid you not, this isn't made up - "don't worry, our users don't use Fiddler" 🤦♂️
</TangentialStory>
I cannot think of any reason ever to return any user's hashed password to any interface, including an appropriately auth'd one where only the user themselves would receive it. There is never a good reason to do this. And even though bcrypt is the accepted algorithm of choice for storing passwords these days, it's far from uncrackable as I showed 7 years ago now after the Cloudpets breach. Here I used a small dictionary of weak, predictable passwords and easily cracked a bunch of the hashes. Weak passwords like... "spoutible". Wondering just how crazy things would get, I checked the change password page and found I could easily create a password of 6 or more characters (so long as it didn't exceed 20 characters) with no checks on strength whatsoever:
Strong hashing algorithms like bcrypt are weakened when poor password choices are allowed and strong password choices (such as having more than 20 characters in it), are blocked. For exactly the same reason breached services advise customers to change their passwords even when hashed with a strong algorithm, all Spoutible users are now in the same boat - change you password!
But fortunately these days many people make use of 2 factor authentication to protect against account takeover attacks where the adversary knows the password. Which brings us to the next piece of data the API returned:
2fa_secret: "7GIVXLSNKM47AM4R",
2fa_enabled_at: "2024-02-03 02:26:11",
2fa_backup_code: "$2y$10$6vQRDRDHVjyZdndGUEKLM.gmIIZVDq.E5NWTWti18.nZNQcqsEYki",
Oh wow! Why?! Let's break this down and explore both the first and last line. The 2FA secret is the seed that's used to generate the one time password to be used as the second factor. If you - as an attacker - know this value then 2FA is rendered useless. To test that this was what it looked like, I asked Stefán to retrieve my data from the public API, take the 2FA secret and send me the OTP:
It was a match. If Stefán could have cracked my bcrypted password hash (and he's a smart guy so "spoutible" would have definitely been in his word list), he could have then passed the second factor challenge. And the 2FA backup code? Thinking that would also be exactly what it looked like, I'd screen grabbed it when enabling 2FA:
Now, using the same bcrypt hash checker as I did for the password, here's what I found:
What I just don't get is if you're going to return the 2FA secret anyway, why bother bcrypting the backup code? And further, it's only a 6 digit number, do you know how long it takes to crack a bcrypted 6 digit number? Let's find out:
570075, 2m59s
— Martin Sundhaug (@sundhaug92@mastodon.social) (@sundhaug92) February 4, 2024
Many other people worked it out in single-digit minutes as well, but Martin did it fastest at the time of writing so he gets the shout-out 😊
You know how I said you'd keep leaning in further and further? Yeah, we're not done yet because then I found this:
em_code: "c62fcf3563dc3ab38d52ba9ddb37f9b1577d1986"
Maybe I've just seen too many data breaches before, but as vague as this looks I had a really good immediate hunch of what it was but just to be sure, I logged out and went to the password reset page:
Leaning in far enough now, anticipating what's going to happen next? Yep, it's exactly what you thought:
NO WAY! Exposed password reset tokens meant that anyone could immediately takeover anyone else's account 🤯
After changing the password, no notification email was sent to the account holder so just to make things even worse, if someone's account was taken over using this technique they'd have absolutely no idea until they either realised their original password no longer worked or their account started spouting weird messages. There's also no way to see if there are other active sessions, for example the way Twitter shows them:
Further, changing the password doesn't invalidate existing sessions so as best as I can tell, if someone has successfully accessed someone else's Spoutible account there's no way to know and no way to boot them out again. That's going to make recovering from this problematic unless Spoutible has another mechanism to invalidate all active sessions.
The one saving grace is that the token was rotated after reset so you can't use the one in the image above, but of course the new one was now publicly exposed in the API! And there's no 2FA challenge on password reset either but of course even if there was, well, you already read this far so you know how that could have been easily circumvented.
There's just one more "oh wow!" remaining, and it's the ease with which the vulnerable API was found. Spoutible has a feature called Pods and when you browse to that page, people listening to the pod are displayed with the ability to hover over their profile and display further information. For example, here's Rosetta and if we watch the request that's made in the dev tools...
By design, all the personal information including email and IP address, phone number, gender, bcrypt hashed password, 2FA secret and backup code and the code that can be immediately used to reset the password is returned to every single person that uses this feature. How many times has this API spouted troves of personal data out to people without them even knowing? Who knows, but I do know it wasn't the only API doing that because the one that listed the pods also did it:
Because the vulnerable APIs was requested organically as a natural part of using the service as it was intended, Spoutible almost certainly won't be able to fully identify abuse of it. To use the definition of the infamous Missouri governor who recently attempt to prosecute a journalist for pressing F12, everyone who used those features inadvertently became a hacker.
Just one last finding and I've not been able to personally validate it so let's keep it out of "oh wow!" scope: the individual that sent me the data and details of the vulnerability said that the exposed data includes access tokens for other platforms. A couple of months ago, Spoutible announced cross-posting to Mastodon and Bluesky and my own data does have a "cross_posting_auth" node, albeit set to null. I couldn't see anywhere within the UI to enable this feature, but there are profiles with values in there. During the disclosure process (more on that soon), Spoutible did say that those value were encrypted and without evidence of a private key compromise, they believe they're safe.
Here's my full record as it was originally returned by the vulnerable API:
To be as charitable as possible to Spoutible, you could argue that this is largely just the one vulnerability that is the inadvertent exposure of internal data via a public API. This is data that has a legitimate purpose in their system and it may simply be a case of a framework automatically picking all entity attributes up from the data tier and returning them via the UI. But it's the circumstances that allowed this to happen and then exacerbated the problem when it did that concern me more; clearly there's been no security review around this feature because it was so easily discoverable (at least there certainly wasn't review whilst it was live), nor has been any thought put in to notifying people of potential account takeovers or providing them with the means to invalidate other sessions. Then there are periphery issues such as very weak password rules that make cracking bcrypt so much easier, weak 2FA backup codes and pointless bcrypting of them. Not major issues in and of themselves, but they amplify the problems the exposed data presents.
Clearly this required disclosure before publication, unfortunately Spoutible does not publish a security.txt file so I went directly to the founder Christopher Bouzy on both Twitter and email (obviously I could have reached out on Spoutible, but he's very active on Twitter and my profile has more credibility there than a brand new Spoutible account). Here's the timeline, all AEST:
To give credit where it's due, Spoutible's response time was excellent. In the space of only about 4 hours, the data returned by the API had a huge number of attributes trimmed off it and now aligns with what I'd expect to see (although the 207k previously scraped records obviously still contain all the data). I'll also add that Christopher's communication with me commendable; he's clearly genuinely passionate about the platform and was dismayed to learn of the vulnerability. I've dealt with many founders of projects in the past that had suffered data breaches and it's especially personal for them, having poured so much of themselves into it.
Here's their disclosure in its entirety:
The revised API is now returning over 80% less data and looks like this:
If you're a detail person, yes, the forward slashes are no longer escaped and the remaining fields are ordered slightly differently so it looks like the JSON encoder has changed. In case you're interested, here's a link to a diff between the two with a little bit of manipulation to make it easier to see precisely what's changed.
As to my own advice to Spoutible users, here are the actions I'd recommend:
The 207k exposed email addresses that were sent to me are now searchable in Have I Been Pwned and my impacted subscribers have received email notifications.