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Quick thinking by Portland Public Schools stops $2.9m BEC scam

Sophos Naked Security - 22 Srpen, 2019 - 22:18
Employees at Portland Public Schools were breathing easier this week after thwarting a business email compromise (BEC) scam that could have cost them almost $3m.

The Many Possibilities of CVE-2019-8646

Project Zero - 22 Srpen, 2019 - 21:49
Posted by Natalie Silvanovich, Project Zero
CVE-2019-8646 is a somewhat unusual vulnerability I reported in iMessage. It has a number of consequences, including information leakage and the ability to remotely read files on a device. This blog post discusses the ways that an attacker could use this bug. It is a good example of how the large number of classes available for NSKeyedArchiver deserialization can make a bug more versatile. It’s also a good example of how minor functional bugs can make a vulnerability more useful. 

Please note that this blog post assumes some familiarity with NSKeyedArchiver deserialization. If you haven’t read our general post on iMessage, I’d recommend reading that first. The BugThe bug described in CVE-2019-8646 is that an unsafe class, _NSDataFileBackedFuture, can be deserialized by iMessage in a remote context. It was introduced in iOS 12.1. This class is a subclass of NSData that initializes a buffer with the contents of a file at the time the buffer is used. When this class is deserialized, it decodes the length of the buffer, a string file name and a few other objects. It then initializes the instance with the length and filename. Then when [_NSDataFileBackedFuture length] is called, it returns the deserialized length. When [_NSDataFileBackedFuture bytes]is called, the file is opened and loaded into a buffer into memory, and the buffer is returned. The buffer is also cached for future calls to the method.

There are two immediate problems with being able to deserialize this class in an untrusted context. One is that it has the potential to allow a process to access a file that it is not authorized to access, because the process doing the deserialization is the one that loads the file. When I reported this bug, I thought that this was more likely to be a concern for deserialization that occurs locally via IPC as opposed to deserialization that occurs on a remote target like iMessage. The second is that this class violates one of the guarantees that the NSData class makes, that the length property will always return the length of the bytes property. This is because the length of the buffer returned by [_NSDataFileBackedFuture bytes]is the length of the loaded file, and has no relationship to the deserialized length returned by  [_NSDataFileBackedFuture length].

The original proof-of-concept (PoC) attached to the bug report is a simple out-of-bounds read. The payload includes a serialized instance of class ACZeroingString, which is a subclass of NSString. Its initWithCoder method deserializes an instance of class NSData, as well as a length that must be half the [NSData length] that it uses to initialize the contents of the string. If the NSData instance is of subclass _NSDataFileBackedFuture, the length property of the instance can be longer than its internal data, causing the PoC to return a string that contains the contents of unallocated memory, or cause a crash.Accessing a Remote URLAt this point, this bug didn’t seem that useful for a remote attack, so I wondered if it would be possible for it to access a remote URL instead of a local file. The URL is accessed by calling [NSData initWithContentsOfURL:options:error:], which can initialize a buffer from any type of URL, including HTTP URLs, however the _NSDataFileBackedFuture  class contains some checks to prevent this.

There are no checks to the URL on initialization, but there are some checks when the URL is accessed in [_NSDataFileBackedFuture fileURL]. Specifically, it calls [NSURL path] on the URL, and then calls [NSFileManager fileExistsAtPath:] on that path. This does not check that the URL is a file URL before checking the path. So it is possible to bypass this check by using a URL that has a path component that resolves to an existing file. I used: a URL with Unprintable CharactersThe ability to make a request to a URL created an interesting possibility. Maybe it was possible to use the URL to leak data remotely. Since the original PoC created a string that contained leaked data, and the NSURL class is deserialized using a string, it didn’t seem like it would be that difficult. It turned out there was a problem using the NSURL class though. An NSURL instance has very strict limitations on the characters it can contain. This class is mostly open-source, so the exact limitations can be seen in the _CFStringIsLegalURLString method. This is a very robust method, and I did not find any ways to get around the limitations. I did notice that after the method succeeds, the method _CFURLInit is called, which calls CFStringCreateCopy on the input string, so it caches a copy of the validated string to use as the URL later.

One idea I had was to change the string after the URL was created, because the URL string is only validated once. In the absence of bugs, this shouldn’t be possible. CFStringCreateCopy calls [NSString copy] on most string objects, and for a mutable string, this should copy the string, so that any future changes to the string do not affect the copy. For a non-mutable string, it sometimes just increases the retain count on the string, but that also shouldn’t be a problem, because the contents of a mutable string can’t change.

I looked through the subclasses of NSString that can be deserialized in iMessage to see if there were any that didn’t follow the mutable copy rules described above. There were a few, but the most promising was the class INDeferredLocalizedString. This class is technically immutable (in that it extends NSString instead of NSMutableString), and it implements copy by adding a reference. But the value of an INDeferredLocalizedString instance can change. Its deserialization implementation in pseudocode is as follows.

INDeferredLocalizedString *__cdecl -[INDeferredLocalizedString initWithCoder:](INDeferredLocalizedString *self, id decoder){ self->_formatKey = [decoder decodeObjectOfClass:[NSString class] forKey:@"_formatKey"]; self->_table = [decoder decodeObjectOfClass:[NSString class] forKey:@"_table"]; self->_arguments = [decoder decodeObjectOfClasses:@[[NSString class], [NSArray class]] forKey:@"_arguments"]; self->_bundleIdentifier = [decoder decodeObjectOfClass:[NSString class] forKey:@"_bundleIdentifier"]; self->_bundleURL = [decoder decodeObjectOfClass:[NSURL class] forKey:@"_bundleURL"]; self->_cachedLocalization = [decoder decodeObjectOfClass:[NSString class] forKey:@"_cachedLocalization"]; return self;}

It deserializes many properties, including a bundle URL that can be used for localization, a format string with a corresponding array of localized strings and a cached string. When an INDeferredLocalizedString instance is accessed, its value is determined by calling [INDeferredLocalizedString localizeForLanguage:], which generates the string based on these values and the device’s language settings. The deserialized properties have a precedence. For example, the class would prefer to fetch a string from a bundle as opposed to generating it from the format string.

Even with these properties, the string would only change if the device’s language changed, however, it is possible to make the string change due to the issues with cycling in NSKeyedArchiver deserialization described in this post. The highest precedence property of the class, the _cachedLocalization string is deserialized last, meanwhile a lower precedence property _formatKey is serialized earlier. The bundle URL is deserialized in the middle of these two. So if an instance of class INDeferredLocalizedString has a valid _formatKey, and then the bundle URL’s string is a reference to the string itself, the URL will validate the _formatKey when it is being created. Initialization of the INDeferredLocalizedString instance will then continue, and the _cachedLocalization string will be deserialized and set as a property. After the INDeferredLocalizedString deserialization is complete, the URL will be available in the NSKeyedUnarchiver decoder’s cache. When another class, such as _NSDataFileBackedFuture, uses it, the string value will now be generated based on the _cachedLocalization property, which is the unvalidated string.

This behavior allowed me to create a message that would leak memory and send it to a remote server as a URL parameter. A sample message with this behavior is available here. That said, the parameter is only read up to the first null character, so this PoC usually only sends a few bytes. This is probably enough to leak a single pointer to break ASLR with enough tries, but not good for much else.Concatenating and Encoding Leaked DataThis limitation also prevents a more interesting attack: remotely leaking a file. Since the _NSDataFileBackedFuture class can load a file into a buffer, and also send the contents to a remote URL, is a possible attack, but the prevalence of null characters in file format headers limits its usefulness.

There is also a more subtle problem preventing the PoC above from being immediately repurposed to leak a file. The PoC works by creating a _NSDataFileBackedFuture instance with contents that are smaller than its length, then using that instance to create an  ACZeroingString instance, which in a roundabout way becomes the string of a URL. That URL is then used as the URL of another _NSDataFileBackedFuture instance. But what is the string value of the URL of the first _NSDataFileBackedFuture instance? I used another remote URL which responded with a buffer containing another partial URL ( So when the _NSDataFileBackedFuture buffer is read out of bounds when creating the ACZeroingString instance, the leaked data continues the URL. This is not possible when accessing a file with _NSDataFileBackedFuture, because the file contents are set and generally are not in the format of a URL. So in order to leak a file, I also need to be able to concatenate strings.

The INDeferredLocalizedString class has functionality that is helpful in getting around both of these limitations. Two properties that can be decoded during deserialization are the string _formatKey and an array of strings,  _argument.  If an INDeferredLocalizedString instance has only these properties, it will generate its value using the first property as a format string, and the second property as its parameter.

(You might be wondering at this point whether this behaviour is a vulnerability in itself because an attacker can control both a format string and its parameters. It’s not, because the class uses a ‘fake’ format string implementation that is based on regular expressions. The implementation searches for instances of “%@” or similar in the format string, and then replaces them sequentially with values from the array).

This format string behaviour allows the ACZeroingString instance to be inserted into a string containing a URL, and it also helps with the issue of null characters. When an ACZeroingString instance is formatted with “%@”, non-printable characters are escaped in the format “\UXXXX”. Single null bytes will be added to the string as a part of a character in this way, however if there are two null bytes in a row, this character will be omitted. This type of encoding is useful in some contexts (for example, leaking the SMS database, where there are a lot of null characters, but only the string are relevant), but is not enough to completely leak a full file.

Looking at the ‘fake’ format string function a bit more, it calls  description on every member of the arguments array before inserting it into the format string. This would be very useful behavior if the arguments array wasn’t limited to containing string types. Calling description on an instance of class NSURL URL encodes the URL string before it is inserted. So if it was possible to put the URL containing the leaked bytes into the arguments array, it could be encoded, which would allow the entire file to be sent as a part of a URL.

There is a problem in NSKeyedUnarchiverSerialization which can allow objects that are not included in the allow list to be returned when an instance of class NSArray or NSDictionary is deserialized. The first time an array or dictionary is deserialized, every element, key or value that is deserialized as a part of the object’s contents is checked against the allow list. But if the object has already been deserialized, the object is returned from the NSKeyedUnarchiverSerialization instance’s object cache, and only the object, and not its elements, keys or values are checked against the allow list. So the _arguments array could contain a URL, so long as the array had already been deserialized elsewhere.

It was a bit of a challenge finding somewhere an array containing a URL could be deserialized in iMessage. The top level allow list does not include class  NSArray, and I could not find a class with an initWithCoder: implementation that contained a deserialization call that allows both arrays and URLs. I eventually implemented it so that it uses the bug twice. First, a dictionary containing the URL is decoded, which is allowed at the top level. Then, an instance of __NSLocalizedString is decoded, which decodes a property NS.configDict, which allows arrays and dictionaries, but not URLs, but because of the bug, a dictionary containing a URL is okay. Then, the bug is used again when initializing the _arguments array of the INDeferredLocalizedString instance, which is allowed because it only checks that the referenced array is an instance of NSArray. When this object is formatted into a string, it will contain some extra characters due to the dictionary, but otherwise will still be encoded.Leaking a FilePutting this all together allowed for a file to be read remotely from an iPhone. There are a few limitations to this attack. First, it is very memory intensive, the largest memory hog being the ‘fake’ format string function that needs to handle a very long string. SpringBoard can crash due to memory limits if the file is too long. The limit appears to be around 40kB to 100kB depending on device memory, though it’s likely this could be increased with enough effort. It is possible to fetch the beginning of a larger file within this limit, and also reduce memory usage a bit by using escape (“\U”) encoding instead of URL encoding in situations where stripping null characters are okay.

The encoding of the URL returned to the remote server is also quite complex. The URL is escaped for a few characters up until the end of where the URL schema would be is reached, and then it moves into URL encoding. The URL coding is also escaped though, so it needs to be unescaped before it is URL decoded., The escaped characters are in UTF-16 meanwhile the URL encoded characters are in UTF-8, complicating matters. Then there can be a third section of the URL that is just escaped, which occurs because when the valid characters are switched for the invalid characters when creating the URL it retains the length of the valid characters. If the URL is too short, the extra characters will only be escaped.

There’s another problem with encoding, which is that sometimes printable characters are duplicated in the URL encoded string. It’s not clear why this happens, it could be a bug in [NSURL description] or the URL encoder. It is fairly easy to programmatically recognize and correct these duplications, but there is always the possibility that a file contains these exact patterns, at which case the file could be read with errors. A python script that decodes all the iterations of encoding in a returned URL and outputs a file is available here. I have not seen any files that contain errors after being processed with this script, but there is a small probability that this could occur.

The following video shows this vulnerability being used to access a photo from a remote device’s memory. First the sms.db file is accessed to get the URL of the photo, and then the photo is accessed.
ConclusionCVE-2019-8646 is a vulnerability in iMessage that can allow memory to be leaked and files to be read remotely from a device. The bug was fixed on July 23, 2019. This fix requires the class to be explicitly allowed for deserialization, as opposed to being allowed in any situation that permits NSData deserialization. 

There were several factors that caused this bug to be exploitable in this way. One is the large number of classes available for deserialization in SpringBoard. Without the ACZeroingString,  INDeferredLocalizedString and __NSLocalizedString object being available, this bug would be less useful to an attacker.

Also, there were three small bugs that contributed to this bug’s capabilities. First, the error in [INDeferredLocalizedString copy] is a bug that would usually just lead to occasional crashes when the device’s language was changed, but in this situation, it turned out to be exactly the bug that was needed to circumvent the character restrictions of the NSURL class. Likewise, the error in NSKeyedUnarchiver that allows arrays and dictionaries containing any type of object to be returned if they are already decoded would usually only cause exceptions related to typing, but in the case allows for a URL to be encoded. Finally, the ability of the  _NSDataFileBackedFuture class to access remote URLs was also a small bug in URL filtering. This shows that there is a security benefit to avoiding and fixing bugs, even if they don’t have an obvious security impact. Alone, none of these bugs, including the vulnerability were that serious, but together they allow a user’s data to be accessed remotely.
Kategorie: Hacking & Security

Google Launches Open-Source Browser Extension for Ad Transparency

Threatpost - 22 Srpen, 2019 - 21:47
Google introduced a new initiative that it hopes will fight shady online advertising practices such as digital fingerprinting.
Kategorie: Hacking & Security

Humans may have been listening to you via your Xbox

Sophos Naked Security - 22 Srpen, 2019 - 21:17
Microsoft has given audio clips to contractors for years, but it says it recently stopped. ... For the most part.

Biologické zbraně budoucnosti by mohly zabíjet lidi se specifickou DNA - bezpečnost - 22 Srpen, 2019 - 20:00
Jednoho dne možná budeme muset čelit biologickým zbraním určeným výhradně k zabíjení konkrétních skupin obyvatel. Plyne to z nové zprávy Centre for the Study of Existential Risk, o níž informoval The Telegraph. V praxi by se mohlo jednat třeba o patogen, který by likvidoval jen lidi určité rasy. ...
Kategorie: Hacking & Security

AWS Security Monitoring Checklist

InfoSec Institute Resources - 22 Srpen, 2019 - 18:54

Since every organization is moving towards cloud, the roles and responsibilities of in-house security teams have increased a lot. Due to lack of complete ownership, security teams do not have visibility and control of the underlying/leased infrastructure. In this article, we will examine the security checklist for AWS which every security team should keep an […]

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AWS Security Monitoring Checklist was first posted on August 22, 2019 at 11:54 am.
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Kategorie: Hacking & Security

Building a Mobile Defense: 5 Key Questions to Ask

Threatpost - 22 Srpen, 2019 - 18:27
Willie Sutton and mobile attackers have much in common -- but defenses have evolved since the famous bank robber had his heyday.
Kategorie: Hacking & Security

Chrome se naučí upozorňovat, když vaše heslo unikne na internet - bezpečnost - 22 Srpen, 2019 - 18:00
Chrome od Googlu obsahuje integrovaného správce hesel již dlouho, nyní se al chystá užitečná novinka. Prohlížeč by vás nově měl upozornit, když některé z vašich hesel unikne na internet. Kontrolu úniků hesel aktuálně Google testuje v rámci Canary buildu, tedy velmi rané testovací verze ...
Kategorie: Hacking & Security

Spyware App on Google Play Gets Boot, Returns Days Later

Threatpost - 22 Srpen, 2019 - 16:16
The app purported to stream music - but actually siphoned victims' device contacts and files.
Kategorie: Hacking & Security

Anonymization and pseudonymization of personal data

InfoSec Institute Resources - 22 Srpen, 2019 - 15:02

Introduction Cybercriminals are waging a war on our personal data. The latest research from IBM and Ponemon on the cost of cybercrime shows that data record breaches carry a high price tag. The price per exposed data record now stands at a mean of $150 per exposed record. Healthcare records are the costliest when exposed, […]

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Anonymization and pseudonymization of personal data was first posted on August 22, 2019 at 8:02 am.
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Kategorie: Hacking & Security

Cybersecurity engineer resume tips

InfoSec Institute Resources - 22 Srpen, 2019 - 15:01

The role of cybersecurity engineer The role of the cybersecurity engineer has been around for decades. During that time, it has evolved dramatically.  First, responsibilities mostly existed within the Layer 3 (firewall) and the signature-based antivirus product space. With the emergence of more advanced threats, intrusion detection and prevention systems, proxy servers, next-generation firewalls and […]

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Cybersecurity engineer resume tips was first posted on August 22, 2019 at 8:01 am.
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Kategorie: Hacking & Security

What does an IT auditor do?

InfoSec Institute Resources - 22 Srpen, 2019 - 15:00

Introduction In the world of cybersecurity, the position of IT auditor has become very significant and is a growing occupation, with thousands of job openings now available in the U.S. This growth has been fueled by new regulations and compliance requirements such as Sarbanes-Oxley.  If you’re considering a career as an IT auditor, you are […]

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What does an IT auditor do? was first posted on August 22, 2019 at 8:00 am.
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Kategorie: Hacking & Security

ICS Protocols

InfoSec Institute Resources - 22 Srpen, 2019 - 15:00

Introduction ICS stands for Industrial Control Systems. ICS is a generic term used to describe various control systems and their instrumentation, used for controlling and monitoring industrial processes. ICS basically integrates hardware, software and their network connectivity for running and supporting critical infrastructure. ICS systems get data from remote sensors and send commands to the […]

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ICS Protocols was first posted on August 22, 2019 at 8:00 am.
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Kategorie: Hacking & Security

S2 Ep5: Phishing, eavesdropping voice assistants and quick fire questions – Naked Security Podcast

Sophos Naked Security - 22 Srpen, 2019 - 13:53
Episode 5 of the Naked Security Podcast is now live - listen now!

Facebook delivers ‘clear history’ tool that doesn’t ‘clear’ anything

Sophos Naked Security - 22 Srpen, 2019 - 13:02
The new feature “disconnects,” but doesn't delete, your browsing history. Facebook will still use it for analytics.

Hackeři vytvořili falešný web NordVPN, přes který šířili zákeřný bankovní malware - bezpečnost - 22 Srpen, 2019 - 13:00
Hackeři prakticky neustále vymýšlejí způsoby, jak se dostat do počítačů nic netušících uživatelů. Jedním z jejich posledních kousků je vytvoření falešných webových stránek poskytovatele služeb osobní virtuální privátní sítě NordVPN. Jak zjistili bezpečnostní experti z Doctor Web, útočníci ...
Kategorie: Hacking & Security

Update now! Microsoft patches its Android RDP app to fix flaw

Sophos Naked Security - 22 Srpen, 2019 - 12:57
Microsoft has found itself with a large amount of RDP-related patching work during 2019.

Massive MoviePass database found exposed on public server

Sophos Naked Security - 22 Srpen, 2019 - 12:53
Tens of thousands of records with financial data were left in plaintext in a database that wasn't protected with a password.
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