Malware detections for iOS increased, as did the number of vulnerabilities detected in this operating system, while in the case of Android, the number of reported vulnerabilities decreased, although the number of highly critical bugs reported increased.
Mobile security plays an increasingly important role in protecting information assets for both home and corporate users. In fact, with the advent of the Internet of Things and the thousands of non-traditional devices that are controlled by mobile applications, the security of our phones becomes increasingly relevant to protect the computers they connect to.
Therefore, throughout this publication we will conduct an analysis of the mobile security landscape based on statistics obtained during the first six months of the year, to assess what are the new trends in relation to the 2018 mobile security report.
Up to June of this year 86 security bugs affecting Android have been published. In 2018, 611 CVE vulnerability have been listed (for the whole year). With this data, it seems that in 2019 the number of vulnerabilities will decrease abruptly, compared to previous years.
However, 68% of the bugs published in 2019 were deemed critical and 29% of them allowed malicious code to be executed. This is a considerable improvement over the last years, where the percentage of serious bugs was lower. Therefore, it is crucial that users install security patches in time to avoid being affected by serious vulnerabilities such as those patched by Google last July. In particular, much was said about the failure CVE-2019-2107, capable of violating computers by playing videos on the victim computer, a description that reminds us of the past vulnerabilities Stagefright and Metaphor.
In terms of vulnerabilities, it is interesting to note that 90% of Android devices use versions prior to Android Pie, while 74% of Androids do not even run Oreo, according to the Android developer’s platform. This could expose outdated phones to major bugs that require architectural changes to the system to be repaired.
Good news: the number of malware detections has decreased 8% over the first half of 2018 and 10% over the second half of last year. This might be a result of efforts by Google and security researchers to detect threats and prevent their spread.
Accompanying the decrease in the number of detection, the average of new malware variants for Android has also decreased to 240 new variants per month compared to 300 new variants found in previous years. Another interesting fact is that Android turned out to be the fourth architecture with the most new malware variants, after Win32, MSIL and VBA.
One of the types of malicious code that had experienced the greatest growth during 2018 was cryptocurrency miners. An example is the Android/Coinminer. Detection of this threat have increased of 72% comparatively to last year. Fortunately, detection of this malware family have decreased by 78% in the first half of 2019.
Despite this decrease, cryptocurrencies are still under attackers’ sights. Another of the modalities they use to obtain them is through the theft of credentials to access online wallets through Trojans involved in the Google Play Store, as happened with these recently discovered fake cryptocurrency apps.
Meanwhile, Android banking malware has also made a name for itself. Since its inception, the number of new variants of mobile spyware and, particularly, Trojans dedicated to the theft of financial data, has been increasing. Variants of Cerberus, a malware that overlay screens to steal bank credentials, was recently sold through social networks.
With respect to this common phenomenon of malware propagation in the official app store, a study developed by ElevenPaths analyzed the length of time malicious apps remained in Google Play and revealed that these malicious apps were available for download 51 days in average before being eliminated. Some of these malicious applications were even available up to 138 days.
For its part, Android ransomware has once again shown an advance in its complexity. From our laboratories we discovered Android/Filecoder.C: a variant that uses both symmetrical and asymmetrical encryption and is spread through SMS to the team’s contact list. This represents a leap in code complexity compared to older ransomware families such as DoubleLocker.
In the first half of 2019, malware detection for Android were concentrated globally in Russia (16%), Iran (15%) and Ukraine (8%). The first Latin American country to appear in the international ranking is Mexico (3%) in sixth place, followed by Peru (2%) in tenth place.
For iOS, 155 vulnerabilities were revealed in 2019, representing a 25% increase compared to 2018 and almost double those found in Android during the current year. We can therefore expect that the number of vulnerabilities for 2019 will exceed the figure obtained in. However, the percentage of high critical failures is lower than Android, around 20%.
On the other hand, malware detection for iOS increased 43% over the first half of last year. The number of new malware variants remains low, indicating that cybercriminal’s interest continues to rest on Android, where the largest number of users are found.
As for the geographical distribution of these detection, we can see that they are mainly concentrated in China (75%), India (7%) and Taiwan (4%). In this sense, it is interesting to note the appearance of India among the first positions, displacing Hong Kong from its position.
In this first half of the year, Apple’s mobile phones were also subject to vulnerabilities that endangered their users, such as the deployment of versions that accidentally reopened previously corrected bugs and that allowed the generation of a jailbreak for version 12.4. Another example was the spying bug in the FaceTime app that allowed it to be easily exploited to spy on third parties.
Malware was not absent from this operating system either and massive spyware infections appeared around the world. Occasionally, a variant called Exodus was the one that caused havoc around April of this year, when several users discovered malicious activity on their computers.
In addition to all these threats created for each of the two most widely used mobile operating systems in the world, we must not forget the multiplatform risks associated with the use of third party platforms. The vulnerabilities found in user applications can be as dangerous as those in the OS, as exemplified by the recently discovered WhatsApp flaw which allowed a quoted to be altered in quoted messages.
We also have to mention the Social Engineering attacks that try to seduce users through cyberscams, such as this WhatsApp scam pretending to offer 1000 GB. Trendy applications, like FaceApp, are also used by cybercriminals to spread malware and scams online.
Although mobile systems have been designed with a security perspective and are sometimes safer than traditional technologies, we must not forget that the risks are still latent. Beyond favoritism, we must always keep in mind that no system is invulnerable and that education and prevention are inescapable to use mobile technologies safely.