The rise of cryptojacking didn’t take those in the crypto-and-security worlds by surprise. In fact, the only surprising thing was perhaps the length of time it took malicious actors to use cryptojacking to mine for cryptocurrency.
As the cryptocurrency boom took hold at the end of 2017, so did a sudden surge in malicious cryptojacking incidents.
The phenomenal peaks of the cryptocurrency boom are long gone; cryptocurrency markets are somewhat stable, albeit still unpredictable. Has the decreased price correlated with a reduction in cryptojacking incidents? Do they relate at all? Here’s what you need to know.
What Is Cryptojacking?
Cryptojacking is the coverall term given to a malicious attack where unsuspecting users have their system hardware hijacked to mine cryptocurrency. The basic premise of a cryptojacking browser attack is:
- An unsuspecting user lands on a compromised webpage.
- The cryptojacking code hijacks the system CPU and puts it use mining cryptocurrency, usually Monero.
- However, most cryptojacking attacks end when the website tab closes.
Cryptojacking isn’t just browser-based. There are several types of malware out there that will mine cryptocurrency after infecting your system. Most malware attempts to stay silent, but cryptojacking malware is more silent than most. The longer a cryptojacking malware variant can remain silent, the larger the potential reward for the attacker.
Cryptojacking, then, is theft. The unsuspecting users aren’t directly losing money, but they are losing system resources to power someone else’s financial gain. And while cryptojacking is malicious, it doesn’t leave any long-term damage to the target system, despite running the CPU at maximum or near-maximum capacity for a short amount of time.
Why Does Cryptojacking Use System Resources?
Cryptocurrency doesn’t grow on trees. No, it grows on servers, waiting for the right miners to come along and release it. Cryptojacking scripts primarily use the system CPU to do this.
Crypto-networks manage transactions through the blockchain. Each network transaction is added to a block. The block is distributed to a network of connected miners for verification. Each miner has a copy of the cryptocurrency specific blockchain and can validate and process transactions for that network.
When the new block arrives, the miner’s system processes complex equations to verify the block contents. On verification, the block adds to the blockchain, and the miners receive a pay-out reward for their efforts. In the case of Bitcoin, the reward is 12.5 BTC, shared between whoever contributes.
The key to crypto-mining success is speed and processing power. How quickly can your system verify the transactions within the block? Bitcoin mining is essentially useless for anyone not using specialized crypto-mining hardware. The sheer volume of mining power simply drowns out a tiny home desktop computer.
If Not Bitcoin, What Are They Mining?
Even as the Bitcoin price dropped from the heady $19,000+ markback toward its current peaks and troughs, Bitcoin mining is inaccessible. Furthermore, Ethereum and ERC-20-based tokens use GPUs to mine cryptocurrencies. So just what are the cryptojackers attempting to mine?
For the most part, browser cryptojacking scripts and cryptojacking malware are mining Monero. The lightweight, privacy, and anonymity-focused cryptocurrency is easier to mine that Bitcoin and theoretically provides the crypto-mining thieves with protection after the fact. But not all. As you’ll read further down the article, several advanced cryptojacking threats mine Bitcoin.
CoinHive’s vision was for authorized crypto-mining to replace advertising. Websites could still make an income based upon page views and the time spent on the site and users could avoid adverts without feeling awful for using an adblocker (and thus essentially robbing content creators of their fair dues).
Infamous content pirating and torrenting site, The Pirate Bay, was one of the first to experiment with the CoinHive model.
Unfortunately, it wasn’t long before malicious actors realized they could easily repurpose CoinHive’s mining script for more nefarious means. The original script has a CPU mining use percentage command. Originally set to 30% so users could happily continue using their browser, cryptojackers bumped this up to the full 100% on all cores, to maximize profits for the presumably short time most users linger on a malicious landing page.
To be fair to CoinHive, they realized what was going on and issued an update to their script. The newer version, known as AuthedMine, offers users the chance to opt-in to the crypto-mining process, regaining its peaceful-and-original purpose as an advertising alternative. That said, the opt-out is still opt-out. That is to say, website owners don’t have to use AuthedMine, and they’re under no obligation to inform you as to what is eating your CPU alive.
Cryptojacking is evolving. Like all profitable and largely risk-free cyber-attacks, malicious actors always want bigger gains for their investments and are prepared to shift cryptojacking forward to do so.
- In the early days of cryptojacking, one of the easiest methods to boost profits was to use a redirect loop. Unsuspecting victims are sent through a number of web pages before landing on one that has a crypto-mining script installed.
- Another already-mentioned technique is opening a new browser window that is minimized and hidden behind the taskbar. The minute browser window is hidden behind the system clock and is then “free” to run until the user notices something is afoot.
- Some browser extensions were found to conceal crypto-mining scripts without notifying the user. Some extensions were stolen from their developers, had the cryptojacking script injected, then were reuploaded or updated to the extension store. (In fact, Google swiftly banned all Chrome extensions abusing cryptojacking scripts.)
But that’s not all. Home users have relatively low power computers. Those running cryptojacking campaigns quickly realized there are bigger cryptojacking fish to fry: enterprises with powerful super-computers.
Cryptojacking Malware Explosion
However, other security leaks also contribute to the cryptojacking landscape. Remember the massive WannaCry ransomworm of 2017 The Global Ransomware Attack and How to Protect Your Data The Global Ransomware Attack and How to Protect Your Data A massive cyberattack has struck computers around the globe. Have you been affected by the highly virulent self-replicating ransomware? If not, how can you protect your data without paying the ransom? Read More ? WannaCry was the direct result of a liberated trove of previously unknown zero-day exploits that the NSA developed and amassed covertly. The Shadow Brokers, a hacking group with alleged ties to the Russian government, leaked numerous exploits, including EternalBlue (also styled ETERNALBLUE) which was crucial in spreading the WannaCry ransomworm at such a rapid pace.
Hackers around the world take notice when a tool causes such devastation (only saved by security researcher Marcus Hutchins What Is a Botnet and Is Your Computer Part of One? What Is a Botnet and Is Your Computer Part of One? Botnets are a major source of malware, ransomware, spam, and more. But what is a botnet? How do they come into existence? Who controls them? And how can we stop them? Read More , aka MalwareTech, who now faces a string of hacking allegations in the US). Combine EternalBlue with a malware payload that mines cryptocurrency and viola: suddenly we have WannaMine. WannaMine was first picked up by Panda Security and, like its ransomworm cousin, is extremely difficult to detect and block.
Nation-State Cryptojacking Malware Campaigns
But it isn’t just “regular” hackers putting cryptojacking malware to use. The North Korean state-sponsored hacking group, Lazarus (of Sony hack infamy), put a cryptojacking trojan to work against several high-profile banking institutions. Aside from the notable direct targeting of banking and financial organizations, the Lazarus “AppleJeus” attack almost uniquely targeted macOS systems, with a Linux exploit said to be in development.
Furthermore, since the presumably moderately successful AppleJeus attack, Lazarus is directly linked to the Ryuk cryptojacking malware which, at the time of writing, had stolen over $600,000. It isn’t just outlandish speculation; the Ryuk cryptojacking malware bears hallmarks of the Lazarus group Hermes malware variant (the same variant used to distract security services during the attempted $60 million heist on Taiwan’s Far Eastern International Bank). The Ryuk malware is interesting in that the targets appear to be hand-picked. That is to say, each ransom-note is different, makes a different demand, and so on. A personal service, almost.
Will Cryptojacking Get Worse?
Well, the rate of cryptojacking directly relates to the price of cryptocurrencies, as you might expect. The Fortinet Threat Landscape Report (linked above) illustrates this with the following chart:
As the price of Bitcoin dropped, so did the incidents of cryptojacking.
Other reports don’t offer the same borderline positive information, though. The McAfee Labs Threats Report June 2018 [PDF] state that the “count of total coin miner malware rose by 629% in Q1, to more than 2.9 million samples.” The report elaborates further, confirming that in comparison with “well-established cybercrime activities such as data theft and ransomware, cryptojacking is simpler, more straightforward, and less risky.”
In that, you can see the appeal of browser-based cryptojacking and cryptojacking malware variants, especially in comparison to other financially motived attacks. Ransomware requires initial investment to spread the infection to enough victims, while victims still have the option to ignore the ransom and not pay, especially if the victim frequently takes system backups.
Cryptojacking isn’t going anywhere. And if cryptocurrency prices begin to rise in earnest, expect more malware to appear rapidly Can Cybersecurity Keep Up? The Future of Malware and Antivirus Can Cybersecurity Keep Up? The Future of Malware and Antivirus Malware is constantly evolving, forcing antivirus developers to maintain pace. Fileless malware, for instance, is essentially invisible — so how can we defend against it? Read More .