News F5 Labs research reveals IoT devices are now hackers’ No.1 target
New research from F5 Labs has revealed that IoT devices are now cybercriminals’ top attack target, surpassing web and application services, and email servers.
Gartner currently estimates that the number IoT devices will surge to 20,4 billion by 20201, which represents a staggering 143% growth rate over three years.
“IoT devices already outnumber people and are multiplying at a rate that far outpaces global population growth. Increasingly, lax security control could endanger lives as, for example, cellular-connected IoT devices providing gateways to critical infrastructures are compromised,” said David Warburton,Senior EMEA Threat Research Evangelist, F5 Networks.
The fifth volume of The Hunt for IoT2 reportnotes that thirteen Thingbots3 – which can be co-opted by hackers to become part of a botnet of networked things – were discovered in the first half of 2018. Six were discovered in 2017 and nine in 2016.
Attack trends
Spain was the top country under attack during the past 18 months, including enduring a remarkable 80% of all monitored IoT attack traffic between 1 January and 30 June 2018. Other countries under consistent pressure included Russia, Hungary, the US and Singapore.
Most of the attacks between 1 January and 30 June originated in Brazil (18% of instances). China was the second biggest culprit (15%), followed by Japan (9%), Poland (7%), the US (7%) and Iran (6%).
The most infected IoT devices, as determined by their participation in bots, were Small Office/Home Office (SOHO) routers, IP cameras, DVRs, and CCTVs.
Distributed Denial of Service (DDoS) remains the most utilised attack method. However, attackers in 2018 began adapting Thingbots under their control to encompass additional tactics including installing proxy servers to launch attacks from, crypto-jacking, installing Tor nodes and packet sniffers, DNS hijacks, credential collection, credential stuffing, and fraud trojans.
The most common method attackers used to discover and eventually infect IoT devices was through global internet scans looking for open remote administration services. Telnet and Secure Shell (SSH) protocols were the most popular, followed by Home Network Administration Protocols (HNAP), Universal Plug and Play protocols (UPnP), Simple Object Access Protocols (SOAP), and various other Transmission Control Protocol (TCP) ports used by IoT devices. Common vulnerabilities and exposures specific to IoT device manufacturers were also prominent routes to exploitation.
Worryingly, the report posits that there is a significant and growing concern that IoT infrastructures – the servers and databases to which IoT devices connect – are “just as vulnerable to authentication attacks via weak credentials as the IoT devices themselves.”
As a case in point, F5 Labs’ latest research discovered that cellular IoT gateways are just as vulnerable as traditional wired and WiFi-based IoT devices. As many as 62% of tested devices were vulnerable to remote access attacks exploiting weak vendor default credentials. These devices act as out-of-band networks, creating network back doors, and are widely dispersed across the globe.
Telltale Telnets and attacks from new IP addresses
Notably there was a large spike in attack traffic in March 2018 that drove a 94% decline in total Telnet attack volume from Q1 to Q2 1018. This is important, as the frequency of Telnet attacks typically tails off when cybercriminal shift their focus from reconnaissance scanning to targeted attacks aimed at building deployable Thingbots.
Interestingly, the top 50 logged attacking IP addresses are all new. This represents a big change from previous four reports where the same IP addresses consistently appeared. The report believes this means there are a range of new threat actors in play, or that existing disruptors are transitioning to new systems. Other new developments include the introduction of attacking IP addresses hailing from Iran and Iraq.
Most attacks still originate in the networks of telecom and Internet Service Providers that provide internet services to homes, small offices and larger enterprises. The trend has remained the same for 18 months and is expected to continue. Attackers typically rent systems in hosting centers to initiate the building of a botnet. Build efforts are then taken over by the infected IoT devices in telecom networks.
Mirai remains
Another key report observation is that there has been scant decrease in the global footprint of Mirai, which is the most powerful Thingbot yet to have launched an attack.
The number of Mirai scanner systems across the world dwindled slightly from December 2017 to June 2018. However, Europe remains the only region where Mirai scanner infections remained relatively static from December 2017 to June 2018.
Not only is the threat of the original bot still powerfully present, but there are also at least 10 Mirai offshoots to consider (Annie, Satori/Okiru, Persirai, Masuta, Pure Masuta, OMG, SORA, OWARI, Omni, and Wicked). Furthermore, Mirai’s stepsiblings are capable of much more than launching DDoS attacks, and can deploy proxy servers, mine crypto-currencies and install other bots.
Turbulent times ahead
“We are stuck with over 8 billion IoT devices around the world that, for the most part, prioritise access convenience over security,” said Warburton.
“Organisations need to brace themselves for impact, because IoT attack opportunities are virtually endless and the process of building Thingbots is more widespread than ever. Unfortunately, it is going to take material loss of revenue for IoT device manufacturers, or significant costs incurred by organisations implementing these devices, before any meaningful security advances are achieved. Therefore, it is essential to have security controls in place that can detect bots and scale to the rate at which Thingbots attack. As ever, having bot defense at your application perimeter is crucial, as is a scalable DDoS solution.”
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3The13 identified Thigbots include:
- VPN Filter19 collects credentials, install a network sniffer to monitor ICS protocols, and installs tor nodes.
- Wicked20 targets SOHO routers, CCTV, and DVRs, and installs SORA and OWARI, both of which are rentable bots.21 At the time of its discovery, Wicked was the tenth Mirai spinoff bot.
- Roaming Mantis22 preys on WIFI routers as well as Android and iOS phones, and conducts DNS hijacks and mines cryptocurrency on compromised devices.
- Omni23 compromises GPON home routers to use for crypto-jacking or DDoS attacks.
- UPnProxy24 is sweeping up SOHO routers and installing proxy servers on them that bypass censorship controls; launch spam and phishing campaigns; conduct click fraud, account takeovers, and credit card fraud; launch DDoS attacks; install other bots; and distribute malware.
- OWARI25 compromises SOHO routers and is available as a multi-purpose attack bot for hire.
- SORA26 compromises SOHO routers and is available as a multi-purpose attack bot for hire.
- DoubleDoor27 targets SOHO routers behind Juniper home firewalls, then installs proxy servers from which an attacker can launch any attack of choice.
- OMG28 compromises SOHO routers, wireless IP cameras, and DVRs and then installs proxy servers from which the attacker can launch any attack of choice.
- JenX29 compromises SOHO routers and wireless chipsets from which to launch DDoS attacks. JenX is a DDoS-for-Hire services offering 300Gbps attacks for $20.00.
- Hide’n Seek30 compromises IP cameras. We don’t know what attacks it launches yet.
- Pure Masuta31 compromises home routers. We don’t know what attacks it launches yet.
- Masuta32 compromises home routers and launches DDoS attacks.
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