What’s a DoS attack, what’s a DDoS attack and what’s the difference?
A DoS attack is a denial of service attack where a computer is used to flood a server with TCP and UDP packets. A DDoS attack is where multiple systems target a single system with a DoS attack. The targeted network is then bombarded with packets from multiple locations.
All DDoS = DoS but not all DoS = DDoS.
Denial of Service (DoS) and Distributed Denial of Service (DDoS) attacks are two of the most intimidating threats that modern enterprises face. Few forms of attack can have the financial ramifications as that of a successful DoS attack. Security surveys indicate that the cost of a DDoS attack averages between $20,000-$40,000 per hour. This is an astronomical figure and can put even the largest organizations under pressure.
Further in this post, we review the two best Edge Services Vendors:
- StackPath Edge Services EDITOR’S CHOICE A group of edge services from StackPath that include a web application firewall to block Application Layer attacks and a DDoS protection service. StackPath’s services are implemented as a proxy, so they also hide your server’s real IP address. Try Edge Delivery 20 on a 1-month free trial.
- Sucuri Edge Services (LEARN MORE) A web application firewall service implemented as a proxy located in one of 28 data centers around the world. The Sucuri solution is able to absorb any type of DDoS attack.
- 1 What’s a DoS attack, what’s a DDoS attack and what’s the difference?
- 2 What is a DoS Attack?
- 3 What is a DDoS Attack?
- 4 Broad Types of DoS and DDoS Attacks
- 5 Most Common Forms of DDoS Attacks
- 6 DoS vs DDoS: What’s the Difference?
- 7 Why do DoS and DDoS Attacks Occur?
- 8 How to Prevent DoS and DDoS attacks
- 9 Edge Services Vs DDoS Attacks
- 10 DoS vs DDoS Attacks: A Manageable Menace
- 11 Dos Vs DDoS Attacks FAQs
- 12 How to improve security using a Content Delivery Network (CDN)?
- 13 What is the detection process for a DDoS attack?
- 14 Can you trace a DDoS attack?
- 15 Does a DDoS attack damage hardware?
What is a DoS Attack?
A DoS attack is a denial of service attack where a computer is used to flood a server with TCP and UDP packets.
During this type of attack, the service is put out of action as the packets sent over the network to overload the server’s capabilities and make the server unavailable to other devices and users throughout the network. DoS attacks are used to shut down individual machines and networks so that they can’t be used by other users.
There are a number of different ways that DoS attacks can be used. These include the following:
- Buffer overflow attacks – This type of attack is the most common DOS attack experienced. Under this attack, the attacker overloads a network address with traffic so that it is put out of use.
- Ping of Death or ICMP flood – An ICMP flood attack is used to take unconfigured or misconfigured network devices and uses them to send spoof packets to ping every computer within the target network. This is also known as a ping of death (POD) attack.
- SYN flood – SYN flood attacks send requests to connect to a server but don’t complete the handshake. The end result is that the network becomes inundated with connection requests that prevent anyone from connecting to the network.
- Teardrop Attack – During a teardrop DoS attack, an attacker sends IP data packet fragments to a network. The network then attempts to recompile these fragments into their original packets. The process of compiling these fragments exhausts the system and it ends up crashing. It crashes because the fields are designed to confuse the system so that it can not put them back together.
The ease with which DoS attacks can be coordinated has meant that they have become one of the most pervasive cybersecurity threats that modern organizations have to face. DoS attacks are simple but effective and can bring about devastating damage to the companies or individuals they are aimed at. With one attack, an organization can be put out of action for days or even weeks.
The time an organization spends offline adds up. Being unable to access the network costs organizations thousands every year. Data may not be lost but the disruption to service and downtime can be massive. Preventing DoS attacks is one of the basic requirements of staying protected in the modern age.
Further reading: What is ICMP?
What is a DDoS Attack?
A DDoS attack is one of the most common types of DoS attack in use today. During a DDoS attack, multiple systems target a single system with malicious traffic. By using multiple locations to attack the system the attacker can put the system offline more easily.
The reason for this is that there is a larger number of machines at the attackers’ disposal and it becomes difficult for the victim to pinpoint the origin of the attack.
In addition, using a DDoS attack makes it more complicated for the victim to recover. Nine times out of ten the systems used to execute DDoS attacks have been compromised so that the attacker can launch attacks remotely through the use of slave computers. These slave computers are referred to as zombies or bots.
These bots form a network of connected devices called a botnet that is managed by the attacker through a command and control server. The command and control server allows the attacker or botmaster to coordinate attacks. Botnets can be made up of anywhere between a handful of bots to hundreds of different bots.
See also: Understanding DoS and DDoS attacks
Broad Types of DoS and DDoS Attacks
There are a number of broad categories that DoS attacks fall into for taking networks offline. These come in the form of:
- Volumetric Attacks – Volumetric attacks are classified as any form of attack where a target network’s bandwidth resources are deliberately consumed by an attacker. Once network bandwidth has been consumed it is unavailable to legitimate devices and users within the network. Volumetric attacks occur when the attacker floods network devices with ICMP echo requests until there is no more bandwidth available.
- Fragmentation Attacks – Fragmentation attacks are any kind of attack that forces a network to reassemble manipulated network packets. During a fragmentation attack the attacker sends manipulated packets to a network so that once the network tries to reassemble them, they can’t be reassembled. This is because the packets have more packet header information than is permitted. The end result is packet headers which are too large to reassemble in bulk.
- TCP-State Exhaustion Attacks – In a TCP-State Exhaustion attack the attacker targets a web server or firewall in an attempt to limit the number of connections that they can make. The idea behind this style of attack is to push the device to the limit of the number of concurrent connections.
- Application Layer Attacks – Application layer or Layer 7 attacks are attacks that target applications or servers in an attempt to use up resources by creating as many processes and transactions possible. Application layer attacks are particularly difficult to detect and address because they don’t need many machines to launch an attack.
Related Posts: Best Anti-DDoS Tools & Protection Services
Most Common Forms of DDoS Attacks
As you can see, DDoS attacks are the more complex of the two threats because they use a range of devices that increase the severity of attacks. Being attacked by one computer is not the same as being attacked by a botnet of one hundred devices!
Part of being prepared for DDoS attacks is being familiar with as many different attack forms as you can. In this section, we’re going to look at these in further detail so you can see how these attacks are used to damage enterprise networks.
DDoS attacks can come in various forms including:
- Ping of Death – During a Ping of Death (POD) attack the attacker sends multiple pings to one computer. POD attacks use manipulated packets to send packets to the network which have IP packets that are larger than the maximum packet length. These illegitimate packets are sent as fragments. Once the victim’s network attempts to reassemble these packets network resources are used up, they are unavailable to legitimate packets. This grinds the target network to a halt and takes it out of action completely.
- UDP Floods – A UDP flood is a DDoS attack that floods the victim network with User Datagram Protocol (UDP) packets. The attack works by flooding ports on a remote host so that the host keeps looking for an application listening at the port. When the host discovers that there is no application it replies with a packet that says the destination wasn’t reachable. This consumes network resources and means that other devices can’t connect properly.
- Ping Flood – Much like a UDP flood attack, a ping flood attack uses ICMP Echo Request or ping packets to derail a network’s service. The attacker sends these packets rapidly without waiting for a reply in an attempt to make the target network unreachable through brute force. These attacks are particularly concerning because bandwidth is consumed both ways with attacked servers trying to reply with their own ICMP Echo Reply packets. The end result is a decline in speed across the entire network.
- SYN Flood – SYN Flood attacks are another type of DoS attack where the attacker uses the TCP connection sequence to make the victim’s network unavailable. The attacker sends SYN requests to the victim’s network which then responds with a SYN-ACK response. The sender is then supposed to respond with an ACK response but instead, the attacker doesn’t respond (or uses a spoofed source IP address to send SYN requests instead). Every request that goes unanswered takes up network resources until no devices can make a connection.
- Slowloris – Slowloris is a type of DDoS attack software that was originally developed by Robert Hansen or RSnake to take down web servers. A Slowloris attack occurs when the attacker sends partial HTTP requests with no intention of completing them. To keep the attack going, Slowloris periodically sends HTTP headers for each request to keep the computer network’s resources tied up. This continues until the server can’t make any more connections. This form of attack is used by attackers because it doesn’t require any bandwidth.
- HTTP Flood – In a HTTP Flood attack the attacker users HTTP GET or POST requests to launch an assault on an individual web server or application. HTTP floods are a Layer 7 attack and don’t use malformed or spoofed packets. Attackers use this type of attack because they require less bandwidth than other attacks to take the victim’s network out of operation.
- Zero-Day Attacks – Zero-Day attacks are attacks that exploit vulnerabilities that have yet to be discovered. This is a blanket term for attacks that could be faced in the future. These types of attacks can be particularly devastating because the victim has no specific way to prepare for them before experiencing a live attack.
DoS vs DDoS: What’s the Difference?
The key difference between DoS and DDoS attacks is that the latter uses multiple internet connections to put the victim’s computer network offline whereas the former uses a single connection. DDoS attacks are more difficult to detect because they are launched from multiple locations so that the victim can’t tell the origin of the attack. Another key difference is the volume of attack leveraged, as DDoS attacks allow the attacker to send massive volumes of traffic to the target network.
It is important to note that DDoS attacks are executed differently to DoS attacks as well. DDoS attacks are executed through the use of botnets or networks of devices under the control of an attacker. In contrast, DoS attacks are generally launched through the use of a script or a DoS tool like Low Orbit Ion Cannon.
Why do DoS and DDoS Attacks Occur?
Whether it is a DoS or DDoS attack, there are many nefarious reasons why an attacker would want to put a business offline. In this section, we’ll look at some of the most common reasons why DoS attacks are used to attack enterprises. Common reasons include:
- Ransom – Perhaps the most common reason for DDoS attacks is to extort a ransom. Once an attack has been completed successfully the attackers will then demand a ransom to halt the attack and get the network back online. It isn’t advised to pay these ransoms because there is no guarantee that the business will be restored to full operation.
- Malicious Competitors – Malicious competitors looking to take a business out of operation are another possible reason for DDoS attacks to take place. By taking an enterprise’s network down a competitor can attempt to steal your customers away from you. This is thought to be particularly common within the online gambling community where competitors will try to put each other offline to gain a competitive advantage.
- Hacktivism – In many cases the motivation for an attack won’t be financial but personal and political. It is not uncommon for hacktivist groups to put government and enterprise sites offline to mark their opposition. This can be for any reason that the attacker deems to be important but often occurs due to political motivations.
- Causing Trouble – Many attackers simply like causing trouble for personal users and networks. It is no secret that cyber attackers find it amusing to put organizations offline. For many attackers, DDoS attacks offer a way to prank people. Many see these attacks as ‘victimless’ which is unfortunate given the amount of money that a successful attack can cost an organization.
- Disgruntled Employees – Another common reason for cyber attacks is disgruntled employees or ex-employees. If the person has a grievance against your organization then a DDoS attack can be an effective way to get back at you. While the majority of employees handle grievances maturely there are still a minority who use these attacks to damage an organization they have personal issues with.
How to Prevent DoS and DDoS attacks
Even though DOS attacks are a constant threat to modern organizations, there are a number of different steps that you can take to stay protected before and after an attack. Before implementing a protection strategy it is vital to recognize that you won’t be able to prevent every DoS attack that comes your way. That being said, you will be able to minimize the damage of a successful attack that comes your way.
Minimizing the damage of incoming attacks comes down to three things:
- Preemptive Measures
- Test Run DOS Attacks
- Post-attack Response
Preemptive measures, like network monitoring, are intended to help you identify attacks before they take your system offline and act as a barrier towards being attacked. Likewise, test running DoS attacks allows you to test your defenses against DoS attacks and refine your overall strategy. Your post-attack response will determine how much damage a DoS attack does and is a strategy to get your organization back up and running after a successful attack.
Preemptive Measures: Network Monitoring
Monitoring your network traffic is one of the best preemptive steps you can take. Monitoring regular traffic will allow you to see the signs of an attack before the service goes down completely. By monitoring your traffic you’ll be able to take action the moment you see unusual data traffic levels or an unrecognized IP address. This can be the difference between being taken offline or staying up.
Before executing an all-out attack, most attackers will test your network with a few packets before launching the full attack. Monitoring your network traffic will allow you to monitor for these small signs and detect them early so that you can keep your service online and avoid the costs of unexpected downtime.
See also: 25 best network monitors
Test Run DoS Attacks
Unfortunately, you won’t be able to prevent every DoS attack that comes your way. However, you can make sure you’re prepared once an attack arrives. One of the most direct ways to do this is to simulate DDoS attacks against your own network. Simulating an attack allows you to test out your current prevention methods and helps to build up some real-time prevention strategies that can save lots of money if a real attack comes your way.
Post-Attack Response: Create a Plan
If an attack gets off the ground then you need to have a plan ready to run damage control. A clear plan can be the difference between an attack that is inconvenient and one that is devastating. As part of a plan, you want to designate roles to members of your team who will be responsible for responding once an attack happens. This includes designing procedures for customer support so that customers aren’t left high and dry while you’re dealing with technical concerns.
Edge Services Vs DDoS Attacks
Undoubtedly one of the most effective ways to meet DDoS attacks head-on is to utilize an edge service. An edge service solution like StackPath or Sucuri can sit at the edge of your network and intercept DDoS attacks before they take effect. In this section, we’re going to look at how these solutions can keep your network safe from unscrupulous attackers.
One of the biggest concerns when staying protected against DDoS attacks is preventing damage whilst maintaining performance. StackPath edge services have been designed to minimize performance degradation and fight off all common forms of DDoS attacks. With StackPath edge services, you can recognize attacks in real-time and block them before they take the target network offline.
For more sophisticated attacks, StackPath’s Web Application Firewall (WAF) prevents application layer assaults from seeping through. Application layer attacks are blocked by detection algorithms that can see the signs of malicious traffic before it reaches your network.
StackPath also offers the StackPath Edge Delivery 200 service for larger networks that has a number of other measures to defend against other types of DDoS attacks like UDP floods, SYN floods, and HTTP floods as well. No matter what kind of DDoS attack you are subjected to, StackPath solutions have core functions that can help you stay protected from being taken offline.
StackPath Edge Services attracts our Editor’s Choice award because of its reliable and innovative service. The StackPath system has saved many high-volume traffic websites from being overwhelmed and its service scalability makes it accessible to all sizes of business. The offsite configuration of StackPath Edge Services means that your web server’s true IP address is hidden and harmful traffic won’t get anywhere near it.
Start 1-Month Free Trial: stackpath.com/products/waf/
OS: Cloud Based
Another leading provider of DDoS prevention solutions is Sucuri’s DDoS Protection & Mitigation service. Sucuri is adept at handling layer 7 HTTP floods but can also prevent TCP SYN floods, ICMP floods, Slowloris, UDP floods, HTTP cache bypass, and amplified DNS DDoS to name a few.
Sucuri has a website application firewall approach that has a globally distributed network with 28 points of presence. There is also no cap on attack size so no matter what happens you stay protected. The Sucuri WAF is cloud-based SaaS solution which intercepts HTTP/HTTPS requests that are sent to your website.
One particularly useful feature is the ability to identify if traffic is coming from the browser of a legitimate user or a script being used by an attacker. This ensures that everyday users can still access the site and its online services while malicious users are blocked from launching their attacks. Sucuri offers various plans for their edge services according to your network needs.
See also: The 5 Best Edge Services Providers
DoS vs DDoS Attacks: A Manageable Menace
There are few service attacks as concerning as DoS attacks to modern organizations. While having data stolen can be extremely damaging, having your service terminated by a brute force attack brings with it a whole host of other complications that need to be dealt with. Just a day’s worth of downtime can have a substantial financial impact on an organization.
Having a familiarity with the types of DoS and DDoS attacks that you can encounter will go a long way towards minimizing the damage of attacks. At the very least you want to make sure that you have a network monitoring tool so that you can detect unusual data traffic that indicates a potential attack. Though if you’re serious about addressing DoS attacks then you need to make sure that you have a plan to respond after the attack.
DoS attacks have become one of the most popular forms of cyber-attack in the world because they are easy to execute. As such it is incredibly important to be proactive and implement as many measures as you can to prevent attacks and respond to attacks if they are successful. In doing so, you will limit your losses and leave yourself in a position where you can return to normal operation as quickly as possible.
Dos Vs DDoS Attacks FAQs
⭐How to improve security using a Content Delivery Network (CDN)?
A content delivery network (CDN) stores copies of website content, including entire web pages on servers around the world. Visitors to the site actually get those web pages from a CDN server and not your infrastructure. So, Denial of Service attacks get directed at the CDN server. These servers have a great deal of capacity and are able to absorb large volumes of bogus connection requests.
⭐What is the detection process for a DDoS attack?
A DDoS attack involves high volumes of traffic from a large number of sources. DDoS detection software will notice a surge in connection requests. DDoS defense system sample connection requests randomly rather than inspecting each one. When typical DDoS strategies are detected, mitigation processes will be triggered.
⭐Can you trace a DDoS attack?
The devastating tactics of a DDoS attack lie in its ability to overwhelm a web server with more connection requests than it can handle. Thus, there is little time during an attack to trace the source of attacks. Also, there is little point in doing that as each zombie computer usually only sends one request. Thus, if you got to the source of a malformed connection message, you wouldn’t prevent thousands of other computers sending requests at that moment. Most of the source IP addresses on DDoS connection requests are genuine, but they do not belong to the computer of the real attacker.
⭐Does a DDoS attack damage hardware?
No. DDoS attacks are designed to push routers, load balancers, and servers to their performance limits. Those limits mean that a device can never be forced into a physical failure through factors such as overheating.