dido:public:ra:xapend:xapend.a_glossary:m:mitm
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dido:public:ra:xapend:xapend.a_glossary:m:mitm [2021/07/21 20:58] nick created |
dido:public:ra:xapend:xapend.a_glossary:m:mitm [2022/01/18 11:40] (current) nick |
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| - | ===== Man-in-the-Middle (MiTM) ===== | + | ===== Man-in-the-Middle (MiTM) Attack ===== |
| - | [[dido:public:ra:xapend:xapend.a_glossary| Return to Glossary ]] | + | [[dido:public:ra:xapend:xapend.a_glossary:start| Return to Glossary ]] |
| - | A **Man-in-the-Middle (MiTM)** attack is one in which the attacker secretly intercepts and relays messages between two parties who believe they are communicating directly with each other. The attack is a type of eavesdropping in which the entire conversation is controlled by the attacker. Sometimes referred to as a session hijacking attack, MiTM has a strong chance of success when the attacker can impersonate each party to the satisfaction of the other. MiTM attacks pose a serious threat to online security because they give the attacker the ability to capture and manipulate sensitive information in real-time. | + | A **Man-in-the-Middle (MiTM) Attack** is one in which the attacker secretly intercepts and relays messages between two parties who believe they are communicating directly with each other. The attack is a type of eavesdropping in which the entire conversation is controlled by the attacker. Sometimes referred to as a session hijacking attack, MiTM has a strong chance of success when the attacker can impersonate each party to the satisfaction of the other. MiTM attacks pose a serious threat to online security because they give the attacker the ability to capture and manipulate sensitive information in real-time. |
| A common method of executing a MiTM attack involves distributing malware that provides the attacker with access to a user’s Web browser and the data it sends and receives during transactions and conversations. Once the attacker has control, he can redirect users to a fake site that looks like the site the user is expecting to reach. The attacker can then create a connection to the real site and act as a proxy in order to read, insert and modify the traffic between the user and the legitimate site. Online banking and e-commerce sites are frequently the targets of MITM attacks so that the attacker can capture login credentials and other sensitive data. | A common method of executing a MiTM attack involves distributing malware that provides the attacker with access to a user’s Web browser and the data it sends and receives during transactions and conversations. Once the attacker has control, he can redirect users to a fake site that looks like the site the user is expecting to reach. The attacker can then create a connection to the real site and act as a proxy in order to read, insert and modify the traffic between the user and the legitimate site. Online banking and e-commerce sites are frequently the targets of MITM attacks so that the attacker can capture login credentials and other sensitive data. | ||
| - | Most cryptographic protocols include some form of endpoint authentication specifically to prevent MITM attacks. For example, the Transport Layer Security (TLS) protocol can be required to authenticate one or both parties using a mutually trusted certification authority. Unless users take heed of warnings when a suspect certificate is presented, however, a MITM attack can still be carried out with fake or forged certificates. | + | Most cryptographic [[dido:public:ra:xapend:xapend.a_glossary:p:protocol|protocols]] include some form of [[dido:public:ra:xapend:xapend.a_glossary:e:endpoint|endpoint]] [[dido:public:ra:xapend:xapend.a_glossary:a:authentication|authentication]] specifically to prevent MITM attacks. For example, the [[dido:public:ra:xapend:xapend.a_glossary:t:tls]] protocol can be required to authenticate one or both parties using a mutually trusted [[dido:public:ra:xapend:xapend.a_glossary:c:ca]]. Unless users take heed of warnings when a suspect [[dido:public:ra:xapend:xapend.a_glossary:d:digital_certificate]] is presented, however, a MITM attack can still be carried out with fake or forged Digital Certificates. |
| - | An attacker can also exploit vulnerabilities in a wireless router’s security configuration caused by weak or default passwords. For example, a malicious router, also called an evil twin, can be set up in a public place like a café or hotel to intercept information traveling through the router. Other ways that attackers often carry out man-in-the-middle attacks include Address Resolution Protocol (ARP) spoofing, domain name system (DNS) spoofing, Spanning Tree Protocol (STP) mangling, port stealing, Dynamic Host Configuration Protocol (DHCP) spoofing, Internet Control Message Protocol (ICMP) redirection, traffic tunneling, and route mangling. | + | An attacker can also exploit vulnerabilities in a wireless router’s security configuration caused by weak or default passwords. For example, a malicious router, also called an evil twin, can be set up in a public place like a café or hotel to intercept information traveling through the router. Other ways that attackers often carry out man-in-the-middle attacks include [[dido:public:ra:xapend:xapend.a_glossary:a:arpspoof|Address Resolution Protocol (ARP) Spoofing]], [[dido:public:ra:xapend:xapend.a_glossary:d:dns]] spoofing, Spanning Tree Protocol (STP) mangling, port stealing, [[dido:public:ra:xapend:xapend.a_glossary:d:dhcp|Dynamic Host Configuration Protocol (DHCP)]] spoofing, Internet Control Message Protocol (ICMP) redirection, traffic tunneling, and route mangling. |
| Source: [[https://internetofthingsagenda.techtarget.com/definition/man-in-the-middle-attack-MitM ]] | Source: [[https://internetofthingsagenda.techtarget.com/definition/man-in-the-middle-attack-MitM ]] | ||
dido/public/ra/xapend/xapend.a_glossary/m/mitm.1626915518.txt.gz · Last modified: 2021/07/21 20:58 by nick
