User:David MacQuigg/Sandbox/Email authentication: Difference between revisions
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This article is a [[CZ:Related articles|subtopic]] in a group of articles under [[Email system]]. We assume the reader understands the parent article, its terminology, and the roles of different agents in the system. | |||
Secure communications via email may require: | |||
1) authentication of the source (sender's identity) | |||
2) verification of content (digital signature) | |||
3) confidentiality of content (encryption) | |||
4) originality (no duplicates) | |||
5) timely delivery (no unexpected delays) | |||
6) secrecy (hidden communication) | |||
Email authentication methods focus primarily on authentication, but also meet other requirements on this list. A digital signature method like [[ verifying content can be generated only by someone having the private part of the encryption key, so the signer is automatically authenticated. | |||
Email authentication methods fall into two categories. Methods like SPF, SenderID, and CSV rely on the fact that certain IP addresses are firmly under the control of a sender (an individual or organization identified by its domain name). Methods like DKIM rely on a digital signature verifying the entire message and most of its headers. Both depend on the security of [[Domain Name System|DNS]]. The assumption is that only the domain owner has access to the DNS records under his name. | Email authentication methods fall into two categories. Methods like SPF, SenderID, and CSV rely on the fact that certain IP addresses are firmly under the control of a sender (an individual or organization identified by its domain name). Methods like DKIM rely on a digital signature verifying the entire message and most of its headers. Both depend on the security of [[Domain Name System|DNS]]. The assumption is that only the domain owner has access to the DNS records under his name. | ||
With IP-based methods, the sender publishes in DNS the IP addresses authorized to use his domain name. With signature-based methods, the sender publishes a public key. IP methods can be very efficient, rejecting an entire session without transferring any messages. End-to-end signature methods can be very secure, even with an un-trusted Forwarder in the middle. | With IP-based methods, the sender publishes in DNS the IP addresses authorized to use his domain name. With signature-based methods, the sender publishes a public key. IP methods can be very efficient, rejecting an entire session without transferring any messages. End-to-end signature methods can be very secure, even with an un-trusted Forwarder in the middle. | ||
Revision as of 16:48, 13 October 2009
This article is a subtopic in a group of articles under Email system. We assume the reader understands the parent article, its terminology, and the roles of different agents in the system.
Secure communications via email may require:
1) authentication of the source (sender's identity) 2) verification of content (digital signature) 3) confidentiality of content (encryption) 4) originality (no duplicates) 5) timely delivery (no unexpected delays) 6) secrecy (hidden communication)
Email authentication methods focus primarily on authentication, but also meet other requirements on this list. A digital signature method like [[ verifying content can be generated only by someone having the private part of the encryption key, so the signer is automatically authenticated.
Email authentication methods fall into two categories. Methods like SPF, SenderID, and CSV rely on the fact that certain IP addresses are firmly under the control of a sender (an individual or organization identified by its domain name). Methods like DKIM rely on a digital signature verifying the entire message and most of its headers. Both depend on the security of DNS. The assumption is that only the domain owner has access to the DNS records under his name.
With IP-based methods, the sender publishes in DNS the IP addresses authorized to use his domain name. With signature-based methods, the sender publishes a public key. IP methods can be very efficient, rejecting an entire session without transferring any messages. End-to-end signature methods can be very secure, even with an un-trusted Forwarder in the middle.