cloud_dns

Cloud DNS

Cloud DNS Market Survey

Cloud DNS

List the competing alternatives in 1. AWS DNS, 2. Azure DNS, 3. GCP DNS, 4. IBM Cloud DNS, 6. IBM z Mainframe DNS, 7. Oracle Cloud DNS, 8. Kubernetes DNS, 9. VMWare Cloud DNS / Tanzu DNS, 10. Alibaba Cloud DNS, 11. DigitalOcean DNS, 12. Huawei Cloud DNS, 13. Tencent Cloud DNS, 14. On-Premises Data Center DNS using Open Source Cloud / Private Cloud Technologies. When you make a numbered list, precede the number with an asterisk and a space. Put a section heading for each paragraph. You MUST put double square brackets around ALL computer buzzwords, product names, or jargon or technical words. Answer in MediaWiki syntax.

Here's a list of competing cloud DNS services and solutions, including on-premises options with open-source technologies, formatted in MediaWiki syntax. Note that some entries, like IBM z Mainframe DNS and Kubernetes DNS, are interpreted within the context as they don't offer cloud DNS services directly but are related to environments where DNS services are critical.

```mediawiki

AWS DNS

  • Amazon Route 53: A highly available and scalable cloud Domain Name System (DNS) web service, designed to give developers and businesses an extremely reliable and cost-effective way to route end users to Internet applications.

Azure DNS

  • Azure DNS: Provides ultra-fast DNS responses and ultra-high domain availability, enabling you to manage your DNS records using the same credentials, billing, and support contract as your other Azure services.

GCP DNS

  • Google Cloud DNS: A scalable, reliable, and managed authoritative Domain Name System (DNS) service running on the same infrastructure as Google, offering low latency and high availability for your domains.

IBM Cloud DNS

  • IBM Cloud Internet Services: Offers a managed DNS service as part of its suite, providing security and reliability to your web applications and content delivery.

Oracle Cloud DNS

  • Oracle Cloud Infrastructure DNS: A tool that lets you manage your domain's DNS records, offering high availability and scalability for managing public DNS data.

Kubernetes DNS

  • While Kubernetes itself does not provide a cloud DNS service, it includes an internal DNS service for service discovery within the cluster, critical for the operation of applications deployed in Kubernetes environments.

VMWare Cloud DNS / Tanzu DNS

Alibaba Cloud DNS

  • Alibaba Cloud DNS: A secure, intelligent domain name resolution service that supports domain name resolution and management, helping enterprises and developers convert human-readable domain names into machine-readable IP addresses.

DigitalOcean DNS

  • DigitalOcean Networking: Provides a DNS service that allows you to easily manage your domain names and DNS records in the same workspace as your other DigitalOcean resources.

Huawei Cloud DNS

  • Huawei Cloud DNS: A high-availability and scalable DNS service designed to offer reliable domain name resolution and management, ensuring that user access requests are accurately directed.

Tencent Cloud DNS

  • Tencent Cloud Private DNS: A service that provides private domain name resolution for VPCs and can be integrated with public DNS services for comprehensive domain management.

On-Premises Data Center DNS using Open Source Cloud / Private Cloud Technologies

```

This summary offers a snapshot of DNS services available across various cloud platforms, as well as on-premises options utilizing open-source technologies. Each service provides unique features tailored to different use cases, including domain name system management, service discovery, and load balancing within distributed environments.

Best Practices for Cloud DNS

Cloud DNS Best Practices

Summarize this topic in 20 paragraphs. Put a section heading for each paragraph. You MUST put double square brackets around ALL computer buzzwords, product names, or jargon or technical words. Answer in MediaWiki syntax.


Snippet from Wikipedia: Domain Name System

The Domain Name System (DNS) is a hierarchical and distributed name service that provides a naming system for computers, services, and other resources on the Internet or other Internet Protocol (IP) networks. It associates various information with domain names (identification strings) assigned to each of the associated entities. Most prominently, it translates readily memorized domain names to the numerical IP addresses needed for locating and identifying computer services and devices with the underlying network protocols. The Domain Name System has been an essential component of the functionality of the Internet since 1985.

The Domain Name System delegates the responsibility of assigning domain names and mapping those names to Internet resources by designating authoritative name servers for each domain. Network administrators may delegate authority over subdomains of their allocated name space to other name servers. This mechanism provides distributed and fault-tolerant service and was designed to avoid a single large central database. In addition, the DNS specifies the technical functionality of the database service that is at its core. It defines the DNS protocol, a detailed specification of the data structures and data communication exchanges used in the DNS, as part of the Internet protocol suite.

The Internet maintains two principal namespaces, the domain name hierarchy and the IP address spaces. The Domain Name System maintains the domain name hierarchy and provides translation services between it and the address spaces. Internet name servers and a communication protocol implement the Domain Name System. A DNS name server is a server that stores the DNS records for a domain; a DNS name server responds with answers to queries against its database.

The most common types of records stored in the DNS database are for start of authority (SOA), IP addresses (A and AAAA), SMTP mail exchangers (MX), name servers (NS), pointers for reverse DNS lookups (PTR), and domain name aliases (CNAME). Although not intended to be a general purpose database, DNS has been expanded over time to store records for other types of data for either automatic lookups, such as DNSSEC records, or for human queries such as responsible person (RP) records. As a general purpose database, the DNS has also been used in combating unsolicited email (spam) by storing a real-time blackhole list (RBL). The DNS database is traditionally stored in a structured text file, the zone file, but other database systems are common.

The Domain Name System originally used the User Datagram Protocol (UDP) as transport over IP. Reliability, security, and privacy concerns spawned the use of the Transmission Control Protocol (TCP) as well as numerous other protocol developments.

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cloud_dns.txt · Last modified: 2024/05/01 03:54 by 127.0.0.1

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