Top advantages of cheap ssl certificate uk

Types Of HTTPS Certificates

cheap ssl certificate uk
There are several types

server colocation of HTTPS certificates. They can be categorized according to the following criteria.
1. IDENTITY VALIDATION
Domain validated (DV) The most common type of certificate, a DV certificate verifies that the domain matches a particular public key. The browser establishes a secure connection with the server and displays the closed padlock sign. Clicking the sign will show “This website does not supply ownership information.” There are no special requirements other than having a domain — a DV certificate simply ensures that this is the correct public key for that domain. The browser does not show a legal entity. DV certificates are often cheap (10 USD per year) or free — see the sections on Let’s Encrypt and Cloudflare below.
Extended validation (EV) EV certificates verify the legal organization behind a website. This is the most trustworthy type of certificate, which is obtained after a CA checks the legal entity that controls the domain. The legal entity is checked with a combination of:
control of the domain (such as a DV certificate);
government business records, to make sure the company is registered and active;
independent business directories, such as Dunn and Bradstreet, Salesforce’s connect.data.com, Yellow Pages, etc.;
a verification phone call;
inspection of all domain names in the certificate (wildcards are explicitly forbidden for EV certificates).As well as the closed padlock sign, EV HTTPS certificates display the name of the validated legal entity — typically a registered company — before the URL. Some devices, such as iOS Safari, will only show the validated legal entity, ignoring the URL completely. Clicking the sign will show details about the organization, such as

personal email hosting the name and street address. The cost is between 150 and 300 USD per year.
Organization validated (OV) Like EV, OV certificates verify the legal organization behind a website. However, unlike EV, OV HTTPS certificates do not display the verified legal name in the UI. As a result, OV certificates are less popular, because they have high validation requirements, without the benefits of these being shown to users. Prices are in the 40 to 100 USD per year range.
2. NUMBER OF DOMAINS COVERED
Once upon a time, HTTPS certificates generally contained a single domain in the CN field. Later, the “subject alternative name” (SAN) field was added to allow additional domains to be covered by a single certificate. These days, all HTTPS certificates are created equal: Even a single-domain certificate will have a SAN for that single domain (and a second SAN for the www version of that domain). However, many

best dedicated server hosting uk certificate vendors still sell single- and multi-domain HTTPS certificates for historical reasons.
Single domain This is the most common type of certificate, valid for the domain names example.com and www.example.com.
Multiple domains (UCC/SAN) This type of certificate, also known as Unified Communications Certificate (UCC) or Subject Alternative Names (SAN) certificate, can cover a list of domains (up to a certain limit). It is not limited to a single domain — you can mix different domains and subdomains. The price usually includes a set

uk colocation number of domains (three to five), with the option to include more (up to the limit) for an additional fee. Using it with related websites is advised, because the client inspecting the certificate of any of the websites will see the main domain, as well as all additional ones.
Wildcard This type of

cheapest email hosting covers the main domain as well as an unlimited number of subdomains (*.example.com) — for example, example.com, www.example.com, mail.example.com, ftp.example.com, etc. The limitation is that it covers only subdomains of the main domain.
The variety of HTTPS certificates available is summarized in the table below:
Certificate type Domain validated (DV) Organization validated (OV) Extended validation (EV)
HTTPS HTTPS Verified legal owner HTTPS Verified legal owner Owner info displayed in browser
Single domain example.com, www.example.com
Multiple domains example.com, www.example.com, mail.example.com, example.net, example.org, etc. predefined list, up to a certain limit (usually 100)
Wildcard *.example.com matches any subdomain N/A — all names must be included explicitly in the certificate and inspected by the CA.
The Configuration
To recap, four components of HTTPS require encryption:
The initial key exchange This uses asymmetric (private and public key) algorithms.
The identity certification (the HTTPS certificate, issued by a certification authority) This uses asymmetric (private and public key) algorithms.
The actual message encryption This uses symmetric (pre-shared secret) algorithms.
The message digesting This uses cryptographic hashing algorithms.
Each of these components has a set of used algorithms (some of them deprecated already) that use different key sizes. Part of the handshake involves the client and the server agreeing on which combination of methods they will use — select one out of about a dozen public key (key exchange) algorithms, one out of about a dozen symmetric key (cipher) algorithms and one out of three (two deprecated) message-digesting (hashing) algorithms, which gives us hundreds of combinations.
For example, the setting ECDHE-RSA-AES256-GCM-SHA384 means that the key will be exchanged using the Elliptic Curve Diffie-Hellman Ephemeral (ECDHE) key exchange algorithm; the CA signed the certificate using the Rivest-Shamir-Adleman (RSA) algorithm; the symmetric message encryption will use the Advanced Encryption Standard (AES) cipher, with a 256-bit key and GCM mode of operation; and message integrity will be verified using the SHA secure hashing algorithm, using 384-bit digests. (A comprehensive list of algorithm combinations is available.
So, there are some configuration choices to be made.
Deciding the cipher suites to use is a balance between compatibility and security:
Compatibility with older browsers needs the server to support older cipher suites.
However, many older cipher suites are no longer considered secure.
OpenSSL lists the supported combinations (see above) in order of cryptographic strength, with the most secure at the top and the weakest at the bottom. It is designed in this way because, during the initial handshake between the client and the server, the combination to be used is negotiated until a match is found that is supported by both parties. It makes sense to first try the most secure combinations and gradually resort to weaker security only if there is no other way.
A very useful and highly recommended resource, advising on what cryptographic methods to enable on the server, is the Mozilla SSL Configuration Generator, which we’ll use later on with actual server configurations.
KEY TYPES
Elliptic Curve Cryptography (ECC) certificates are faster and use less CPU than the RSA certificates, which is particularly important for mobile clients. However, some services, such as Amazon, CloudFront and Heroku, don’t yet, at the time of writing, support ECC certificates.
A 256-bit ECC key is considered sufficient.
Rivest Shamir Adleman (RSA) certificates are slower but compatible with a wider variety of older servers. RSA keys are larger, so a 2048-bit RSA key is considered minimal. RSA certificates of 4096 and above may hurt performance — they’re also likely to be signed by a 2048-bit intermediary, undermining much of the additional security!
You might have noticed the fluidity of the statements above and the lack of any numbers — it is because what is a heavy load on one server is not on another. The best way to determine the impact on performance is to monitor the load on your server, with your real website(s) and your real visitors. And even that will change over time.
Procedures
To obtain an HTTPS certificate, perform the following steps:
Create a private and public key pair, and prepare a Certificate Signing Request (CSR), including information about the organization and the public key.
Contact a certification authority and request an HTTPS certificate, based on the CSR.
Obtain the signed HTTPS certificate and install it on your web server.
There exists a set of files, containing different components of the public key infrastructure (PKI): the private and public keys, the CSR and the signed HTTPS certificate. To make things even more complicated, different parties use different names (and file extensions) to identify one and the same thing.
To start, there are two popular formats for storing the information — DER and PEM. The first one (DER) is binary, and the second (PEM) is a base64-encoded (text) DER file. By default, Windows uses the DER format directly, and the open-source world (Linux and UNIX) uses the PEM-format. There are tools (OpenSSL) to convert between one and the other.
The files we’ll be using as examples in the process are the following:
example.com.key This PEM-formatted file contains the private key. The extension .key is not a standard, so some might use it and others might not. It is to be protected and accessible only by the system super-user.
example.com.pub This PEM-formatted file contains the public key. You do not actually need this file (and it’s never explicitly present), because it can be generated from the private key. It is only included here for illustration purposes.
example.com.csr This is a certificate signing request. A PEM-formatted file containing organizational information, as well as the server’s public key, should be sent to the certification authority issuing the HTTPS certificate.
example.com.crt This HTTPS certificate is signed by the certification authority. It is a PEM-formatted file, including the server’s public key, organizational information, the CA signature, validity and expiry dates, etc. The extension .crt is not a standard; other common extensions include .cert and .cer.
File names (and extensions) are not standard; they can be anything you like. I have chosen this naming convention because I think it is illustrative and makes more obvious which component has what function. You can use whatever naming convention makes sense to you, as long as you refer to the appropriate key-certificate files in the commands and server configuration files throughout the process.