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Certificates
What is a Certificate
In cryptography, a public key certificate, also known as a digital certificate or identity certificate, is an electronic document used to prove the ownership of a public key. The certificate includes information about the key, information about the identity of its owner called the subject
, and the digital signature of an entity that has verified the certificate's contents called the issuer
. If the signature is valid, and the software examining the certificate trusts the issuer, then it can use that key to communicate securely with the certificate's subject.
In a typical public-key infrastructure PKI
scheme, the certificate issuer is a certificate authority CA
, usually a company that charges customers to issue certificates for them. By contrast, in a web of trust scheme, individuals sign each other's keys directly, in a format that performs a similar function to a public key certificate.
The most common format for public key certificates is defined by X.509. Because X.509 is very general, the format is further constrained by profiles defined for certain use cases, such as Public Key Infrastructure (X.509) as defined in RFC 5280.
x509 Common Fields
- Version Number: Version of x509 format.
- Serial Number: Used to uniquely identify the certificate within a CA's systems. In particular this is used to track revocation information.
- Subject: The entity a certificate belongs to: a machine, an individual, or an organization.
- Common Name: Domains affected by the certificate. Can be 1 or more and can contain wildcards.
- Country (C): Country
- Distinguished name (DN): The whole subject:
C=US, ST=California, L=San Francisco, O=Example, Inc., CN=shared.global.example.net
- Locality (L): Local place
- Organization (O): Organization name
- Organizational Unit (OU): Division of an organisation
like "Human Resources"
. - State or Province (ST, S or P): List of state or province names
- Issuer: The entity that verified the information and signed the certificate.
- Common Name (CN): Name of the certificate authority
- Country (C): Country of the certificate authority
- Distinguished name (DN): Distinguished name of the certificate authority
- Locality (L): Local place where the organisation can be found.
- Organization (O): Organisation name
- Organizational Unit (OU): Division of an organisation
like "Human Resources"
.
- Not Before: The earliest time and date on which the certificate is valid. Usually set to a few hours or days prior to the moment the certificate was issued, to avoid clock skew problems.
- Not After: The time and date past which the certificate is no longer valid.
- Public Key: A public key belonging to the certificate subject.
This is one of the main parts as this is what is signed by the CA
- Public Key Algorithm: Algorithm used to generate the public key. Like RSA.
- Public Key Curve: The curve used by the elliptic curve public key algorithm
if apply
. Like nistp521. - Public Key Exponent: Exponent used to derive the public key
if apply
. Like 65537. - Public Key Size: The size of the public key space in bits. Like 2048.
- Signature Algorithm: The algorithm used to sign the public key certificate.
- Signature: A signature of the certificate body by the issuer's private key.
- x509v3 extensions
- Key Usage: The valid cryptographic uses of the certificate's public key. Common values include digital signature validation, key encipherment, and certificate signing.
- In a Web certificate this will appear as a X509v3 extension and will have the value
Digital Signature
- In a Web certificate this will appear as a X509v3 extension and will have the value
- Extended Key Usage: The applications in which the certificate may be used. Common values include TLS server authentication, email protection, and code signing.
- In a Web certificate this will appear as a X509v3 extension and will have the value
TLS Web Server Authentication
- In a Web certificate this will appear as a X509v3 extension and will have the value
- Subject Alternative Name: Allows users to specify additional host names for a single SSL certificate. The use of the SAN extension is standard practice for SSL certificates, and it's on its way to replacing the use of the common name.
- Basic Constraint: This extension describes whether the certificate is a CA certificate or an end entity certificate. A CA certificate is something that signs certificates of others and a end entity certificate is the certificate used in a web page for example
the last par of the chain
. - Subject Key Identifier
SKI
: This extension declares a unique identifier for the public key in the certificate. It is required on all CA certificates. CAs propagate their own SKI to the Issuer Key IdentifierAKI
extension on issued certificates. It's the hash of the subject public key. - Authority Key Identifier: It contains a key identifier which is derived from the public key in the issuer certificate. It's the hash of the issuer public key.
- Authority Information Access
AIA
: This extension contains at most two types of information :- Information about how to get the issuer of this certificate
CA issuer access method
- Address of the OCSP responder from where revocation of this certificate can be checked
OCSP access method
.
- Information about how to get the issuer of this certificate
- CRL Distribution Points: This extension identifies the location of the CRL from which the revocation of this certificate can be checked. The application that processes the certificate can get the location of the CRL from this extension, download the CRL and then check the revocation of this certificate.
- Key Usage: The valid cryptographic uses of the certificate's public key. Common values include digital signature validation, key encipherment, and certificate signing.
Difference between OSCP and CRL Distribution Points
OCSP RFC 2560
is a standard protocol that consists of an OCSP client and an OCSP responder. This protocol determines revocation status of a given digital public-key certificate without having to download the entire CRL.
CRL is the traditional method of checking certificate validity. A CRL provides a list of certificate serial numbers that have been revoked or are no longer valid. CRLs let the verifier check the revocation status of the presented certificate while verifying it. CRLs are limited to 512 entries.
From here.
Support HackTricks and get benefits!
Do you work in a cybersecurity company? Do you want to see your company advertised in HackTricks? or do you want to have access the latest version of the PEASS or download HackTricks in PDF? Check the SUBSCRIPTION PLANS!
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Get the official PEASS & HackTricks swag
Join the 💬 Discord group or the telegram group or follow me on Twitter 🐦@carlospolopm.
Share your hacking tricks submitting PRs to the hacktricks github repo.