HTTP provides a general framework for access control and authentication. This page is an introduction to the HTTP framework for authentication, and shows how to restrict access to your server using the HTTP "Basic" schema.
HTTP provides a general framework for access control and authentication. This page is an introduction to the HTTP framework for authentication, and shows how to restrict access to your server using the HTTP "Basic" schema.
RFC 7235 defines the HTTP authentication framework, which can be used by a server to challenge a client request, and by a client to provide authentication information.
The challenge and response flow works like this:
401
(Unauthorized) response status and provides information on how to authorize with a WWW-Authenticate
response header containing at least one challenge.Authorization
request header with the credentials.Authorization
header.
The general message flow above is the same for most (if not all) authentication schemes. The actual information in the headers and the way it is encoded does change!
Warning: The "Basic" authentication scheme used in the diagram above sends the credentials encoded but not encrypted. This would be completely insecure unless the exchange was over a secure connection (HTTPS/TLS).
The same challenge and response mechanism can be used for proxy authentication. As both resource authentication and proxy authentication can coexist, a different set of headers and status codes is needed. In the case of proxies, the challenging status code is 407
(Proxy Authentication Required), the Proxy-Authenticate
response header contains at least one challenge applicable to the proxy, and the Proxy-Authorization
request header is used for providing the credentials to the proxy server.
If a (proxy) server receives invalid credentials, it should respond with a 401
Unauthorized
or with a 407
Proxy Authentication Required
, and the user may send a new request or replace the Authorization
header field.
If a (proxy) server receives valid credentials that are inadequate to access a given resource, the server should respond with the 403
Forbidden
status code. Unlike 401
Unauthorized
or 407
Proxy Authentication Required
, authentication is impossible for this user and browsers will not propose a new attempt.
In all cases, the server may prefer returning a 404
Not Found
status code, to hide the existence of the page to a user without adequate privileges or not correctly authenticated.
A potential security hole (that has since been fixed in browsers) was authentication of cross-site images. From Firefox 59 onwards, image resources loaded from different origins to the current document are no longer able to trigger HTTP authentication dialogs (bug 1423146), preventing user credentials being stolen if attackers were able to embed an arbitrary image into a third-party page.
Browsers use utf-8
encoding for usernames and passwords.
Firefox once used ISO-8859-1
, but changed to utf-8
for parity with other browsers and to avoid potential problems as described in bug 1419658.
The WWW-Authenticate
and Proxy-Authenticate
response headers define the authentication method that should be used to gain access to a resource. They must specify which authentication scheme is used, so that the client that wishes to authorize knows how to provide the credentials.
The syntax for these headers is the following:
WWW-Authenticate: <type> realm=<realm> Proxy-Authenticate: <type> realm=<realm>
Here, <type>
is the authentication scheme ("Basic" is the most common scheme and introduced below). The realm is used to describe the protected area or to indicate the scope of protection. This could be a message like "Access to the staging site" or similar, so that the user knows to which space they are trying to get access to.
The Authorization
and Proxy-Authorization
request headers contain the credentials to authenticate a user agent with a (proxy) server. Here, the <type>
is needed again followed by the credentials, which can be encoded or encrypted depending on which authentication scheme is used.
Authorization: <type> <credentials> Proxy-Authorization: <type> <credentials>
The general HTTP authentication framework is the base for a number of authentication schemes.
IANA maintains a list of authentication schemes, but there are other schemes offered by host services, such as Amazon AWS.
Some common authentication schemes include:
See RFC 7617, base64-encoded credentials. More information below.
See RFC 6750, bearer tokens to access OAuth 2.0-protected resources
See RFC 7616. Firefox 93 and later support the SHA-256 algorithm. Previous versions only support MD5 hashing (not recommended).
See RFC 7486, Section 3, HTTP Origin-Bound Authentication, digital-signature-based
See RFC 8120
See RFC4599
See RFC 8292
See RFC 7804
See AWS docs. This scheme is used for AWS3 server authentication.
Schemes can differ in security strength and in their availability in client or server software.
The "Basic" authentication scheme offers very poor security, but is widely supported and easy to set up. It is introduced in more detail below.
The "Basic" HTTP authentication scheme is defined in RFC 7617, which transmits credentials as user ID/password pairs, encoded using base64.
As the user ID and password are passed over the network as clear text (it is base64 encoded, but base64 is a reversible encoding), the basic authentication scheme is not secure. HTTPS/TLS should be used with basic authentication. Without these additional security enhancements, basic authentication should not be used to protect sensitive or valuable information.
To password-protect a directory on an Apache server, you will need a .htaccess
and a .htpasswd
file.
The .htaccess
file typically looks like this:
AuthType Basic AuthName "Access to the staging site" AuthUserFile /path/to/.htpasswd Require valid-user
The .htaccess
file references a .htpasswd
file in which each line consists of a username and a password separated by a colon (:
). You cannot see the actual passwords as they are hashed (using MD5-based hashing, in this case). Note that you can name your .htpasswd
file differently if you like, but keep in mind this file shouldn't be accessible to anyone. (Apache is usually configured to prevent access to .ht*
files).
aladdin:$apr1$ZjTqBB3f$IF9gdYAGlMrs2fuINjHsz. user2:$apr1$O04r.y2H$/vEkesPhVInBByJUkXitA/
For Nginx, you will need to specify a location that you are going to protect and the auth_basic
directive that provides the name to the password-protected area. The auth_basic_user_file
directive then points to a .htpasswd
file containing the encrypted user credentials, just like in the Apache example above.
location /status { auth_basic "Access to the staging site"; auth_basic_user_file /etc/apache2/.htpasswd; }
Many clients also let you avoid the login prompt by using an encoded URL containing the username and the password like this:
https://username:[email protected]/
The use of these URLs is deprecated. In Chrome, the username:password@
part in URLs is even stripped out for security reasons. In Firefox, it is checked if the site actually requires authentication and if not, Firefox will warn the user with a prompt "You are about to log in to the site "www.example.com" with the username "username", but the website does not require authentication. This may be an attempt to trick you."
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https://developer.mozilla.org/en-US/docs/Web/HTTP/Authentication