\input texinfo @c -*-texinfo-*- @include gnus-overrides.texi @setfilename ../../info/sasl @set VERSION 0.2 @settitle Emacs SASL Library @value{VERSION} @copying This file describes the Emacs SASL library, version @value{VERSION}. Copyright @copyright{} 2000, 2004--2013 Free Software Foundation, Inc. @quotation Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.3 or any later version published by the Free Software Foundation; with no Invariant Sections, with the Front-Cover texts being ``A GNU Manual,'' and with the Back-Cover Texts as in (a) below. A copy of the license is included in the section entitled ``GNU Free Documentation License''. (a) The FSF's Back-Cover Text is: ``You have the freedom to copy and modify this GNU manual.'' @end quotation @end copying @dircategory Emacs network features @direntry * SASL: (sasl). The Emacs SASL library. @end direntry @titlepage @ifset WEBHACKDEVEL @title Emacs SASL Library @value{VERSION} (DEVELOPMENT VERSION) @end ifset @ifclear WEBHACKDEVEL @title Emacs SASL Library @value{VERSION} @end ifclear @author by Daiki Ueno @page @vskip 0pt plus 1filll @insertcopying @end titlepage @node Top @top Emacs SASL SASL is a common interface to share several authentication mechanisms between applications using different protocols. @ifnottex @insertcopying @end ifnottex @menu * Overview:: What Emacs SASL library is. * How to use:: Adding authentication support to your applications. * Data types:: * Back end drivers:: Writing your own drivers. * GNU Free Documentation License:: The license for this documentation. * Index:: * Function Index:: * Variable Index:: @end menu @node Overview @chapter Overview @sc{sasl} is short for @dfn{Simple Authentication and Security Layer}. This standard is documented in RFC2222. It provides a simple method for adding authentication support to various application protocols. The toplevel interface of this library is inspired by Java @sc{sasl} Application Program Interface. It defines an abstraction over a series of authentication mechanism drivers (@ref{Back end drivers}). Back end drivers are designed to be close as possible to the authentication mechanism. You can access the additional configuration information anywhere from the implementation. @node How to use @chapter How to use (Not yet written). To use Emacs SASL library, please evaluate following expression at the beginning of your application program. @lisp (require 'sasl) @end lisp If you want to check existence of sasl.el at runtime, instead you can list autoload settings for functions you want. @node Data types @chapter Data types There are three data types to be used for carrying a negotiated security layer---a mechanism, a client parameter and an authentication step. @menu * Mechanisms:: * Clients:: * Steps:: @end menu @node Mechanisms @section Mechanisms A mechanism (@code{sasl-mechanism} object) is a schema of the @sc{sasl} authentication mechanism driver. @defvar sasl-mechanisms A list of mechanism names. @end defvar @defun sasl-find-mechanism mechanisms Retrieve an appropriate mechanism. This function compares @var{mechanisms} and @code{sasl-mechanisms} then returns appropriate @code{sasl-mechanism} object. @example (let ((sasl-mechanisms '("CRAM-MD5" "DIGEST-MD5"))) (setq mechanism (sasl-find-mechanism server-supported-mechanisms))) @end example @end defun @defun sasl-mechanism-name mechanism Return name of mechanism, a string. @end defun If you want to write an authentication mechanism driver (@ref{Back end drivers}), use @code{sasl-make-mechanism} and modify @code{sasl-mechanisms} and @code{sasl-mechanism-alist} correctly. @defun sasl-make-mechanism name steps Allocate a @code{sasl-mechanism} object. This function takes two parameters---name of the mechanism, and a list of authentication functions. @example (defconst sasl-anonymous-steps '(identity ;no initial response sasl-anonymous-response)) (put 'sasl-anonymous 'sasl-mechanism (sasl-make-mechanism "ANONYMOUS" sasl-anonymous-steps)) @end example @end defun @node Clients @section Clients A client (@code{sasl-client} object) initialized with four parameters---a mechanism, a user name, name of the service and name of the server. @defun sasl-make-client mechanism name service server Prepare a @code{sasl-client} object. @end defun @defun sasl-client-mechanism client Return the mechanism (@code{sasl-mechanism} object) of client. @end defun @defun sasl-client-name client Return the authorization name of client, a string. @end defun @defun sasl-client-service client Return the service name of client, a string. @end defun @defun sasl-client-server client Return the server name of client, a string. @end defun If you want to specify additional configuration properties, please use @code{sasl-client-set-property}. @defun sasl-client-set-property client property value Add the given property/value to client. @end defun @defun sasl-client-property client property Return the value of the property of client. @end defun @defun sasl-client-set-properties client plist Destructively set the properties of client. The second argument is the new property list. @end defun @defun sasl-client-properties client Return the whole property list of client configuration. @end defun @node Steps @section Steps A step (@code{sasl-step} object) is an abstraction of authentication ``step'' which holds the response value and the next entry point for the authentication process (the latter is not accessible). @defun sasl-step-data step Return the data which @var{step} holds, a string. @end defun @defun sasl-step-set-data step data Store @var{data} string to @var{step}. @end defun To get the initial response, you should call the function @code{sasl-next-step} with the second argument @code{nil}. @example (setq name (sasl-mechanism-name mechanism)) @end example At this point we could send the command which starts a SASL authentication protocol exchange. For example, @example (process-send-string process (if (sasl-step-data step) ;initial response (format "AUTH %s %s\r\n" name (base64-encode-string (sasl-step-data step) t)) (format "AUTH %s\r\n" name))) @end example To go on with the authentication process, all you have to do is call @code{sasl-next-step} consecutively. @defun sasl-next-step client step Perform the authentication step. At the first time @var{step} should be set to @code{nil}. @end defun @node Back end drivers @chapter Back end drivers (Not yet written). @node GNU Free Documentation License @appendix GNU Free Documentation License @include doclicense.texi @node Index @unnumbered Index @printindex cp @node Function Index @unnumbered Function Index @printindex fn @node Variable Index @unnumbered Variable Index @printindex vr @summarycontents @contents @bye @c End: