Provided by: tcllib_1.17-dfsg-1_all 
NAME
SASL - Implementation of SASL mechanisms for Tcl
SYNOPSIS
package require Tcl 8.2
package require SASL ?1.3.3?
::SASL::new option value ?...?
::SASL::configure option value ?...?
::SASL::step context challenge ?...?
::SASL::response context
::SASL::reset context
::SASL::cleanup context
::SASL::mechanisms ?type? ?minimum?
::SASL::register mechanism preference clientproc ?serverproc?
_________________________________________________________________________________________________
DESCRIPTION
The Simple Authentication and Security Layer (SASL) is a framework for providing
authentication and authorization to comunications protocols. The SASL framework is
structured to permit negotiation among a number of authentication mechanisms. SASL may be
used in SMTP, IMAP and HTTP authentication. It is also in use in XMPP, LDAP and BEEP. See
MECHANISMS for the set of available SASL mechanisms provided with tcllib.
The SASL framework operates using a simple multi-step challenge response mechanism. All
the mechanisms work the same way although the number of steps may vary. In this
implementation a callback procedure must be provided from which the SASL framework will
obtain users details. See CALLBACK PROCEDURE for details of this procedure.
COMMANDS
::SASL::new option value ?...?
Contruct a new SASL context. See OPTIONS for details of the possible options to
this command. A context token is required for most of the SASL procedures.
::SASL::configure option value ?...?
Modify and inspect the SASL context option. See OPTIONS for further details.
::SASL::step context challenge ?...?
This is the core procedure for using the SASL framework. The step procedure should
be called until it returns 0. Each step takes a server challenge string and the
response is calculated and stored in the context. Each mechanism may require one or
more steps. For some steps there may be no server challenge required in which case
an empty string should be provided for this parameter. All mechanisms should accept
an initial empty challenge.
::SASL::response context
Returns the next response string that should be sent to the server.
::SASL::reset context
Re-initialize the SASL context. Discards any internal state and permits the token
to be reused.
::SASL::cleanup context
Release all resources associated with the SASL context. The context token may not
be used again after this procedure has been called.
::SASL::mechanisms ?type? ?minimum?
Returns a list of all the available SASL mechanisms. The list is sorted by the
mechanism preference value (see register) with the preferred mechanisms and the
head of the list. Any mechanism with a preference value less than theminimum (which
defaults to 0) is removed from the returned list. This permits a security threshold
to be set. Mechanisms with a preference less that 25 transmit authentication are
particularly susceptible to eavesdropping and should not be provided unless a
secure channel is in use (eg: tls).
The type parameter may be one of client or server and defaults to client. Only
mechanisms that have an implementation matching the type are returned (this permits
servers to correctly declare support only for mechanisms that actually provide a
server implementation).
::SASL::register mechanism preference clientproc ?serverproc?
New mechanisms can be added to the package by registering the mechanism name and
the implementing procedures. The server procedure is optional. The preference value
is an integer that is used to order the list returned by the mechanisms command.
Higher values indicate a preferred mechanism. If the mechanism is already
registered then the recorded values are updated.
OPTIONS
-callback
Specify a command to be evaluated when the SASL mechanism requires information
about the user. The command is called with the current SASL context and a name
specifying the information desired. See EXAMPLES.
-mechanism
Set the SASL mechanism to be used. See mechanisms for a list of supported
authentication mechanisms.
-service
Set the service type for this context. Some mechanisms may make use of this
parameter (eg DIGEST-MD5, GSSAPI and Kerberos). If not set it defaults to an empty
string. If the -type is set to 'server' then this option should be set to a valid
service identity. Some examples of valid service names are smtp, ldap, beep and
xmpp.
-server
This option is used to set the server name used in SASL challenges when operating
as a SASL server.
-type The context type may be one of 'client' or 'server'. The default is to operate as a
client application and respond to server challenges. Mechanisms may be written to
support server-side SASL and setting this option will cause each step to issue the
next challenge. A new context must be created for each incoming client connection
when in server mode.
CALLBACK PROCEDURE
When the SASL framework requires any user details it will call the procedure provided when
the context was created with an argument that specfies the item of information required.
In all cases a single response string should be returned.
login The callback procedure should return the users authorization identity. Return an
empty string unless this is to be different to the authentication identity. Read
[1] for a discussion about the specific meaning of authorization and authentication
identities within SASL.
username
The callback procedure should return the users authentication identity. Read [1]
for a discussion about the specific meaning of authorization and authentication
identities within SASL.
password
The callback procedure should return the password that matches the authentication
identity as used within the current realm.
For server mechanisms the password callback should always be called with the
authentication identity and the realm as the first two parameters.
realm Some SASL mechanisms use realms to partition authentication identities. The realm
string is protocol dependent and is often the current DNS domain or in the case of
the NTLM mechanism it is the Windows NT domain name.
hostname
Returns the client host name - typically [info host].
MECHANISMS
ANONYMOUS
As used in FTP this mechanism only passes an email address for authentication. The
ANONYMOUS mechanism is specified in [2].
PLAIN This is the simplest mechanism. The users authentication details are transmitted in
plain text. This mechanism should not be provided unless an encrypted link is in
use - typically after SSL or TLS has been negotiated.
LOGIN The LOGIN [1] mechanism transmits the users details with base64 encoding. This is
no more secure than PLAIN and likewise should not be used without a secure link.
CRAM-MD5
This mechanism avoids sending the users password over the network in plain text by
hashing the password with a server provided random value (known as a nonce). A
disadvantage of this mechanism is that the server must maintain a database of
plaintext passwords for comparison. CRAM-MD5 was defined in [4].
DIGEST-MD5
This mechanism improves upon the CRAM-MD5 mechanism by avoiding the need for the
server to store plaintext passwords. With digest authentication the server needs to
store the MD5 digest of the users password which helps to make the system more
secure. As in CRAM-MD5 the password is hashed with a server nonce and other data
before being transmitted across the network. Specified in [3].
OTP OTP is the One-Time Password system described in RFC 2289 [6]. This mechanism is
secure against replay attacks and also avoids storing password or password
equivalents on the server. Only a digest of a seed and a passphrase is ever
transmitted across the network. Requires the otp package from tcllib and one or
more of the cryptographic digest packages (md5 or sha-1 are the most commonly
used).
NTLM This is a proprietary protocol developed by Microsoft [5] and is in common use for
authenticating users in a Windows network environment. NTLM uses DES encryption and
MD4 digests of the users password to authenticate a connection. Certain weaknesses
have been found in NTLM and thus there are a number of versions of the protocol.
As this mechanism has additional dependencies it is made available as a separate
sub-package. To enable this mechanism your application must load the SASL::NTLM
package.
X-GOOGLE-TOKEN
This is a proprietary protocol developed by Google and used for authenticating
users for the Google Talk service. This mechanism makes a pair of HTTP requests
over an SSL channel and so this mechanism depends upon the availability of the tls
and http packages. To enable this mechanism your application must load the
SASL::XGoogleToken package. In addition you are recommended to make use of the
autoproxy package to handle HTTP proxies reasonably transparently.
SCRAM This is a protocol specified in RFC 5802 [7]. To enable this mechanism your
application must load the SASL::SCRAM package.
EXAMPLES
See the examples subdirectory for more complete samples using SASL with network protocols.
The following should give an idea how the SASL commands are to be used. In reality this
should be event driven. Each time the step command is called, the last server response
should be provided as the command argument so that the SASL mechanism can take appropriate
action.
proc ClientCallback {context command args} {
switch -exact -- $command {
login { return "" }
username { return $::tcl_platform(user) }
password { return "SecRet" }
realm { return "" }
hostname { return [info host] }
default { return -code error unxpected }
}
}
proc Demo {{mech PLAIN}} {
set ctx [SASL::new -mechanism $mech -callback ClientCallback]
set challenge ""
while {1} {
set more_steps [SASL::step $ctx challenge]
puts "Send '[SASL::response $ctx]'"
puts "Read server response into challenge var"
if {!$more_steps} {break}
}
SASL::cleanup $ctx
}
REFERENCES
[1] Myers, J. "Simple Authentication and Security Layer (SASL)", RFC 2222, October
1997. (http://www.ietf.org/rfc/rfc2222.txt)
[2] Newman, C. "Anonymous SASL Mechanism", RFC 2245, November 1997.
(http://www.ietf.org/rfc/rfc2245.txt)
[3] Leach, P., Newman, C. "Using Digest Authentication as a SASL Mechanism", RFC 2831,
May 2000, (http://www.ietf.org/rfc/rfc2831.txt)
[4] Klensin, J., Catoe, R. and Krumviede, P., "IMAP/POP AUTHorize Extension for Simple
Challenge/Response" RFC 2195, September 1997.
(http://www.ietf.org/rfc/rfc2195.txt)
[5] No official specification is available. However,
http://davenport.sourceforge.net/ntlm.html provides a good description.
[6] Haller, N. et al., "A One-Time Password System", RFC 2289, February 1998,
(http://www.ieft.org/rfc/rfc2289.txt)
[7] Newman, C. et al., "Salted Challenge Response Authentication Mechanism (SCRAM) SASL
and GSS-API Mechanisms", RFC 5802, July 2010, (http://www.ieft.org/rfc/rfc5802.txt)
AUTHORS
Pat Thoyts
BUGS, IDEAS, FEEDBACK
This document, and the package it describes, will undoubtedly contain bugs and other
problems. Please report such in the category sasl of the Tcllib Trackers
[http://core.tcl.tk/tcllib/reportlist]. Please also report any ideas for enhancements you
may have for either package and/or documentation.
KEYWORDS
SASL, authentication
CATEGORY
Networking
COPYRIGHT
Copyright (c) 2005-2006, Pat Thoyts <patthoyts@users.sourceforge.net>