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\input texinfo @c -*-texinfo-*-
@comment %**start of header
@setfilename gnutls-guile.info
@include version-guile.texi
@settitle GnuTLS-Guile @value{VERSION}
@c don't indent the paragraphs.
@paragraphindent 0
@c Unify some of the indices.
@syncodeindex tp fn
@syncodeindex pg cp
@comment %**end of header
@finalout
@copying
This manual is last updated @value{UPDATED} for version
@value{VERSION} of GnuTLS.
Copyright @copyright{} 2001-2012 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, no Front-Cover Texts, and no Back-Cover Texts. A
copy of the license is included in the section entitled ``GNU Free
Documentation License''.
@end quotation
@end copying
@dircategory Software libraries
@direntry
* GnuTLS-Guile: (gnutls-guile). GNU Transport Layer Security Library. Guile bindings.
@end direntry
@titlepage
@title GnuTLS-Guile
@subtitle Guile binding for GNU TLS
@subtitle for version @value{VERSION}, @value{UPDATED}
@sp 7
@image{gnutls-logo,6cm,6cm}
@page
@vskip 0pt plus 1filll
@insertcopying
@end titlepage
@macro xcite{ref}
[\ref\] (@pxref{Bibliography})
@end macro
@contents
@ifnottex
@node Top
@top GnuTLS-Guile
@insertcopying
@end ifnottex
@menu
* Preface:: Preface.
* Guile Preparations:: Note on installation and environment.
* Guile API Conventions:: Naming conventions and other idiosyncrasies.
* Guile Examples:: Quick start.
* Guile Reference:: The Scheme GnuTLS programming interface.
* Copying Information:: Copying information.
@end menu
@node Preface
@chapter Preface
This manual describes the @uref{http://www.gnu.org/software/guile/,
GNU Guile} Scheme programming interface to GnuTLS. The reader is
assumed to have basic knowledge of the protocol and library. Details
missing from this chapter may be found in Function reference,
of the C API reference.
At this stage, not all the C functions are available from Scheme, but
a large subset thereof is available.
@c *********************************************************************
@node Guile Preparations
@chapter Guile Preparations
The GnuTLS Guile bindings are available for both the 1.8 and 2.0 stable
series of Guile.
By default they are installed under the GnuTLS installation directory,
typically @file{/usr/local/share/guile/site/}). Normally Guile
will not find the module there without help. You may experience
something like this:
@example
$ guile
guile> (use-modules (gnutls))
<unnamed port>: no code for module (gnutls)
guile>
@end example
There are two ways to solve this. The first is to make sure that when
building GnuTLS, the Guile bindings will be installed in the same
place where Guile looks. You may do this by using the
@code{--with-guile-site-dir} parameter as follows:
@example
$ ./configure --with-guile-site-dir=no
@end example
This will instruct GnuTLS to attempt to install the Guile bindings
where Guile will look for them. It will use @code{guile-config info
pkgdatadir} to learn the path to use.
If Guile was installed into @code{/usr}, you may also install GnuTLS
using the same prefix:
@example
$ ./configure --prefix=/usr
@end example
If you want to specify the path to install the Guile bindings you can
also specify the path directly:
@example
$ ./configure --with-guile-site-dir=/opt/guile/share/guile/site
@end example
The second solution requires some more work but may be easier to use
if you do not have system administrator rights to your machine. You
need to instruct Guile so that it finds the GnuTLS Guile bindings.
Either use the @code{GUILE_LOAD_PATH} environment variable as follows:
@example
$ GUILE_LOAD_PATH="/usr/local/share/guile/site:$GUILE_LOAD_PATH" guile
guile> (use-modules (gnutls))
guile>
@end example
Alternatively, you can modify Guile's @code{%load-path} variable
(@pxref{Build Config, Guile's run-time options,, guile, The GNU Guile
Reference Manual}).
At this point, you might get an error regarding
@file{libguile-gnutls-v-0} similar to:
@example
gnutls.scm:361:1: In procedure dynamic-link in expression (load-extension "libguile-gnutls-v-0" "scm_init_gnutls"):
gnutls.scm:361:1: file: "libguile-gnutls-v-0", message: "libguile-gnutls-v-0.so: cannot open shared object file: No such file or directory"
@end example
In this case, you will need to modify the run-time linker path, for
example as follows:
@example
$ LD_LIBRARY_PATH=/usr/local/lib GUILE_LOAD_PATH=/usr/local/share/guile/site guile
guile> (use-modules (gnutls))
guile>
@end example
To check that you got the intended GnuTLS library version, you may
print the version number of the loaded library as follows:
@example
$ guile
guile> (use-modules (gnutls))
guile> (gnutls-version)
"@value{VERSION}"
guile>
@end example
@c *********************************************************************
@node Guile API Conventions
@chapter Guile API Conventions
This chapter details the conventions used by Guile API, as well as
specificities of the mapping of the C API to Scheme.
@menu
* Enumerates and Constants:: Representation of C-side constants.
* Procedure Names:: Naming conventions.
* Representation of Binary Data:: Binary data buffers.
* Input and Output:: Input and output.
* Exception Handling:: Exceptions.
@end menu
@node Enumerates and Constants
@section Enumerates and Constants
@cindex enumerate
@cindex constant
Lots of enumerates and constants are used in the GnuTLS C API. For
each C enumerate type, a disjoint Scheme type is used---thus,
enumerate values and constants are not represented by Scheme symbols
nor by integers. This makes it impossible to use an enumerate value
of the wrong type on the Scheme side: such errors are automatically
detected by type-checking.
The enumerate values are bound to variables exported by the
@code{(gnutls)} module. These variables
are named according to the following convention:
@itemize
@item All variable names are lower-case; the underscore @code{_}
character used in the C API is replaced by hyphen @code{-}.
@item All variable names are prepended by the name of the enumerate
type and the slash @code{/} character.
@item In some cases, the variable name is made more explicit than the
one of the C API, e.g., by avoid abbreviations.
@end itemize
Consider for instance this C-side enumerate:
@example
typedef enum
@{
GNUTLS_CRD_CERTIFICATE = 1,
GNUTLS_CRD_ANON,
GNUTLS_CRD_SRP,
GNUTLS_CRD_PSK
@} gnutls_credentials_type_t;
@end example
The corresponding Scheme values are bound to the following variables
exported by the @code{(gnutls)} module:
@example
credentials/certificate
credentials/anonymous
credentials/srp
credentials/psk
@end example
Hopefully, most variable names can be deduced from this convention.
Scheme-side ``enumerate'' values can be compared using @code{eq?}
(@pxref{Equality, equality predicates,, guile, The GNU Guile Reference
Manual}). Consider the following example:
@findex session-cipher
@example
(let ((session (make-session connection-end/client)))
;;
;; ...
;;
;; Check the ciphering algorithm currently used by SESSION.
(if (eq? cipher/arcfour (session-cipher session))
(format #t "We're using the ARCFOUR algorithm")))
@end example
In addition, all enumerate values can be converted to a human-readable
string, in a type-specific way. For instance, @code{(cipher->string
cipher/arcfour)} yields @code{"ARCFOUR 128"}, while
@code{(key-usage->string key-usage/digital-signature)} yields
@code{"digital-signature"}. Note that these strings may not be
sufficient for use in a user interface since they are fairly concise
and not internationalized.
@node Procedure Names
@section Procedure Names
Unlike C functions in GnuTLS, the corresponding Scheme procedures are
named in a way that is close to natural English. Abbreviations are
also avoided. For instance, the Scheme procedure corresponding to
@code{gnutls_certificate_set_dh_params} is named
@code{set-certificate-credentials-dh-parameters!}. The @code{gnutls_}
prefix is always omitted from variable names since a similar effect
can be achieved using Guile's nifty binding renaming facilities,
should it be needed (@pxref{Using Guile Modules,,, guile, The GNU
Guile Reference Manual}).
Often Scheme procedure names differ from C function names in a way
that makes it clearer what objects they operate on. For example, the
Scheme procedure named @code{set-session-transport-port!} corresponds
to @code{gnutls_transport_set_ptr}, making it clear that this
procedure applies to session.
@node Representation of Binary Data
@section Representation of Binary Data
Many procedures operate on binary data. For instance,
@code{pkcs3-import-dh-parameters} expects binary data as input and,
similarly, procedures like @code{pkcs1-export-rsa-parameters} return
binary data.
@cindex SRFI-4
@cindex homogeneous vector
Binary data is represented on the Scheme side using SRFI-4 homogeneous
vectors (@pxref{SRFI-4,,, guile, The GNU Guile Reference Manual}).
Although any type of homogeneous vector may be used, @code{u8vector}s
(i.e., vectors of bytes) are highly recommended.
As an example, generating and then exporting RSA parameters in the PEM
format can be done as follows:
@findex make-rsa-parameters
@findex pkcs1-export-rsa-parameters
@vindex x509-certificate-format/pem
@example
(let* ((rsa-params (make-rsa-parameters 1024))
(raw-data
(pkcs1-export-rsa-parameters rsa-params
x509-certificate-format/pem)))
(uniform-vector-write raw-data (open-output-file "some-file.pem")))
@end example
For an example of OpenPGP key import from a file, see @ref{Importing
OpenPGP Keys Guile Example}.
@node Input and Output
@section Input and Output
@findex set-session-transport-port!
@findex set-session-transport-fd!
The underlying transport of a TLS session can be any Scheme
input/output port (@pxref{Ports and File Descriptors,,, guile, The GNU
Guile Reference Manual}). This has to be specified using
@code{set-session-transport-port!}.
However, for better performance, a raw file descriptor can be
specified, using @code{set-session-transport-fd!}. For instance, if
the transport layer is a socket port over an OS-provided socket, you
can use the @code{port->fdes} or @code{fileno} procedure to obtain the
underlying file descriptor and pass it to
@code{set-session-transport-fd!} (@pxref{Ports and File Descriptors,
@code{port->fdes} and @code{fileno},, guile, The GNU Guile Reference
Manual}). This would work as follows:
@example
(let ((socket (socket PF_INET SOCK_STREAM 0))
(session (make-session connection-end/client)))
;;
;; Establish a TCP connection...
;;
;; Use the file descriptor that underlies SOCKET.
(set-session-transport-fd! session (fileno socket)))
@end example
@findex session-record-port
Once a TLS session is established, data can be communicated through it
(i.e., @emph{via} the TLS record layer) using the port returned by
@code{session-record-port}:
@example
(let ((session (make-session connection-end/client)))
;;
;; Initialize the various parameters of SESSION, set up
;; a network connection, etc...
;;
(let ((i/o (session-record-port session)))
(write "Hello peer!" i/o)
(let ((greetings (read i/o)))
;; ...
(bye session close-request/rdwr))))
@end example
@findex record-send
@findex record-receive!
A lower-level I/O API is provided by @code{record-send} and
@code{record-receive!} which take an SRFI-4 vector to represent the
data sent or received. While it might improve performance, it is much
less convenient than the above and should rarely be needed.
@node Exception Handling
@section Exception Handling
@cindex exceptions
@cindex errors
@cindex @code{gnutls-error}
@findex error->string
GnuTLS errors are implemented as Scheme exceptions (@pxref{Exceptions,
exceptions in Guile,, guile, The GNU Guile Reference Manual}). Each
time a GnuTLS function returns an error, an exception with key
@code{gnutls-error} is raised. The additional arguments that are
thrown include an error code and the name of the GnuTLS procedure that
raised the exception. The error code is pretty much like an enumerate
value: it is one of the @code{error/} variables exported by the
@code{(gnutls)} module (@pxref{Enumerates and Constants}). Exceptions
can be turned into error messages using the @code{error->string}
procedure.
The following examples illustrates how GnuTLS exceptions can be
handled:
@example
(let ((session (make-session connection-end/server)))
;;
;; ...
;;
(catch 'gnutls-error
(lambda ()
(handshake session))
(lambda (key err function . currently-unused)
(format (current-error-port)
"a GnuTLS error was raised by `~a': ~a~%"
function (error->string err)))))
@end example
Again, error values can be compared using @code{eq?}:
@example
;; `gnutls-error' handler.
(lambda (key err function . currently-unused)
(if (eq? err error/fatal-alert-received)
(format (current-error-port)
"a fatal alert was caught!~%")
(format (current-error-port)
"something bad happened: ~a~%"
(error->string err))))
@end example
Note that the @code{catch} handler is currently passed only 3
arguments but future versions might provide it with additional
arguments. Thus, it must be prepared to handle more than 3 arguments,
as in this example.
@c *********************************************************************
@node Guile Examples
@chapter Guile Examples
This chapter provides examples that illustrate common use cases.
@menu
* Anonymous Authentication Guile Example:: Simplest client and server.
* OpenPGP Authentication Guile Example:: Using OpenPGP-based authentication.
* Importing OpenPGP Keys Guile Example:: Importing keys from files.
@end menu
@node Anonymous Authentication Guile Example
@section Anonymous Authentication Guile Example
@dfn{Anonymous authentication} is very easy to use. No certificates
are needed by the communicating parties. Yet, it allows them to
benefit from end-to-end encryption and integrity checks.
The client-side code would look like this (assuming @var{some-socket}
is bound to an open socket port):
@vindex connection-end/client
@vindex kx/anon-dh
@vindex close-request/rdwr
@example
;; Client-side.
(let ((client (make-session connection-end/client)))
;; Use the default settings.
(set-session-default-priority! client)
;; Don't use certificate-based authentication.
(set-session-certificate-type-priority! client '())
;; Request the "anonymous Diffie-Hellman" key exchange method.
(set-session-kx-priority! client (list kx/anon-dh))
;; Specify the underlying socket.
(set-session-transport-fd! client (fileno some-socket))
;; Create anonymous credentials.
(set-session-credentials! client
(make-anonymous-client-credentials))
;; Perform the TLS handshake with the server.
(handshake client)
;; Send data over the TLS record layer.
(write "hello, world!" (session-record-port client))
;; Terminate the TLS session.
(bye client close-request/rdwr))
@end example
The corresponding server would look like this (again, assuming
@var{some-socket} is bound to a socket port):
@vindex connection-end/server
@example
;; Server-side.
(let ((server (make-session connection-end/server)))
(set-session-default-priority! server)
(set-session-certificate-type-priority! server '())
(set-session-kx-priority! server (list kx/anon-dh))
;; Specify the underlying transport socket.
(set-session-transport-fd! server (fileno some-socket))
;; Create anonymous credentials.
(let ((cred (make-anonymous-server-credentials))
(dh-params (make-dh-parameters 1024)))
;; Note: DH parameter generation can take some time.
(set-anonymous-server-dh-parameters! cred dh-params)
(set-session-credentials! server cred))
;; Perform the TLS handshake with the client.
(handshake server)
;; Receive data over the TLS record layer.
(let ((message (read (session-record-port server))))
(format #t "received the following message: ~a~%"
message)
(bye server close-request/rdwr)))
@end example
This is it!
@node OpenPGP Authentication Guile Example
@section OpenPGP Authentication Guile Example
GnuTLS allows users to authenticate using OpenPGP certificates.
Using OpenPGP-based authentication is not more complicated than using
anonymous authentication. It requires a bit of extra work, though, to
import the OpenPGP public and private key of the client/server. Key
import is omitted here and is left as an exercise to the reader
(@pxref{Importing OpenPGP Keys Guile Example}).
Assuming @var{some-socket} is bound to an open socket port and
@var{pub} and @var{sec} are bound to the client's OpenPGP public and
secret key, respectively, client-side code would look like this:
@vindex certificate-type/openpgp
@example
;; Client-side.
(define %certs (list certificate-type/openpgp))
(let ((client (make-session connection-end/client))
(cred (make-certificate-credentials)))
(set-session-default-priority! client)
;; Choose OpenPGP certificates.
(set-session-certificate-type-priority! client %certs)
;; Prepare appropriate client credentials.
(set-certificate-credentials-openpgp-keys! cred pub sec)
(set-session-credentials! client cred)
;; Specify the underlying transport socket.
(set-session-transport-fd! client (fileno some-socket))
(handshake client)
(write "hello, world!" (session-record-port client))
(bye client close-request/rdwr))
@end example
Similarly, server-side code would be along these lines:
@example
;; Server-side.
(define %certs (list certificate-type/openpgp))
(let ((server (make-session connection-end/server))
(rsa (make-rsa-parameters 1024))
(dh (make-dh-parameters 1024)))
(set-session-default-priority! server)
;; Choose OpenPGP certificates.
(set-session-certificate-type-priority! server %certs)
(let ((cred (make-certificate-credentials)))
;; Prepare credentials with RSA and Diffie-Hellman parameters.
(set-certificate-credentials-dh-parameters! cred dh)
(set-certificate-credentials-rsa-export-parameters! cred rsa)
(set-certificate-credentials-openpgp-keys! cred pub sec)
(set-session-credentials! server cred))
(set-session-transport-fd! server (fileno some-socket))
(handshake server)
(let ((msg (read (session-record-port server))))
(format #t "received: ~a~%" msg)
(bye server close-request/rdwr)))
@end example
In practice, generating RSA parameters (and Diffie-Hellman parameters)
can time a long time. Thus, you may want to generate them once and
store them in a file for future re-use (@pxref{Guile Reference,
@code{pkcs1-export-rsa-parameters} and @code{pkcs1-import-rsa-parameters}}).
@node Importing OpenPGP Keys Guile Example
@section Importing OpenPGP Keys Guile Example
The following example provides a simple way of importing
``ASCII-armored'' OpenPGP keys from files, using the
@code{import-openpgp-certificate} and @code{import-openpgp-private-key}
procedures.
@vindex openpgp-certificate-format/base64
@vindex openpgp-certificate-format/raw
@example
(use-modules (srfi srfi-4)
(gnutls))
(define (import-key-from-file import-proc file)
;; Import OpenPGP key from FILE using IMPORT-PROC.
;; Prepare a u8vector large enough to hold the raw
;; key contents.
(let* ((size (stat:size (stat path)))
(raw (make-u8vector size)))
;; Fill in the u8vector with the contents of FILE.
(uniform-vector-read! raw (open-input-file file))
;; Pass the u8vector to the import procedure.
(import-proc raw openpgp-certificate-format/base64)))
(define (import-public-key-from-file file)
(import-key-from-file import-openpgp-certificate file))
(define (import-private-key-from-file file)
(import-key-from-file import-openpgp-private-key file))
@end example
The procedures @code{import-public-key-from-file} and
@code{import-private-key-from-file} can be passed a file name. They
return an OpenPGP public key and private key object, respectively
(@pxref{Guile Reference, OpenPGP key objects}).
@c *********************************************************************
@node Guile Reference
@chapter Guile Reference
This chapter lists the GnuTLS Scheme procedures exported by the
@code{(gnutls)} module (@pxref{The Guile module system,,, guile, The
GNU Guile Reference Manual}).
@include core.c.texi
@c Local Variables:
@c ispell-local-dictionary: "american"
@c End:
@include cha-copying.texi
@bye
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