doc: Document (gnu services configuration).

* guix.texi (Complex Configurations): New node.

Signed-off-by: Ludovic Courtès <ludo@gnu.org>
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Xinglu Chen 2021-12-18 16:12:38 +01:00 committed by Ludovic Courtès
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@ -383,6 +383,7 @@ Defining Services
* Service Types and Services:: Types and services. * Service Types and Services:: Types and services.
* Service Reference:: API reference. * Service Reference:: API reference.
* Shepherd Services:: A particular type of service. * Shepherd Services:: A particular type of service.
* Complex Configurations:: Defining bindings for complex configurations.
Installing Debugging Files Installing Debugging Files
@ -35690,6 +35691,7 @@ them in the first place? And what is a service anyway?
* Service Types and Services:: Types and services. * Service Types and Services:: Types and services.
* Service Reference:: API reference. * Service Reference:: API reference.
* Shepherd Services:: A particular type of service. * Shepherd Services:: A particular type of service.
* Complex Configurations:: Defining bindings for complex configurations.
@end menu @end menu
@node Service Composition @node Service Composition
@ -36423,6 +36425,376 @@ system:
This service represents PID@tie{}1. This service represents PID@tie{}1.
@end defvr @end defvr
@node Complex Configurations
@subsection Complex Configurations
@cindex complex configurations
Some programs might have rather complex configuration files or formats,
and to make it easier to create Scheme bindings for these configuration
files, you can use the utilities defined in the @code{(gnu services
configuration)} module.
The main utility is the @code{define-configuration} macro, which you
will use to define a Scheme record type (@pxref{Record Overview,,,
guile, GNU Guile Reference Manual}). The Scheme record will be
serialized to a configuration file by using @dfn{serializers}, which are
procedures that take some kind of Scheme value and returns a
G-expression (@pxref{G-Expressions}), which should, once serialized to
the disk, return a string. More details are listed below.
@deffn {Scheme Syntax} define-configuration @var{name} @var{clause1} @
@var{clause2} ...
Create a record type named @code{@var{name}} that contains the
fields found in the clauses.
A clause can have one of the following forms:
@example
(@var{field-name}
(@var{type} @var{default-value})
@var{documentation})
(@var{field-name}
(@var{type} @var{default-value})
@var{documentation}
@var{serializer})
(@var{field-name}
(@var{type})
@var{documentation})
(@var{field-name}
(@var{type})
@var{documentation}
@var{serializer})
@end example
@var{field-name} is an identifier that denotes the name of the field in
the generated record.
@var{type} is the type of the value corresponding to @var{field-name};
since Guile is untyped, a predicate
procedure---@code{@var{type}?}---will be called on the value
corresponding to the field to ensure that the value is of the correct
type. This means that if say, @var{type} is @code{package}, then a
procedure named @code{package?} will be applied on the value to make
sure that it is indeed a @code{<package>} object.
@var{default-value} is the default value corresponding to the field; if
none is specified, the user is forced to provide a value when creating
an object of the record type.
@c XXX: Should these be full sentences or are they allow to be very
@c short like package synopses?
@var{documentation} is a string formatted with Texinfo syntax which
should provide a description of what setting this field does.
@var{serializer} is the name of a procedure which takes two arguments,
the first is the name of the field, and the second is the value
corresponding to the field. The procedure should return a string or
G-expression (@pxref{G-Expressions}) that represents the content that
will be serialized to the configuration file. If none is specified, a
procedure of the name @code{serialize-@var{type}} will be used.
A simple serializer procedure could look like this:
@lisp
(define (serialize-boolean field-name value)
(let ((value (if value "true" "false")))
#~(string-append #$field-name #$value)))
@end lisp
In some cases multiple different configuration records might be defined
in the same file, but their serializers for the same type might have to
be different, because they have different configuration formats. For
example, the @code{serialize-boolean} procedure for the Getmail service
would have to be different for the one for the Transmission service. To
make it easier to deal with this situation, one can specify a serializer
prefix by using the @code{prefix} literal in the
@code{define-configuration} form. This means that one doesn't have to
manually specify a custom @var{serializer} for every field.
@lisp
(define (foo-serialize-string field-name value)
@dots{})
(define (bar-serialize-string field-name value)
@dots{})
(define-configuration foo-configuration
(label
(string)
"The name of label.")
(prefix foo-))
(define-configuration bar-configuration
(ip-address
(string)
"The IPv4 address for this device.")
(prefix bar-))
@end lisp
However, in some cases you might not want to serialize any of the values
of the record, to do this, you can use the @code{no-serialization}
literal. There is also the @code{define-configuration/no-serialization}
macro which is a shorthand of this.
@lisp
;; Nothing will be serialized to disk.
(define-configuration foo-configuration
(field
(string "test")
"Some documentation.")
(no-serialization))
;; The same thing as above.
(define-configuration/no-serialization bar-configuration
(field
(string "test")
"Some documentation."))
@end lisp
@end deffn
@deffn {Scheme Syntax} define-maybe @var{type}
Sometimes a field should not be serialized if the user doesnt specify a
value. To achieve this, you can use the @code{define-maybe} macro to
define a ``maybe type''; if the value of a maybe type is set to the
@code{disabled}, it will not be serialized.
When defining a ``maybe type'', the corresponding serializer for the
regular type will be used by default. For example, a field of type
@code{maybe-string} will be serialized using the @code{serialize-string}
procedure by default, you can of course change this by specifying a
custom serializer procedure. Likewise, the type of the value would have
to be a string, unless it is set to the @code{disabled} symbol.
@lisp
(define-maybe string)
(define (serialize-string field-name value)
@dots{})
(define-configuration baz-configuration
(name
;; Nothing will be serialized by default. If set to a string, the
;; `serialize-string' procedure will be used to serialize the string.
(maybe-string 'disabled)
"The name of this module."))
@end lisp
Like with @code{define-configuration}, one can set a prefix for the
serializer name by using the @code{prefix} literal.
@lisp
(define-maybe integer
(prefix baz-))
(define (baz-serialize-interger field-name value)
@dots{})
@end lisp
There is also the @code{no-serialization} literal, which when set means
that no serializer will be defined for the ``maybe type'', regardless of
its value is @code{disabled} or not.
@code{define-maybe/no-serialization} is a shorthand for specifying the
@code{no-serialization} literal.
@lisp
(define-maybe/no-serialization symbol)
(define-configuration/no-serialization test-configuration
(mode
(maybe-symbol 'disabled)
"Docstring."))
@end lisp
@end deffn
@deffn {Scheme Procedure} serialize-configuration @var{configuration} @
@var{fields}
Return a G-expression that contains the values corresponding to the
@var{fields} of @var{configuration}, a record that has been generated by
@code{define-configuration}. The G-expression can then be serialized to
disk by using something like @code{mixed-text-file}.
@end deffn
@deffn {Scheme Procedure} validate-configuration @var{configuration}
@var{fields}
Type-check @var{fields}, a list of field names of @var{configuration}, a
configuration record created by @code{define-configuration}.
@end deffn
@deffn {Scheme Procedure} empty-serializer @var{field-name} @var{value}
A serializer that just returns an empty string. The
@code{serialize-package} procedure is an alias for this.
@end deffn
Once you have defined a configuration record, you will most likely also
want to document it so that other people know to use it. To help with
that, there are two procedures, both of which are documented below.
@deffn {Scheme Procedure} generate-documentation @var{documentation} @
@var{documentation-name}
Generate a Texinfo fragment from the docstrings in @var{documentation},
a list of @code{(@var{label} @var{fields} @var{sub-documentation} ...)}.
@var{label} should be a symbol and should be the name of the
configuration record. @var{fields} should be a list of all the fields
available for the configuration record.
@var{sub-documentation} is a @code{(@var{field-name}
@var{configuration-name})} tuple. @var{field-name} is the name of the
field which takes another configuration record as its value, and
@var{configuration-name} is the name of that configuration record.
@var{sub-documentation} is only needed if there are nested configuration
records. For example, the @code{getmail-configuration} record
(@pxref{Mail Services}) accepts a @code{getmail-configuration-file}
record in one of its @code{rcfile} field, therefore documentation for
@code{getmail-configuration-file} is nested in
@code{getmail-configuration}.
@lisp
(generate-documentation
`((getmail-configuration ,getmail-configuration-fields
(rcfile getmail-configuration-file))
@dots{})
'getmail-configuration)
@end lisp
@var{documentation-name} should be a symbol and should be the name of
the configuration record.
@end deffn
@deffn {Scheme Procedure} configuration->documentation
@var{configuration-symbol}
Take @var{configuration-symbol}, the symbol corresponding to the name
used when defining a configuration record with
@code{define-configuration}, and print the Texinfo documentation of its
fields. This is useful if there arent any nested configuration records
since it only prints the documentation for the top-level fields.
@end deffn
As of right now, there is no automated way to generate documentation for
configuration records and put them in the manual. Instead, every
time you make a change to the docstrings of a configuration record, you
have to manually call @code{generate-documentation} or
@code{configuration->documentation}, and paste the output into the
@file{doc/guix.texi} file.
@c TODO: Actually test this
Below is an example of a record type created using
@code{define-configuration} and friends.
@lisp
(use-modules (gnu services)
(guix gexp)
(gnu services configuration)
(srfi srfi-26)
(srfi srfi-1))
;; Turn field names, which are Scheme symbols into strings
(define (uglify-field-name field-name)
(let ((str (symbol->string field-name)))
;; field? -> is-field
(if (string-suffix? "?" str)
(string-append "is-" (string-drop-right str 1))
str)))
(define (serialize-string field-name value)
#~(string-append #$(uglify-field-name field-name) " = " #$value "\n"))
(define (serialize-integer field-name value)
(serialize-string field-name (number->string value)))
(define (serialize-boolean field-name value)
(serialize-string field-name (if value "true" "false")))
(define (serialize-contact-name field-name value)
#~(string-append "\n[" #$value "]\n"))
(define (list-of-contact-configurations? lst)
(every contact-configuration? lst))
(define (serialize-list-of-contact-configurations field-name value)
#~(string-append #$@@(map (cut serialize-configuration <>
contact-configuration-fields)
value)))
(define (serialize-contacts-list-configuration configuration)
(mixed-text-file
"contactrc"
#~(string-append "[Owner]\n"
#$(serialize-configuration
configuration contacts-list-configuration-fields))))
(define-maybe integer)
(define-maybe string)
(define-configuration contact-configuration
(name
(string)
"The name of the contact."
serialize-contact-name)
(phone-number
(maybe-integer 'disabled)
"The person's phone number.")
(email
(maybe-string 'disabled)
"The person's email address.")
(married?
(boolean)
"Whether the person is married."))
(define-configuration contacts-list-configuration
(name
(string)
"The name of the owner of this contact list.")
(email
(string)
"The owner's email address.")
(contacts
(list-of-contact-configurations '())
"A list of @@code@{contact-configuation@} records which contain
information about all your contacts."))
@end lisp
A contacts list configuration could then be created like this:
@lisp
(define my-contacts
(contacts-list-configuration
(name "Alice")
(email "alice@@example.org")
(contacts
(list (contact-configuration
(name "Bob")
(phone-number 1234)
(email "bob@@gnu.org")
(married? #f))
(contact-configuration
(name "Charlie")
(phone-number 0000)
(married? #t))))))
@end lisp
After serializing the configuration to disk, the resulting file would
look like this:
@example
[owner]
name = Alice
email = alice@@example.org
[Bob]
phone-number = 1234
email = bob@@gnu.org
is-married = false
[Charlie]
phone-number = 0
is-married = true
@end example
@node Home Configuration @node Home Configuration
@chapter Home Configuration @chapter Home Configuration
@cindex home configuration @cindex home configuration