guix/gnu/services.scm
Ludovic Courtès be7be9e8dd services: Move /tmp cleanup to a separate service.
* gnu/services.scm (compute-boot-script): Remove /tmp and /var/run
deletion code from here.
(cleanup-gexp): New procedure with /tmp and /var/run deletion code
formerly in 'compute-boot-script'.
(cleanup-service-type): New variable.
* gnu/system.scm (essential-services): Add an instance of
CLEANUP-SERVICE-TYPE.
2016-01-05 00:28:42 +01:00

585 lines
22 KiB
Scheme
Raw Blame History

This file contains invisible Unicode characters

This file contains invisible Unicode characters that are indistinguishable to humans but may be processed differently by a computer. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

;;; GNU Guix --- Functional package management for GNU
;;; Copyright © 2015, 2016 Ludovic Courtès <ludo@gnu.org>
;;;
;;; This file is part of GNU Guix.
;;;
;;; GNU Guix is free software; you can redistribute it and/or modify it
;;; under the terms of the GNU General Public License as published by
;;; the Free Software Foundation; either version 3 of the License, or (at
;;; your option) any later version.
;;;
;;; GNU Guix is distributed in the hope that it will be useful, but
;;; WITHOUT ANY WARRANTY; without even the implied warranty of
;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
;;; GNU General Public License for more details.
;;;
;;; You should have received a copy of the GNU General Public License
;;; along with GNU Guix. If not, see <http://www.gnu.org/licenses/>.
(define-module (gnu services)
#:use-module (guix gexp)
#:use-module (guix monads)
#:use-module (guix store)
#:use-module (guix records)
#:use-module (guix profiles)
#:use-module (guix sets)
#:use-module (guix ui)
#:use-module (gnu packages base)
#:use-module (gnu packages bash)
#:use-module (srfi srfi-1)
#:use-module (srfi srfi-9)
#:use-module (srfi srfi-9 gnu)
#:use-module (srfi srfi-26)
#:use-module (srfi srfi-34)
#:use-module (srfi srfi-35)
#:use-module (ice-9 vlist)
#:use-module (ice-9 match)
#:export (service-extension
service-extension?
service-type
service-type?
service-type-name
service-type-extensions
service-type-compose
service-type-extend
service
service?
service-kind
service-parameters
modify-services
service-back-edges
fold-services
service-error?
missing-target-service-error?
missing-target-service-error-service
missing-target-service-error-target-type
ambiguous-target-service-error?
ambiguous-target-service-error-service
ambiguous-target-service-error-target-type
system-service-type
boot-service-type
cleanup-service-type
activation-service-type
activation-service->script
%linux-bare-metal-service
etc-service-type
etc-directory
setuid-program-service-type
profile-service-type
firmware-service-type
%boot-service
%activation-service
etc-service
file-union)) ;XXX: for lack of a better place
;;; Comment:
;;;
;;; This module defines a broad notion of "service types" and "services."
;;;
;;; A service type describe how its instances extend instances of other
;;; service types. For instance, some services extend the instance of
;;; ACCOUNT-SERVICE-TYPE by providing it with accounts and groups to create;
;;; others extend DMD-ROOT-SERVICE-TYPE by passing it instances of
;;; <dmd-service>.
;;;
;;; When applicable, the service type defines how it can itself be extended,
;;; by providing one procedure to compose extensions, and one procedure to
;;; extend itself.
;;;
;;; A notable service type is SYSTEM-SERVICE-TYPE, which has a single
;;; instance, which is the root of the service DAG. Its value is the
;;; derivation that produces the 'system' directory as returned by
;;; 'operating-system-derivation'.
;;;
;;; The 'fold-services' procedure can be passed a list of procedures, which it
;;; "folds" by propagating extensions down the graph; it returns the root
;;; service after the applying all its extensions.
;;;
;;; Code:
(define-record-type <service-extension>
(service-extension target compute)
service-extension?
(target service-extension-target) ;<service-type>
(compute service-extension-compute)) ;params -> params
(define-record-type* <service-type> service-type make-service-type
service-type?
(name service-type-name) ;symbol (for debugging)
;; Things extended by services of this type.
(extensions service-type-extensions) ;list of <service-extensions>
;; Given a list of extensions, "compose" them.
(compose service-type-compose ;list of Any -> Any
(default #f))
;; Extend the services' own parameters with the extension composition.
(extend service-type-extend ;list of Any -> parameters
(default #f)))
(define (write-service-type type port)
(format port "#<service-type ~a ~a>"
(service-type-name type)
(number->string (object-address type) 16)))
(set-record-type-printer! <service-type> write-service-type)
;; Services of a given type.
(define-record-type <service>
(service type parameters)
service?
(type service-kind)
(parameters service-parameters))
(define-syntax %modify-service
(syntax-rules (=>)
((_ service)
service)
((_ svc (kind param => exp ...) clauses ...)
(if (eq? (service-kind svc) kind)
(let ((param (service-parameters svc)))
(service (service-kind svc)
(begin exp ...)))
(%modify-service svc clauses ...)))))
(define-syntax modify-services
(syntax-rules ()
"Modify the services listed in SERVICES according to CLAUSES. Each clause
must have the form:
(TYPE VARIABLE => BODY)
where TYPE is a service type, such as 'guix-service-type', and VARIABLE is an
identifier that is bound within BODY to the value of the service of that
TYPE. Consider this example:
(modify-services %base-services
(guix-service-type config =>
(guix-configuration
(inherit config)
(use-substitutes? #f)
(extra-options '(\"--gc-keep-derivations\"))))
(mingetty-service-type config =>
(mingetty-configuration
(inherit config)
(motd (plain-file \"motd\" \"Hi there!\")))))
It changes the configuration of the GUIX-SERVICE-TYPE instance, and that of
all the MINGETTY-SERVICE-TYPE instances.
This is a shorthand for (map (lambda (svc) ...) %base-services)."
((_ services clauses ...)
(map (lambda (service)
(%modify-service service clauses ...))
services))))
;;;
;;; Core services.
;;;
(define (system-derivation mentries mextensions)
"Return as a monadic value the derivation of the 'system' directory
containing the given entries."
(mlet %store-monad ((entries mentries)
(extensions (sequence %store-monad mextensions)))
(lower-object
(file-union "system"
(append entries (concatenate extensions))))))
(define system-service-type
;; This is the ultimate service type, the root of the service DAG. The
;; service of this type is extended by monadic name/item pairs. These items
;; end up in the "system directory" as returned by
;; 'operating-system-derivation'.
(service-type (name 'system)
(extensions '())
(compose identity)
(extend system-derivation)))
(define (compute-boot-script _ mexps)
(mlet %store-monad ((gexps (sequence %store-monad mexps)))
(gexp->file "boot"
;; Clean up and activate the system, then spawn dmd.
#~(begin #$@gexps))))
(define (boot-script-entry mboot)
"Return, as a monadic value, an entry for the boot script in the system
directory."
(mlet %store-monad ((boot mboot))
(return `(("boot" ,boot)))))
(define boot-service-type
;; The service of this type is extended by being passed gexps as monadic
;; values. It aggregates them in a single script, as a monadic value, which
;; becomes its 'parameters'. It is the only service that extends nothing.
(service-type (name 'boot)
(extensions
(list (service-extension system-service-type
boot-script-entry)))
(compose append)
(extend compute-boot-script)))
(define %boot-service
;; The service that produces the boot script.
(service boot-service-type #t))
(define (cleanup-gexp _)
"Return as a monadic value a gexp to clean up /tmp and similar places upon
boot."
(define %modules
'((guix build utils)))
(mlet %store-monad ((modules (imported-modules %modules))
(compiled (compiled-modules %modules)))
(return #~(begin
(eval-when (expand load eval)
;; Make sure 'use-modules' below succeeds.
(set! %load-path (cons #$modules %load-path))
(set! %load-compiled-path
(cons #$compiled %load-compiled-path)))
(use-modules (guix build utils))
;; Clean out /tmp and /var/run.
;;
;; XXX This needs to happen before service activations, so it
;; has to be here, but this also implicitly assumes that /tmp
;; and /var/run are on the root partition.
(false-if-exception (delete-file-recursively "/tmp"))
(false-if-exception (delete-file-recursively "/var/run"))
(false-if-exception (mkdir "/tmp"))
(false-if-exception (chmod "/tmp" #o1777))
(false-if-exception (mkdir "/var/run"))
(false-if-exception (chmod "/var/run" #o755))))))
(define cleanup-service-type
;; Service that cleans things up in /tmp and similar.
(service-type (name 'cleanup)
(extensions
(list (service-extension boot-service-type
cleanup-gexp)))))
(define* (file-union name files) ;FIXME: Factorize.
"Return a <computed-file> that builds a directory containing all of FILES.
Each item in FILES must be a list where the first element is the file name to
use in the new directory, and the second element is a gexp denoting the target
file."
(computed-file name
#~(begin
(mkdir #$output)
(chdir #$output)
#$@(map (match-lambda
((target source)
#~(symlink #$source #$target)))
files))))
(define (directory-union name things)
"Return a directory that is the union of THINGS."
(match things
((one)
;; Only one thing; return it.
one)
(_
(computed-file name
#~(begin
(use-modules (guix build union))
(union-build #$output '#$things))
#:modules '((guix build union))))))
(define* (activation-service->script service)
"Return as a monadic value the activation script for SERVICE, a service of
ACTIVATION-SCRIPT-TYPE."
(activation-script (service-parameters service)))
(define (activation-script gexps)
"Return the system's activation script, which evaluates GEXPS."
(define %modules
'((gnu build activation)
(gnu build linux-boot)
(gnu build linux-modules)
(gnu build file-systems)
(guix build utils)
(guix build syscalls)
(guix elf)))
(define (service-activations)
;; Return the activation scripts for SERVICES.
(mapm %store-monad
(cut gexp->file "activate-service" <>)
gexps))
(mlet* %store-monad ((actions (service-activations))
(modules (imported-modules %modules))
(compiled (compiled-modules %modules)))
(gexp->file "activate"
#~(begin
(eval-when (expand load eval)
;; Make sure 'use-modules' below succeeds.
(set! %load-path (cons #$modules %load-path))
(set! %load-compiled-path
(cons #$compiled %load-compiled-path)))
(use-modules (gnu build activation))
;; Make sure /bin/sh is valid and current.
(activate-/bin/sh
(string-append #$(canonical-package bash) "/bin/sh"))
;; Run the services' activation snippets.
;; TODO: Use 'load-compiled'.
(for-each primitive-load '#$actions)
;; Set up /run/current-system.
(activate-current-system)))))
(define (gexps->activation-gexp gexps)
"Return a gexp that runs the activation script containing GEXPS."
(mlet %store-monad ((script (activation-script gexps)))
(return #~(primitive-load #$script))))
(define (second-argument a b) b)
(define activation-service-type
(service-type (name 'activate)
(extensions
(list (service-extension boot-service-type
gexps->activation-gexp)))
(compose append)
(extend second-argument)))
(define %activation-service
;; The activation service produces the activation script from the gexps it
;; receives.
(service activation-service-type #t))
(define %modprobe-wrapper
;; Wrapper for the 'modprobe' command that knows where modules live.
;;
;; This wrapper is typically invoked by the Linux kernel ('call_modprobe',
;; in kernel/kmod.c), a situation where the 'LINUX_MODULE_DIRECTORY'
;; environment variable is not set---hence the need for this wrapper.
(let ((modprobe "/run/current-system/profile/bin/modprobe"))
(program-file "modprobe"
#~(begin
(setenv "LINUX_MODULE_DIRECTORY"
"/run/booted-system/kernel/lib/modules")
(apply execl #$modprobe
(cons #$modprobe (cdr (command-line))))))))
(define %linux-kernel-activation
;; Activation of the Linux kernel running on the bare metal (as opposed to
;; running in a container.)
#~(begin
;; Tell the kernel to use our 'modprobe' command.
(activate-modprobe #$%modprobe-wrapper)
;; Let users debug their own processes!
(activate-ptrace-attach)))
(define linux-bare-metal-service-type
(service-type (name 'linux-bare-metal)
(extensions
(list (service-extension activation-service-type
(const %linux-kernel-activation))))))
(define %linux-bare-metal-service
;; The service that does things that are needed on the "bare metal", but not
;; necessary or impossible in a container.
(service linux-bare-metal-service-type #f))
(define (etc-directory service)
"Return the directory for SERVICE, a service of type ETC-SERVICE-TYPE."
(files->etc-directory (service-parameters service)))
(define (files->etc-directory files)
(file-union "etc" files))
(define (etc-entry files)
"Return an entry for the /etc directory consisting of FILES in the system
directory."
(with-monad %store-monad
(return `(("etc" ,(files->etc-directory files))))))
(define etc-service-type
(service-type (name 'etc)
(extensions
(list
(service-extension activation-service-type
(lambda (files)
(let ((etc
(files->etc-directory files)))
#~(activate-etc #$etc))))
(service-extension system-service-type etc-entry)))
(compose concatenate)
(extend append)))
(define (etc-service files)
"Return a new service of ETC-SERVICE-TYPE that populates /etc with FILES.
FILES must be a list of name/file-like object pairs."
(service etc-service-type files))
(define setuid-program-service-type
(service-type (name 'setuid-program)
(extensions
(list (service-extension activation-service-type
(lambda (programs)
#~(activate-setuid-programs
(list #$@programs))))))
(compose concatenate)
(extend append)))
(define (packages->profile-entry packages)
"Return a system entry for the profile containing PACKAGES."
(mlet %store-monad ((profile (profile-derivation
(manifest (map package->manifest-entry
(delete-duplicates packages eq?))))))
(return `(("profile" ,profile)))))
(define profile-service-type
;; The service that populates the system's profile---i.e.,
;; /run/current-system/profile. It is extended by package lists.
(service-type (name 'profile)
(extensions
(list (service-extension system-service-type
packages->profile-entry)))
(compose concatenate)
(extend append)))
(define (firmware->activation-gexp firmware)
"Return a gexp to make the packages listed in FIRMWARE loadable by the
kernel."
(let ((directory (directory-union "firmware" firmware)))
;; Tell the kernel where firmware is.
#~(activate-firmware (string-append #$directory "/lib/firmware"))))
(define firmware-service-type
;; The service that collects firmware.
(service-type (name 'firmware)
(extensions
(list (service-extension activation-service-type
firmware->activation-gexp)))
(compose concatenate)
(extend append)))
;;;
;;; Service folding.
;;;
(define-condition-type &service-error &error
service-error?)
(define-condition-type &missing-target-service-error &service-error
missing-target-service-error?
(service missing-target-service-error-service)
(target-type missing-target-service-error-target-type))
(define-condition-type &ambiguous-target-service-error &service-error
ambiguous-target-service-error?
(service ambiguous-target-service-error-service)
(target-type ambiguous-target-service-error-target-type))
(define (service-back-edges services)
"Return a procedure that, when passed a <service>, returns the list of
<service> objects that depend on it."
(define (add-edges service edges)
(define (add-edge extension edges)
(let ((target-type (service-extension-target extension)))
(match (filter (lambda (service)
(eq? (service-kind service) target-type))
services)
((target)
(vhash-consq target service edges))
(()
(raise
(condition (&missing-target-service-error
(service service)
(target-type target-type))
(&message
(message
(format #f (_ "no target of type '~a' for service ~s")
(service-type-name target-type)
service))))))
(x
(raise
(condition (&ambiguous-target-service-error
(service service)
(target-type target-type))
(&message
(message
(format #f
(_ "more than one target service of type '~a'")
(service-type-name target-type))))))))))
(fold add-edge edges (service-type-extensions (service-kind service))))
(let ((edges (fold add-edges vlist-null services)))
(lambda (node)
(reverse (vhash-foldq* cons '() node edges)))))
(define* (fold-services services
#:key (target-type system-service-type))
"Fold SERVICES by propagating their extensions down to the root of type
TARGET-TYPE; return the root service adjusted accordingly."
(define dependents
(service-back-edges services))
(define (matching-extension target)
(let ((target (service-kind target)))
(match-lambda
(($ <service-extension> type)
(eq? type target)))))
(define (apply-extension target)
(lambda (service)
(match (find (matching-extension target)
(service-type-extensions (service-kind service)))
(($ <service-extension> _ compute)
(compute (service-parameters service))))))
(match (filter (lambda (service)
(eq? (service-kind service) target-type))
services)
((sink)
(let loop ((sink sink))
(let* ((dependents (map loop (dependents sink)))
(extensions (map (apply-extension sink) dependents))
(extend (service-type-extend (service-kind sink)))
(compose (service-type-compose (service-kind sink)))
(params (service-parameters sink)))
;; We distinguish COMPOSE and EXTEND because PARAMS typically has a
;; different type than the elements of EXTENSIONS.
(if extend
(service (service-kind sink)
(extend params (compose extensions)))
sink))))
(()
(raise
(condition (&missing-target-service-error
(service #f)
(target-type target-type))
(&message
(message (format #f (_ "service of type '~a' not found")
(service-type-name target-type)))))))
(x
(raise
(condition (&ambiguous-target-service-error
(service #f)
(target-type target-type))
(&message
(message
(format #f
(_ "more than one target service of type '~a'")
(service-type-name target-type)))))))))
;;; services.scm ends here.