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guix/gnu/system/mapped-devices.scm

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;;; GNU Guix --- Functional package management for GNU
;;; Copyright © 2014-2022 Ludovic Courtès <ludo@gnu.org>
;;; Copyright © 2016 Andreas Enge <andreas@enge.fr>
;;; Copyright © 2017, 2018 Mark H Weaver <mhw@netris.org>
;;; Copyright © 2024 Tomas Volf <~@wolfsden.cz>
;;;
;;; 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 system mapped-devices)
#:use-module (guix gexp)
#:use-module (guix records)
#:use-module ((guix modules) #:hide (file-name->module-name))
#:use-module (guix i18n)
#:use-module ((guix diagnostics)
#:select (source-properties->location
formatted-message
&fix-hint
&error-location))
#:use-module (guix deprecation)
#:use-module (gnu services)
#:use-module (gnu services shepherd)
#:use-module (gnu system uuid)
#:autoload (gnu build file-systems) (find-partition-by-luks-uuid)
#:autoload (gnu build linux-modules)
(missing-modules)
#:autoload (gnu packages cryptsetup) (cryptsetup-static)
#:autoload (gnu packages linux) (mdadm-static lvm2-static)
#:use-module (srfi srfi-1)
#:use-module (srfi srfi-26)
#:use-module (srfi srfi-34)
#:use-module (srfi srfi-35)
#:use-module (ice-9 match)
#:use-module (ice-9 format)
#:export (%mapped-device
mapped-device
mapped-device?
mapped-device-source
mapped-device-target
mapped-device-targets
mapped-device-type
mapped-device-location
mapped-device-kind
mapped-device-kind?
mapped-device-kind-open
mapped-device-kind-close
mapped-device-kind-check
device-mapping-service-type
device-mapping-service
check-device-initrd-modules ;XXX: needs a better place
luks-device-mapping
luks-device-mapping-with-options
raid-device-mapping
lvm-device-mapping))
;;; Commentary:
;;;
;;; This module supports "device mapping", a concept implemented by Linux's
;;; device-mapper.
;;;
;;; Code:
(define-record-type* <mapped-device> %mapped-device
make-mapped-device
mapped-device?
(source mapped-device-source) ;string | list of strings
(targets mapped-device-targets) ;list of strings
(type mapped-device-type) ;<mapped-device-kind>
(location mapped-device-location
(default (current-source-location)) (innate)))
(define-syntax mapped-device-compatibility-helper
(syntax-rules (target)
((_ () (fields ...))
(%mapped-device fields ...))
((_ ((target exp) rest ...) (others ...))
(%mapped-device others ...
(targets (list exp))
rest ...))
((_ (field rest ...) (others ...))
(mapped-device-compatibility-helper (rest ...)
(others ... field)))))
(define-syntax-rule (mapped-device fields ...)
"Build an <mapped-device> record, automatically converting 'target' field
specifications to 'targets'."
(mapped-device-compatibility-helper (fields ...) ()))
(define-deprecated (mapped-device-target md)
mapped-device-targets
(car (mapped-device-targets md)))
(define-record-type* <mapped-device-type> mapped-device-kind
make-mapped-device-kind
mapped-device-kind?
(open mapped-device-kind-open) ;source target -> gexp
(close mapped-device-kind-close ;source target -> gexp
(default (const #~(const #f))))
(check mapped-device-kind-check ;source -> Boolean
(default (const #t))))
;;;
;;; Device mapping as a Shepherd service.
;;;
(define device-mapping-service-type
(shepherd-service-type
'device-mapping
(match-lambda
(($ <mapped-device> source targets
($ <mapped-device-type> open close))
(shepherd-service
(provision (list (symbol-append 'device-mapping- (string->symbol (string-join targets "-")))))
(requirement '(udev))
(documentation "Map a device node using Linux's device mapper.")
(start #~(lambda () #$(open source targets)))
(stop #~(lambda _ (not #$(close source targets))))
(respawn? #f))))
(description "Map a device node using Linux's device mapper.")))
(define (device-mapping-service mapped-device)
"Return a service that sets up @var{mapped-device}."
(service device-mapping-service-type mapped-device))
;;;
;;; Static checks.
;;;
(define (check-device-initrd-modules device linux-modules location)
"Raise an error if DEVICE needs modules beyond LINUX-MODULES to operate.
DEVICE must be a \"/dev\" file name."
(define missing
;; Attempt to determine missing modules.
(catch 'system-error
(lambda ()
(missing-modules device linux-modules))
;; If we can't do that (e.g., EPERM), skip the whole thing.
(const '())))
(unless (null? missing)
;; Note: What we suggest here is a list of module names (e.g.,
;; "usb_storage"), not file names (e.g., "usb-storage.ko"). This is
;; OK because we have machinery that accepts both the hyphen and the
;; underscore version.
(raise (make-compound-condition
(formatted-message (G_ "you may need these modules \
in the initrd for ~a:~{ ~a~}")
device missing)
(condition
(&fix-hint
(hint (format #f (G_ "Try adding them to the
@code{initrd-modules} field of your @code{operating-system} declaration, along
these lines:
@example
(operating-system
;; @dots{}
(initrd-modules (append (list~{ ~s~})
%base-initrd-modules)))
@end example
If you think this diagnostic is inaccurate, use the @option{--skip-checks}
option of @command{guix system}.\n")
missing))))
(condition
(&error-location
(location (source-properties->location location))))))))
;;;
;;; Common device mappings.
;;;
(define* (open-luks-device source targets #:key key-file)
"Return a gexp that maps SOURCE to TARGET as a LUKS device, using
'cryptsetup'."
(with-imported-modules (source-module-closure
'((gnu build file-systems)
(guix build utils))) ;; For mkdir-p
(match targets
((target)
#~(let ((source #$(if (uuid? source)
(uuid-bytevector source)
source))
(keyfile #$key-file))
;; XXX: 'use-modules' should be at the top level.
(use-modules (rnrs bytevectors) ;bytevector?
((gnu build file-systems)
#:select (find-partition-by-luks-uuid
system*/tty))
((guix build utils) #:select (mkdir-p)))
;; Create '/run/cryptsetup/' if it does not exist, as device locking
;; is mandatory for LUKS2.
(mkdir-p "/run/cryptsetup/")
;; Use 'cryptsetup-static', not 'cryptsetup', to avoid pulling the
;; whole world inside the initrd (for when we're in an initrd).
;; 'cryptsetup open' requires standard input to be a tty to allow
;; for interaction but shepherd sets standard input to /dev/null;
;; thus, explicitly request a tty.
(let ((partition
;; Note: We cannot use the "UUID=source" syntax here
;; because 'cryptsetup' implements it by searching the
;; udev-populated /dev/disk/by-id directory but udev may
;; be unavailable at the time we run this.
(if (bytevector? source)
(or (let loop ((tries-left 10))
(and (positive? tries-left)
(or (find-partition-by-luks-uuid source)
;; If the underlying partition is
;; not found, try again after
;; waiting a second, up to ten
;; times. FIXME: This should be
;; dealt with in a more robust way.
(begin (sleep 1)
(loop (- tries-left 1))))))
(error "LUKS partition not found" source))
source)))
;; We want to fallback to the password unlock if the keyfile fails.
(or (and keyfile
(zero? (system*/tty
#$(file-append cryptsetup-static "/sbin/cryptsetup")
"open" "--type" "luks"
"--key-file" keyfile
partition #$target)))
(zero? (system*/tty
#$(file-append cryptsetup-static "/sbin/cryptsetup")
"open" "--type" "luks"
partition #$target)))))))))
(define (close-luks-device source targets)
"Return a gexp that closes TARGET, a LUKS device."
(match targets
((target)
#~(zero? (system* #$(file-append cryptsetup-static "/sbin/cryptsetup")
"close" #$target)))))
(define* (check-luks-device md #:key
needed-for-boot?
(initrd-modules '())
#:allow-other-keys
#:rest rest)
"Ensure the source of MD is valid."
(let ((source (mapped-device-source md))
(location (mapped-device-location md)))
(or (not (zero? (getuid)))
(if (uuid? source)
(match (find-partition-by-luks-uuid (uuid-bytevector source))
(#f
(raise (make-compound-condition
(formatted-message (G_ "no LUKS partition with UUID '~a'")
(uuid->string source))
(condition
(&error-location
(location (source-properties->location
(mapped-device-location md))))))))
((? string? device)
(check-device-initrd-modules device initrd-modules location)))
(check-device-initrd-modules source initrd-modules location)))))
(define luks-device-mapping
;; The type of LUKS mapped devices.
(mapped-device-kind
(open open-luks-device)
(close close-luks-device)
(check check-luks-device)))
(define* (luks-device-mapping-with-options #:key key-file)
"Return a luks-device-mapping object with open modified to pass the arguments
into the open-luks-device procedure."
(mapped-device-kind
(inherit luks-device-mapping)
(open (λ (source targets) (open-luks-device source targets
#:key-file key-file)))))
(define (open-raid-device sources targets)
"Return a gexp that assembles SOURCES (a list of devices) to the RAID device
TARGET (e.g., \"/dev/md0\"), using 'mdadm'."
(match targets
((target)
#~(let ((sources '#$sources)
;; XXX: We're not at the top level here. We could use a
;; non-top-level 'use-modules' form but that doesn't work when the
;; code is eval'd, like the Shepherd does.
(every (@ (srfi srfi-1) every))
(format (@ (ice-9 format) format)))
(let loop ((attempts 0))
(unless (every file-exists? sources)
(when (> attempts 20)
(error "RAID devices did not show up; bailing out"
sources))
(format #t "waiting for RAID source devices~{ ~a~}...~%"
sources)
(sleep 1)
(loop (+ 1 attempts))))
;; Use 'mdadm-static' rather than 'mdadm' to avoid pulling its whole
;; closure (80 MiB) in the initrd when a RAID device is needed for boot.
(zero? (apply system* #$(file-append mdadm-static "/sbin/mdadm")
"--assemble" #$target sources))))))
(define (close-raid-device sources targets)
"Return a gexp that stops the RAID device TARGET."
(match targets
((target)
#~(zero? (system* #$(file-append mdadm-static "/sbin/mdadm")
"--stop" #$target)))))
(define raid-device-mapping
;; The type of RAID mapped devices.
(mapped-device-kind
(open open-raid-device)
(close close-raid-device)))
(define (open-lvm-device source targets)
#~(and
(zero? (system* #$(file-append lvm2-static "/sbin/lvm")
"vgchange" "--activate" "ay" #$source))
; /dev/mapper nodes are usually created by udev, but udev may be unavailable at the time we run this. So we create them here.
(zero? (system* #$(file-append lvm2-static "/sbin/lvm")
"vgscan" "--mknodes"))
(every file-exists? (map (lambda (file) (string-append "/dev/mapper/" file))
'#$targets))))
(define (close-lvm-device source targets)
#~(zero? (system* #$(file-append lvm2-static "/sbin/lvm")
"vgchange" "--activate" "n" #$source)))
(define lvm-device-mapping
(mapped-device-kind
(open open-lvm-device)
(close close-lvm-device)))
;;; mapped-devices.scm ends here
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