mirror of
https://git.in.rschanz.org/ryan77627/guix.git
synced 2024-11-18 12:47:33 -05:00
348f0c61ef
* guix/cpio.scm (device-number, device->major+minor): Move to, and subsequently import from, … * guix/build/syscalls.scm (device-number, device-number->major+minor): …here. Note the slight name change. (mounts): Replace 16-bit open code with a DEVICE-NUMBER call. * gnu/build/linux-boot.scm (device-number): Remove duplicate 16-bit implementation in favour of the one above. (resume-if-hibernated): Reuse DEVICE-NUMBER->MAJOR+MINOR.
659 lines
26 KiB
Scheme
659 lines
26 KiB
Scheme
;;; GNU Guix --- Functional package management for GNU
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;;; Copyright © 2013, 2014, 2015, 2016, 2017, 2018, 2019, 2020 Ludovic Courtès <ludo@gnu.org>
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;;; Copyright © 2016, 2017, 2019–2021 Tobias Geerinckx-Rice <me@tobias.gr>
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;;; Copyright © 2017 Mathieu Othacehe <m.othacehe@gmail.com>
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;;; Copyright © 2019 Guillaume Le Vaillant <glv@posteo.net>
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;;;
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;;; This file is part of GNU Guix.
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;;;
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;;; GNU Guix is free software; you can redistribute it and/or modify it
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;;; under the terms of the GNU General Public License as published by
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;;; the Free Software Foundation; either version 3 of the License, or (at
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;;; your option) any later version.
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;;;
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;;; GNU Guix is distributed in the hope that it will be useful, but
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;;; WITHOUT ANY WARRANTY; without even the implied warranty of
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;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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;;; GNU General Public License for more details.
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;;;
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;;; You should have received a copy of the GNU General Public License
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;;; along with GNU Guix. If not, see <http://www.gnu.org/licenses/>.
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(define-module (gnu build linux-boot)
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#:use-module (rnrs io ports)
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#:use-module (system repl error-handling)
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#:autoload (system repl repl) (start-repl)
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#:use-module (srfi srfi-1)
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#:use-module (srfi srfi-9)
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#:use-module (srfi srfi-11)
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#:use-module (srfi srfi-26)
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#:use-module (ice-9 match)
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#:use-module (ice-9 rdelim)
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#:use-module (ice-9 regex)
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#:use-module (ice-9 ftw)
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#:use-module (guix build utils)
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#:use-module ((guix build syscalls)
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#:hide (file-system-type))
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#:use-module (gnu build linux-modules)
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#:use-module (gnu build file-systems)
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#:use-module (gnu system file-systems)
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#:export (mount-essential-file-systems
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linux-command-line
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find-long-option
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find-long-options
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make-essential-device-nodes
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make-static-device-nodes
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configure-qemu-networking
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boot-system))
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;;; Commentary:
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;;;
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;;; Utility procedures useful in a Linux initial RAM disk (initrd). Note that
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;;; many of these use procedures not yet available in vanilla Guile (`mount',
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;;; `load-linux-module', etc.); these are provided by a Guile patch used in
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;;; the GNU distribution.
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;;;
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;;; Code:
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(define* (mount-essential-file-systems #:key (root "/"))
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"Mount /dev, /proc, and /sys under ROOT."
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(define (scope dir)
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(string-append root
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(if (string-suffix? "/" root)
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""
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"/")
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dir))
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(unless (file-exists? (scope "proc"))
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(mkdir (scope "proc")))
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(mount "none" (scope "proc") "proc")
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(unless (file-exists? (scope "dev"))
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(mkdir (scope "dev")))
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(mount "none" (scope "dev") "devtmpfs")
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(unless (file-exists? (scope "sys"))
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(mkdir (scope "sys")))
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(mount "none" (scope "sys") "sysfs"))
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(define (move-essential-file-systems root)
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"Move currently mounted essential file systems to ROOT."
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(for-each (lambda (dir)
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(let ((target (string-append root dir)))
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(unless (file-exists? target)
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(mkdir target))
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(mount dir target "" MS_MOVE)))
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'("/dev" "/proc" "/sys")))
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(define (linux-command-line)
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"Return the Linux kernel command line as a list of strings."
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(string-tokenize
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(call-with-input-file "/proc/cmdline"
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get-string-all)))
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(define (find-long-option option arguments)
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"Find OPTION among ARGUMENTS, where OPTION is something like \"--load\".
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Return the value associated with OPTION, or #f on failure."
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(let ((opt (string-append option "=")))
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(and=> (find (cut string-prefix? opt <>)
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arguments)
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(lambda (arg)
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(substring arg (+ 1 (string-index arg #\=)))))))
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(define (find-long-options option arguments)
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"Find OPTIONs among ARGUMENTS, where OPTION is something like \"console\".
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Return the values associated with OPTIONs as a list, or the empty list if
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OPTION doesn't appear in ARGUMENTS."
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(let ((opt (string-append option "=")))
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(filter-map (lambda (arg)
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(and (string-prefix? opt arg)
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(substring arg (+ 1 (string-index arg #\=)))))
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arguments)))
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(define (resume-if-hibernated device)
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"Resume from hibernation if possible. This is safe ONLY if no on-disk file
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systems have been mounted; calling it later risks severe file system corruption!
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See <Documentation/swsusp.txt> in the kernel source directory. This is the
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caller's responsibility, as is catching exceptions if resumption was supposed to
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happen but didn't.
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Resume only from DEVICE if it's a string. If it's #f, use the kernel's default
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hibernation device (CONFIG_PM_STD_PARTITION). Never return if resumption
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succeeds. Return nothing otherwise. The kernel logs any details to dmesg."
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(define (string->major:minor string)
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"Return a string with MAJOR:MINOR numbers of the device specified by STRING"
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;; The "resume=" kernel command-line option always provides a string, which
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;; can represent a device, a UUID, or a label. Check for all three.
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(let* ((spec (cond ((string-prefix? "/" string) string)
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((uuid string) => identity)
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(else (file-system-label string))))
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;; XXX The kernel's swsusp_resume_can_resume() waits if ‘resumewait’
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;; is found on the command line; our canonicalize-device-spec gives
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;; up after 20 seconds. We could emulate the former by looping…
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(device (canonicalize-device-spec spec))
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(rdev (stat:rdev (stat device))))
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(let-values (((major minor) (device-number->major+minor rdev)))
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(format #f "~a:~a" major minor))))
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;; Write the resume DEVICE to this magic file, using the MAJOR:MINOR device
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;; numbers if possible. The kernel will immediately try to resume from it.
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(let ((resume "/sys/power/resume"))
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(when (file-exists? resume) ; this kernel supports hibernation
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;; Honour the kernel's default device (only) if none other was given.
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(let ((major:minor (if device
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(or (false-if-exception (string->major:minor
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device))
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;; We can't parse it. Maybe the kernel can.
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device)
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(let ((default (call-with-input-file resume
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read-line)))
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;; Don't waste time echoing 0:0 to /sys.
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(if (string=? "0:0" default)
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#f
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default)))))
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(when major:minor
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(call-with-output-file resume ; may throw an ‘Invalid argument’
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(cut display major:minor <>))))))) ; may never return
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(define* (make-disk-device-nodes base major #:optional (minor 0))
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"Make the block device nodes around BASE (something like \"/root/dev/sda\")
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with the given MAJOR number, starting with MINOR."
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(mknod base 'block-special #o644 (device-number major minor))
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(let loop ((i 1))
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(when (< i 16)
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(mknod (string-append base (number->string i))
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'block-special #o644 (device-number major (+ minor i)))
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(loop (+ i 1)))))
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;; Representation of a /dev node.
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(define-record-type <device-node>
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(device-node name type major minor module)
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device-node?
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(name device-node-name)
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(type device-node-type)
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(major device-node-major)
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(minor device-node-minor)
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(module device-node-module))
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(define (read-static-device-nodes port)
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"Read from PORT a list of <device-node> written in the format used by
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/lib/modules/*/*.devname files."
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(let loop ((line (read-line port)))
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(if (eof-object? line)
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'()
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(match (string-split line #\space)
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(((? (cut string-prefix? "#" <>)) _ ...)
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(loop (read-line port)))
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((module-name device-name device-spec)
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(let* ((device-parts
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(string-match "([bc])([0-9][0-9]*):([0-9][0-9]*)"
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device-spec))
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(type-string (match:substring device-parts 1))
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(type (match type-string
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("c" 'char-special)
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("b" 'block-special)))
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(major-string (match:substring device-parts 2))
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(major (string->number major-string 10))
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(minor-string (match:substring device-parts 3))
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(minor (string->number minor-string 10)))
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(cons (device-node device-name type major minor module-name)
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(loop (read-line port)))))
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(_
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(begin
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(format (current-error-port)
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"read-static-device-nodes: ignored devname line '~a'~%" line)
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(loop (read-line port))))))))
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(define* (mkdir-p* dir #:optional (mode #o755))
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"This is a variant of 'mkdir-p' that works around
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<http://bugs.gnu.org/24659> by passing MODE explicitly in each 'mkdir' call."
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(define absolute?
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(string-prefix? "/" dir))
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(define not-slash
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(char-set-complement (char-set #\/)))
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(let loop ((components (string-tokenize dir not-slash))
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(root (if absolute?
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""
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".")))
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(match components
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((head tail ...)
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(let ((path (string-append root "/" head)))
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(catch 'system-error
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(lambda ()
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(mkdir path mode)
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(loop tail path))
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(lambda args
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(if (= EEXIST (system-error-errno args))
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(loop tail path)
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(apply throw args))))))
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(() #t))))
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(define (report-system-error name . args)
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"Report a system error for the file NAME."
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(let ((errno (system-error-errno args)))
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(format (current-error-port) "could not create '~a': ~a~%" name
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(strerror errno))))
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;; Catch a system-error, log it and don't die from it.
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(define-syntax-rule (catch-system-error name exp)
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(catch 'system-error
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(lambda ()
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exp)
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(lambda args
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(apply report-system-error name args))))
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;; Create a device node like the <device-node> passed here on the file system.
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(define create-device-node
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(match-lambda
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(($ <device-node> xname type major minor module)
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(let ((name (string-append "/dev/" xname)))
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(mkdir-p* (dirname name))
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(catch-system-error name
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(mknod name type #o600 (device-number major minor)))))))
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(define* (make-static-device-nodes linux-release-module-directory)
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"Create static device nodes required by the given Linux release.
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This is required in order to solve a chicken-or-egg problem:
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The Linux kernel has a feature to autoload modules when a device is first
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accessed.
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And udev has a feature to set the permissions of static nodes correctly
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when it is starting up and also to automatically create nodes when hardware
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is hotplugged. That leaves universal device files which are not linked to
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one specific hardware device. These we have to create."
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(let ((devname-name (string-append linux-release-module-directory "/"
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"modules.devname")))
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(for-each create-device-node
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(call-with-input-file devname-name
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read-static-device-nodes))))
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(define* (make-essential-device-nodes #:optional (root "/"))
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"Make essential device nodes under ROOT/dev."
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;; The hand-made devtmpfs/udev!
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(define (scope dir)
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(string-append root
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(if (string-suffix? "/" root)
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""
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"/")
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dir))
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(unless (file-exists? (scope "dev"))
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(mkdir (scope "dev")))
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;; Make the device nodes for SCSI disks.
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(make-disk-device-nodes (scope "dev/sda") 8)
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(make-disk-device-nodes (scope "dev/sdb") 8 16)
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(make-disk-device-nodes (scope "dev/sdc") 8 32)
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(make-disk-device-nodes (scope "dev/sdd") 8 48)
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;; SCSI CD-ROM devices (aka. "/dev/sr0" etc.).
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(mknod (scope "dev/scd0") 'block-special #o644 (device-number 11 0))
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(mknod (scope "dev/scd1") 'block-special #o644 (device-number 11 1))
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;; The virtio (para-virtualized) block devices, as supported by QEMU/KVM.
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(make-disk-device-nodes (scope "dev/vda") 252)
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;; Memory (used by Xorg's VESA driver.)
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(mknod (scope "dev/mem") 'char-special #o640 (device-number 1 1))
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(mknod (scope "dev/kmem") 'char-special #o640 (device-number 1 2))
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;; Inputs (used by Xorg.)
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(unless (file-exists? (scope "dev/input"))
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(mkdir (scope "dev/input")))
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(mknod (scope "dev/input/mice") 'char-special #o640 (device-number 13 63))
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(mknod (scope "dev/input/mouse0") 'char-special #o640 (device-number 13 32))
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(mknod (scope "dev/input/event0") 'char-special #o640 (device-number 13 64))
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;; System console. This node is magically created by the kernel on the
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;; initrd's root, so don't try to create it in that case.
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(unless (string=? root "/")
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(mknod (scope "dev/console") 'char-special #o600
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(device-number 5 1)))
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;; TTYs.
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(mknod (scope "dev/tty") 'char-special #o600
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(device-number 5 0))
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(chmod (scope "dev/tty") #o666)
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(let loop ((n 0))
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(and (< n 50)
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(let ((name (format #f "dev/tty~a" n)))
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(mknod (scope name) 'char-special #o600
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(device-number 4 n))
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(loop (+ 1 n)))))
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;; Serial line.
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(mknod (scope "dev/ttyS0") 'char-special #o660
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(device-number 4 64))
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;; Pseudo ttys.
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(mknod (scope "dev/ptmx") 'char-special #o666
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(device-number 5 2))
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(chmod (scope "dev/ptmx") #o666)
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;; Create /dev/pts; it will be mounted later, at boot time.
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(unless (file-exists? (scope "dev/pts"))
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(mkdir (scope "dev/pts")))
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;; Rendez-vous point for syslogd.
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(mknod (scope "dev/log") 'socket #o666 0)
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(mknod (scope "dev/kmsg") 'char-special #o600 (device-number 1 11))
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;; Other useful nodes, notably relied on by guix-daemon.
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(for-each (match-lambda
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((file major minor)
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(mknod (scope file) 'char-special #o666
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(device-number major minor))
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(chmod (scope file) #o666)))
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'(("dev/null" 1 3)
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("dev/zero" 1 5)
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("dev/full" 1 7)
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("dev/random" 1 8)
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("dev/urandom" 1 9)))
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(symlink "/proc/self/fd" (scope "dev/fd"))
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(symlink "/proc/self/fd/0" (scope "dev/stdin"))
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(symlink "/proc/self/fd/1" (scope "dev/stdout"))
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(symlink "/proc/self/fd/2" (scope "dev/stderr"))
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;; Loopback devices.
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(let loop ((i 0))
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(when (< i 8)
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(mknod (scope (string-append "dev/loop" (number->string i)))
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'block-special #o660
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(device-number 7 i))
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(loop (+ 1 i))))
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;; File systems in user space (FUSE).
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(mknod (scope "dev/fuse") 'char-special #o666 (device-number 10 229)))
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(define %host-qemu-ipv4-address
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(inet-pton AF_INET "10.0.2.10"))
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(define* (configure-qemu-networking #:optional (interface "eth0"))
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"Setup the INTERFACE network interface and /etc/resolv.conf according to
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QEMU's default networking settings (see net/slirp.c in QEMU for default
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networking values.) Return #t if INTERFACE is up, #f otherwise."
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(display "configuring QEMU networking...\n")
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(let* ((sock (socket AF_INET SOCK_STREAM 0))
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(address (make-socket-address AF_INET %host-qemu-ipv4-address 0))
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(flags (network-interface-flags sock interface)))
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(set-network-interface-address sock interface address)
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(set-network-interface-flags sock interface (logior flags IFF_UP))
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(logand (network-interface-flags sock interface) IFF_UP)))
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(define (pidof program)
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"Return the PID of the first presumed instance of PROGRAM."
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(let ((program (basename program)))
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(find (lambda (pid)
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(let ((exe (format #f "/proc/~a/exe" pid)))
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(and=> (false-if-exception (readlink exe))
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(compose (cut string=? program <>) basename))))
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(filter-map string->number (scandir "/proc")))))
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(define* (mount-root-file-system root type
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#:key volatile-root? (flags 0) options
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check? skip-check-if-clean? repair)
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"Mount the root file system of type TYPE at device ROOT. If VOLATILE-ROOT? is
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true, mount ROOT read-only and make it an overlay with a writable tmpfs using
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the kernel built-in overlayfs. FLAGS and OPTIONS indicates the options to use
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to mount ROOT, and behave the same as for the `mount' procedure.
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If CHECK? is true, first run ROOT's fsck tool (if any) non-interactively.
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If SKIP-CHECK-IF-CLEAN? is true, ask fsck to return immediately if ROOT is
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marked as clean. If REPAIR is true, fsck may write to ROOT to perform repairs.
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If REPAIR is also 'PREEN, ask fsck to perform only those repairs that it
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considers safe."
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(if volatile-root?
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(begin
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(mkdir-p "/real-root")
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(mount root "/real-root" type (logior MS_RDONLY flags) options)
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(mkdir-p "/rw-root")
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(mount "none" "/rw-root" "tmpfs")
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;; Create the upperdir and the workdir of the overlayfs
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(mkdir-p "/rw-root/upper")
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(mkdir-p "/rw-root/work")
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;; We want read-write /dev nodes.
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(mkdir-p "/rw-root/upper/dev")
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(mount "none" "/rw-root/upper/dev" "devtmpfs")
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;; Make /root an overlay of the tmpfs and the actual root.
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(mount "none" "/root" "overlay" 0
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"lowerdir=/real-root,upperdir=/rw-root/upper,workdir=/rw-root/work"))
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(begin
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(when check?
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(check-file-system root type (not skip-check-if-clean?) repair))
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(mount root "/root" type flags options)))
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;; Make sure /root/etc/mtab is a symlink to /proc/self/mounts.
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(false-if-exception
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||
(delete-file "/root/etc/mtab"))
|
||
(mkdir-p "/root/etc")
|
||
(symlink "/proc/self/mounts" "/root/etc/mtab"))
|
||
|
||
(define (switch-root root)
|
||
"Switch to ROOT as the root file system, in a way similar to what
|
||
util-linux' switch_root(8) does."
|
||
(move-essential-file-systems root)
|
||
(chdir root)
|
||
|
||
;; Since we're about to 'rm -rf /', try to make sure we're on an initrd.
|
||
;; TODO: Use 'statfs' to check the fs type, like klibc does.
|
||
(when (or (not (file-exists? "/init")) (directory-exists? "/home"))
|
||
(format (current-error-port)
|
||
"The root file system is probably not an initrd; \
|
||
bailing out.~%root contents: ~s~%" (scandir "/"))
|
||
(force-output (current-error-port))
|
||
(exit 1))
|
||
|
||
;; Delete files from the old root, without crossing mount points (assuming
|
||
;; there are no mount points in sub-directories.) That means we're leaving
|
||
;; the empty ROOT directory behind us, but that's OK.
|
||
(let ((root-device (stat:dev (stat "/"))))
|
||
(for-each (lambda (file)
|
||
(unless (member file '("." ".."))
|
||
(let* ((file (string-append "/" file))
|
||
(device (stat:dev (lstat file))))
|
||
(when (= device root-device)
|
||
(delete-file-recursively file)))))
|
||
(scandir "/")))
|
||
|
||
;; Make ROOT the new root.
|
||
(mount root "/" "" MS_MOVE)
|
||
(chroot ".")
|
||
(chdir "/")
|
||
|
||
(when (file-exists? "/dev/console")
|
||
;; Close the standard file descriptors since they refer to the old
|
||
;; /dev/console, and reopen them.
|
||
(let ((console (open-file "/dev/console" "r+b0")))
|
||
(for-each close-fdes '(0 1 2))
|
||
|
||
(dup2 (fileno console) 0)
|
||
(dup2 (fileno console) 1)
|
||
(dup2 (fileno console) 2)
|
||
|
||
(close-port console))))
|
||
|
||
|
||
(define* (boot-system #:key
|
||
(linux-modules '())
|
||
linux-module-directory
|
||
keymap-file
|
||
qemu-guest-networking?
|
||
volatile-root?
|
||
pre-mount
|
||
(mounts '())
|
||
(on-error 'debug))
|
||
"This procedure is meant to be called from an initrd. Boot a system by
|
||
first loading LINUX-MODULES (a list of module names) from
|
||
LINUX-MODULE-DIRECTORY, then installing KEYMAP-FILE with 'loadkeys' (if
|
||
KEYMAP-FILE is true), then setting up QEMU guest networking if
|
||
QEMU-GUEST-NETWORKING? is true, calling PRE-MOUNT, mounting the file systems
|
||
specified in MOUNTS, and finally booting into the new root if any. The initrd
|
||
supports kernel command-line options '--load', '--root', and '--repl'.
|
||
|
||
Mount the root file system, specified by the '--root' command-line argument,
|
||
if any.
|
||
|
||
MOUNTS must be a list of <file-system> objects.
|
||
|
||
When VOLATILE-ROOT? is true, the root file system is writable but any changes
|
||
to it are lost.
|
||
|
||
ON-ERROR is passed to 'call-with-error-handling'; it determines what happens
|
||
upon error."
|
||
(define (root-mount-point? fs)
|
||
(string=? (file-system-mount-point fs) "/"))
|
||
|
||
(define (device-string->file-system-device device-string)
|
||
;; The "--root=SPEC" kernel command-line option always provides a
|
||
;; string, but the string can represent a device, an nfs-root, a UUID, or a
|
||
;; label. So check for all four.
|
||
(cond ((string-prefix? "/" device-string) device-string)
|
||
((string-contains device-string ":/") device-string) ; nfs-root
|
||
((uuid device-string) => identity)
|
||
(else (file-system-label device-string))))
|
||
|
||
(display "Welcome, this is GNU's early boot Guile.\n")
|
||
(display "Use '--repl' for an initrd REPL.\n\n")
|
||
|
||
(call-with-error-handling
|
||
(lambda ()
|
||
(mount-essential-file-systems)
|
||
(let* ((args (linux-command-line))
|
||
(to-load (find-long-option "--load" args))
|
||
;; If present, ‘--root’ on the kernel command line takes precedence
|
||
;; over the ‘device’ field of the root <file-system> record.
|
||
(root-device (and=> (find-long-option "--root" args)
|
||
device-string->file-system-device))
|
||
(root-fs (or (find root-mount-point? mounts)
|
||
;; Fall back to fictitious defaults.
|
||
(file-system (device (or root-device "/dev/root"))
|
||
(mount-point "/")
|
||
(type "ext4"))))
|
||
(fsck.mode (find-long-option "fsck.mode" args)))
|
||
|
||
(define (check? fs)
|
||
(match fsck.mode
|
||
("skip" #f)
|
||
("force" #t)
|
||
(_ (file-system-check? fs)))) ; assume "auto"
|
||
|
||
(define (skip-check-if-clean? fs)
|
||
(match fsck.mode
|
||
("force" #f)
|
||
(_ (file-system-skip-check-if-clean? fs))))
|
||
|
||
(define (repair fs)
|
||
(let ((arg (find-long-option "fsck.repair" args)))
|
||
(if arg
|
||
(match arg
|
||
("no" #f)
|
||
("yes" #t)
|
||
(_ 'preen))
|
||
(file-system-repair fs))))
|
||
|
||
(when (member "--repl" args)
|
||
(start-repl))
|
||
|
||
(display "loading kernel modules...\n")
|
||
(load-linux-modules-from-directory linux-modules
|
||
linux-module-directory)
|
||
|
||
(unless (or (member "hibernate=noresume" args)
|
||
;; Also handle the equivalent old-style argument.
|
||
;; See Documentation/admin-guide/kernel-parameters.txt.
|
||
(member "noresume" args))
|
||
;; Try to resume immediately after loading (storage) modules
|
||
;; but before any on-disk file systems have been mounted.
|
||
(false-if-exception ; failure is not fatal
|
||
(resume-if-hibernated (find-long-option "resume" args))))
|
||
|
||
(when keymap-file
|
||
(let ((status (system* "loadkeys" keymap-file)))
|
||
(unless (zero? status)
|
||
;; Emit a warning rather than abort when we cannot load
|
||
;; KEYMAP-FILE.
|
||
(format (current-error-port)
|
||
"warning: 'loadkeys' exited with status ~a~%"
|
||
status))))
|
||
|
||
(when qemu-guest-networking?
|
||
(unless (configure-qemu-networking)
|
||
(display "network interface is DOWN\n")))
|
||
|
||
;; A big ugly hammer, to be used only for debugging and in desperate
|
||
;; situations where no proper device synchonisation is possible.
|
||
(let ((root-delay (and=> (find-long-option "rootdelay" args)
|
||
string->number)))
|
||
(when root-delay
|
||
(format #t
|
||
"Pausing for rootdelay=~a seconds before mounting the root file system...\n"
|
||
root-delay)
|
||
(sleep root-delay)))
|
||
|
||
;; Prepare the real root file system under /root.
|
||
(unless (file-exists? "/root")
|
||
(mkdir "/root"))
|
||
|
||
(when (procedure? pre-mount)
|
||
;; Do whatever actions are needed before mounting the root file
|
||
;; system--e.g., installing device mappings. Error out when the
|
||
;; return value is false.
|
||
(unless (pre-mount)
|
||
(error "pre-mount actions failed")))
|
||
|
||
(setenv "EXT2FS_NO_MTAB_OK" "1")
|
||
|
||
(if root-device
|
||
(mount-root-file-system (canonicalize-device-spec root-device)
|
||
(file-system-type root-fs)
|
||
#:volatile-root? volatile-root?
|
||
#:flags (mount-flags->bit-mask
|
||
(file-system-flags root-fs))
|
||
#:options (file-system-options root-fs)
|
||
#:check? (check? root-fs)
|
||
#:skip-check-if-clean?
|
||
(skip-check-if-clean? root-fs)
|
||
#:repair (repair root-fs))
|
||
(mount "none" "/root" "tmpfs"))
|
||
|
||
;; Mount the specified non-root file systems.
|
||
(for-each (lambda (fs)
|
||
(mount-file-system fs
|
||
#:check? (check? fs)
|
||
#:skip-check-if-clean?
|
||
(skip-check-if-clean? fs)
|
||
#:repair (repair fs)))
|
||
(remove root-mount-point? mounts))
|
||
|
||
(setenv "EXT2FS_NO_MTAB_OK" #f)
|
||
|
||
(if to-load
|
||
(begin
|
||
(switch-root "/root")
|
||
(format #t "loading '~a'...\n" to-load)
|
||
|
||
(primitive-load to-load)
|
||
|
||
(format (current-error-port)
|
||
"boot program '~a' terminated, rebooting~%"
|
||
to-load)
|
||
(sleep 2)
|
||
(reboot))
|
||
(begin
|
||
(display "no boot file passed via '--load'\n")
|
||
(display "entering a warm and cozy REPL\n")
|
||
(start-repl)))))
|
||
#:on-error on-error))
|
||
|
||
;;; linux-boot.scm ends here
|