;;; GNU Guix --- Functional package management for GNU ;;; Copyright © 2013, 2014, 2015, 2016, 2017, 2018, 2019, 2020 Ludovic Courtès <ludo@gnu.org> ;;; Copyright © 2016 Christopher Allan Webber <cwebber@dustycloud.org> ;;; Copyright © 2016, 2017 Leo Famulari <leo@famulari.name> ;;; Copyright © 2017 Mathieu Othacehe <m.othacehe@gmail.com> ;;; Copyright © 2017 Marius Bakke <mbakke@fastmail.com> ;;; Copyright © 2018 Chris Marusich <cmmarusich@gmail.com> ;;; Copyright © 2020 Tobias Geerinckx-Rice <me@tobias.gr> ;;; ;;; 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 build vm) #:use-module (guix build utils) #:use-module (guix build store-copy) #:use-module (guix build syscalls) #:use-module (guix store database) #:use-module (gnu build bootloader) #:use-module (gnu build linux-boot) #:use-module (gnu build install) #:use-module (gnu system uuid) #:use-module (guix records) #:use-module ((guix combinators) #:select (fold2)) #:use-module (ice-9 format) #:use-module (ice-9 ftw) #:use-module (ice-9 match) #:use-module (ice-9 regex) #:use-module (ice-9 popen) #:use-module (srfi srfi-1) #:use-module (srfi srfi-9) #:use-module (srfi srfi-19) #:use-module (srfi srfi-26) #:export (qemu-command load-in-linux-vm format-partition partition partition? partition-device partition-size partition-file-system partition-label partition-flags partition-initializer estimated-partition-size root-partition-initializer initialize-partition-table initialize-hard-disk)) ;;; Commentary: ;;; ;;; This module provides supporting code to run virtual machines and build ;;; virtual machine images using QEMU. ;;; ;;; Code: (define* (qemu-command #:optional (system %host-type)) "Return the default name of the QEMU command for SYSTEM." (let ((cpu (substring system 0 (string-index system #\-)))) (string-append "qemu-system-" (cond ((string-match "^i[3456]86$" cpu) "i386") ((string-match "armhf" cpu) "arm") (else cpu))))) (define* (load-in-linux-vm builder #:key output (qemu (qemu-command)) (memory-size 512) linux initrd make-disk-image? single-file-output? (disk-image-size (* 100 (expt 2 20))) (disk-image-format "qcow2") (references-graphs '())) "Run BUILDER, a Scheme file, into a VM running LINUX with INITRD, and copy the result to OUTPUT. If SINGLE-FILE-OUTPUT? is true, copy a single file from /xchg to OUTPUT. Otherwise, copy the contents of /xchg to a new directory OUTPUT. When MAKE-DISK-IMAGE? is true, OUTPUT will contain a VM image of DISK-IMAGE-SIZE bytes resulting from the execution of BUILDER, which may access it via /dev/hda. REFERENCES-GRAPHS can specify a list of reference-graph files as produced by the #:references-graphs parameter of 'derivation'." (define target-arm32? (string-prefix? "arm-" %host-type)) (define target-aarch64? (string-prefix? "aarch64-" %host-type)) (define target-arm? (or target-arm32? target-aarch64?)) (define arch-specific-flags `(;; On ARM, a machine has to be specified. Use "virt" machine to avoid ;; hardware limits imposed by other machines. ,@(if target-arm? '("-M" "virt") '()) ;; On ARM32, if the kernel is built without LPAE support, ECAM conflicts ;; with VIRT_PCIE_MMIO causing PCI devices not to show up. Disable ;; explicitely highmem to fix it. ;; See: https://bugs.launchpad.net/qemu/+bug/1790975. ,@(if target-arm32? '("-machine" "highmem=off") '()) ;; Only enable kvm if we see /dev/kvm exists. This allows users without ;; hardware virtualization to still use these commands. KVM support is ;; still buggy on some ARM boards. Do not use it even if available. ,@(if (and (file-exists? "/dev/kvm") (not target-arm?)) '("-enable-kvm") '()) ;; Pass "panic=1" so that the guest dies upon error. "-append" ,(string-append "panic=1 --load=" builder ;; The serial port name differs between emulated ;; architectures/machines. " console=" (if target-arm? "ttyAMA0" "ttyS0")))) (when make-disk-image? (format #t "creating ~a image of ~,2f MiB...~%" disk-image-format (/ disk-image-size (expt 2 20))) (force-output) (invoke "qemu-img" "create" "-f" disk-image-format output (number->string disk-image-size))) (mkdir "xchg") (mkdir "tmp") (match references-graphs ((graph-files ...) ;; Copy the reference-graph files under xchg/ so EXP can access it. (map (lambda (file) (copy-file file (string-append "xchg/" file))) graph-files)) (_ #f)) (apply invoke qemu "-nographic" "-no-reboot" ;; CPU "max" behaves as "host" when KVM is enabled, and like a system ;; CPU with the maximum possible feature set otherwise. "-cpu" "max" "-m" (number->string memory-size) "-nic" "user,model=virtio-net-pci" "-object" "rng-random,filename=/dev/urandom,id=guix-vm-rng" "-device" "virtio-rng-pci,rng=guix-vm-rng" "-virtfs" (string-append "local,id=store_dev,path=" (%store-directory) ",security_model=none,mount_tag=store") "-virtfs" (string-append "local,id=xchg_dev,path=xchg" ",security_model=none,mount_tag=xchg") "-virtfs" ;; Some programs require more space in /tmp than is normally ;; available in the guest. Accommodate such programs by sharing a ;; temporary directory. (string-append "local,id=tmp_dev,path=tmp" ",security_model=none,mount_tag=tmp") "-kernel" linux "-initrd" initrd (append (if make-disk-image? `("-device" "virtio-blk,drive=myhd" "-drive" ,(string-append "if=none,file=" output ",format=" disk-image-format ",id=myhd")) '()) arch-specific-flags)) (unless (file-exists? "xchg/.exit-status") (error "VM did not produce an exit code")) (match (call-with-input-file "xchg/.exit-status" read) (0 #t) (status (error "guest VM code exited with a non-zero status" status))) (delete-file "xchg/.exit-status") ;; When MAKE-DISK-IMAGE? is true, the image is in OUTPUT already. (unless make-disk-image? (if single-file-output? (let ((graph? (lambda (name stat) (member (basename name) references-graphs)))) (match (find-files "xchg" (negate graph?)) ((result) (copy-file result output)) (x (error "did not find a single result file" x)))) (begin (mkdir output) (copy-recursively "xchg" output))))) (define* (register-closure prefix closure #:key (deduplicate? #t) (reset-timestamps? #t) (schema (sql-schema))) "Register CLOSURE in PREFIX, where PREFIX is the directory name of the target store and CLOSURE is the name of a file containing a reference graph as produced by #:references-graphs.. As a side effect, if RESET-TIMESTAMPS? is true, reset timestamps on store files and, if DEDUPLICATE? is true, deduplicates files common to CLOSURE and the rest of PREFIX." (let ((items (call-with-input-file closure read-reference-graph))) (parameterize ((sql-schema schema)) (with-database (store-database-file #:prefix prefix) db (register-items db items #:prefix prefix #:deduplicate? deduplicate? #:reset-timestamps? reset-timestamps? #:registration-time %epoch))))) ;;; ;;; Partitions. ;;; (define-record-type* <partition> partition make-partition partition? (device partition-device (default #f)) (size partition-size) (file-system partition-file-system (default "ext4")) (file-system-options partition-file-system-options ;passed to 'mkfs.FS' (default '())) (label partition-label (default #f)) (uuid partition-uuid (default #f)) (flags partition-flags (default '())) (initializer partition-initializer (default (const #t)))) (define (estimated-partition-size graphs) "Return the estimated size of a partition that can store the store items given by GRAPHS, a list of file names produced by #:references-graphs." ;; Simply add a 25% overhead. (round (* 1.25 (closure-size graphs)))) (define* (initialize-partition-table device partitions #:key (label-type "msdos") (offset (expt 2 20))) "Create on DEVICE a partition table of type LABEL-TYPE, containing the given PARTITIONS (a list of <partition> objects), starting at OFFSET bytes. On success, return PARTITIONS with their 'device' field changed to reflect their actual /dev name based on DEVICE." (define (partition-options part offset index) (cons* "mkpart" "primary" "ext2" (format #f "~aB" offset) (format #f "~aB" (+ offset (partition-size part))) (append-map (lambda (flag) (list "set" (number->string index) (symbol->string flag) "on")) (partition-flags part)))) (define (options partitions offset) (let loop ((partitions partitions) (offset offset) (index 1) (result '())) (match partitions (() (concatenate (reverse result))) ((head tail ...) (loop tail ;; Leave one sector (512B) between partitions to placate ;; Parted. (+ offset 512 (partition-size head)) (+ 1 index) (cons (partition-options head offset index) result)))))) (format #t "creating partition table with ~a partitions (~a)...\n" (length partitions) (string-join (map (compose (cut string-append <> " MiB") number->string (lambda (size) (round (/ size (expt 2. 20)))) partition-size) partitions) ", ")) (apply invoke "parted" "--script" device "mklabel" label-type (options partitions offset)) ;; Set the 'device' field of each partition. (reverse (fold2 (lambda (part result index) (values (cons (partition (inherit part) (device (string-append device (number->string index)))) result) (+ 1 index))) '() 1 partitions))) (define MS_BIND 4096) ; <sys/mounts.h> again! (define* (create-ext-file-system partition type #:key label uuid (options '())) "Create an ext-family file system of TYPE on PARTITION. If LABEL is true, use that as the volume name. If UUID is true, use it as the partition UUID." (format #t "creating ~a partition... ~@[label: ~s~] ~@[uuid: ~s~]\n" type label (and uuid (uuid->string uuid))) (apply invoke (string-append "mkfs." type) "-F" partition `(,@(if label `("-L" ,label) '()) ,@(if uuid `("-U" ,(uuid->string uuid)) '()) ,@options))) (define* (create-fat-file-system partition #:key label uuid (options '())) "Create a FAT file system on PARTITION. The number of File Allocation Tables will be determined based on file system size. If LABEL is true, use that as the volume name." ;; FIXME: UUID is ignored! (format #t "creating FAT partition...\n") (apply invoke "mkfs.fat" partition (append (if label `("-n" ,label) '()) options))) (define* (format-partition partition type #:key label uuid (options '())) "Create a file system TYPE on PARTITION. If LABEL is true, use that as the volume name. Options is a list of command-line options passed to 'mkfs.FS'." (cond ((string-prefix? "ext" type) (create-ext-file-system partition type #:label label #:uuid uuid #:options options)) ((or (string-prefix? "fat" type) (string= "vfat" type)) (create-fat-file-system partition #:label label #:uuid uuid #:options options)) (else (error "Unsupported file system.")))) (define (initialize-partition partition) "Format PARTITION, a <partition> object with a non-#f 'device' field, mount it, run its initializer, and unmount it." (let ((target "/fs")) (format-partition (partition-device partition) (partition-file-system partition) #:label (partition-label partition) #:uuid (partition-uuid partition) #:options (partition-file-system-options partition)) (mkdir-p target) (mount (partition-device partition) target (partition-file-system partition)) ((partition-initializer partition) target) (umount target) partition)) (define* (root-partition-initializer #:key (closures '()) copy-closures? (register-closures? #t) system-directory (deduplicate? #t) (make-device-nodes make-essential-device-nodes) (extra-directives '())) "Return a procedure to initialize a root partition. If REGISTER-CLOSURES? is true, register all of CLOSURES in the partition's store. If DEDUPLICATE? is true, then also deduplicate files common to CLOSURES and the rest of the store when registering the closures. If COPY-CLOSURES? is true, copy all of CLOSURES to the partition. SYSTEM-DIRECTORY is the name of the directory of the 'system' derivation. EXTRA-DIRECTIVES is an optional list of directives to populate the root file system that is passed to 'populate-root-file-system'." (lambda (target) (define target-store (string-append target (%store-directory))) (when copy-closures? ;; Populate the store. (populate-store (map (cut string-append "/xchg/" <>) closures) target)) ;; Populate /dev. (make-device-nodes target) ;; Optionally, register the inputs in the image's store. (when register-closures? (unless copy-closures? ;; XXX: 'register-closure' wants to palpate the things it registers, so ;; bind-mount the store on the target. (mkdir-p target-store) (mount (%store-directory) target-store "" MS_BIND)) (display "registering closures...\n") (for-each (lambda (closure) (register-closure target (string-append "/xchg/" closure) #:reset-timestamps? copy-closures? #:deduplicate? deduplicate?)) closures) (unless copy-closures? (umount target-store))) ;; Add the non-store directories and files. (display "populating...\n") (populate-root-file-system system-directory target #:extras extra-directives) ;; 'register-closure' resets timestamps and everything, so no need to do it ;; once more in that case. (unless register-closures? ;; 'reset-timestamps' also resets file permissions; do that everywhere ;; except on /dev so that /dev/null remains writable, etc. (for-each (lambda (directory) (reset-timestamps (string-append target "/" directory))) (scandir target (match-lambda ((or "." ".." "dev") #f) (_ #t)))) (reset-timestamps (string-append target "/dev") #:preserve-permissions? #t)))) (define (register-bootcfg-root target bootcfg) "On file system TARGET, register BOOTCFG as a GC root." (let ((directory (string-append target "/var/guix/gcroots"))) (mkdir-p directory) (symlink bootcfg (string-append directory "/bootcfg")))) (define* (initialize-hard-disk device #:key bootloader-package bootcfg bootcfg-location bootloader-installer (grub-efi #f) (partitions '())) "Initialize DEVICE as a disk containing all the <partition> objects listed in PARTITIONS, and using BOOTCFG as its bootloader configuration file. Each partition is initialized by calling its 'initializer' procedure, passing it a directory name where it is mounted." (define (partition-bootable? partition) "Return the first partition found with the boot flag set." (member 'boot (partition-flags partition))) (define (partition-esp? partition) "Return the first EFI System Partition." (member 'esp (partition-flags partition))) (let* ((partitions (initialize-partition-table device partitions)) (root (find partition-bootable? partitions)) (esp (find partition-esp? partitions)) (target "/fs")) (unless root (error "no bootable partition specified" partitions)) (for-each initialize-partition partitions) (display "mounting root partition...\n") (mkdir-p target) (mount (partition-device root) target (partition-file-system root)) (install-boot-config bootcfg bootcfg-location target) (when bootloader-installer (display "installing bootloader...\n") (bootloader-installer bootloader-package device target)) (when esp ;; Mount the ESP somewhere and install GRUB UEFI image. (let ((mount-point (string-append target "/boot/efi"))) (display "mounting EFI system partition...\n") (mkdir-p mount-point) (mount (partition-device esp) mount-point (partition-file-system esp)) (display "creating EFI firmware image...") (install-efi-loader grub-efi mount-point) (display "done.\n") (umount mount-point))) ;; Register BOOTCFG as a GC root. (register-bootcfg-root target bootcfg) (umount target))) ;;; vm.scm ends here