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#1 Le 19/07/2022, à 13:13

El Catala

[Résolu]-Grub présent mais innaccessible

Bonjour,
Je viens de migrer de Xubuntu 20.04.04 vers Xubuntu 22.04.01. Depuis, je n' ai plus accès à la partition WIN10. Grub-Customizer me permet d' accéder au Grub sans pour autant pouvoir intervenir au lancement du PC, lancement direct de Xubuntu.
Pour info, voici le boot-info:
Boot-Info
Merci de vos réponses
Cordialement

Dernière modification par El Catala (Le 19/07/2022, à 17:48)


PC portable HP Laptop 17
Xubuntu 22.04.2 Lts
Dual boot Win 11
LibreCad 2.2 : Freecad 0.21: LibreOffice 7: Ancestris 0.12:

Hors ligne

#2 Le 19/07/2022, à 14:26

xubu1957

Re : [Résolu]-Grub présent mais innaccessible

Bonjour,

Collage du Boot-info, pour les spécialistes :

============================== Boot Info Summary ===============================

 => Windows 7/8/10/11/2012 is installed in the MBR of /dev/sda.
 => No boot loader is installed in the MBR of /dev/sdb.

sda1: __________________________________________________________________________

    File system:       
    Boot sector type:  -
    Boot sector info: 

sda2: __________________________________________________________________________

    File system:       ntfs
    Boot sector type:  Windows 8/10/11/2012: NTFS
    Boot sector info:  No errors found in the Boot Parameter Block.
    Operating System:  
    Boot files:        

sdb1: __________________________________________________________________________

    File system:       vfat
    Boot sector type:  Windows 8/10/11/2012: FAT32
    Boot sector info:  No errors found in the Boot Parameter Block.
    Operating System:  
    Boot files:        /efi/Boot/bootx64.efi /efi/Boot/fbx64.efi 
                       /efi/Boot/mmx64.efi /efi/ubuntu/grubx64.efi 
                       /efi/ubuntu/mmx64.efi /efi/ubuntu/shimx64.efi 
                       /efi/ubuntu/grub.cfg /efi/HP/BIOSUpdate/CryptRSA.efi 
                       /efi/HP/BIOSUpdate/HpBiosMgmt.efi 
                       /efi/HP/BIOSUpdate/HpBiosUpdate.efi 
                       /efi/HP/SystemDiags/CryptRSA.efi 
                       /efi/HP/SystemDiags/HpSysDiags.efi 
                       /efi/HP/SystemDiags/SystemDiags.efi 
                       /efi/Microsoft/Boot/bootmgfw.efi 
                       /efi/Microsoft/Boot/bootmgr.efi

sdb2: __________________________________________________________________________

    File system:       
    Boot sector type:  -
    Boot sector info: 

sdb3: __________________________________________________________________________

    File system:       ntfs
    Boot sector type:  Windows 8/10/11/2012: NTFS
    Boot sector info:  No errors found in the Boot Parameter Block.
    Operating System:  Windows 10 or 11
    Boot files:        /Windows/System32/winload.exe

sdb4: __________________________________________________________________________

    File system:       ext4
    Boot sector type:  -
    Boot sector info: 
    Operating System:  Ubuntu 22.04 LTS
    Boot files:        /boot/grub/grub.cfg /etc/fstab /etc/default/grub


================================ 2 OS detected =================================

OS#1:   L'OS actuellement utilisé - Ubuntu 22.04 LTS CurrentSession on sdb4
OS#2:   Windows 10 or 11 on sdb3

================================ Host/Hardware =================================

CPU architecture: 64-bit
Video: UHD Graphics 620 Jet PRO [Radeon R5 M230 / R7 M260DX / Radeon 520 Mobile] from Intel Corporation Advanced Micro Devices, Inc. [AMD/ATI]
BOOT_IMAGE of the installed session in use:
/boot/vmlinuz-5.15.0-41-generic root=UUID=c618e827-5e9c-4ee0-a414-3e6f189842f9 ro quiet splash vt.handoff=7
df -Th / : /dev/sdb4        ext4    48G     35G   10G  78% /

===================================== UEFI =====================================

BIOS/UEFI firmware: F.63(15.63) from Insyde
The firmware is EFI-compatible, and is set in EFI-mode for this installed-session.
SecureBoot disabled - SecureBoot disabled - Veuillez indiquer ce message à boot.repair@gmail.com.
BootCurrent: 0002
Timeout: 0 seconds
BootOrder: 0002,2001,3002,0001,2002,2004
Boot0001* Windows Boot Manager	HD(1,GPT,8d96ae90-e323-45fb-8a8d-c2d47e91f46b,0x800,0x82000)/File(\EFI\Microsoft\Boot\bootmgfw.efi)WINDOWS.........x...B.C.D.O.B.J.E.C.T.=.{.9.d.e.a.8.6.2.c.-.5.c.d.d.-.4.e.7.0.-.a.c.c.1.-.f.3.2.b.3.4.4.d.4.7.9.5.}...&................
Boot0002* ubuntu	HD(1,GPT,8d96ae90-e323-45fb-8a8d-c2d47e91f46b,0x800,0x82000)/File(\EFI\ubuntu\shimx64.efi)
Boot2001* EFI USB Device	RC
Boot2002* EFI DVD/CDROM	RC
Boot3002* Internal Hard Disk or Solid State Disk	RC


============================= Drive/Partition Info =============================

Disks info: ____________________________________________________________________

sdb	: is-GPT,	no-BIOSboot,	has---ESP, 	not-usb,	not-mmc, has-os,	has-win,	2048 sectors * 512 bytes
sda	: is-GPT,	no-BIOSboot,	has-noESP, 	not-usb,	not-mmc, no-os,	no-wind,	34 sectors * 512 bytes

Partitions info (1/3): _________________________________________________________

sdb4	: is-os,	64, apt-get,	signed grub-efi ,	grub2,	grub-install,	grubenv-ok,	update-grub,	farbios
sdb3	: is-os,	32, nopakmgr,	no-docgrub,	nogrub,	nogrubinstall,	no-grubenv,	noupdategrub,	not-far
sdb1	: no-os,	32, nopakmgr,	no-docgrub,	nogrub,	nogrubinstall,	no-grubenv,	noupdategrub,	not-far
sda2	: no-os,	32, nopakmgr,	no-docgrub,	nogrub,	nogrubinstall,	no-grubenv,	noupdategrub,	farbios

Partitions info (2/3): _________________________________________________________

sdb4	: isnotESP,	fstab-has-goodEFI,	no-nt,	no-winload,	no-recov-nor-hid,	no-bmgr,	notwinboot
sdb3	: isnotESP,	part-has-no-fstab,	no-nt,	haswinload,	no-recov-nor-hid,	no-bmgr,	notwinboot
sdb1	: is---ESP,	part-has-no-fstab,	no-nt,	no-winload,	no-recov-nor-hid,	no-bmgr,	notwinboot
sda2	: isnotESP,	part-has-no-fstab,	no-nt,	no-winload,	no-recov-nor-hid,	no-bmgr,	notwinboot

Partitions info (3/3): _________________________________________________________

sdb4	: not--sepboot,	with-boot,	fstab-without-boot,	not-sep-usr,	with--usr,	fstab-without-usr,	customized,	sdb
sdb3	: not--sepboot,	no---boot,	part-has-no-fstab,	not-sep-usr,	no---usr,	part-has-no-fstab,	no--grub.d,	sdb
sdb1	: not--sepboot,	no---boot,	part-has-no-fstab,	not-sep-usr,	no---usr,	part-has-no-fstab,	no--grub.d,	sdb
sda2	: not--sepboot,	no---boot,	part-has-no-fstab,	not-sep-usr,	no---usr,	part-has-no-fstab,	no--grub.d,	sda

fdisk -l (filtered): ___________________________________________________________

Disk sda: 931.51 GiB, 1000204886016 bytes, 1953525168 sectors
Disk identifier: 4B775C85-5FBD-464F-B076-98FB4A41F0D8
      Start        End    Sectors   Size Type
sda1     34      32767      32734    16M Microsoft reserved
sda2  32768 1953521663 1953488896 931.5G Microsoft basic data
Disk sdb: 119.24 GiB, 128035676160 bytes, 250069680 sectors
Disk identifier: 5E953F5D-615F-4450-B506-B0156525F833
          Start       End   Sectors  Size Type
sdb1       2048    534527    532480  260M EFI System
sdb2     534528    567295     32768   16M Microsoft reserved
sdb3     567296 148361215 147793920 70.5G Microsoft basic data
sdb4  148361216 250068991 101707776 48.5G Microsoft basic data

parted -lm (filtered): _________________________________________________________

sda:1000GB:scsi:512:4096:gpt:ATA WDC WD10SPZX-60Z:;
1:17.4kB:16.8MB:16.8MB::Microsoft reserved partition:msftres;
2:16.8MB:1000GB:1000GB:ntfs:Basic data partition:msftdata;
sdb:128GB:scsi:512:512:gpt:ATA RBU-SNS8350DES31:;
1:1049kB:274MB:273MB:fat32:EFI system partition:boot, esp;
2:274MB:290MB:16.8MB::Microsoft reserved partition:msftres;
3:290MB:76.0GB:75.7GB:ntfs:Basic data partition:msftdata;
4:76.0GB:128GB:52.1GB:ext4:Basic data partition:msftdata;

blkid (filtered): ______________________________________________________________

NAME   FSTYPE   UUID                                 PARTUUID                             LABEL    PARTLABEL
sda                                                                                                
├─sda1                                               724ed0e8-58ec-4ed6-9c8c-e518eaabb720          Microsoft reserved partition
└─sda2 ntfs     6C62344B62341BF0                     b6cb5ea6-8323-4184-87b6-212083141bcd El_Casot Basic data partition
sdb                                                                                                
├─sdb1 vfat     8A8C-3B54                            8d96ae90-e323-45fb-8a8d-c2d47e91f46b SYSTEM   EFI system partition
├─sdb2                                               5b328318-4977-44ba-8f09-30f94153ce2e          Microsoft reserved partition
├─sdb3 ntfs     480EC1AD0EC193FA                     7eca378c-4066-4c7b-95db-a841a48b393c Windows  Basic data partition
└─sdb4 ext4     c618e827-5e9c-4ee0-a414-3e6f189842f9 2e008935-1e3d-453c-a471-d4d0582bccc3 Xubuntu  Basic data partition

Mount points (filtered): _______________________________________________________

                        Avail Use% Mounted on
/dev/sda2              526.2G  44% /media/elfouste/El_Casot
/dev/sdb3               14.5G  79% /mnt/boot-sav/sdb3
/dev/sdb4                 10G  74% /

Mount options (filtered): ______________________________________________________

/dev/sda2              fuseblk         rw,nosuid,nodev,relatime,user_id=0,group_id=0,allow_other,blksize=4096
/dev/sdb3              fuseblk         rw,relatime,user_id=0,group_id=0,allow_other,blksize=4096
/dev/sdb4              ext4            rw,relatime,errors=remount-ro

===================== sdb1/efi/ubuntu/grub.cfg (filtered) ======================

search.fs_uuid c618e827-5e9c-4ee0-a414-3e6f189842f9 root hd1,gpt4 
set prefix=($root)'/boot/grub'
configfile $prefix/grub.cfg

====================== sdb4/boot/grub/grub.cfg (filtered) ======================

Ubuntu   c618e827-5e9c-4ee0-a414-3e6f189842f9
Windows UEFI bootmgfw.efi   efi
Ubuntu, with Linux 5.15.0-41-generic   c618e827-5e9c-4ee0-a414-3e6f189842f9
Ubuntu, with Linux 5.4.0-122-generic   c618e827-5e9c-4ee0-a414-3e6f189842f9
### END /etc/grub.d/30_custom_proxy ###
Windows Boot UEFI loader
Windows Boot UEFI fbx64.efi   efi
Windows Boot UEFI mmx64.efi   efi

========================== sdb4/etc/fstab (filtered) ===========================

# <file system> <mount point>   <type>  <options>       <dump>  <pass>
# / was on /dev/sdb1 during installation
UUID=c618e827-5e9c-4ee0-a414-3e6f189842f9 /               ext4    errors=remount-ro 0       1
# /boot/efi was on /dev/sdb2 during installation
/swapfile                                 none            swap    sw              0       0
UUID=8A8C-3B54	/boot/efi	vfat	defaults	0	1
/dev/disk/by-uuid/6C62344B62341BF0 /media/elfouste/El_Casot auto nosuid,nodev,nofail,x-gvfs-show 0 0
UUID=129E27A79E278279 /media/sauvegarde auto nosuid,nodev,nofail,x-gvfs-show,x-gvfs-name=Sauvegarde 0 0
/dev/disk/by-uuid/480EC1AD0EC193FA /mnt/480EC1AD0EC193FA auto nosuid,nodev,nofail,noauto 0 0
/dev/disk/by-uuid/129E27A79E278279 /media/elfouste/129E27A79E278279 auto nosuid,nodev,nofail,x-gvfs-show,x-gvfs-name=Sauvegarde 0 0

======================= sdb4/etc/default/grub (filtered) =======================

GRUB_DEFAULT="0"
GRUB_TIMEOUT_STYLE="hidden"
GRUB_TIMEOUT="5"
GRUB_DISTRIBUTOR="`lsb_release -i -s 2> /dev/null || echo Debian`"
GRUB_CMDLINE_LINUX_DEFAULT="quiet splash"
GRUB_CMDLINE_LINUX=""
export GRUB_MENU_PICTURE="/media/elfouste/El_Casot/Yvon/Fond_Ecran/020.JPG"
==================== sdb4: Location of files loaded by Grub ====================

           GiB - GB             File                                 Fragment(s)
  86.418991089 = 92.791685120   boot/grub/grub.cfg                             1
  95.738315582 = 102.798233600  boot/vmlinuz                                   3
  95.738315582 = 102.798233600  boot/vmlinuz-5.15.0-41-generic                 3
 104.808979034 = 112.537784320  boot/vmlinuz-5.4.0-122-generic                 3
 104.808979034 = 112.537784320  boot/vmlinuz.old                               3
  93.896644592 = 100.820754432  boot/initrd.img                               41
  93.896644592 = 100.820754432  boot/initrd.img-5.15.0-41-generic             41
 107.555660248 = 115.487010816  boot/initrd.img-5.4.0-122-generic             95
 107.555660248 = 115.487010816  boot/initrd.img.old                           95

===================== sdb4: ls -l /etc/grub.d/ (filtered) ======================

-rwxr-xr-x 1 root root   693 Jul 19 13:48 10_linux_proxy
-rwxr-xr-x 1 root root   856 Jul 19 13:48 25_custom_proxy
-rwxr-xr-x 1 root root   693 Jul 19 13:48 26_linux_proxy
-rwxr-xr-x 1 root root  2924 Feb  6 21:35 27_memtest86+.dpkg-dist
-rwxr-xr-x 1 root root 43031 Apr 15 23:50 28_linux_zfs
-rwxr-xr-x 1 root root 14180 Apr 15 23:50 29_linux_xen
-rwxr-xr-x 1 root root   856 Jul 19 13:48 30_custom_proxy
-rwxr-xr-x 1 root root 13369 Apr 15 23:50 31_os-prober
-rwxr-xr-x 1 root root   181 Jul 19 13:48 32_uefi-firmware_proxy
-rwxr-xr-x 1 root root   700 Feb 21 04:06 35_fwupd
-rwxr-xr-x 1 root root   214 May 20  2021 40_custom
-rwxr-xr-x 1 root root   215 Apr 15 23:50 41_custom
-rwxr-xr-x 1 root root   856 Jul 19 13:48 42_custom_proxy
drwxr-xr-x 4 root root  4096 Jul  4  2021 backup
drwxr-xr-x 2 root root  4096 Jul  4  2021 bin
drwxr-xr-x 2 root root  4096 Jul 19 13:48 proxifiedScripts

======================= sdb4/etc/grub.d/25_custom_proxy ========================

#!/bin/sh
#THIS IS A GRUB PROXY SCRIPT
'/etc/grub.d/proxifiedScripts/custom' | /etc/grub.d/bin/grubcfg_proxy "-*
-#text
-'Windows Boot UEFI loader'~d6b3720a27d5c33362f3ad8f2fab17a4~
-'Windows Boot UEFI fbx64.efi'~e29db835fc8d38265400e48f73774ef4~
-'Windows Boot UEFI mmx64.efi'~7bb627b11974a167207e147ee0dba796~
-'EFI/ubuntu/mmx64.efi'~d91e9f97f996f4b1538de3f14ac91731~
-'EFI/HP/BIOSUpdate/CryptRSA.efi'~60359c5e46f01aa1029fa20194284eb5~
-'EFI/HP/BIOSUpdate/HpBiosMgmt.efi'~0834b087b0934de4b0fc80976b81b19d~
-'EFI/HP/BIOSUpdate/HpBiosUpdate.efi'~293230022f207137dbf070c034337af7~
-'EFI/HP/SystemDiags/CryptRSA.efi'~2e0ae1dd14a487af41d90d6ddbdaf2d1~
-'EFI/HP/SystemDiags/HpSysDiags.efi'~56605ec1135943f300b3a38f1f690532~
-'EFI/HP/SystemDiags/SystemDiags.efi'~b7087ccfb3ae8b61e0bc83ad19b9d824~
+'Windows UEFI bootmgfw.efi'~95920a15fbf47e81cee3564870f488d2~
"

======================== sdb4/etc/grub.d/26_linux_proxy ========================

#!/bin/sh
#THIS IS A GRUB PROXY SCRIPT
'/etc/grub.d/proxifiedScripts/linux' | /etc/grub.d/bin/grubcfg_proxy "-*
-'Advanced options for Ubuntu'/*
-'Ubuntu'~222cc70eaa8ebe5449495de3e1d5e330~
+'SUBMENU' as 'Advanced options for Ubuntu'{+'Advanced options for Ubuntu'/'Ubuntu, with Linux 5.15.0-41-generic'~7459c7f65612cfa444f19b8dbfde2eb2~, +'Advanced options for Ubuntu'/'Ubuntu, with Linux 5.15.0-41-generic (recovery mode)'~e16151a8dc8d0940d4824d7b9e5cc19e~, +'Advanced options for Ubuntu'/'Ubuntu, with Linux 5.4.0-122-generic'~adc02b90f3cb926f750e56376272b0d9~, +'Advanced options for Ubuntu'/'Ubuntu, with Linux 5.4.0-122-generic (recovery mode)'~b015dd56692f5bd9221a92798d7a2287~}
+#text
"

========================= sdb4/etc/grub.d/28_linux_zfs =========================

#! /bin/sh
set -e
# grub-mkconfig helper script.
# Copyright (C) 2019 Canonical Ltd.
#
# GRUB 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.
#
# GRUB 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 GRUB.  If not, see <http://www.gnu.org/licenses/>.
prefix="/usr"
datarootdir="/usr/share"
ubuntu_recovery="1"
quiet_boot="1"
quick_boot="1"
gfxpayload_dynamic="1"
vt_handoff="1"
. "${pkgdatadir}/grub-mkconfig_lib"
export TEXTDOMAIN=grub
export TEXTDOMAINDIR="${datarootdir}/locale"
set -u
## Skip early if zfs utils isn't installed (instead of failing on first zpool list)
if ! `which zfs >/dev/null 2>&1`; then
    exit 0
fi
imported_pools=""
MNTDIR="$(mktemp -d ${TMPDIR:-/tmp}/zfsmnt.XXXXXX)"
ZFSTMP="$(mktemp -d ${TMPDIR:-/tmp}/zfstmp.XXXXXX)"
machine="$(uname -m)"
case "${machine}" in
    i?86) GENKERNEL_ARCH="x86" ;;
    mips|mips64) GENKERNEL_ARCH="mips" ;;
    mipsel|mips64el) GENKERNEL_ARCH="mipsel" ;;
    arm*) GENKERNEL_ARCH="arm" ;;
    *) GENKERNEL_ARCH="${machine}" ;;
esac
RC=0
on_exit() {
    # Restore initial zpool import state
    for pool in ${imported_pools}; do
        zpool export "${pool}"
    done
    mountpoint -q "${MNTDIR}"  && umount "${MNTDIR}" || true
    rmdir "${MNTDIR}"
    rm -rf "${ZFSTMP}"
    exit "${RC}"
}
trap on_exit EXIT INT QUIT ABRT PIPE TERM
# List ONLINE and DEGRADED pools
import_pools() {
    # We have to ignore zpool import output, as potentially multiple / will be available,
    # and we need to autodetect all zpools this way with their real mountpoints.
    local initial_pools="$(zpool list | awk '{if (NR>1) print $1}')"
    local all_pools=""
    local imported_pools=""
    local err=""
    set +e
    err="$(zpool import -f -a -o cachefile=none -o readonly=on -N 2>&1)"
    # Only print stderr if the command returned an error
    # (it can echo "No zpool to import" with success, which we don't want)
    if [ $? -ne 0 ]; then
        echo "Some pools couldn't be imported and will be ignored:\n${err}" >&2
    fi
    set -e
    all_pools="$(zpool list | awk '{if (NR>1) print $1}')"
    for pool in ${all_pools}; do
        if echo "${initial_pools}" | grep -wq "${pool}"; then
            continue
        fi
        imported_pools="${imported_pools} ${pool}"
    done
    echo "${imported_pools}"
}
# List all the dataset with a root mountpoint
get_root_datasets() {
    local pools="$(zpool list | awk '{if (NR>1) print $1}')"
    for p in ${pools}; do
        local rel_pool_root=$(zpool get -H altroot ${p} | awk '{print $3}')
        if [ "${rel_pool_root}" = "-" ]; then
            rel_pool_root="/"
        fi
        zfs list -H -o name,canmount,mountpoint -t filesystem | grep -E '^'"${p}"'(\s|/[[:print:]]*\s)(on|noauto)\s'"${rel_pool_root}"'$' | awk '{print $1}'
    done
}
# find if given datasets can be mounted for directory and return its path (snapshot or real path)
# $1 is our current dataset name
# $2 directory path we look for (cannot contains /)
# $3 is the temporary mount directory to use
# $4 is the optional snapshot name
# return path for directory (which can be a mountpoint)
validate_system_dataset() {
    local dataset="$1"
    local directory="$2"
    local mntdir="$3"
    local snapshot_name="$4"
    local mount_path="${mntdir}/${directory}"
    if ! zfs list "${dataset}" >/dev/null 2>&1; then
        return
    fi
    if ! mount -o noatime,zfsutil -t zfs "${dataset}" "${mount_path}"; then
        grub_warn "Failed to find a valid directory '${directory}' for dataset '${dataset}@${snapshot_name}'. Ignoring"
        return
    fi
    local candidate_path="${mount_path}"
    if [ -n "${snapshot_name}" ]; then
        # WORKAROUND a bug https://github.com/zfsonlinux/zfs/issues/9958
        # Reading the content of a snapshot fails if it is not the first mount
        # for a given dataset
        first_mntdir=$(awk '{if ($1 == "'${dataset}'") {print $2; exit;}}' /proc/mounts)
        if [ "${first_mntdir}" = "/" ]; then
            # prevents // on candidate_path
            first_mntdir=""
        fi
        candidate_path="${first_mntdir}/.zfs/snapshot/${snapshot_name}"
    fi
    if [ -n "$(ls "${candidate_path}" 2>/dev/null)" ]; then
        echo "${candidate_path}"
        return
    else
        mountpoint -q "${mount_path}" && umount "${mount_path}" || true
    fi
}
# Detect system directory relevant to the other, trying to find the ones associated on the current dataset or snapshot/
# System directory should be at most a direct child dataset of main datasets (no recursivity)
# We can fallback trying other zfs pools if no match has been found.
# $1 is our current dataset name (which can have @snapshot name)
# $2 directory path we look for (cannot contains /)
# $3 restrict_to_same_pool (true|false) force looking for dataset with the same basename in the current dataset pool only
# $4 is the temporary mount directory to use
# $5 is the optional etc directory (if not $2 is not etc itself)
# return path for directory (which can be a mountpoint)
get_system_directory() {
    local dataset_path="$1"
    local directory="$2"
    local restrict_to_same_pool="$3"
    local mntdir="$4"
    local etc_dir="$5"
    if [ -z "${etc_dir}" ]; then
        etc_dir="${mntdir}/etc"
    fi
    local candidate_path="${mntdir}/${directory}"
    # 1. Look for /etc/fstab first (which will mount even on top of non empty $directory)
    local mounted_fstab_entry="false"
    if [ -f "${etc_dir}/fstab" ]; then
        mount_args=$(awk '/^[^#].*[ \t]\/'"${directory}"'[ \t]/ {print "-t", $3, $1}' "${etc_dir}/fstab")
        if [ -n "${mount_args}" ]; then
            mounted_fstab_entry="true"
            mount -o noatime ${mount_args} "${candidate_path}" || mounted_fstab_entry="false"
        fi
    fi
    # If directory isn't empty. Only count if coming from /etc/fstab. Will be
    # handled below otherwise as we are interested in potential snapshots.
    if [ "${mounted_fstab_entry}" = "true" -a -n "$(ls ${candidate_path} 2>/dev/null)" ]; then
        echo "${candidate_path}"
        return
    fi
    # 2. Handle zfs case, which can be a snapshots.
    local base_dataset_path="${dataset_path}"
    local snapshot_name=""
    # For snapshots we extract the parent dataset
    if echo "${dataset_path}" | grep -q '@'; then
        base_dataset_path=$(echo "${dataset_path}" | cut -d '@' -f1)
        snapshot_name=$(echo "${dataset_path}" | cut -d '@' -f2)
    fi
    base_dataset_name="${base_dataset_path##*/}"
    base_pool="$(echo "${base_dataset_path}" | cut -d'/' -f1)"
    # 2.a) Look for child dataset included in base dataset, which needs to hold same snapshot if any
    candidate_path=$(validate_system_dataset "${base_dataset_path}/${directory}" "${directory}" "${mntdir}" "${snapshot_name}")
    if [ -n "${candidate_path}" ]; then
        echo "${candidate_path}"
        return
    fi
    # 2.b) Look for current dataset (which is already mounted as /)
    candidate_path="${mntdir}/${directory}"
    if [ -n "${snapshot_name}" ]; then
        # WORKAROUND a bug https://github.com/zfsonlinux/zfs/issues/9958
        # Reading the content of a snapshot fails if it is not the first mount
        # for a given dataset
        first_mntdir=$(awk '{if ($1 == "'${base_dataset_path}'") {print $2; exit;}}' /proc/mounts)
        if [ "${first_mntdir}" = "/" ]; then
            # prevents // on candidate_path
            first_mntdir=""
        fi
        candidate_path="${first_mntdir}/.zfs/snapshot/${snapshot_name}/${directory}"
    fi
    if [ -n "$(ls "${candidate_path}" 2>/dev/null)" ]; then
        echo "${candidate_path}"
        return
    fi
    # 2.c) Look for every datasets in every pool which isn't the current dataset which holds:
    # - the same dataset name (last section) than our base_dataset_name
    # - mountpoint=directory
    # - canmount!=off
    all_same_base_dataset_name="$(zfs list -H -t filesystem -o name,canmount | awk '/^[^ ]+\/'"${base_dataset_name}"'[ \t](on|noauto)/ {print $1}') "
    # order by local pool datasets first
    current_pool_same_base_datasets=""
    other_pools_same_base_datasets=""
    root_pool=$(echo "${dataset_path%%/*}")
    for d in ${all_same_base_dataset_name}; do
        cur_dataset_pool=$(echo "${d%%/*}")
        if echo "${cur_dataset_pool}" | grep -wq "${root_pool}" 2>/dev/null ; then
            current_pool_same_base_datasets="${current_pool_same_base_datasets} ${d}"
        else
            other_pools_same_base_datasets="${other_pools_same_base_datasets} ${d}"
        fi
    done
    ordered_same_base_datasets="${current_pool_same_base_datasets} ${other_pools_same_base_datasets}"
    if [ "${restrict_to_same_pool}" = "true" ]; then
        ordered_same_base_datasets="${current_pool_same_base_datasets}"
    fi
    # now, loop over them
    for d in ${ordered_same_base_datasets}; do
        cur_dataset_pool=$(echo "${d%%/*}")
        rel_pool_root=$(zpool get -H altroot ${cur_dataset_pool} | awk '{print $3}')
        if [ "${rel_pool_root}" = "-" ]; then
            rel_pool_root=""
        fi
        # check mountpoint match
        candidate_dataset=$(zfs get -H mountpoint ${d} | grep -E "mountpoint\s${rel_pool_root}/${directory}\s" | awk '{print $1}')
        if [ -z "${candidate_dataset}" ]; then
            continue
        fi
        candidate_path=$(validate_system_dataset "${candidate_dataset}" "${directory}" "${mntdir}" "${snapshot_name}")
        if [ -n "${candidate_path}" ]; then
            echo "${candidate_path}"
            return
        fi
    done
    # 2.d) If we didn't find anything yet: check for persistent datasets corresponding to our mountpoint, with canmount=on without any snapshot associated:
    # Note: we go over previous datasets as well, but this is ok, as we didn't include them before.
    all_mountable_datasets="$(zfs list -t filesystem -o name,canmount | awk  '/^[^ ]+[ \t]+on/ {print $1}')"
    # order by local pool datasets first
    current_pool_datasets=""
    other_pools_datasets=""
    root_pool=$(echo "${dataset_path%%/*}")
    for d in ${all_mountable_datasets}; do
        cur_dataset_pool=$(echo "${d%%/*}")
        if echo "${cur_dataset_pool}" | grep -wq "${root_pool}" 2>/dev/null ; then
            current_pool_datasets="${current_pool_datasets} ${d}"
        else
            other_pools_datasets="${other_pools_datasets} ${d}"
        fi
    done
    ordered_datasets="${current_pool_datasets} ${other_pools_datasets}"
    if [ "${restrict_to_same_pool}" = "true" ]; then
        ordered_datasets="${current_pool_datasets}"
    fi
    for d in ${ordered_datasets}; do
        cur_dataset_pool=$(echo "${d%%/*}")
        rel_pool_root=$(zpool get -H altroot ${cur_dataset_pool} | awk '{print $3}')
        if [ "${rel_pool_root}" = "-" ]; then
            rel_pool_root=""
        fi
        # check mountpoint match
        candidate_dataset=$(zfs get -H mountpoint ${d} | grep -E "mountpoint\s${rel_pool_root}/${directory}\s" | awk '{print $1}')
        if [ -z "${candidate_dataset}" ]; then
            continue
        fi
        candidate_path=$(validate_system_dataset "${d}" "${directory}" "${mntdir}" "")
        if [ -n "${candidate_path}" ]; then
            echo "${candidate_path}"
            return
        fi
    done
    grub_warn "Failed to find a valid directory '${directory}' for dataset '${dataset_path}'. Ignoring"
    return
}
# Try our default layout bpool as a prefered layout (fast path)
# This is get_system_directory for boot optimized for our default installation layout
# $1 is our current dataset name (which can have @snapshot name)
# $2 is the temporary mount directory to use
# return path for directory (which can be a mountpoint) if found
try_default_layout_bpool() {
    local root_dataset_path="$1"
    local mntdir="$2"
    dataset_basename="${root_dataset_path##*/}"
    candidate_dataset="bpool/BOOT/${dataset_basename}"
    dataset_properties="$(zfs get -H mountpoint,canmount "${candidate_dataset}" 2>/dev/null | cut -f3 | paste -sd ' ')"
    if [ -z "${dataset_properties}" ]; then
        return
    fi
    rel_pool_root=$(zpool get -H altroot bpool | awk '{print $3}')
    if [ "${rel_pool_root}" = "-" ]; then
        rel_pool_root=""
    fi
    snapshot_name="${dataset_basename##*@}"
    [ "${snapshot_name}" = "${dataset_basename}" ] && snapshot_name=""
    if [ -z "${snapshot_name}" ]; then
        if ! echo "${dataset_properties}" | grep -Eq "${rel_pool_root}/boot (on|noauto)"; then
            return
        fi
    else
        candidate_dataset=$(echo "${candidate_dataset}" | cut -d '@' -f1)
    fi
    validate_system_dataset "${candidate_dataset}" "boot" "${mntdir}" "${snapshot_name}"
}
# Return if secure boot is enabled on that system
is_secure_boot_enabled() {
    if LANG=C mokutil --sb-state 2>/dev/null | grep -qi enabled; then
        echo "true"
        return
    fi
    echo "false"
    return
}
# Given a filesystem or snapshot dataset, returns dataset|machine id|pretty name|last used
# $1 is dataset we want information from
# $2 is the temporary mount directory to use
get_dataset_info() {
    local dataset="$1"
    local mntdir="$2"
    local base_dataset="${dataset}"
    local etc_dir="${mntdir}/etc"
    local is_snapshot="false"
    # For snapshot we extract the parent dataset
    if echo "${dataset}" | grep -q '@'; then
        base_dataset=$(echo "${dataset}" | cut -d '@' -f1)
        is_snapshot="true"
    fi
    mount -o noatime,zfsutil -t zfs "${base_dataset}" "${mntdir}"
    # read machine-id/os-release from /etc
    etc_dir=$(get_system_directory "${dataset}" "etc" "true" "${mntdir}" "")
    if [ -z  "${etc_dir}" ]; then
        grub_warn "Ignoring ${dataset}"
        mountpoint -q "${mntdir}/etc" && umount "${mntdir}/etc" || true
        umount "${mntdir}"
        return
    fi
    machine_id=""
    if [ -f "${etc_dir}/machine-id" ]; then
        machine_id=$(cat "${etc_dir}/machine-id")
    fi
    # We have to use a random temporary id if we don't have any machine-id file or if this one is empty
    # (mostly the case of new installations before first boot).
    # Let's use the dataset name directly for this.
    # Consequence is that all datasets are then separated.
    if [ -z "${machine_id}" ]; then
        machine_id="${dataset}"
    fi
    pretty_name=$(. "${etc_dir}/os-release" && echo "${PRETTY_NAME}")
    mountpoint -q "${mntdir}/etc" && umount "${mntdir}/etc" || true
    # read available kernels from /boot
    boot_dir="$(try_default_layout_bpool "${dataset}" "${mntdir}")"
    if [ -z "${boot_dir}" ]; then
        boot_dir=$(get_system_directory "${dataset}" "boot" "false" "${mntdir}" "${etc_dir}")
    fi
    if [ -z  "${boot_dir}" ]; then
        grub_warn "Ignoring ${dataset}"
        mountpoint -q "${mntdir}/boot" && umount "${mntdir}/boot" || true
        umount "${mntdir}"
        return
    fi
    initrd_list=""
    kernel_list=""
    candidate_kernel_list="$(find "${boot_dir}" -maxdepth 1 -type f -regex '.*/\(vmlinuz\|vmlinux\|kernel\)-.*')"
    while [ -n "${candidate_kernel_list}" ] ; do
        list_basename="$(echo "${candidate_kernel_list}" | sed -e 's#.*/##')"
        linux=$(version_find_latest ${list_basename})
        linux=$(echo "${candidate_kernel_list}" | while read k; do
            if [ "$(basename "${k}")" = "${linux}" ]; then
                echo -n "${k}"
                break
            fi
        done)
        # || true to not abort even if candidate_kernel_list is empty on last entry
        candidate_kernel_list="$(echo "${candidate_kernel_list}" | fgrep -vx "${linux}"||true)"
        if ! grub_file_is_not_garbage "${linux}" ; then
            continue
        fi
        # Filters entry if efi/non efi.
        # Note that for now we allow kernel without .efi.signed as those are signed kernel
        # on ubuntu, loaded by the shim.
        case "${linux}" in
            *.efi.signed)
                if [ "$(is_secure_boot_enabled)" = "false" ]; then
                    continue
                fi
            ;;
        esac
        linux_basename=$(basename "${linux}")
        linux_dirname=$(dirname "${linux}")
        version=$(echo "${linux_basename}" | sed -e "s,^[^0-9]*-,,g")
        alt_version=$(echo "${version}" | sed -e "s,\.old$,,g")
        gettext_printf "Found linux image: %s in %s\n" "${linux_basename}" "${dataset}" >&2
        initrd=""
        for i in "initrd.img-${version}" "initrd-${version}.img" "initrd-${version}.gz" \
            "initrd-${version}" "initramfs-${version}.img" \
            "initrd.img-${alt_version}" "initrd-${alt_version}.img" \
            "initrd-${alt_version}" "initramfs-${alt_version}.img" \
            "initramfs-genkernel-${version}" \
            "initramfs-genkernel-${alt_version}" \
            "initramfs-genkernel-${GENKERNEL_ARCH}-${version}" \
            "initramfs-genkernel-${GENKERNEL_ARCH}-${alt_version}"; do
            if test -e "${linux_dirname}/${i}" ; then
                initrd="$i"
                break
            fi
        done
        if test -z "${initrd}" ; then
            grub_warn "Couldn't find any valid initrd for dataset ${dataset}."
            continue
        fi
        gettext_printf "Found initrd image: %s in %s\n" "${initrd}" "${dataset}" >&2
        rel_linux_dirname=$(make_system_path_relative_to_its_root "${linux_dirname}")
        initrd_list="${initrd_list}|${rel_linux_dirname}/${initrd}"
        kernel_list="${kernel_list}|${rel_linux_dirname}/${linux_basename}"
    done
    initrd_list="${initrd_list#|}"
    kernel_list="${kernel_list#|}"
    initrd_device=$(${grub_probe} --target=device "${boot_dir}" | head -1)
    mountpoint -q "${mntdir}/boot" && umount "${mntdir}/boot" || true
    # We needed to look in / for snapshots on root dataset, umount there before zfs lazily unmount it
    case "${boot_dir}" in /boot/.zfs/snapshot/*)
        umount "${boot_dir}" || true
        ;;
    esac
    # for zsys snapshots: we want to know which kernel we successful last booted with
    last_booted_kernel=$(zfs get -H com.ubuntu.zsys:last-booted-kernel "${dataset}" | awk -v FS='\t' '{print $3}')
    # snapshot: last_used is dataset creation time
    if [ "${is_snapshot}" = "true" ]; then
        last_used="$(zfs get -pH creation "${dataset}" | awk -F '\t' '{print $3}')"
    # otherwise, last_used is manually marked at boot/shutdown on a root dataset for zsys
    else
        # if current system, take current time
        if zfs mount | awk '/[ \t]+\/$/ {print $1}' | grep -q "${dataset}"; then
            last_used=$(date +%s)
        else
            last_used=$(zfs get -H com.ubuntu.zsys:last-used "${dataset}" | awk '{print $3}')
            # case of non zsys, or zsys without annotation, take /etc/machine-id stat (as we mounted with noatime).
            # However, as systems can be relatime, if system is current mounted one, set current time (case of clone + reboot
            # within the same d).
            if [ "${last_used}" = "-" ]; then
                last_used=$(stat --printf="%X" "${mntdir}/etc/os-release")
                if [ -f "${mntdir}/etc/machine-id" ]; then
                    last_used=$(stat --printf="%X" "${mntdir}/etc/machine-id")
                fi
            fi
        fi
    fi
    is_zsys=$(zfs get -H com.ubuntu.zsys:bootfs "${base_dataset}" | awk '{print $3}')
    if [ -n "${initrd_list}" -a -n "${kernel_list}" ]; then
        echo "${dataset}\t${is_zsys}\t${machine_id}\t${pretty_name}\t${last_used}\t${initrd_device}\t${initrd_list}\t${kernel_list}\t${last_booted_kernel}"
    else
        grub_warn "didn't find any valid initrd or kernel."
    fi
    umount "${mntdir}" || true
    # We needed to look in / for snapshots on root dataset, umount the snapshot for etc before zfs lazily unmount it
    case "${etc_dir}" in /.zfs/snapshot/*/etc)
        snapshot_path="$(findmnt -n -o TARGET -T "${etc_dir}")"
        umount "${snapshot_path}" || true
        ;;
    esac
}
# Scan available boot options and returns in a formatted list
# $1 is the temporary mount directory to use
bootlist() {
    local mntdir="$1"
    local boot_list=""
    for dataset in $(get_root_datasets); do
        # get information from current root dataset
        boot_list="${boot_list}$(get_dataset_info "${dataset}" ${mntdir})\n"
        # get information from snapshots of this root dataset
        snapshots="$(zfs list -H -o name -t snapshot "${dataset}"|while read snapshot_dataset; do
            get_dataset_info "${snapshot_dataset}" ${mntdir}
        done)"
        [ -n "${snapshots}" ] && boot_list="${boot_list}${snapshots}\n"
    done
    echo "${boot_list}"
}
# Order machine ids by last_used from their main entry
get_machines_sorted() {
    local bootlist="$1"
    local machineids="$(echo "${bootlist}" | awk '{print $3}' | sort -u)"
    for machineid in ${machineids}; do
        echo "${bootlist}" | awk 'BEGIN{FS="\t"} $1 !~ /.*@.*/  {print $5, $3}' | sort -nr | grep -E "[^^]\b${machineid}\b" | head -1
    done | sort -nr | awk '{print $2}'
}
# Sort entries by last_used for a given machineid
sort_entries_for_machineid() {
    local bootlist="$1"
    local machineid="$2"
    tab="$(printf '\t')"
    echo "${bootlist}" | grep -E "[^^]\b${machineid}\b" | sort -k5,5r -k1,1 -t "${tab}"
}
# Return main entry index
get_main_entry() {
    local entries="$1"
    echo "${entries}" | awk 'BEGIN{FS="\t"} $1 !~ /.*@.*/  {print}' | head -1
}
# Return specific field at index from entry
get_field_from_entry() {
    local entry="$1"
    local index="$2"
    echo "${entry}" | awk "BEGIN{FS=\"\t\"} {print \$$index}"
}
# Get the main entry metadata
main_entry_meta() {
    local main_entry="$1"
    initrd=$(get_field_from_entry "${main_entry}" 7 | cut -d'|' -f1)
    kernel=$(get_field_from_entry "${main_entry}" 8 | cut -d'|' -f1)
    # Take first element (most recent entry) which is not a snapshot
    echo "${main_entry}" | awk "BEGIN{ FS=\"\t\"; OFS=\"\t\"} {print \$3, \$2, \"main\", \$4, \$1, \$6, \"$initrd\", \"$kernel\"}"
}
# Get advanced entries metadata
advanced_entries_meta() {
    local main_entry="$1"
    last_used_kernel="$(get_field_from_entry "${main_entry}" 9 )"
    # We must align initrds with kernels.
    # Adds initrds to the stack then pop them 1 by 1 as we process the kernels
    oldIFS="$IFS"
    export IFS='|'
    set -- $(get_field_from_entry "${main_entry}" 7)
    for kernel in $(get_field_from_entry "${main_entry}" 8); do
        # get initrd and pop to the next one
        initrd="$1"; shift
        was_last_used_kernel="false"
        kernel_basename=$(basename "${kernel}")
        if [ "${kernel_basename}" = "${last_used_kernel}" ]; then
            was_last_used_kernel="true"
        fi
        echo "${main_entry}" | awk "BEGIN{ FS=\"\t\"; OFS=\"\t\"}    {print \$3, \$2, \"advanced\", \$4, \$1, \$6, \"$initrd\", \"$kernel\", \"$was_last_used_kernel\"}"
    done
    IFS="$oldIFS"
}
# Get history metadata
history_entries_meta() {
    local entries="$1"
    local main_dataset_name="$2"
    local main_dataset_releasename="$3"
    if [ -z "${entries}" ]; then
        return
    fi
    # Traverse snapshots and clones
    echo "${entries}" | while read entry; do
        name=""
        # Compute snapshot/filesystem dataset name
        snap_dataset_name="$(get_field_from_entry "${entry}" 1)"
        snapname="${snap_dataset_name##*@}"
        # If, this is a clone, take what is after main_dataset_name
        if [ "${snapname}" = "${snap_dataset_name}" ]; then
            snapname="${snap_dataset_name##${main_dataset_name}_}"
            # Handle manual user clone (not prefixed by "main_dataset_name")
            snapname="${snapname##*/}"
        fi
        # We keep the snapname only if it is not only a zsys auto snapshot
        if echo "${snapname}" | grep -q "^autozsys_"; then
            snapname=""
        fi
        # We store the release only if it different from main dataset release (snapshot before a release upgrade)
        releasename=$(get_field_from_entry "${entry}" 4)
        if [ "${releasename}" = "${main_dataset_releasename}" ]; then
            releasename=""
        fi
        # Snapshot date
        foo="$(get_field_from_entry "${entry}" 5)"
        snapdate="$(date -d @$(get_field_from_entry "${entry}" 5) "+%x @ %H:%M")"
        # For snapshots/clones the name can have the following formats:
        # 	<DATE>: autozsys, same release
        #   <OLD_RELEASE> on <DATE>: autozsys, different release
        #   <SNAPNAME> on <DATE>: Manual snapshot, same release
        #   <SNAPNAME>, <OLD_RELEASE> on <DATE>: Manual snapshot, different release
        if [ "${snapname}" = "" -a "${releasename}" = "" ]; then
            name="${snapdate}"
        elif [ "${snapname}" = "" -a "${releasename}" != "" ]; then
            name=$(gettext_printf "%s on %s" "${releasename}" "${snapdate}")
        elif [ "${snapname}" != "" -a "${releasename}" = "" ]; then
            name=$(gettext_printf "%s on %s" "${snapname}" "${snapdate}")
        else # snapname != "" && releasename != ""
            name=$(gettext_printf "%s, %s on %s" "${snapname}" "${releasename}" "${snapdate}")
        fi
        # Choose kernel and initrd if the snapshot was booted successfully on a specific kernel before
        # Take latest by default if no match
        initrd=$(get_field_from_entry "${entry}" 7 | cut -d'|' -f1)
        kernel=$(get_field_from_entry "${entry}" 8 | cut -d'|' -f1)
        last_used_kernel="$(get_field_from_entry "${entry}" 9)"
        # We must align initrds with kernels.
        # Adds initrds to the stack then pop them 1 by 1 as we process the kernels
        oldIFS="$IFS"
        export IFS='|'
        set -- $(get_field_from_entry "${entry}" 7)
        for k in $(get_field_from_entry "${entry}" 8); do
            # get initrd and pop to the next one
            candidate_initrd="$1"; shift
            kernel_basename=$(basename -- "${k}")
            if [ "${kernel_basename}" = "${last_used_kernel}" ]; then
                kernel="${k}"
                initrd="${candidate_initrd}"
                break
            fi
        done
        IFS="$oldIFS"
        echo "${entry}" | awk "BEGIN{ FS=\"\t\"; OFS=\"\t\"}    {print \$3, \$2, \"history\", \"$name\", \$1, \$6, \"$initrd\", \"$kernel\"}"
    done
}
# Generate metadata from a BOOTLIST that will subsequently used to generate
# the final grub menu entries
generate_grub_menu_metadata() {
    local bootlist="$1"
    # Sort machineids by last_used from their main entry
    for machineid in $(get_machines_sorted "${bootlist}"); do
        entries="$(sort_entries_for_machineid "${bootlist}" ${machineid})"
        main_entry="$(get_main_entry "${entries}")"
        if [ -z "$main_entry" ]; then
            continue
        fi
        main_entry_meta "${main_entry}"
        advanced_entries_meta "${main_entry}"
        main_dataset_name="$(get_field_from_entry "${main_entry}" 1)"
        main_dataset_releasename="$(get_field_from_entry "${main_entry}" 4)"
        # grep -v errcode != 0 if there is no match. || true to not fail with -e
        other_entries="$(echo "${entries}" | grep -v "${main_entry}" || true)"
        history_entries_meta "${other_entries}" "${main_dataset_name}" "${main_dataset_releasename}"
    done
}
# Print the configuration part common to all sections
# Note:
#   If 10_linux runs these part will be defined twice in grub configuration
print_menu_prologue() {
    cat << 'EOF'
function gfxmode {
	set gfxpayload="${1}"
EOF
    if [ "${vt_handoff}" = 1 ]; then
        cat << 'EOF'
	if [ "${1}" = "keep" ]; then
		set vt_handoff=vt.handoff=1
	else
		set vt_handoff=
	fi
EOF
    fi
    cat << EOF
}
EOF
    # Use ELILO's generic "efifb" when it's known to be available.
    # FIXME: We need an interface to select vesafb in case efifb can't be used.
    GRUB_GFXPAYLOAD_LINUX="${GRUB_GFXPAYLOAD_LINUX:-}"
    if [ "${GRUB_GFXPAYLOAD_LINUX}" != "" ] || [ "${gfxpayload_dynamic}" = 0 ]; then
        echo "set linux_gfx_mode=${GRUB_GFXPAYLOAD_LINUX}"
    else
        cat << EOF
if [ "\${recordfail}" != 1 ]; then
  if [ -e \${prefix}/gfxblacklist.txt ]; then
    if hwmatch \${prefix}/gfxblacklist.txt 3; then
      if [ \${match} = 0 ]; then
        set linux_gfx_mode=keep
      else
        set linux_gfx_mode=text
      fi
    else
      set linux_gfx_mode=text
    fi
  else
    set linux_gfx_mode=keep
  fi
else
  set linux_gfx_mode=text
fi
EOF
    fi
    cat << EOF
export linux_gfx_mode
EOF
}
# Cache for prepare_grub_to_access_device call
# $1: boot_device
# $2: submenu_level
prepare_grub_to_access_device_cached() {
    local boot_device="$1"
    local submenu_level="$2"
    local boot_device_idx="$(echo ${boot_device} | tr '/' '_')"
    cache_file="${ZFSTMP}/$(echo boot_device${boot_device_idx})"
    if [ ! -f "${cache_file}" ]; then
        set +u
        echo "$(prepare_grub_to_access_device "${boot_device}")" > "${cache_file}"
        set -u
        for i in 0 1 2; do
            submenu_indentation="$(printf %${i}s | tr " " "${grub_tab}")"
            sed "s/^/${submenu_indentation}	/" "${cache_file}" > "${cache_file}--${i}"
        done
    fi
    cat "${cache_file}--${submenu_level}"
}
# Print a grub menu entry
zfs_linux_entry () {
    submenu_level="$1"
    title="$2"
    type="$3"
    dataset="$4"
    boot_device="$5"
    initrd="$6"
    kernel="$7"
    kernel_version="$8"
    kernel_additional_args="${9:-}"
    boot_devices="${10:-}"
    submenu_indentation="$(printf %${submenu_level}s | tr " " "${grub_tab}")"
    echo "${submenu_indentation}menuentry '$(echo "${title}" | grub_quote)' ${CLASS} \${menuentry_id_option} 'gnulinux-${dataset}-${kernel_version}' {"
    if [ "${quick_boot}" = 1 ]; then
        echo "${submenu_indentation}	recordfail"
    fi
    if [ "${type}" != "recovery" ] ; then
        GRUB_SAVEDEFAULT=${GRUB_SAVEDEFAULT:-}
        default_entry="$(save_default_entry)"
        if [ -n "${default_entry}" ]; then
            echo "${submenu_indentation}	${default_entry}"
        fi
    fi
    # Use ELILO's generic "efifb" when it's known to be available.
    # FIXME: We need an interface to select vesafb in case efifb can't be used.
    if [ "${GRUB_GFXPAYLOAD_LINUX}" = "" ]; then
        echo "${submenu_indentation}	load_video"
    else
        if [ "${GRUB_GFXPAYLOAD_LINUX}" != "text" ]; then
            echo "${submenu_indentation}	load_video"
        fi
    fi
    if ([ "${ubuntu_recovery}" = 0 ] || [ "${type}" != "recovery" ]) && \
        ([ "${GRUB_GFXPAYLOAD_LINUX}" != "" ] || [ "${gfxpayload_dynamic}" = 1 ]); then
        echo "${submenu_indentation}	gfxmode \${linux_gfx_mode}"
    fi
    echo "${submenu_indentation}	insmod gzio"
    echo "${submenu_indentation}	if [ \"\${grub_platform}\" = xen ]; then insmod xzio; insmod lzopio; fi"
    if [ -n "$boot_devices" ]; then
        for device in ${boot_devices}; do
            echo "${submenu_indentation}	if [ "${boot_device}" = "${device}" ]; then"
            echo "$(prepare_grub_to_access_device_cached "${device}" $(( submenu_level +1 )) )"
            echo "${submenu_indentation}	fi"
        done
    else
        echo "$(prepare_grub_to_access_device_cached "${boot_device}" "${submenu_level}")"
    fi
    if [ "${quiet_boot}" = 0 ] || [ "${type}" != simple ]; then
        echo "${submenu_indentation}	echo $(gettext_printf "Loading Linux %s ..." ${kernel_version} | grub_quote)"
    fi
    linux_default_args="${GRUB_CMDLINE_LINUX} ${GRUB_CMDLINE_LINUX_DEFAULT}"
    if [ ${type} = "recovery" ]; then
        linux_default_args="${GRUB_CMDLINE_LINUX_RECOVERY} ${GRUB_CMDLINE_LINUX}"
    fi
    # echo in echo trims end of line spaces
    echo "${submenu_indentation}	linux	\"${kernel}\" root=ZFS=\"${dataset}\" ro $(echo ${linux_default_args} ${kernel_additional_args})"
    if [ "${quiet_boot}" = 0 ] || [ "${type}" != simple ]; then
        echo "${submenu_indentation}	echo '$(gettext_printf "Loading initial ramdisk ..." | grub_quote)'"
    fi
    echo "${submenu_indentation}	initrd	\"${initrd}\""
    echo "${submenu_indentation}}"
}
# Generate a GRUB Menu from menu meta data
# $1 menu metadata
generate_grub_menu() {
    local menu_metadata="$1"
    local last_section=""
    local main_dataset_name=""
    local main_dataset=""
    local have_zsys=""
    if [ -z "${menu_metadata}" ]; then
        return
    fi
    CLASS="--class gnu-linux --class gnu --class os"
    if [ "${GRUB_DISTRIBUTOR}" = "" ] ; then
        OS=GNU/Linux
    else
        case ${GRUB_DISTRIBUTOR} in
            Ubuntu|Kubuntu)
            OS="${GRUB_DISTRIBUTOR}"
            ;;
            *)
            OS="${GRUB_DISTRIBUTOR} GNU/Linux"
            ;;
        esac
        CLASS="--class $(echo ${GRUB_DISTRIBUTOR} | tr 'A-Z' 'a-z' | cut -d' ' -f1 | LC_ALL=C sed 's,[^[:alnum:]_],_,g') ${CLASS}"
    fi
    if [ -x /lib/recovery-mode/recovery-menu ]; then
        GRUB_CMDLINE_LINUX_RECOVERY=recovery
    else
        GRUB_CMDLINE_LINUX_RECOVERY=single
    fi
    if [ "${ubuntu_recovery}" = 1 ]; then
        GRUB_CMDLINE_LINUX_RECOVERY="${GRUB_CMDLINE_LINUX_RECOVERY} nomodeset"
    fi
    case "$GENKERNEL_ARCH" in
        x86*) GRUB_CMDLINE_LINUX_RECOVERY="$GRUB_CMDLINE_LINUX_RECOVERY dis_ucode_ldr";;
    esac
    if [ "${vt_handoff}" = 1 ]; then
        for word in ${GRUB_CMDLINE_LINUX_DEFAULT}; do
            if [ "${word}" = splash ]; then
                GRUB_CMDLINE_LINUX_DEFAULT="${GRUB_CMDLINE_LINUX_DEFAULT} \${vt_handoff}"
            fi
        done
    fi
    print_menu_prologue
    cat<<'EOF'
function zsyshistorymenu {
	# $1: root dataset (eg rpool/ROOT/ubuntu_2zhm07@autozsys_k56fr6)
	# $2: boot device id (eg 411f29ce1557bfed)
	# $3: initrd (eg /BOOT/ubuntu_2zhm07@autozsys_k56fr6/initrd.img-5.4.0-21-generic)
	# $4: kernel (eg /BOOT/ubuntu_2zhm07@autozsys_k56fr6/vmlinuz-5.4.0-21-generic)
	# $5: kernel_version (eg 5.4.0-21-generic)
	set root_dataset="${1}"
	set boot_device="${2}"
	set initrd="${3}"
	set kernel="${4}"
	set kversion="${5}"
EOF
    boot_devices=$(echo "${menu_metadata}" | cut -d"$(printf '\t')" -f6 | sort -u)
    title=$(gettext_printf "Revert system only")
    zfs_linux_entry 1 "${title}" "simple" '${root_dataset}' '${boot_device}' '${initrd}' '${kernel}' '${kversion}' '' "${boot_devices}"
    title="$(gettext_printf "Revert system and user data")"
    zfs_linux_entry 1 "${title}" "simple" '${root_dataset}' '${boot_device}' '${initrd}' '${kernel}' '${kversion}' 'zsys-revert=userdata' "${boot_devices}"
    GRUB_DISABLE_RECOVERY="${GRUB_DISABLE_RECOVERY:-}"
    if [ "${GRUB_DISABLE_RECOVERY}" != "true" ]; then
        title="$(gettext_printf "Revert system only (%s)" "$(gettext "${GRUB_RECOVERY_TITLE}")")"
        zfs_linux_entry 1 "${title}" "recovery" '${root_dataset}' '${boot_device}' '${initrd}' '${kernel}' '${kversion}' '' "${boot_devices}"
        title="$(gettext_printf "Revert system and user data (%s)" "$(gettext "${GRUB_RECOVERY_TITLE}")")"
        zfs_linux_entry 1 "${title}" "recovery" '${root_dataset}' '${boot_device}' '${initrd}' '${kernel}' '${kversion}' 'zsys-revert=userdata' "${boot_devices}"
    fi
echo "}"
echo
    # IFS is set to TAB (ASCII 0x09)
    echo "${menu_metadata}" |
    {
        at_least_one_entry=0
        have_zsys="$(which zsysd || true)"
        while IFS="$(printf '\t')" read -r machineid iszsys section name dataset device initrd kernel opt; do
            # Disable history for non zsys system or if systems is a zsys one and zsys isn't installed.
            # In pure zfs systems, we identified multiple issues due to the mount generator
            # in upstream zfs which makes it incompatible. Don't show history for now.
            if [ "${section}" = "history" ]; then
                if [ "${iszsys}" != "yes" ] || [ "${iszsys}" = "yes" -a -z "${have_zsys}" ]; then
                    continue
                fi
            fi
            if [ "${last_section}" != "${section}" -a -n "${last_section}" ]; then
                # Close previous section wrapper
                if [ "${last_section}" != "main" ]; then
                    echo "}"    # Add grub_tabs
                    at_least_one_entry=0
                fi
            fi
            case "${section}" in
                main)
                    title="${name}"
                    main_dataset_name="${name}"
                    main_dataset="${dataset}"
                    kernel_version=$(basename "${kernel}" | sed -e "s,^[^0-9]*-,,g")
                    zfs_linux_entry 0 "${title}" "simple" "${dataset}" "${device}" "${initrd}" "${kernel}" "${kernel_version}"
                    at_least_one_entry=1
                ;;
                advanced)
                    # normal and recovery entries for a given kernel
                    if [ "${last_section}" != "${section}" ]; then
                        echo "submenu '$(gettext_printf "Advanced options for %s" "${main_dataset_name}" | grub_quote)' \${menuentry_id_option} 'gnulinux-advanced-${main_dataset}' {"
                    fi
                    last_booted_kernel_marker=""
                    if [ "${opt}" = "true" ]; then
                        last_booted_kernel_marker="* "
                    fi
                    kernel_version=$(basename "${kernel}" | sed -e "s,^[^0-9]*-,,g")
                    title="$(gettext_printf "%s%s, with Linux %s" "${last_booted_kernel_marker}" "${name}" "${kernel_version}")"
                    zfs_linux_entry 1 "${title}" "advanced" "${dataset}" "${device}" "${initrd}" "${kernel}" "${kernel_version}"
                    GRUB_DISABLE_RECOVERY=${GRUB_DISABLE_RECOVERY:-}
                    if [ "${GRUB_DISABLE_RECOVERY}" != "true" ]; then
                        title="$(gettext_printf "%s%s, with Linux %s (%s)" "${last_booted_kernel_marker}" "${name}" "${kernel_version}" "$(gettext "${GRUB_RECOVERY_TITLE}")")"
                        zfs_linux_entry 1 "${title}" "recovery" "${dataset}" "${device}" "${initrd}" "${kernel}" "${kernel_version}"
                    fi
                    at_least_one_entry=1
                ;;
                history)
                    # Revert to a snapshot
                    # revert system, revert system and user data and associated recovery entries
                    if [ "${last_section}" != "${section}" ]; then
                        echo "submenu '$(gettext_printf "History for %s" "${main_dataset_name}" | grub_quote)' \${menuentry_id_option} 'gnulinux-history-${main_dataset}' {"
                    fi
                    if [ "${iszsys}" = "yes" ]; then
                        title="$(gettext_printf "Revert to %s" "${name}" | grub_quote)"
                    else
                        title="$(gettext_printf "Boot on %s" "${name}" | grub_quote)"
                    fi
                    echo "	submenu '${title}' \${menuentry_id_option} 'gnulinux-history-${dataset}' {"
                    kernel_version=$(basename "${kernel}" | sed -e "s,^[^0-9]*-,,g")
                    # Zsys only: let revert system without destroying snapshots
                    if [ "${iszsys}" = "yes" ]; then
                        echo "${grub_tab}${grub_tab}zsyshistorymenu" \"${dataset}\" \"${device}\" \"${initrd}\" \"${kernel}\" \"${kernel_version}\"
                    # Non-zsys: boot temporarly on snapshots or rollback (destroying intermediate snapshots)
                    else
                        title="$(gettext_printf "One time boot")"
                        zfs_linux_entry 2 "${title}" "simple" "${dataset}" "${device}" "${initrd}" "${kernel}" "${kernel_version}"
                        GRUB_DISABLE_RECOVERY="${GRUB_DISABLE_RECOVERY:-}"
                        if [ "${GRUB_DISABLE_RECOVERY}" != "true" ]; then
                            title="$(gettext_printf "One time boot (%s)" "$(gettext "${GRUB_RECOVERY_TITLE}")")"
                            zfs_linux_entry 2 "${title}" "recovery" "${dataset}" "${device}" "${initrd}" "${kernel}" "${kernel_version}"
                        fi
                        title="$(gettext_printf "Revert system (all intermediate snapshots will be destroyed)")"
                        zfs_linux_entry 2 "${title}" "simple" "${dataset}" "${device}" "${initrd}" "${kernel}" "${kernel_version}" "rollback=yes"
                    fi
                    echo "	}"
                    at_least_one_entry=1
                ;;
                *)
                    grub_warn "unknown section: ${section}. Ignoring entry ${name} for ${dataset}"
                ;;
            esac
            last_section="${section}"
        done
        if [ "${at_least_one_entry}" -eq 1 ]; then
            echo "}"
        fi
    }
}
# don't add trailing newline of variable is empty
# $1: content to write
# $2: destination file
trailing_newline_if_not_empty() {
    content="$1"
    dest="$2"
    if [ -z "${content}" ]; then
        rm -f "${dest}"
        touch "${dest}"
        return
    fi
    echo "${content}" > "${dest}"
}
GRUB_LINUX_ZFS_TEST="${GRUB_LINUX_ZFS_TEST:-}"
case "${GRUB_LINUX_ZFS_TEST}" in
    bootlist)
        # Import all available pools on the system and return imported list
        imported_pools=$(import_pools)
        boot_list="$(bootlist ${MNTDIR})"
        trailing_newline_if_not_empty "${boot_list}" "${GRUB_LINUX_ZFS_TEST_OUTPUT}"
        break
    ;;
    metamenu)
        boot_list="$(cat ${GRUB_LINUX_ZFS_TEST_INPUT})"
        menu_metadata="$(generate_grub_menu_metadata "${boot_list}")"
        trailing_newline_if_not_empty "${menu_metadata}" "${GRUB_LINUX_ZFS_TEST_OUTPUT}"
        break
    ;;
    grubmenu)
        menu_metadata="$(cat ${GRUB_LINUX_ZFS_TEST_INPUT})"
        grub_menu=$(generate_grub_menu "${menu_metadata}")
        trailing_newline_if_not_empty "${grub_menu}" "${GRUB_LINUX_ZFS_TEST_OUTPUT}"
        break
    ;;
    *)
        # Import all available pools on the system and return imported list
        imported_pools=$(import_pools)
        # Generate the complete list of boot entries
        boot_list="$(bootlist ${MNTDIR})"
        # Create boot menu meta data from the list of boot entries
        menu_metadata="$(generate_grub_menu_metadata "${boot_list}")"
        # Create boot menu meta data from the list of boot entries
        grub_menu="$(generate_grub_menu "${menu_metadata}")"
        if [ -n "${grub_menu}" ]; then
            # We want the trailing newline as a marker will be added
            echo "${grub_menu}"
        fi
    ;;
esac

========================= sdb4/etc/grub.d/29_linux_xen =========================

#! /bin/sh
set -e
# grub-mkconfig helper script.
# Copyright (C) 2006,2007,2008,2009,2010  Free Software Foundation, Inc.
#
# GRUB 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.
#
# GRUB 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 GRUB.  If not, see <http://www.gnu.org/licenses/>.
prefix="/usr"
exec_prefix="/usr"
datarootdir="/usr/share"
. "$pkgdatadir/grub-mkconfig_lib"
export TEXTDOMAIN=grub
export TEXTDOMAINDIR="${datarootdir}/locale"
CLASS="--class gnu-linux --class gnu --class os --class xen"
SUPPORTED_INITS="sysvinit:/lib/sysvinit/init systemd:/lib/systemd/systemd upstart:/sbin/upstart"
if [ "x${GRUB_DISTRIBUTOR}" = "x" ] ; then
  OS=GNU/Linux
else
  OS="${GRUB_DISTRIBUTOR} GNU/Linux"
  CLASS="--class $(echo ${GRUB_DISTRIBUTOR} | tr 'A-Z' 'a-z' | cut -d' ' -f1|LC_ALL=C sed 's,[^[:alnum:]_],_,g') ${CLASS}"
fi
# loop-AES arranges things so that /dev/loop/X can be our root device, but
# the initrds that Linux uses don't like that.
case ${GRUB_DEVICE} in
  /dev/loop/*|/dev/loop[0-9])
    GRUB_DEVICE=`losetup ${GRUB_DEVICE} | sed -e "s/^[^(]*(\([^)]\+\)).*/\1/"`
    # We can't cope with devices loop-mounted from files here.
    case ${GRUB_DEVICE} in
      /dev/*) ;;
      *) exit 0 ;;
    esac
  ;;
esac
# Default to disabling partition uuid support to maintian compatibility with
# older kernels.
GRUB_DISABLE_LINUX_PARTUUID=${GRUB_DISABLE_LINUX_PARTUUID-true}
# btrfs may reside on multiple devices. We cannot pass them as value of root= parameter
# and mounting btrfs requires user space scanning, so force UUID in this case.
if ( [ "x${GRUB_DEVICE_UUID}" = "x" ] && [ "x${GRUB_DEVICE_PARTUUID}" = "x" ] ) \
    || ( [ "x${GRUB_DISABLE_LINUX_UUID}" = "xtrue" ] \
	&& [ "x${GRUB_DISABLE_LINUX_PARTUUID}" = "xtrue" ] ) \
    || ( ! test -e "/dev/disk/by-uuid/${GRUB_DEVICE_UUID}" \
	&& ! test -e "/dev/disk/by-partuuid/${GRUB_DEVICE_PARTUUID}" ) \
    || ( test -e "${GRUB_DEVICE}" && uses_abstraction "${GRUB_DEVICE}" lvm ); then
  LINUX_ROOT_DEVICE=${GRUB_DEVICE}
elif [ "x${GRUB_DEVICE_UUID}" = "x" ] \
    || [ "x${GRUB_DISABLE_LINUX_UUID}" = "xtrue" ]; then
  LINUX_ROOT_DEVICE=PARTUUID=${GRUB_DEVICE_PARTUUID}
else
  LINUX_ROOT_DEVICE=UUID=${GRUB_DEVICE_UUID}
fi
# Allow overriding GRUB_CMDLINE_LINUX and GRUB_CMDLINE_LINUX_DEFAULT.
if [ "${GRUB_CMDLINE_LINUX_XEN_REPLACE}" ]; then
  GRUB_CMDLINE_LINUX="${GRUB_CMDLINE_LINUX_XEN_REPLACE}"
fi
if [ "${GRUB_CMDLINE_LINUX_XEN_REPLACE_DEFAULT}" ]; then
  GRUB_CMDLINE_LINUX_DEFAULT="${GRUB_CMDLINE_LINUX_XEN_REPLACE_DEFAULT}"
fi
case x"$GRUB_FS" in
    xbtrfs)
	rootsubvol="`make_system_path_relative_to_its_root /`"
	rootsubvol="${rootsubvol#/}"
	if [ "x${rootsubvol}" != x ]; then
	    GRUB_CMDLINE_LINUX="rootflags=subvol=${rootsubvol} ${GRUB_CMDLINE_LINUX}"
	fi;;
    xzfs)
	rpool=`${grub_probe} --device ${GRUB_DEVICE} --target=fs_label 2>/dev/null || true`
	bootfs="`make_system_path_relative_to_its_root / | sed -e "s,@$,,"`"
	LINUX_ROOT_DEVICE="ZFS=${rpool}${bootfs%/}"
	;;
esac
title_correction_code=
linux_entry ()
{
  linux_entry_xsm "$@" false
  linux_entry_xsm "$@" true
}
linux_entry_xsm ()
{
  os="$1"
  version="$2"
  xen_version="$3"
  type="$4"
  args="$5"
  xen_args="$6"
  xsm="$7"
  # If user wants to enable XSM support, make sure there's
  # corresponding policy file.
  if ${xsm} ; then
      xenpolicy="xenpolicy-$xen_version"
      if test ! -e "${xen_dirname}/${xenpolicy}" ; then
	  return
      fi
      xen_args="$xen_args flask=enforcing"
      xen_version="$(gettext_printf "%s (XSM enabled)" "$xen_version")"
      # xen_version is used for messages only; actual file is xen_basename
  fi
  if [ -z "$boot_device_id" ]; then
      boot_device_id="$(grub_get_device_id "${GRUB_DEVICE}")"
  fi
  if [ x$type != xsimple ] ; then
      if [ x$type = xrecovery ] ; then
	  title="$(gettext_printf "%s, with Xen %s and Linux %s (%s)" "${os}" "${xen_version}" "${version}" "$(gettext "${GRUB_RECOVERY_TITLE}")")"
      elif [ "${type#init-}" != "$type" ] ; then
	  title="$(gettext_printf "%s, with Xen %s and Linux %s (%s)" "${os}" "${xen_version}" "${version}" "${type#init-}")"
      else
	  title="$(gettext_printf "%s, with Xen %s and Linux %s" "${os}" "${xen_version}" "${version}")"
      fi
      replacement_title="$(echo "Advanced options for ${OS}" | sed 's,>,>>,g')>$(echo "$title" | sed 's,>,>>,g')"
      if [ x"Xen ${xen_version}>$title" = x"$GRUB_ACTUAL_DEFAULT" ]; then
         quoted="$(echo "$GRUB_ACTUAL_DEFAULT" | grub_quote)"
         title_correction_code="${title_correction_code}if [ \"x\$default\" = '$quoted' ]; then default='$(echo "$replacement_title" | grub_quote)'; fi;"
         grub_warn "$(gettext_printf "Please don't use old title \`%s' for GRUB_DEFAULT, use \`%s' (for versions before 2.00) or \`%s' (for 2.00 or later)" "$GRUB_ACTUAL_DEFAULT" "$replacement_title" "gnulinux-advanced-$boot_device_id>gnulinux-$version-$type-$boot_device_id")"
      fi
      echo "menuentry '$(echo "$title" | grub_quote)' ${CLASS} \$menuentry_id_option 'xen-gnulinux-$version-$type-$boot_device_id' {" | sed "s/^/$submenu_indentation/"
  else
      title="$(gettext_printf "%s, with Xen hypervisor" "${os}")"
      echo "menuentry '$(echo "$title" | grub_quote)' ${CLASS} \$menuentry_id_option 'xen-gnulinux-simple-$boot_device_id' {" | sed "s/^/$submenu_indentation/"
  fi
  if [ x$type != xrecovery ] ; then
      save_default_entry | grub_add_tab | sed "s/^/$submenu_indentation/"
  fi
  if [ -z "${prepare_boot_cache}" ]; then
    prepare_boot_cache="$(prepare_grub_to_access_device ${GRUB_DEVICE_BOOT} | grub_add_tab)"
  fi
  printf '%s\n' "${prepare_boot_cache}" | sed "s/^/$submenu_indentation/"
  xmessage="$(gettext_printf "Loading Xen %s ..." ${xen_version})"
  lmessage="$(gettext_printf "Loading Linux %s ..." ${version})"
  sed "s/^/$submenu_indentation/" << EOF
	echo	'$(echo "$xmessage" | grub_quote)'
        if [ "\$grub_platform" = "pc" -o "\$grub_platform" = "" ]; then
            xen_rm_opts=
        else
            xen_rm_opts="no-real-mode edd=off"
        fi
	${xen_loader}	${rel_xen_dirname}/${xen_basename} placeholder ${xen_args} \${xen_rm_opts}
	echo	'$(echo "$lmessage" | grub_quote)'
	${module_loader}	${rel_dirname}/${basename} placeholder root=${linux_root_device_thisversion} ro ${args}
EOF
  if test -n "${initrd}" ; then
    # TRANSLATORS: ramdisk isn't identifier. Should be translated.
    message="$(gettext_printf "Loading initial ramdisk ...")"
    initrd_path=
    for i in ${initrd}; do
       initrd_path="${initrd_path} ${rel_dirname}/${i}"
    done
    sed "s/^/$submenu_indentation/" << EOF
	echo	'$(echo "$message" | grub_quote)'
	${module_loader}	--nounzip   $(echo $initrd_path)
EOF
  fi
  if ${xsm} && test -n "${xenpolicy}" ; then
    message="$(gettext_printf "Loading XSM policy ...")"
    sed "s/^/$submenu_indentation/" << EOF
	echo	'$(echo "$message" | grub_quote)'
	${module_loader}     ${rel_dirname}/${xenpolicy}
EOF
  fi
  sed "s/^/$submenu_indentation/" << EOF
}
EOF
}
linux_list=
for i in /boot/vmlinu[xz]-* /vmlinu[xz]-* /boot/kernel-*; do
    if grub_file_is_not_garbage "$i"; then
    	basename=$(basename $i)
	version=$(echo $basename | sed -e "s,^[^0-9]*-,,g")
	dirname=$(dirname $i)
	config=
	for j in "${dirname}/config-${version}" "${dirname}/config-${alt_version}" "/etc/kernels/kernel-config-${version}" ; do
	    if test -e "${j}" ; then
		config="${j}"
		break
	    fi
	done
        if (grep -qx "CONFIG_XEN_DOM0=y" "${config}" 2> /dev/null || grep -qx "CONFIG_XEN_PRIVILEGED_GUEST=y" "${config}" 2> /dev/null); then linux_list="$linux_list $i" ; fi
    fi
done
if [ "x${linux_list}" = "x" ] ; then
    exit 0
fi
file_is_not_xen_garbage () {
    case "$1" in
	*/xen-syms-*)
	    return 1;;
	*/xenpolicy-*)
	    return 1;;
	*/*.config)
	    return 1;;
	*)
	    return 0;;
    esac
}
xen_list=
for i in /boot/xen*; do
    if grub_file_is_not_garbage "$i" && file_is_not_xen_garbage "$i" ; then xen_list="$xen_list $i" ; fi
done
prepare_boot_cache=
boot_device_id=
title_correction_code=
machine=`uname -m`
case "$machine" in
    i?86) GENKERNEL_ARCH="x86" ;;
    mips|mips64) GENKERNEL_ARCH="mips" ;;
    mipsel|mips64el) GENKERNEL_ARCH="mipsel" ;;
    arm*) GENKERNEL_ARCH="arm" ;;
    *) GENKERNEL_ARCH="$machine" ;;
esac
# Extra indentation to add to menu entries in a submenu. We're not in a submenu
# yet, so it's empty. In a submenu it will be equal to '\t' (one tab).
submenu_indentation=""
is_top_level=true
while [ "x${xen_list}" != "x" ] ; do
    list="${linux_list}"
    current_xen=`version_find_latest $xen_list`
    xen_basename=`basename ${current_xen}`
    xen_dirname=`dirname ${current_xen}`
    rel_xen_dirname=`make_system_path_relative_to_its_root $xen_dirname`
    xen_version=`echo $xen_basename | sed -e "s,.gz$,,g;s,^xen-,,g"`
    if [ -z "$boot_device_id" ]; then
	boot_device_id="$(grub_get_device_id "${GRUB_DEVICE}")"
    fi
    if [ "x$is_top_level" != xtrue ]; then
	echo "	submenu '$(gettext_printf "Xen hypervisor, version %s" "${xen_version}" | grub_quote)' \$menuentry_id_option 'xen-hypervisor-$xen_version-$boot_device_id' {"
    fi
    if ($grub_file --is-arm64-efi $current_xen); then
	xen_loader="xen_hypervisor"
	module_loader="xen_module"
    else
	if ($grub_file --is-x86-multiboot2 $current_xen); then
	    xen_loader="multiboot2"
	    module_loader="module2"
	else
	    xen_loader="multiboot"
	    module_loader="module"
        fi
    fi
    initrd_early=
    for i in ${GRUB_EARLY_INITRD_LINUX_STOCK} \
             ${GRUB_EARLY_INITRD_LINUX_CUSTOM}; do
       if test -e "${xen_dirname}/${i}" ; then
          initrd_early="${initrd_early} ${i}"
       fi
    done
    while [ "x$list" != "x" ] ; do
	linux=`version_find_latest $list`
	gettext_printf "Found linux image: %s\n" "$linux" >&2
	basename=`basename $linux`
	dirname=`dirname $linux`
	rel_dirname=`make_system_path_relative_to_its_root $dirname`
	version=`echo $basename | sed -e "s,^[^0-9]*-,,g"`
	alt_version=`echo $version | sed -e "s,\.old$,,g"`
	linux_root_device_thisversion="${LINUX_ROOT_DEVICE}"
	initrd_real=
	for i in "initrd.img-${version}" "initrd-${version}.img" "initrd-${version}.gz" \
	   "initrd-${version}" "initramfs-${version}.img" \
	   "initrd.img-${alt_version}" "initrd-${alt_version}.img" \
	   "initrd-${alt_version}" "initramfs-${alt_version}.img" \
	   "initramfs-genkernel-${version}" \
	   "initramfs-genkernel-${alt_version}" \
	   "initramfs-genkernel-${GENKERNEL_ARCH}-${version}" \
	   "initramfs-genkernel-${GENKERNEL_ARCH}-${alt_version}" ; do
	    if test -e "${dirname}/${i}" ; then
		initrd_real="$i"
		break
	    fi
	done
	initrd=
	if test -n "${initrd_early}" || test -n "${initrd_real}"; then
	    initrd="${initrd_early} ${initrd_real}"
	    initrd_display=
	    for i in ${initrd}; do
		initrd_display="${initrd_display} ${dirname}/${i}"
	    done
	    gettext_printf "Found initrd image: %s\n" "$(echo $initrd_display)" >&2
	fi
	if test -z "${initrd_real}"; then
    # "UUID=" magic is parsed by initrds.  Since there's no initrd, it can't work here.
	    if [ "x${GRUB_DEVICE_PARTUUID}" = "x" ] \
		|| [ "x${GRUB_DISABLE_LINUX_PARTUUID}" = "xtrue" ]; then
		linux_root_device_thisversion=${GRUB_DEVICE}
	    else
		linux_root_device_thisversion=PARTUUID=${GRUB_DEVICE_PARTUUID}
	    fi
	fi
	# The GRUB_DISABLE_SUBMENU option used to be different than others since it was
	# mentioned in the documentation that has to be set to 'y' instead of 'true' to
	# enable it. This caused a lot of confusion to users that set the option to 'y',
	# 'yes' or 'true'. This was fixed but all of these values must be supported now.
	if [ "x${GRUB_DISABLE_SUBMENU}" = xyes ] || [ "x${GRUB_DISABLE_SUBMENU}" = xy ]; then
	    GRUB_DISABLE_SUBMENU="true"
	fi
	if [ "x$is_top_level" = xtrue ] && [ "x${GRUB_DISABLE_SUBMENU}" != xtrue ]; then
	    linux_entry "${OS}" "${version}" "${xen_version}" simple \
		"${GRUB_CMDLINE_LINUX} ${GRUB_CMDLINE_LINUX_DEFAULT}" "${GRUB_CMDLINE_XEN} ${GRUB_CMDLINE_XEN_DEFAULT}"
	    submenu_indentation="$grub_tab$grub_tab"
    
	    if [ -z "$boot_device_id" ]; then
		boot_device_id="$(grub_get_device_id "${GRUB_DEVICE}")"
	    fi
            # TRANSLATORS: %s is replaced with an OS name
	    echo "submenu '$(gettext_printf "Advanced options for %s (with Xen hypervisor)" "${OS}" | grub_quote)' \$menuentry_id_option 'gnulinux-advanced-$boot_device_id' {"
	echo "	submenu '$(gettext_printf "Xen hypervisor, version %s" "${xen_version}" | grub_quote)' \$menuentry_id_option 'xen-hypervisor-$xen_version-$boot_device_id' {"
	   is_top_level=false
	fi
	linux_entry "${OS}" "${version}" "${xen_version}" advanced \
	    "${GRUB_CMDLINE_LINUX} ${GRUB_CMDLINE_LINUX_DEFAULT}" "${GRUB_CMDLINE_XEN} ${GRUB_CMDLINE_XEN_DEFAULT}"
	for supported_init in ${SUPPORTED_INITS}; do
	    init_path="${supported_init#*:}"
	    if [ -x "${init_path}" ] && [ "$(readlink -f /sbin/init)" != "$(readlink -f "${init_path}")" ]; then
		linux_entry "${OS}" "${version}" "${xen_version}" "init-${supported_init%%:*}" \
		    "${GRUB_CMDLINE_LINUX} ${GRUB_CMDLINE_LINUX_DEFAULT} init=${init_path}" "${GRUB_CMDLINE_XEN} ${GRUB_CMDLINE_XEN_DEFAULT}"
	    fi
	done
	if [ "x${GRUB_DISABLE_RECOVERY}" != "xtrue" ]; then
	    linux_entry "${OS}" "${version}" "${xen_version}" recovery \
		"single ${GRUB_CMDLINE_LINUX}" "${GRUB_CMDLINE_XEN}"
	fi
	list=`echo $list | tr ' ' '\n' | fgrep -vx "$linux" | tr '\n' ' '`
    done
    if [ x"$is_top_level" != xtrue ]; then
	echo '	}'
    fi
    xen_list=`echo $xen_list | tr ' ' '\n' | fgrep -vx "$current_xen" | tr '\n' ' '`
done
# If at least one kernel was found, then we need to
# add a closing '}' for the submenu command.
if [ x"$is_top_level" != xtrue ]; then
  echo '}'
fi
echo "$title_correction_code"

======================= sdb4/etc/grub.d/30_custom_proxy ========================

#!/bin/sh
#THIS IS A GRUB PROXY SCRIPT
'/etc/grub.d/proxifiedScripts/custom' | /etc/grub.d/bin/grubcfg_proxy "-'Windows UEFI bootmgfw.efi'~95920a15fbf47e81cee3564870f488d2~
+*
+#text
-'Windows Boot UEFI loader'~d6b3720a27d5c33362f3ad8f2fab17a4~
-'Windows Boot UEFI fbx64.efi'~e29db835fc8d38265400e48f73774ef4~
-'Windows Boot UEFI mmx64.efi'~7bb627b11974a167207e147ee0dba796~
-'EFI/ubuntu/mmx64.efi'~d91e9f97f996f4b1538de3f14ac91731~
-'EFI/HP/BIOSUpdate/CryptRSA.efi'~60359c5e46f01aa1029fa20194284eb5~
-'EFI/HP/BIOSUpdate/HpBiosMgmt.efi'~0834b087b0934de4b0fc80976b81b19d~
-'EFI/HP/BIOSUpdate/HpBiosUpdate.efi'~293230022f207137dbf070c034337af7~
-'EFI/HP/SystemDiags/CryptRSA.efi'~2e0ae1dd14a487af41d90d6ddbdaf2d1~
-'EFI/HP/SystemDiags/HpSysDiags.efi'~56605ec1135943f300b3a38f1f690532~
-'EFI/HP/SystemDiags/SystemDiags.efi'~b7087ccfb3ae8b61e0bc83ad19b9d824~
"

========================= sdb4/etc/grub.d/31_os-prober =========================

#! /bin/sh
set -e
# grub-mkconfig helper script.
# Copyright (C) 2006,2007,2008,2009  Free Software Foundation, Inc.
#
# GRUB 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.
#
# GRUB 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 GRUB.  If not, see <http://www.gnu.org/licenses/>.
prefix="/usr"
exec_prefix="/usr"
datarootdir="/usr/share"
quick_boot="1"
export TEXTDOMAIN=grub
export TEXTDOMAINDIR="${datarootdir}/locale"
. "$pkgdatadir/grub-mkconfig_lib"
found_other_os=
adjust_timeout () {
  if [ "$quick_boot" = 1 ] && [ "x${found_other_os}" != "x" ]; then
    cat << EOF
set timeout_style=menu
if [ "\${timeout}" = 0 ]; then
  set timeout=10
fi
EOF
  fi
}
if [ "x${GRUB_DISABLE_OS_PROBER}" = "xtrue" ]; then
  grub_warn "$(gettext_printf "os-prober will not be executed to detect other bootable partitions.\nSystems on them will not be added to the GRUB boot configuration.\nCheck GRUB_DISABLE_OS_PROBER documentation entry.")"
  exit 0
elif [ "x${GRUB_DISABLE_OS_PROBER}" = "xauto" ]; then
  # UBUNTU: We do not want to disable os-prober on upgrades if we found items before.
  if test -e /boot/grub/grub.cfg && ! grep -q osprober /boot/grub/grub.cfg; then
    grub_warn "$(gettext_printf "os-prober will not be executed to detect other bootable partitions.\nSystems on them will not be added to the GRUB boot configuration.\nCheck GRUB_DISABLE_OS_PROBER documentation entry.")"
    exit 0
  fi
fi
if ! command -v os-prober > /dev/null || ! command -v linux-boot-prober > /dev/null ; then
  # missing os-prober and/or linux-boot-prober
  exit 0
fi
grub_warn "$(gettext_printf "os-prober will be executed to detect other bootable partitions.\nIts output will be used to detect bootable binaries on them and create new boot entries.")"
OSPROBED="`os-prober | tr ' ' '^' | paste -s -d ' '`"
if [ -z "${OSPROBED}" ] ; then
  # empty os-prober output, nothing doing
  exit 0
fi
osx_entry() {
    found_other_os=1
    if [ x$2 = x32 ]; then
        # TRANSLATORS: it refers to kernel architecture (32-bit)
	bitstr="$(gettext "(32-bit)")"
    else
        # TRANSLATORS: it refers to kernel architecture (64-bit)
	bitstr="$(gettext "(64-bit)")"
    fi
    # TRANSLATORS: it refers on the OS residing on device %s
    onstr="$(gettext_printf "(on %s)" "${DEVICE}")"
        cat << EOF
menuentry '$(echo "${LONGNAME} $bitstr $onstr" | grub_quote)' --class osx --class darwin --class os \$menuentry_id_option 'osprober-xnu-$2-$(grub_get_device_id "${DEVICE}")'  {
EOF
	save_default_entry | grub_add_tab
	prepare_grub_to_access_device ${DEVICE} | grub_add_tab
	cat << EOF
        load_video
        set do_resume=0
        if [ /var/vm/sleepimage -nt10 / ]; then
           if xnu_resume /var/vm/sleepimage; then
             set do_resume=1
           fi
        fi
        if [ \$do_resume = 0 ]; then
           xnu_uuid ${OSXUUID} uuid
           if [ -f /Extra/DSDT.aml ]; then
              acpi -e /Extra/DSDT.aml
           fi
           if [ /kernelcache -nt /System/Library/Extensions ]; then
              $1 /kernelcache boot-uuid=\${uuid} rd=*uuid
           elif [ -f /System/Library/Kernels/kernel ]; then
              $1 /System/Library/Kernels/kernel boot-uuid=\${uuid} rd=*uuid
              xnu_kextdir /System/Library/Extensions
           else
              $1 /mach_kernel boot-uuid=\${uuid} rd=*uuid
              if [ /System/Library/Extensions.mkext -nt /System/Library/Extensions ]; then
                xnu_mkext /System/Library/Extensions.mkext
              else
                xnu_kextdir /System/Library/Extensions
              fi
           fi
           if [ -f /Extra/Extensions.mkext ]; then
              xnu_mkext /Extra/Extensions.mkext
           fi
           if [ -d /Extra/Extensions ]; then
              xnu_kextdir /Extra/Extensions
           fi
           if [ -f /Extra/devprop.bin ]; then
              xnu_devprop_load /Extra/devprop.bin
           fi
           if [ -f /Extra/splash.jpg ]; then
              insmod jpeg
              xnu_splash /Extra/splash.jpg
           fi
           if [ -f /Extra/splash.png ]; then
              insmod png
              xnu_splash /Extra/splash.png
           fi
           if [ -f /Extra/splash.tga ]; then
              insmod tga
              xnu_splash /Extra/splash.tga
           fi
        fi
}
EOF
}
used_osprober_linux_ids=
wubi=
for OS in ${OSPROBED} ; do
  DEVICE="`echo ${OS} | cut -d ':' -f 1`"
  LONGNAME="`echo ${OS} | cut -d ':' -f 2 | tr '^' ' '`"
  LABEL="`echo ${OS} | cut -d ':' -f 3 | tr '^' ' '`"
  BOOT="`echo ${OS} | cut -d ':' -f 4`"
  if UUID="`${grub_probe} --target=fs_uuid --device ${DEVICE%@*}`"; then
    EXPUUID="$UUID"
    if [ x"${DEVICE#*@}" != x ] ; then
      EXPUUID="${EXPUUID}@${DEVICE#*@}"
    fi
    if [ "x${GRUB_OS_PROBER_SKIP_LIST}" != "x" ] && [ "x`echo ${GRUB_OS_PROBER_SKIP_LIST} | grep -i -e '\b'${EXPUUID}'\b'`" != "x" ] ; then
      echo "Skipped ${LONGNAME} on ${DEVICE} by user request." >&2
      continue
    fi
  fi
  BTRFS="`echo ${OS} | cut -d ':' -f 5`"
  if [ "x$BTRFS" = "xbtrfs" ]; then
	BTRFSuuid="`echo ${OS} | cut -d ':' -f 6`"
	BTRFSsubvol="`echo ${OS} | cut -d ':' -f 7`"
  fi
  if [ -z "${LONGNAME}" ] ; then
    LONGNAME="${LABEL}"
  fi
  # os-prober returns text string followed by optional counter
  CLASS="--class $(echo "${LABEL}" | LC_ALL=C sed 's,[[:digit:]]*$,,' | cut -d' ' -f1 | tr 'A-Z' 'a-z' | LC_ALL=C sed 's,[^[:alnum:]_],_,g')"
  gettext_printf "Found %s on %s\n" "${LONGNAME}" "${DEVICE}" >&2
  case ${BOOT} in
    chain)
      case ${LONGNAME} in
	Windows*)
	  if [ -z "$wubi" ]; then
	    if [ -x /usr/share/lupin-support/grub-mkimage ] && \
	       /usr/share/lupin-support/grub-mkimage --test; then
	      wubi=yes
	    else
	      wubi=no
	    fi
	  fi
	  if [ "$wubi" = yes ]; then
	    echo "Skipping ${LONGNAME} on Wubi system" >&2
	    continue
	  fi
	  ;;
      esac
      found_other_os=1
	  onstr="$(gettext_printf "(on %s)" "${DEVICE}")"
      cat << EOF
menuentry '$(echo "${LONGNAME} $onstr" | grub_quote)' $CLASS --class os \$menuentry_id_option 'osprober-chain-$(grub_get_device_id "${DEVICE}")' {
EOF
      save_default_entry | grub_add_tab
      prepare_grub_to_access_device ${DEVICE} | grub_add_tab
      if [ x"`${grub_probe} --device ${DEVICE} --target=partmap`" = xmsdos ]; then
	  cat << EOF
	parttool \${root} hidden-
EOF
      fi
      case ${LONGNAME} in
	Windows\ Vista*|Windows\ 7*|Windows\ Server\ 2008*)
	;;
	*)
	  cat << EOF
	drivemap -s (hd0) \${root}
EOF
	;;
      esac
      cat <<EOF
	chainloader +1
}
EOF
    ;;
    efi)
	found_other_os=1
	EFIPATH=${DEVICE#*@}
	DEVICE=${DEVICE%@*}
	onstr="$(gettext_printf "(on %s)" "${DEVICE}")"
      cat << EOF
menuentry '$(echo "${LONGNAME} $onstr" | grub_quote)' $CLASS --class os \$menuentry_id_option 'osprober-efi-$(grub_get_device_id "${DEVICE}")' {
EOF
      save_default_entry | sed -e "s/^/\t/"
      prepare_grub_to_access_device ${DEVICE} | sed -e "s/^/\t/"
      cat <<EOF
	chainloader ${EFIPATH}
}
EOF
    ;;
    linux)
      if [ "x$BTRFS" = "xbtrfs" ]; then
         LINUXPROBED="`linux-boot-prober btrfs ${BTRFSuuid} ${BTRFSsubvol}  2> /dev/null | tr ' ' '^' | paste -s -d ' '`"
      else
         LINUXPROBED="`linux-boot-prober ${DEVICE} 2> /dev/null | tr ' ' '^' | paste -s -d ' '`"
      fi
      prepare_boot_cache=
      boot_device_id=
      is_top_level=true
      title_correction_code=
      OS="${LONGNAME}"
      for LINUX in ${LINUXPROBED} ; do
        LROOT="`echo ${LINUX} | cut -d ':' -f 1`"
        LBOOT="`echo ${LINUX} | cut -d ':' -f 2`"
        LLABEL="`echo ${LINUX} | cut -d ':' -f 3 | tr '^' ' '`"
        LKERNEL="`echo ${LINUX} | cut -d ':' -f 4`"
        LINITRD="`echo ${LINUX} | cut -d ':' -f 5`"
        LPARAMS="`echo ${LINUX} | cut -d ':' -f 6- | tr '^' ' '`"
        if [ -z "${LLABEL}" ] ; then
          LLABEL="${LONGNAME}"
        fi
	if [ "${LROOT}" != "${LBOOT}" ]; then
	  LKERNEL="${LKERNEL#/boot}"
	  LINITRD="${LINITRD#/boot}"
	fi
	if [ -z "${prepare_boot_cache}" ]; then
	  prepare_boot_cache="$(prepare_grub_to_access_device ${LBOOT} | grub_add_tab)"
	  [ "${prepare_boot_cache}" ] || continue
	fi
	found_other_os=1
	onstr="$(gettext_printf "(on %s)" "${DEVICE}")"
	recovery_params="$(echo "${LPARAMS}" | grep 'single\|recovery')" || true
	counter=1
	while echo "$used_osprober_linux_ids" | grep 'osprober-gnulinux-$LKERNEL-${recovery_params}-$counter-$boot_device_id' > /dev/null; do
	    counter=$((counter+1));
	done
	if [ -z "$boot_device_id" ]; then
	    boot_device_id="$(grub_get_device_id "${DEVICE}")"
	fi
	used_osprober_linux_ids="$used_osprober_linux_ids 'osprober-gnulinux-$LKERNEL-${recovery_params}-$counter-$boot_device_id'"
	# The GRUB_DISABLE_SUBMENU option used to be different than others since it was
	# mentioned in the documentation that has to be set to 'y' instead of 'true' to
	# enable it. This caused a lot of confusion to users that set the option to 'y',
	# 'yes' or 'true'. This was fixed but all of these values must be supported now.
	if [ "x${GRUB_DISABLE_SUBMENU}" = xyes ] || [ "x${GRUB_DISABLE_SUBMENU}" = xy ]; then
	    GRUB_DISABLE_SUBMENU="true"
	fi
	if [ "x$is_top_level" = xtrue ] && [ "x${GRUB_DISABLE_SUBMENU}" != xtrue ]; then
            cat << EOF
menuentry '$(echo "$OS $onstr" | grub_quote)' $CLASS --class gnu-linux --class gnu --class os \$menuentry_id_option 'osprober-gnulinux-simple-$boot_device_id' {
EOF
	    save_default_entry | grub_add_tab
	    printf '%s\n' "${prepare_boot_cache}"
	    cat <<  EOF
	linux ${LKERNEL} ${LPARAMS}
EOF
            if [ -n "${LINITRD}" ] ; then
          cat << EOF
	initrd ${LINITRD}
EOF
            fi
        cat << EOF
}
EOF
	    echo "submenu '$(gettext_printf "Advanced options for %s" "${OS} $onstr" | grub_quote)' \$menuentry_id_option 'osprober-gnulinux-advanced-$boot_device_id' {"
	    is_top_level=false
	fi
	title="${LLABEL} $onstr"
        cat << EOF
	menuentry '$(echo "$title" | grub_quote)' --class gnu-linux --class gnu --class os \$menuentry_id_option 'osprober-gnulinux-$LKERNEL-${recovery_params}-$boot_device_id' {
EOF
	save_default_entry | sed -e "s/^/$grub_tab$grub_tab/"
	printf '%s\n' "${prepare_boot_cache}" | grub_add_tab
	cat <<  EOF
		linux ${LKERNEL} ${LPARAMS}
EOF
        if [ -n "${LINITRD}" ] ; then
            cat << EOF
		initrd ${LINITRD}
EOF
        fi
        cat << EOF
	}
EOF
	if [ x"$title" = x"$GRUB_ACTUAL_DEFAULT" ] || [ x"Previous Linux versions>$title" = x"$GRUB_ACTUAL_DEFAULT" ]; then
	    replacement_title="$(echo "Advanced options for ${OS} $onstr" | sed 's,>,>>,g')>$(echo "$title" | sed 's,>,>>,g')"
	    quoted="$(echo "$GRUB_ACTUAL_DEFAULT" | grub_quote)"
	    title_correction_code="${title_correction_code}if [ \"x\$default\" = '$quoted' ]; then default='$(echo "$replacement_title" | grub_quote)'; fi;"
	    grub_warn "$(gettext_printf "Please don't use old title \`%s' for GRUB_DEFAULT, use \`%s' (for versions before 2.00) or \`%s' (for 2.00 or later)" "$GRUB_ACTUAL_DEFAULT" "$replacement_title" "gnulinux-advanced-$boot_device_id>gnulinux-$version-$type-$boot_device_id")"
	fi
      done
      if [ x"$is_top_level" != xtrue ]; then
	  echo '}'
      fi
      echo "$title_correction_code"
    ;;
    macosx)
      if [ "${UUID}" ]; then
	OSXUUID="${UUID}"
	osx_entry xnu_kernel 32
	osx_entry xnu_kernel64 64
      fi
    ;;
    hurd)
      found_other_os=1
      onstr="$(gettext_printf "(on %s)" "${DEVICE}")"
      cat << EOF
menuentry '$(echo "${LONGNAME} $onstr" | grub_quote)' --class hurd --class gnu --class os \$menuentry_id_option 'osprober-gnuhurd-/boot/gnumach.gz-false-$(grub_get_device_id "${DEVICE}")' {
EOF
      save_default_entry | grub_add_tab
      prepare_grub_to_access_device ${DEVICE} | grub_add_tab
      grub_device="`${grub_probe} --device ${DEVICE} --target=drive`"
      mach_device="`echo "${grub_device}" | sed -e 's/(\(hd.*\),msdos\(.*\))/\1s\2/'`"
      grub_fs="`${grub_probe} --device ${DEVICE} --target=fs`"
      case "${grub_fs}" in
	*fs)	hurd_fs="${grub_fs}" ;;
	*)	hurd_fs="${grub_fs}fs" ;;
      esac
      cat << EOF
	multiboot /boot/gnumach.gz root=device:${mach_device}
	module /hurd/${hurd_fs}.static ${hurd_fs} --readonly \\
			--multiboot-command-line='\${kernel-command-line}' \\
			--host-priv-port='\${host-port}' \\
			--device-master-port='\${device-port}' \\
			--exec-server-task='\${exec-task}' -T typed '\${root}' \\
			'\$(task-create)' '\$(task-resume)'
	module /lib/ld.so.1 exec /hurd/exec '\$(exec-task=task-create)'
}
EOF
    ;;
    minix)
	  cat << EOF
menuentry "${LONGNAME} (on ${DEVICE}, Multiboot)" {
EOF
         save_default_entry | sed -e "s/^/\t/"
         prepare_grub_to_access_device ${DEVICE} | sed -e "s/^/\t/"
	 cat << EOF
	multiboot /boot/image_latest
}
EOF
    ;;
    *)
      # TRANSLATORS: %s is replaced by OS name.
      gettext_printf "%s is not yet supported by grub-mkconfig.\n" "  ${LONGNAME}" >&2
    ;;
  esac
done
adjust_timeout

==================== sdb4/etc/grub.d/32_uefi-firmware_proxy ====================

#!/bin/sh
#THIS IS A GRUB PROXY SCRIPT
'/etc/grub.d/proxifiedScripts/uefi-firmware' | /etc/grub.d/bin/grubcfg_proxy "+*
-'UEFI Firmware Settings'~4e15a6547b9250de59821b594ecf5dee~
"

=========================== sdb4/etc/grub.d/35_fwupd ===========================

#! /bin/sh
# SPDX-License-Identifier: LGPL-2.1+
set -e
[ -d ${pkgdatadir:?} ]
# shellcheck source=/dev/null
. "$pkgdatadir/grub-mkconfig_lib"
if [ -f /var/lib/fwupd/uefi_capsule.conf ] &&
   ls /sys/firmware/efi/efivars/fwupd-*-0abba7dc-e516-4167-bbf5-4d9d1c739416 1>/dev/null 2>&1; then
      . /var/lib/fwupd/uefi_capsule.conf
      if [ "${EFI_PATH}" != "" ] && [ "${ESP}" != "" ]; then
      echo "Adding Linux Firmware Updater entry" >&2
cat << EOF
menuentry 'Linux Firmware Updater' \$menuentry_id_option 'fwupd' {
EOF
      ${grub_probe:?}
      prepare_grub_to_access_device '`${grub_probe} --target=device \${ESP}` | sed -e "s/^/\t/"'
cat << EOF
	chainloader ${EFI_PATH}
}
EOF
      fi
fi

======================= sdb4/etc/grub.d/42_custom_proxy ========================

#!/bin/sh
#THIS IS A GRUB PROXY SCRIPT
'/etc/grub.d/proxifiedScripts/custom' | /etc/grub.d/bin/grubcfg_proxy "-*
-#text
-'Windows UEFI bootmgfw.efi'~95920a15fbf47e81cee3564870f488d2~
-'EFI/ubuntu/mmx64.efi'~d91e9f97f996f4b1538de3f14ac91731~
-'EFI/HP/BIOSUpdate/CryptRSA.efi'~60359c5e46f01aa1029fa20194284eb5~
-'EFI/HP/BIOSUpdate/HpBiosMgmt.efi'~0834b087b0934de4b0fc80976b81b19d~
-'EFI/HP/BIOSUpdate/HpBiosUpdate.efi'~293230022f207137dbf070c034337af7~
-'EFI/HP/SystemDiags/CryptRSA.efi'~2e0ae1dd14a487af41d90d6ddbdaf2d1~
-'EFI/HP/SystemDiags/HpSysDiags.efi'~56605ec1135943f300b3a38f1f690532~
-'EFI/HP/SystemDiags/SystemDiags.efi'~b7087ccfb3ae8b61e0bc83ad19b9d824~
+'Windows Boot UEFI loader'~d6b3720a27d5c33362f3ad8f2fab17a4~
+'Windows Boot UEFI fbx64.efi'~e29db835fc8d38265400e48f73774ef4~
+'Windows Boot UEFI mmx64.efi'~7bb627b11974a167207e147ee0dba796~
"



Suggested repair: ______________________________________________________________

The default repair of the Boot-Repair utility would purge (in order to unsign) and reinstall the grub-efi of
sdb4,
using the following options:  sdb1/boot/efi
Additional repair would be performed: unhide-bootmenu-10s use-standard-efi-file

Blockers in case of suggested repair: __________________________________________

 Please use this software in a live-session (live-CD or live-USB). This will enable this feature.

Final advice in case of suggested repair: ______________________________________

Please do not forget to make your UEFI firmware boot on the L'OS actuellement utilisé - Ubuntu 22.04 LTS CurrentSession entry (sdb1/efi/****/grub****.efi (**** will be updated in the final message) file) !
If your computer reboots directly into Windows, try to change the boot order in your UEFI firmware.
If your UEFI firmware does not allow to change the boot order, change the default boot entry of the Windows bootloader.
For example you can boot into Windows, then type the following command in an admin command prompt:
bcdedit /set {bootmgr} path \EFI\****\grub****.efi (**** will be updated in the final message)

Conseils pour les nouveaux demandeurs et pas qu'eux
Important : Pensez à passer vos sujets en [Réso|u] lorsque ceux-ci le sont, au début du titre en cliquant sur Modifier sous le premier message, et un bref récapitulatif de la solution à la fin de celui-ci. Merci.                   Membre de Linux-Azur

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#3 Le 19/07/2022, à 16:25

geole

Re : [Résolu]-Grub présent mais innaccessible

Bonjour
Pour essayer de faire apparaître ton menu grub, tente cela

echo GRUB_TERMINAL=console  | sudo tee -a /etc/default/grub
sudo sed -i 's/GRUB_TIMEOUT_STYLE="hidden"/GRUB_TIMEOUT_STYLE=menu/' /etc/default/grub
sudo update-grub

Dernière modification par geole (Le 19/07/2022, à 16:26)


Les grilles de l'installateur https://doc.ubuntu-fr.org/tutoriel/inst … _subiquity
"gedit admin:///etc/fstab" est proscrit,  utilisez "pkexec env DISPLAY=$DISPLAY XAUTHORITY=$XAUTHORITY xdg-open /etc/fstab" Voir  https://doc.ubuntu-fr.org/gedit
Les partitions EXT4 des disques externes => https://forum.ubuntu-fr.org/viewtopic.p … #p22697248

Hors ligne

#4 Le 19/07/2022, à 17:50

El Catala

Re : [Résolu]-Grub présent mais innaccessible

Bonsoir,
Parfait, Mister Grub est à nouveau accessible. Geole, votre solution fonctionne.
Merci beaucoup.
Cordialement


PC portable HP Laptop 17
Xubuntu 22.04.2 Lts
Dual boot Win 11
LibreCad 2.2 : Freecad 0.21: LibreOffice 7: Ancestris 0.12:

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