path: root/debian/initramfs/hooks/cryptroot

#!/bin/sh

PREREQ=""

prereqs()
{
    echo "$PREREQ"
}

case "$1" in
    prereqs)
        prereqs
        exit 0
        ;;
esac

. /usr/share/initramfs-tools/hook-functions
. /lib/cryptsetup/functions
TABFILE="/etc/crypttab"


# crypttab_find_and_print_entry($target)
#   Find the crypttab(5) entry for the given (unmangled) $target and
#   print it - preserving the mangling - to FD nr. 3; but only if the
#   target has not already been processed during an earlier function
#   call.  (Processed target names are stored in
#   $DESTDIR/cryptroot/targets.)
#   Return 0 on success, 1 on error.
crypttab_find_and_print_entry() {
    local target="$1"
    local _CRYPTTAB_NAME _CRYPTTAB_SOURCE _CRYPTTAB_KEY _CRYPTTAB_OPTIONS
    if ! grep -Fxqz -e "$target" -- "$DESTDIR/cryptroot/targets"; then
        printf '%s\0' "$target" >>"$DESTDIR/cryptroot/targets"
        crypttab_find_entry "$target" || return 1
        crypttab_parse_options --missing-path=warn || return 1
        crypttab_print_entry
    fi
}

# crypttab_print_entry()
#   Print an unmangled crypttab(5) entry to FD nr. 3, using CRYPTTAB_*
#   and _CRYPTTAB_* values.
#   _CRYPTTAB_SOURCE is replaced with UUID=<uuid> if possible (eg, for
#   LUKS), unless the value starts with /dev/disk/by- or /dev/mapper/,
#   or is already a device specification (such as LABEL= or PARTUUID=).
#   If the entry uses the 'decrypt_derived' keyscript, the other
#   crypttab(5) entries it depends on are (recursively) printed before
#   hand.
#   Various checks are performed on the key and crypttab options, but no
#   parsing is done so it's the responsibility of the caller to call
#   crypttab_parse_options().
#   Return 0 on success, 1 on error.
crypttab_print_entry() {
    local DEV MAJ MIN uuid keyfile
    if _resolve_device "$CRYPTTAB_SOURCE"; then
        if [ "$(dmsetup info -c --noheadings -o devnos_used -- "$CRYPTTAB_NAME" 2>/dev/null)" != "$MAJ:$MIN" ]; then
            cryptsetup_message "ERROR: $CRYPTTAB_NAME: Source mismatch"
        elif [ "${_CRYPTTAB_SOURCE#[A-Za-z]*=}" = "$_CRYPTTAB_SOURCE" ] && \
                [ "${CRYPTTAB_SOURCE#/dev/disk/by-}" = "$CRYPTTAB_SOURCE" ] && \
                [ "${CRYPTTAB_SOURCE#/dev/mapper/}" = "$CRYPTTAB_SOURCE" ] && \
                uuid="$(_device_uuid "$DEV")"; then
            _CRYPTTAB_SOURCE="UUID=$uuid"
        fi
        # on failure _resolve_device() prints a warning and we try our
        # luck with the unchanged _CRYPTTAB_SOURCE value
    fi

    # if keyscript is set, the "key" is just an argument to the script
    if [ -z "${CRYPTTAB_OPTION_keyscript+x}" ] && [ "$CRYPTTAB_KEY" != "none" ]; then
        crypttab_key_check || return 1
        case "$CRYPTTAB_KEY" in
            $KEYFILE_PATTERN)
                mkdir -pm0700 -- "$DESTDIR/cryptroot/keyfiles"
                # $CRYPTTAB_NAME can't contain '/' (even after unmangling)
                keyfile="/cryptroot/keyfiles/$CRYPTTAB_NAME.key"
                if [ ! -f "$DESTDIR$keyfile" ] && ! copy_file keyfile "$CRYPTTAB_KEY" "$keyfile"; then
                    cryptsetup_message "WARNING: couldn't copy keyfile $CRYPTTAB_KEY"
                fi
                _CRYPTTAB_KEY="/cryptroot/keyfiles/$_CRYPTTAB_NAME.key" # preserve mangled name
                ;;
            *)
                if [ "$usage" = rootfs ]; then
                    cryptsetup_message "WARNING: Skipping root target $CRYPTTAB_NAME: uses a key file"
                    return 1
                elif [ "$usage" = resume ]; then
                    cryptsetup_message "WARNING: Resume target $CRYPTTAB_NAME uses a key file"
                fi
                if [ -L "$CRYPTTAB_KEY" ] && keyfile="$(readlink -- "$CRYPTTAB_KEY")" &&
                        [ "${keyfile#/}" != "$keyfile" ]; then
                    cryptsetup_message "WARNING: Skipping target $CRYPTTAB_NAME: key file is a symlink with absolute target"
                    return 1
                elif [ -f "$CRYPTTAB_KEY" ] && [ "$(stat -L -c"%m" -- "$CRYPTTAB_KEY" 2>/dev/null)" != "/" ]; then
                    cryptsetup_message "WARNING: Skipping target $CRYPTTAB_NAME: key file is not on the root FS"
                    return 1
                fi
                if [ ! -e "$CRYPTTAB_KEY" ]; then
                    cryptsetup_message "WARNING: Target $CRYPTTAB_NAME has a non-existing key file $CRYPTTAB_KEY"
                else
                    _CRYPTTAB_KEY="/FIXME-initramfs-rootmnt$_CRYPTTAB_KEY" # preserve mangled name
                fi
        esac
    fi

    if [ -n "${CRYPTTAB_OPTION_keyscript+x}" ]; then
        copy_exec "$CRYPTTAB_OPTION_keyscript"
    elif [ "$CRYPTTAB_KEY" = "none" ]; then
        ASKPASS="y"
    fi
    if [ "${CRYPTTAB_OPTION_keyscript-}" = "/lib/cryptsetup/scripts/decrypt_derived" ]; then
        # (recursively) list first the device to derive the key from (so
        # the boot scripts unlock it first); since _CRYPTTAB_* are local
        # to crypttab_find_and_print_entry() the new value won't
        # override the new ones
        crypttab_find_and_print_entry "$CRYPTTAB_KEY"
    fi
    printf '%s %s %s %s\n' \
        "$_CRYPTTAB_NAME" "$_CRYPTTAB_SOURCE" "$_CRYPTTAB_KEY" "$_CRYPTTAB_OPTIONS" >&3
}

# get_resume_devno()
#   Return the device ID(s) used for system suspend/hibernate.
get_resume_devno() {
    local dev filename

    # uswsusp
    for filename in /etc/uswsusp.conf /etc/suspend.conf; do
        [ -e "$filename" ] || continue
        dev="$(sed -nr '/^resume device\s*[:=]\s*/ {s///p;q}' "$filename")"
        if [ -n "$dev" ] && [ "$dev" != "<path_to_resume_device_file>" ]; then
            # trim quotes
            dev="$(printf '%s' "$dev" | sed -re 's/^"(.*)"\s*$/\1/' -e "s/^'(.*)'\\s*$/\\1/")"
            _print_devno "$(printf '%b' "$dev")" # unmangle
        fi
    done

    # regular swsusp
    dev="$(sed -nr 's,^(.*\s)?resume=(\S+)(\s.*)?$,\2,p' /proc/cmdline)"
    _print_devno "$(printf '%b' "$dev")" # unmangle

    # initramfs-tools >=0.129
    dev="${RESUME:-auto}"
    if [ "$dev" != none ]; then
        if [ "$dev" = auto ]; then
            # next line from /usr/share/initramfs-tools/hooks/resume
            dev="$(grep ^/dev/ /proc/swaps | sort -rnk3 | head -n 1 | cut -d " " -f 1)"
        fi
        _print_devno "$(printf '%b' "$dev")" # unmangle
    fi
}
_print_devno() {
    local DEV MAJ MIN # locally scope the 3 variables _resolve_device() sets
    if [ -n "$1" ] && _resolve_device "$1"; then
        printf '%d:%d\n' "$MAJ" "$MIN"
    fi
}

# crypttab_print_initramfs_entry()
#   Print a crypttab(5) entry - unless it was already processed - if it
#   has the 'initramfs' option set.
crypttab_print_initramfs_entry() {
    local usage=
    if ! grep -Fxqz -e "$CRYPTTAB_NAME" -- "$DESTDIR/cryptroot/targets" &&
            crypttab_parse_options --quiet &&
            [ "${CRYPTTAB_OPTION_initramfs-no}" = "yes" ]; then
        printf '%s\0' "$CRYPTTAB_NAME" >>"$DESTDIR/cryptroot/targets"
        crypttab_print_entry
    fi
}

# generate_initrd_crypttab()
#   Generate the crypttab(5) snippet that is relevant at initramfs
#   stage.  (Devices that aren't required at initramfs stage are
#   ignored.)
generate_initrd_crypttab() {
    local devnos usage IFS="$(printf '\t\n ')"
    mkdir -- "$DESTDIR/cryptroot"
    true >"$DESTDIR/cryptroot/targets"

    {
        if devnos="$(get_mnt_devno /)"; then
            usage=rootfs foreach_cryptdev crypttab_find_and_print_entry $devnos
        else
            cryptsetup_message "WARNING: Couldn't determine root device"
        fi

        if devnos="$(get_resume_devno)"; then
            usage=resume foreach_cryptdev crypttab_find_and_print_entry $devnos
        fi

        if devnos="$(get_mnt_devno /usr)"; then
            usage="" foreach_cryptdev crypttab_find_and_print_entry $devnos
        fi

        # add crypttab entries with the 'initramfs' option set
        crypttab_foreach_entry crypttab_print_initramfs_entry
    } 3>"$DESTDIR/cryptroot/crypttab"
    rm -f "$DESTDIR/cryptroot/targets"
}

# populate_CRYPTO_HASHES()
#   Find out which crypto hashes are required for a crypttab(5) entry,
#   and append them to the CRYPTO_HASHES variable.
populate_CRYPTO_HASHES() {
    local hash source newline="
"

    if crypttab_parse_options --quiet && [ -n "${CRYPTTAB_OPTION_header+x}" ]; then
        source="$CRYPTTAB_OPTION_header"
    else
        source="$(_resolve_device_spec "$CRYPTTAB_SOURCE")" || source=""
    fi

    if [ ! -e "$source" ]; then
        # missing source device or detached header, can't determine hashing function(s)
        hash="@@UNKNOWN@@"
    elif [ "$CRYPTTAB_TYPE" = "luks" ]; then
        # using --dump-json-metadata would be more robust for LUKS2 but
        # we also have to support LUKS1 hence have to parse luksDump output
        hash="$(/sbin/cryptsetup luksDump -- "$source" | sed -nr 's/^\s*(AF hash|Hash|Hash spec)\s*:\s*//Ip')"
    elif [ "$CRYPTTAB_TYPE" = "plain" ]; then
        # --hash is being ignored when opening via key file
        if [ "$CRYPTTAB_KEY" = "none" ] && [ -z "${CRYPTTAB_OPTION_keyscript+x}" ]; then
            hash="${CRYPTTAB_OPTION_hash-ripemd160}" # default password hashing as of cryptsetup 2.5
        fi
    else
        hash="" # or hash="@@UNKNOWN@@"?
    fi

    if [ -n "$hash" ]; then
        CRYPTO_HASHES="${CRYPTO_HASHES:+$CRYPTO_HASHES$newline}$hash"
    fi
}

# populate_CRYPTO_MODULES()
#   Find out which crypto modules are required for a crypttab(5) entry,
#   and append them to the CRYPTO_MODULES variable.
populate_CRYPTO_MODULES() {
    local cipher iv

    # cf. dmsetup(8) and https://gitlab.com/cryptsetup/cryptsetup/wikis/DMCrypt
    cipher="$(dmsetup table --target crypt -- "$CRYPTTAB_NAME" | cut -d' ' -f4)"
    if [ -z "$cipher" ]; then
        cryptsetup_message "WARNING: Couldn't determine cipher modules to load for $CRYPTTAB_NAME"
    elif [ "${cipher#capi:}" = "$cipher" ]; then
        # direct specification "cipher[:keycount]-chainmode-ivmode[:ivopts]"
        CRYPTO_MODULES="${CRYPTO_MODULES:+$CRYPTO_MODULES }${cipher%%[-:]*}" # cipher
        cipher="${cipher#"${cipher%%-*}-"}" # chainmode-ivmode[:ivopts]"
        CRYPTO_MODULES="${CRYPTO_MODULES:+$CRYPTO_MODULES }${cipher%-*}" # chainmode
        iv="${cipher##*-}" # ivmode[:ivopts]"
        CRYPTO_MODULES="${CRYPTO_MODULES:+$CRYPTO_MODULES }${iv%%:*}" # ivmode
        if [ "${iv#*:}" != "$iv" ]; then
            CRYPTO_MODULES="${CRYPTO_MODULES:+$CRYPTO_MODULES }${iv#*:}" # ivopts
        fi
    else
        # kernel crypto API format "capi:cipher_api_spec-ivmode[:ivopts]", since linux 4.12
        cipher="${cipher#capi:}"
        cryptsetup_message "WARNING: Couldn't determine cipher modules to load for $CRYPTTAB_NAME" \
            "(kernel crypto API format isn't supported yet)"
    fi
}

# add_modules($glob, $moduledir, [$moduledir ..])
#   Add modules matching under the given $moduledir(s), the name of
#   which matching $glob.
#   Return 0 if any module was found found, 1 if not.
add_modules() {
    local glob="$1" found=n
    shift
    for mod in $(find -H "$@" -name "$glob.ko*" -type f -printf '%f\n'); do
        manual_add_modules "${mod%%.*}"
        found=y
    done
    [ "$found" = y ] && return 0 || return 1
}

# add_crypto_modules($name, [$name ..])
#   Determine kernel module name and add to initramfs.
add_crypto_modules() {
    local mod
    for mod in "$@"; do
        # We have several potential sources of modules (in order of preference):
        #
        #   a) /lib/modules/$VERSION/kernel/arch/$ARCH/crypto/$mod-$specific.ko
        #   b) /lib/modules/$VERSION/kernel/crypto/$mod_generic.ko
        #   c) /lib/modules/$VERSION/kernel/crypto/$mod.ko
        #
        # and (currently ignored):
        #
        #   d) /lib/modules/$VERSION/kernel/drivers/crypto/$specific-$mod.ko
        add_modules "$mod-*" "$MODULESDIR"/kernel/arch/*/crypto || true
        add_modules "${mod}_generic" "$MODULESDIR/kernel/crypto" \
            || add_modules "$mod" "$MODULESDIR/kernel/crypto" \
            || true
    done
}

# copy_libssl_legacy_library()
#   Copy ossl-modules/legacy.so (from libssl library) to initramfs if needed.
#   OpenSSL 3.0 moved support for some crypto hashes into legacy.so.
#   See https://launchpad.net/bugs/1979159
copy_libssl_legacy_library() {
    local libcryptodir CRYPTO_HASHES=""

    libcryptodir="$(env --unset=LD_PRELOAD ldd /sbin/cryptsetup | sed -nr '/.*=>\s*(\S+)\/libcrypto\.so\..*/ {s//\1/p;q}')"
    [ -d "$libcryptodir" ] || return

    crypttab_foreach_entry populate_CRYPTO_HASHES
    # See https://www.openssl.org/docs/man3.0/man7/OSSL_PROVIDER-legacy.html#Hashing-Algorithms-Message-Digests
    if printf '%s\n' "$CRYPTO_HASHES" | grep -Fxq -e @@UNKNOWN@@ -e ripemd160 -e whirlpool; then
        # legacy hashes are used so legacy.so needs to be copied to the initramfs
        # (assume ossl-modules/legacy.so is relative to the linked libcrypto.so)
        copy_exec "$libcryptodir/ossl-modules/legacy.so" || true
    fi
}

# See #1032221: newer libargon2 are built with glibc ≥2.34 hence no
# longer links libpthread.  This in turns means that initramfs-tool's
# copy_exec() is no longer able to detect pthread_*() need and thus
# doesn't copy libgcc_s.so anymore.  So we need to do it manually
# instead.
copy_libgcc_argon2() {
    local libdir rv=0
    libdir="$(env --unset=LD_PRELOAD ldd /sbin/cryptsetup | sed -nr '/.*=>\s*(\S+)\/libargon2\.so\..*/ {s//\1/p;q}')"
    copy_libgcc "$libdir" || rv=$?
    if [ $rv -ne 0 ]; then
        # merged-/usr mismatch, see #1032518
        if [ "${libdir#/usr/}" != "$libdir" ]; then
            libdir="${libdir#/usr}"
        else
            libdir="/usr/${libdir#/}"
        fi
        copy_libgcc "$libdir" && rv=0 || rv=$?
    fi
    return $rv
}


#######################################################################
# Begin real processing

unset -v ASKPASS KEYFILE_PATTERN
ASKPASS="y"
KEYFILE_PATTERN=

# Load the hook config
if [ -f "/etc/cryptsetup-initramfs/conf-hook" ]; then
    . /etc/cryptsetup-initramfs/conf-hook
fi

if [ -n "$KEYFILE_PATTERN" ]; then
    case "${UMASK:-$(umask)}" in
        0[0-7]77) ;;
        *) cryptsetup_message "WARNING: Permissive UMASK (${UMASK:-$(umask)})." \
                "Private key material within the initrd might be left unprotected."
        ;;
    esac
fi

CRYPTO_MODULES=
if [ -r "$TABFILE" ]; then
    generate_initrd_crypttab
    TABFILE="$DESTDIR/cryptroot/crypttab"
    crypttab_foreach_entry populate_CRYPTO_MODULES
    copy_libssl_legacy_library
fi

# add required components
manual_add_modules dm_mod
manual_add_modules dm_crypt

copy_exec /sbin/cryptsetup
copy_exec /sbin/dmsetup
copy_libgcc_argon2

[ "$ASKPASS" = n ] || copy_exec /lib/cryptsetup/askpass

# We need sed. Either via busybox or as standalone binary.
if [ "$BUSYBOX" = n ] || [ -z "$BUSYBOXDIR" ]; then
    copy_exec /bin/sed
fi

# detect whether the host CPU has AES-NI support
if grep -Eq '^flags\s*:(.*\s)?aes(\s.*)?$' /proc/cpuinfo; then
    CRYPTO_MODULES="${CRYPTO_MODULES:+$CRYPTO_MODULES }aesni"
else
    # workaround for #883595/#901884 (xts depends on ecb)
    CRYPTO_MODULES="${CRYPTO_MODULES:+$CRYPTO_MODULES }ecb"
fi

# add userspace crypto module (only required for opening LUKS2 devices
# we add the module unconditionally as it's the default format)
CRYPTO_MODULES="${CRYPTO_MODULES:+$CRYPTO_MODULES }algif_skcipher"

if [ "$MODULES" = most ]; then
    for d in "$MODULESDIR"/kernel/arch/*/crypto; do
        copy_modules_dir "${d#"$MODULESDIR/"}"
    done
    copy_modules_dir "kernel/crypto"
else
    if [ "$MODULES" != "dep" ]; then
        # with large initramfs, we always add a basic subset of modules
        add_crypto_modules aes cbc chainiv cryptomgr krng sha256 xts
    fi
    add_crypto_modules $(printf '%s' "${CRYPTO_MODULES-}" | tr ' ' '\n' | sort -u)
fi
copy_file library /lib/cryptsetup/functions /lib/cryptsetup/functions