#!/usr/bin/env bash # import gentoo functions source /lib/gentoo/functions.sh # generic variables export local releasename="redcore" export local releasetarget="desktop" export local releaseversion="1" # kernel version && name from inside core squashfs (we need to know this, to generate a matching kernel/live initramfs) export local kernelver="4.9.53-"$releasename"-lts" # core squahfs name and md5 checksum file export local chrootx64=""$releasename"_"$releaseversion"_core_x64.squashfs" export local chrootx64md5=""$chrootx64".md5" # overlay mount variables export local rodir="rodir" export local rwdir="rwdir" export local workdir="workdir" # only needed for overlayfs on kernel greather than 3.18 export local overlaydir="overlaydir" # build variables and commands to run inside core squashfs when building packages export local chrootuser="root" export local chroottarget="${@:2}" export local chrootbuildtarget="emerge -kav "$chroottarget"" export local chrootsrcmode="vasile --srcmode" # iso variables and commands to run inside core squahfs when making iso image export local isouser="root" export local isomainarch="x86_64" export local isobinmode="vasile --binmode" export local isodkms="vasile --dkms" export local isokernelname="kernel-genkernel-"$isomainarch"-"$kernelver"" export local isoramfsname="initramfs-genkernel-"$isomainarch"-"$kernelver"" export local isoramfscmd="dracut -N -a dmsquash-live -a pollcdrom --force --kver="$kernelver" /boot/"$isoramfsname"" export local isochainloadcmd="grub2-mkimage -d /usr/lib64/grub/i386-pc -o core.img -O i386-pc biosdisk part_msdos fat -p /boot/grub" export local isoefix64cmd="grub2-mkimage -d /usr/lib64/grub/x86_64-efi -o bootx64.efi -O x86_64-efi ext2 fat udf btrfs ntfs reiserfs xfs hfsplus lvm ata part_msdos part_gpt part_apple bsd search_fs_uuid normal chain iso9660 configfile help loadenv reboot cat search memdisk tar boot linux chain -p /boot/grub" export local isoefiia32cmd="grub2-mkimage -d /usr/lib64/grub/i386-efi -o bootia32.efi -O i386-efi ext2 fat udf btrfs ntfs reiserfs xfs hfsplus lvm ata part_msdos part_gpt part_apple bsd search_fs_uuid normal chain iso9660 configfile help loadenv reboot cat search memdisk tar boot linux chain -p /boot/grub" # iso image layout variables export local bootloaderfetchpath="/tmp/bootcore" export local bootloaderconfigs=""$bootloaderfetchpath"/cdroot/boot" export local isorootdir=""$releasename"-"$releasetarget"-"$releaseversion"-"$isomainarch"" export local isogrubdir=""$isorootdir"/boot/grub" export local isoefidir=""$isorootdir"/efi/boot" export local isorsynctarget=""$isorootdir"/rootfs" export local isorsyncsource="/tmp/"$isorootdir"" export local isocdrootdir=""$isorootdir"/CDroot" export local isorealfsdir=""$isocdrootdir"/LiveOS" export local isosquashfsdir=""$isorootdir"/LiveOS" # modechange variables export local portagedir="/usr/portage" export local lportagedir="/usr/local/portage" export local confdir="/etc/portage" export local gitdir="/opt/redcore-build/conf/intel/portage" export local clonedir="/opt/redcore-build" # generic functions (used for both build && iso creation) kernelconfig () { # check if the host kernel has needed modules for vasile to work properly...fail to start if it doesn't if [[ $(zgrep 'CONFIG_OVERLAY_FS=' /proc/config.gz) && $(zgrep "CONFIG_SQUASHFS=" /proc/config.gz) && $(zgrep "CONFIG_BLK_DEV_LOOP=" /proc/config.gz) ]] ; then einfo "Kernel configuration seems OK, moving on" sleep 1 else eerror "Vasile needs OVERLAYFS && SQUASHFS && LOOP DEVICES to work" eerror "Please rebuild the kernel with those activated to use it" exit 1 fi } checkroot () { # check for root privileges, needed for mount && chroot...fail to start if not root if [[ "$(whoami)" != root ]] ; then eerror "You're not root?...No cookies for you, go away !!!" exit 1 fi } checkiflive () { # check if running in live mode...fail to start if so if [[ -L /dev/mapper/live-base ]] ; then eerror "Running in Live mode is unsupported" exit 1 fi } chrootchecksum () { # check if core squashfs and md5 checksum file exists, verify core squashfs integrity against md5 checksum file # fail to start if core squashfs or md5 checksum file doesn't exist, or if core squashfs fails md5 verification while : true ; do if [[ -f "$chrootx64" && -f "$chrootx64md5" ]] ; then einfo "Squashed chroot && Checksum file found" if [[ "$(md5sum -c "$chrootx64md5")" ]] ; then einfo "Squashed chroot checksum passed" sleep 1 break else eerror "Squashed chroot checksum failed" exit 1 fi else eerror "Squashed chroot || Checksum file not found" exit 1 fi done } dkmsmod () { checkroot # build and install any 3rd party kernel modules using DKMS if [[ -x $(which dkms) ]] ; then for i in $(dkms status | cut -d " " -f1,2 | sed -e 's/,//g' | sed -e 's/ /\//g' | sed -e 's/://g') ; do dkms install $i done fi } # build functions chrootprepare () { # always start from fresh overlay mount path, if previous exists, remove it and start over while : true ; do if [[ ! -d "$rodir" && ! -d "$rwdir" && ! -d "$workdir" && ! -d "$overlaydir" ]] ; then for i in "$rodir" "$rwdir" "$workdir" "$overlaydir" ; do mkdir "$i" done chrootstart break elif [[ -d "$rodir" && -d "$rwdir" && -d "$workdir" && -d "$overlaydir" ]] ; then chrootstop for i in "$rodir" "$rwdir" "$workdir" "$overlaydir" ; do rm -rf "$i" done continue fi done } chrootstop () { # umount core squashfs overlay mount umount -l "$overlaydir"/proc > /dev/null 2>&1 umount -l "$overlaydir"/sys > /dev/null 2>&1 umount -l "$overlaydir"/dev/pts > /dev/null 2>&1 umount -l "$overlaydir"/dev/shm > /dev/null 2>&1 umount -l "$overlaydir"/dev > /dev/null 2>&1 umount -l "$overlaydir"/tmp > /dev/null 2>&1 umount -l "$overlaydir"/usr/portage/packages > /dev/null 2>&1 umount -l "$overlaydir"/usr/portage/distfiles > /dev/null 2>&1 umount -l "$overlaydir" > /dev/null 2>&1 umount -l "$rodir" > /dev/null 2>&1 } chrootstart () { # mount core squashfs in overlay mount -t squashfs "$chrootx64" "$rodir" mount -t overlay -o lowerdir="$rodir",upperdir="$rwdir",workdir="$workdir" overlay "$overlaydir" mount -o bind packages "$overlaydir"/usr/portage/packages mount -o bind distfiles "$overlaydir"/usr/portage/distfiles mount -t proc proc "$overlaydir"/proc mount -t sysfs sysfs "$overlaydir"/sys mount -t devtmpfs -o relatime,size=3055348k,nr_inodes=763837,mode=755 none "$overlaydir"/dev mount -t devpts -o nosuid,noexec,relatime,gid=5,mode=620 none "$overlaydir"/dev/pts mount -t tmpfs -o nosuid,nodev none "$overlaydir"/dev/shm mount -t tmpfs -o nosuid,nodev,noexec none "$overlaydir"/tmp } chrootdevtree () { # inject portage tree, redcore overlay && redcore buildsystem (portage config) chroot "$overlaydir" su - "$chrootuser" -c "$chrootsrcmode" } chrootbuild () { # build and install package(s) given as argument...if is already built, install it einfo "All systems are go!" sleep 1 chroot "$overlaydir" su - "$chrootuser" -c "$chrootbuildtarget" } chrootx64 () { # land into a chroot env into overlay mounted core squashfs and make build adjustments, if needed einfo "DROPPING YOU TO A ROOT SHELL INTO BUILD ENVIRONMENT" einfo "FIX FAILURES && ADJUST PORTAGE CONFIGURATION FILES" einfo "TEST USEFLAGS && KEYWORDS && MASKS IF REQUIRED" einfo "IN THE END : DO NOT FORGET TO COMMIT YOUR CHANGES" chroot "$overlaydir" su - "$chrootuser" } makepkg () { checkroot chrootchecksum chrootprepare chrootdevtree chrootbuild chrootx64 chrootstop } # iso functions isostart () { # mount iso image core mount -o bind packages "$isorsynctarget"/usr/portage/packages mount -t proc proc "$isorsynctarget"/proc mount -t sysfs sysfs "$isorsynctarget"/sys mount -t devtmpfs -o relatime,size=3055348k,nr_inodes=763837,mode=755 none "$isorsynctarget"/dev mount -t devpts -o nosuid,noexec,relatime,gid=5,mode=620 none "$isorsynctarget"/dev/pts mount -t tmpfs -o nosuid,nodev none "$isorsynctarget"/dev/shm mount -t tmpfs -o nosuid,nodev,noexec none "$isorsynctarget"/tmp } isostop () { # umount iso image core umount -l "$isorsynctarget"/proc > /dev/null 2>&1 umount -l "$isorsynctarget"/sys > /dev/null 2>&1 umount -l "$isorsynctarget"/dev/pts > /dev/null 2>&1 umount -l "$isorsynctarget"/dev/shm > /dev/null 2>&1 umount -l "$isorsynctarget"/dev > /dev/null 2>&1 umount -l "$isorsynctarget"/tmp > /dev/null 2>&1 umount -l "$isorsynctarget"/usr/portage/packages > /dev/null 2>&1 } isousertree () { # inject portage tree, redcore overlay && redcore buildsystem (portage config) chroot "$isorsynctarget" su - "$isouser" -c "$isobinmode" } isoramfs () { # generate iso initramfs with required modules for live boot chroot "$isorsynctarget" su - "$isouser" -c "$isoramfscmd" } isoefiimg () { # generate efi bootloader chroot "$isorsynctarget" su - "$isouser" -c "$isoefix64cmd" chroot "$isorsynctarget" su - "$isouser" -c "$isoefiia32cmd" } isochainloader () { # generate syslinux -> grub chainloader for unetbootin compatibility chroot "$isorsynctarget" su - "$isouser" -c "$isochainloadcmd" } isoservices () { # enable live user setup service (runlevel : boot) chroot "$isorsynctarget" su - "$isouser" -c "rc-update add redcorelive boot" # enable live iso system services (runlevel : default) for service in acpid dbus NetworkManager avahi-daemon syslog-ng cupsd cronie cgmanager consolekit alsasound bluetooth ntpd openrc-settingsd xdm virtualbox-guest-additions ; do chroot "$isorsynctarget" su - "$isouser" -c "rc-update add "$service" default" done } isomodules () { # build and install any 3rd party kernel modules using DKMS (virtualbox-guest in our case) chroot "$isorsynctarget" su - "$isouser" -c "$isodkms" } isochroot () { # land into a chroot env into iso image core and make adjustments, if needed einfo "DROPPING YOU TO A ROOT SHELL INTO ISO ENVIRONMENT" einfo "INSTALL APPS & TARGETS & DES YOU WANT INSIDE ISO" einfo "EXIT WHEN YOU'RE DONE AND I'LL CREATE THE IMAGE" chroot "$isorsynctarget" su - "$isouser" } prepareiso () { # prepare iso image layout mkdir -p "$isorsynctarget" dd if=/dev/zero of=""$isorsynctarget".img" bs=1M count=10240 && sync mkfs.ext2 -F ""$isorsynctarget".img" mkdir -p "$isorsyncsource" mkdir -p "$isocdrootdir" mkdir -p "$isosquashfsdir" mkdir -p "$isorealfsdir" mkdir -p "$isogrubdir" mkdir -p "$isoefidir" # mount core squashfs and rsync it's contents into core iso image mount -t squashfs "$chrootx64" "$isorsyncsource" mount -t ext4 ""$isorsynctarget".img" "$isorsynctarget" rsync -aHAXr --progress "$isorsyncsource/" "$isorsynctarget/" # copy the kernel for live boot cp -avx ""$isorsynctarget"/boot/"$isokernelname"" ""$isorootdir"/boot/vmlinuz" # generate and copy initramfs for live boot isostart isoramfs isostop mv ""$isorsynctarget"/boot/"$isoramfsname"" ""$isorootdir"/boot/initrd" # generate and copy efi bootloader for live boot isostart isoefiimg isostop mv ""$isorsynctarget"/root/bootx64.efi" "$isoefidir" chmod 755 ""$isoefidir"/bootx64.efi" mv ""$isorsynctarget"/root/bootia32.efi" "$isoefidir" chmod 755 ""$isoefidir"/bootia32.efi" # generate and copy syslinux -> grub chainloader for unetbootin compatibility isostart isochainloader isostop mv ""$isorsynctarget"/root/core.img" "$isogrubdir" cp -avx ""$isorsynctarget"/usr/lib64/grub/i386-pc/lnxboot.img" "$isogrubdir" # land into a chroot env into live environment to make adjustments, if needed isostart isousertree isochroot isostop # build and install any 3rd party kernel modules using DKMS (virtualbox-guest in our case) isostart isomodules isostop # enable live iso image system services isostart isoservices isostop # umount "real" live filesystem umount -l "$isorsynctarget" > /dev/null 2>&1 # fix any possible "real" live filesystem corruptions # e2fsck -fy ""$isorsynctarget".img" # move "real" live filesystem into right place mv ""$isorsynctarget".img" "$isorealfsdir" # compress "fake" live filesystem mksquashfs "$isocdrootdir" ""$isorootdir"/squashfs.img" -b 1048576 -comp xz -Xdict-size 100% mv ""$isorootdir/"squashfs.img" "$isosquashfsdir" # dracut requires "real" live filesystem to be placed # into a "fake" squashfs live filesystem as bellow : # /cdroot/LiveOS/squashfs.img/LiveOS/rootfs.img # squashfs.img is the "fake" squashfs live filesystem # rootfs.img is the "real" live filesystem } bootloaderiso () { # get grub2 live boot configs and place them into right place git clone https://gitlab.com/"$releasename"/boot-core.git "$bootloaderfetchpath" cp -avx "$bootloaderconfigs" "$isorootdir" } cleanupiso () { # cleanup temporary files used during iso image layout preparation umount "$isorsyncsource" rm -rf "$isorsynctarget" rm -rf "$isorsyncsource" rm -rf "$isocdrootdir" rm -rf "$bootloaderfetchpath" } makeisoimg () { # create iso image grub2-mkrescue -o ""$releasename"-"$releasetarget"-"$releaseversion"-"$isomainarch".iso" "$isorootdir" } makeiso () { checkroot chrootchecksum prepareiso bootloaderiso cleanupiso makeisoimg } # modechange functions removeportagetree() { # remove portage tree, but leave packages and distfiles directories intact einfo "Removing gentoo portage tree" if [ -d ""$portagedir"/.git" ] ; then find "$portagedir" -mindepth 1 -name "packages" -prune -o -name "distfiles" -prune -o -exec rm -rf {} \; > /dev/null 2>&1 fi } removeoverlays() { # remove redcore overlay einfo "Removing "$releasename"-"$releasetarget" overlay" if [ -d ""$lportagedir"/.git" ] ; then find "$lportagedir" -mindepth 1 -exec rm -rf {} \; > /dev/null 2>&1 fi } removeportageconfig() { # remove redcore buildsystem (portage configuration) einfo "Removing "$releasename"-"$releasetarget" buildsystem" rm ""$confdir"/make.conf" > /dev/null 2>&1 rm ""$confdir"/make.profile" > /dev/null 2>&1 rm "$confdir" > /dev/null 2>&1 rm -rf "$clonedir" > /dev/null 2>&1 } resetmode () { checkroot removeportagetree removeoverlays removeportageconfig } fetchportageconfig() { # fetch redcore buildsystem (portage configuration) pushd /opt > /dev/null 2>&1 einfo "Injecting "$releasename"-"$releasetarget" buildsystem" git clone https://gitlab.com/redcore/redcore-build.git popd > /dev/null 2>&1 } fetchfullportagetree() { # fetch full portage tree if [ ! -d ""$portagedir"/.git" ] ; then einfo "Injecting mixedmode/srcmode (full) gentoo portage tree" cd "$portagedir" && git init > /dev/null 2>&1 git remote add origin https://gitlab.com/redcore/portage.git git pull --depth=1 origin master git branch -u origin/master master rm -rf ""$portagedir"/profiles/updates" fi } fetchminimalportagetree() { # fetch minimal portage tree # in binmode we don't want the whole tree of gentoo ebuilds # but we need portage profiles portage metadata && portage eclasses # so make a sparse-checkout, to fetch only what we need if [ ! -d ""$portagedir"/.git" ] ; then einfo "Injecting binmode (minimal) gentoo portage tree" cd "$portagedir" && git init > /dev/null 2>&1 git remote add origin https://gitlab.com/redcore/portage.git git config core.sparsecheckout true echo "profiles/*" >> .git/info/sparse-checkout echo "metadata/*" >> .git/info/sparse-checkout echo "eclass/*" >> .git/info/sparse-checkout echo ".gitignore" >> .git/info/sparse-checkout git pull --depth=1 origin master git branch -u origin/master master rm -rf ""$portagedir"/profiles/updates" fi } fetchoverlays () { # fetch redcore overlay if [ ! -d ""$lportagedir"/.git" ] ; then einfo "Injecting "$releasename"-"$releasetarget" overlay" cd "$lportagedir" && git init > /dev/null 2>&1 git remote add origin https://gitlab.com/redcore/redcore-desktop.git git pull --depth=1 origin master git branch -u origin/master master fi } setbinmodeconfig() { # set make.conf to binmode, portage will always use binary packages from binhost ln -sf "$gitdir" "$confdir" ln -sf "$confdir"/make.conf.amd64-binmode "$confdir"/make.conf eselect profile set 1 env-update . /etc/profile } setmixedmodeconfig() { # set make.conf to mixedmode, portage will prefer binary packages over ebuilds # but will use ebuilds if they are newer than binary packages from binhost # or if the binary package is not available in binhost ln -sf "$gitdir" "$confdir" ln -sf "$confdir"/make.conf.amd64-mixedmode "$confdir"/make.conf eselect profile set 1 env-update . /etc/profile } setsrcmodeconfig () { # set make.conf to srcmode, portage will always use ebuilds ln -sf "$gitdir" "$confdir" ln -sf "$confdir"/make.conf.amd64-srcmode "$confdir"/make.conf eselect profile set 1 env-update . /etc/profile } binmode() { resetmode fetchminimalportagetree fetchoverlays fetchportageconfig setbinmodeconfig } mixedmode() { resetmode fetchfullportagetree fetchoverlays fetchportageconfig setmixedmodeconfig } srcmode() { resetmode fetchfullportagetree fetchoverlays fetchportageconfig setsrcmodeconfig } # help menu color variables export local colorstart="\e[1;49;34m" export local colorstop="\e[0m" # help menu function showhelp () { echo -e "\ "$colorstart"SYNOPSIS"$colorstop" "$colorstart"vasile --option"$colorstop" ["$colorstart"arguments"$colorstop"] "$colorstart"vasile --help"$colorstop" "$colorstart"DESCRIPTION"$colorstop" Vasile is an acronym for ** Versatile Advanced Script for Iso and Latest Enchantments ** "$colorstart"OPTIONS"$colorstop" "$colorstart"--makepkg"$colorstop" ["$colorstart"package(s)"$colorstop"] This option will allow you to build a package or multiple packages in an overlayfs mounted squashfs chroot jail. It must be run in the folder where the squashfs chroot jail resides, or else it will fail to mount the squahfs chroot jail and build the package(s). The squashfs chroot jail and the md5sum checksum file are hardcored into "$colorstart"libvasile"$colorstop", but you may want to change them to suit your needs. You MUST provide package(s) to build as arguments, or else vasile will only mount the chroot jail Examples : "$colorstart"vasile --makepkg wine"$colorstop" "$colorstart"vasile --makepkg wine playonlinux q4wine"$colorstop" If the package(s) is/are already built, it will not build it/them again (unless newer version(s) is/are available), but install it/them into squahfs chroot jail If the package(s) you want to build depends on any already built package(s) it will make use of it/them to satisfy the required dependencies. "$colorstart"--makeiso"$colorstop" This option will allow you to build a live iso image based on the squashfs chroot jail. It must be run in the folder where the squashfs chroot jail resides, or else it will fail to rsync the contents of it and build the iso image. It is not fully automatic, it will only rsync the contents of the squashfs chroot jail, chroot into it, and let you install packages you want into the iso image. There are some predefined package sets available in "$colorstart"/etc/portage/sets"$colorstop". Adjust them to suit your needs. It will ALLWAYS use package(s) built with "$colorstart"--makepkg"$colorstop" option. When you are happy with package selection, just exit the chroot environment and the live filesystem will be compressed, live services will be autoenabled, live bootloader autoconfigured and in the end live iso image will be built. You will find a list of predefined live services list hardcoded into "$colorstart"libvasile"$colorstop". Adjust it to suit your needs. "$colorstart"--resetmode"$colorstop" This option will allow you to reset the system state. It will remove whole portage tree, overlays and portage configuration files and reset the system profile. Usually you will never want to call this option directly, unless you really really really know what are you doing. It is called automatically when switching to other states. !!! WARNING !!! : Never never never leave the system in this state. You will no longer be able to install/remove/upgrade any packages untill you set the system profile, get the portage tree, overlays and configure portage by hand. Or, you can always activate one of the three other supported system states. "$colorstart"--binmode"$colorstop" This option will allow you to change the system state to binmode. In this state portage will allways use only binary packages from the binhost. It will fetch a minimal portage tree without any ebuilds in it, but only with portage profiles, metadata and eclass. It will also fetch overlay and portage configuration files, and will adjust "$colorstart"make.conf"$colorstop" for binary only usage. This system state is for those who just meet with the power of Gentoo. !!! WARNING !!! : Never never never modify or create any file in "$colorstart"/etc/portage/"$colorstop" in this state. "$colorstart"--mixedmode"$colorstop" This option will allow you to change the system state to mixedmode. In this state portage will prefer binary packages from the binhost over ebuilds from the portage tree. It will fetch the full portage tree, the overlay and portage configuration files, and adjust "$colorstart"make.conf"$colorstop" for binary/ebuild usage. Usually you will find this system state useful if you want to install a package not available in the binhost, you want to upgrade a package to a newer version from portage tree or if you wanna rebuild a package with your own useflags. !!! WARNING !!! : Never never never modify any file in "$colorstart"/etc/portage/"$colorstop" in this state. If you want to adjust useflags or keywords for a package, you can create a new file e.g.: "$colorstart"100-my.package.use"$colorstop" in "$colorstart"/etc/portage/package.use/"$colorstop" or "$colorstart"100-my.package.keywords"$colorstop" in "$colorstart"/etc/portage/package.keywords/"$colorstop". "$colorstart"--srcmode"$colorstop" This option will allow you to change the system state to srcmode. In more clear terms, it will transform your Kogaion/Argent/Redcore system into pure Gentoo. Binary packages from the binhost will be ignored, and you will only install packages building from portage tree using emerge. It will fetch the full portage tree, the overlay and portage configuration files and adjust "$colorstart"make.conf"$colorstop" for ebuild only usage. In this system state you can modify whatever you want in "$colorstart"/etc/portage/"$colorstop". You can adjust useflags, keywords, masks, build environment and rebuild the whole system to suit you. You have the full power of Gentoo available only one command away! !!! WARNING !!! : Only use this system state if you have a strong knowledge of Gentoo tools e.g.: "$colorstart"emerge, equery, layman, eix, qlist, useflags, keywords, masks"$colorstop". " exit 0 }