Send patches - preferably formatted by git format-patch - to patches at archlinux32 dot org.
summaryrefslogtreecommitdiff
path: root/README
diff options
context:
space:
mode:
Diffstat (limited to 'README')
-rw-r--r--README487
1 files changed, 0 insertions, 487 deletions
diff --git a/README b/README
deleted file mode 100644
index c33f444..0000000
--- a/README
+++ /dev/null
@@ -1,487 +0,0 @@
-INDEX
------
-
-* Boot parameters (initramfs stage)
- * hooks/archiso
- * hooks/archiso_pxe_common
- * hooks/archiso_pxe_nbd
- * hooks/archiso_pxe_http
- * hooks/archiso_pxe_nfs
- * hooks/archiso_loop_mnt
-* Transfer ISO file to target medium (configs/releng)
- * To -> CD / DVD / BD
- * To -> USB-key / SD / HDD / SSD
- * PC-BIOS (MBR)
- * PC-BIOS (ISOHYBRID-MBR)
- * PC-EFI (GPT) [x86_64 only]
-* Alternative boot methods (configs/releng)
- * ISO in loopback mode
- * ISO in memdisk mode
- * Network booting (PXE) [first stage]
- * DHCP + TFTP
- * DHCP + HTTP
- * HTTP/NFS/NBD [second stage]
-* Build requirements
-* Image types generated by mkarchiso.
-* File format for aitab.
-* Why the /isolinux and /arch/boot/syslinux directories?
-* Know issues
-* Building the most basic Arch Linux live media. (configs/baseline)
-* Building official Arch Linux live media. (configs/releng)
-
-
-
-*** Boot parameters (initramfs stage)
-
-** hooks/archiso
-
-* archisolabel= Set the filesystem label where archiso files reside.
- Default: (unset)
-* archisodevice= Set the device node where archiso medium is located.
- Default: "/dev/disk/by-label/${archisolabel}"
-* archisobasedir= Set the base directory where all files reside.
- Default: "arch"
-* aitab= Set the path for "aitab" file.
- Default: ${archisobasedir}/aitab
-* copytoram= If set to "y" or just "copytoram" without arguments,
- all SquashFS are copied to "RAM".
- Default: (unset)
-* checksum= If set to "y" or just "checksum" without arguments,
- performs a self-test of all files inside ${install_dir},
- and continue booting if ok.
- Default: (unset)
-* cow_label= Set the filesystem label where COW (dm-snapshot)
- files must be stored.
- Default: (unset)
-* cow_device= Set the device node where COW (dm-snapshot) files
- must be stored.
- Default: (unset) or "/dev/disk/by-label/${cow_label}"
-* cow_directory= Set a directory inside ${cow_device}.
- Default: "/persistent_${archisolabel}/${arch}"
-* cow_persistent= Set if snapshots are persistent "P" or non-persistent "N".
- Default: "N" (if no ${cow_device} is used) otherwise "P".
-* cowspace_size= Set the size of tmpfs /cowspace. This space is used for
- Copy-On-Write files of dm-snapshot.
- Size is in bytes (suffix with "k", "m" and "g") or
- in percentage of available RAM.
- Default: "75%"
-* cowfile_size= Set the size for all files to be used as COW (dm-snapshot),
- in percentage of the ro-device.fs file. This is mostly useful
- when cow_device= is used and filesystem does not support
- sparse files (ie VFAT).
- Default: "100%"
-* copytoram_size= Set the size of tmpfs. This space is used for
- copy of all SquashFS images used, if copytoram=y.
- Size is in bytes (suffix with "k", "m" and "g") or
- in percentage of available RAM.
- Default: "75%"
-* dm_snap_prefix= Set a prefix for device-mapper snapshot node names.
- Default: "arch"
-* arch= Force an architecture type (i686 | x86_64).
- Do not set it for normal operations.
- Useful for running a 64 bit kernel / 32 bit userspace.
- Default: (architecture of running kernel)
-
-
-** hooks/archiso_pxe_common
-
-* ip= This parameter is setup automatically by PXELINUX
- when option "IPAPPEND" is set to 1 or 2 in config.
- ip=<client-ip>:<boot-server-ip>:<gw-ip>:<netmask>
- Default: (set via PXE server)
-* BOOTIF= This parameter is setup automatically by PXELINUX
- when option "IPAPPEND" is set to 2 or 3 in config.
- BOOTIF=<hardware-address-of-boot-interface>
- Default: (set via PXELINUX)
-* copy_resolvconf= Copy /etc/resolv.conf from initramfs to live-enviroment.
- Set to "n" to skip them.
- Default: "y"
-
-
-** hooks/archiso_pxe_nbd
-
-* archiso_nbd_name= Set NBD export name used by the server.
- Default: archiso
-* archiso_nbd_srv= Set an IP address where NBD reside.
- If ${pxeserver} is used, PXE IP will be used.
- Default: (unset)
-
-
-** hooks/archiso_pxe_http
-
-* archiso_http_srv= Set an HTTP URL (must end with /) where ${archisobasedir}
- is found with all *.sfs files.
- In the IP/domain part if ${pxeserver} is used, use PXE IP.
- Default: (unset)
-* archiso_http_spc= Set the size of tmpfs where *.sfs files are downloaded.
- Default: "75%"
-
-
-** hooks/archiso_pxe_nfs
-
-* archiso_nfs_srv= Set the NFS-IP:/path of the server
- In the IP part if ${pxeserver} is used, PXE IP will be used.
- Default: (unset)
-* archiso_nfs_opt= Set NFS mount options separated by comma.
- Default: (unset, see below)
- These are the implicit options:
- port = as given by server portmap daemon
- rsize = 1024
- wsize = 1024
- timeo = 7
- retrans = 3
- acregmin = 3
- acregmax = 60
- acdirmin = 30
- acdirmax = 60
- flags = hard, nointr, noposix, cto, ac
-
-
-** hooks/archiso_loop_mnt
-
-* img_label= Set the filesystem label where archiso-image.iso.
- Default: (unset)
-* img_dev= Device where archiso-image.iso reside.
- Default: (unset) or "/dev/disk/by-label/${img_label}"
-* img_loop= Full path where archiso-image.iso is located on ${img_dev}
- Default: (unset)
-
-
-
-*** Transfer ISO image to target medium (configs/releng)
-
-ISO images names consist of: archlinux-<YYYY>.<MM>.<DD>-<ARCH>.iso
-
-Where:
- <YYYY> Year
- <MM> Month
- <DD> Day
- <ARCH> i686 | x86_64 | dual(*)
-
-(*) "dual" includes both i686 and x86_64 architectures.
-
-
-** To -> CD / DVD / BD
-
-Note: All ISO images are booteable on a PC-BIOS via "El Torito" in no-emulation mode,
- All x86_64 ISO images are booteable on a PC-EFI via "El Torito" in no-emulation mode.
-
-Nomeclature:
- <B> scsibus number
- <T> target number
- <L> lun number
- (Note: see cdrecord -scanbus, for these numbers)
-
-
-1) Write it directly using your favorite recording program.
-# cdrecord dev=<B>,<T>,<L> -dao archlinux-<YYYY>.<MM>.<DD>-<ARCH>.iso
-
-
-** To -> USB Flash Drive (USB-key) / Memory card (SD) /
- Hard-Disk Drive (HDD) / Solid-State Drive (SSD)
-
-Note: These steps are the general workflow, you can skip some of them,
- using another filesystem if your bootloader supports it,
- installing to another directory than "arch/" or using more than
- one partition. Just ensure that main boot params options
- (archisolabel= and archisobasedir=) are set correctly according to your setup.
-
-Nomeclature:
-<DEV-TARGET>: Device node of the drive where ISO contents should be copied
- (example: /dev/sdx)
-<DEV-TARGET-N>: Device node of the partition on <DEV-TARGET>
- (example: /dev/sdx1)
-<MNT-TARGET-N>: Mount point path where <DEV-TARGET-N> is mounted
- (example: /mnt/sdx/1)
-<ISO-SOURCE>: Path to the ISO file archlinux-<YYYY>.<MM>.<DD>-<ARCH>.iso
- (example: ~/archlinux-2012.07.22-x86_64.iso)
-<FS-LABEL>: Represents the filesystem label of the <ISO-SOURCE>
- (example: ARCH_201207 [for all ~/archlinux-2012.07.*.iso])
-
-
-* PC-BIOS (MBR):
-
-Note: Using here a MBR partition mode as example, but GPT should also works
- if machine firmware is not broken.
- Just ensure that partition is set with attribute "2: legacy BIOS bootable"
- and use gptmbr.bin instead of mbr.bin for syslinux.
-
-1) Create one partition entry in MBR (of type "b" for FAT32 or "83" for EXTFS)
- and mark it as "active" (bootable).
-# fdisk <DEV-TARGET>
-
-2) Create a FAT32 or EXTFS filesystem on such partition and setup a label.
-# mkfs.vfat -F 32 -n <FS-LABEL> <DEV-TARGET-N>
-# mkfs.ext4 -L <FS-LABEL> <DEV-TARGET-N>
-
-3) Mount target filesystem.
-# mount <DEV-TARGET-N> <MNT-TARGET-N>
-
-4) Extract ISO image on target filesystem.
-# bsdtar -x --exclude=isolinux/ --exclude=EFI/ --exclude=loader/ -f <ISO-SOURCE> -C <MNT-TARGET-N>
-
-5) Install syslinux bootloader on target filesystem. (See know issue (2) if using FAT)
-# extlinux -i <MNT-TARGET-N>/arch/boot/syslinux
-
-6) Unmount target filesystem.
-# umount <MNT-TARGET-N>
-
-7) Install syslinux MBR boot code on target drive.
-# dd bs=440 count=1 conv=notrunc if=/usr/lib/syslinux/mbr.bin of=<DEV-TARGET>
-
-
-* PC-BIOS (ISOHYBRID-MBR):
-
-Note: This method is the most easily, quick and dirty, but is the most limited
- if you want to use your target medium for other purposes.
-
-1) Dump ISO file to target medium.
-# dd if=<ISO-SOURCE> of=<DEV-TARGET>
-
-
-* PC-EFI (GPT) [x86_64 only]
-
-Note: Using here a GPT partition mode as example, but MBR should also works
- if machine firmware is not broken.
-
-1) Create one partition entry in GPT (of type "ef00")
-# gdisk <DEV-TARGET>
-
-2) Create a FAT32 filesystem on such partition and setup a label.
-# mkfs.vfat -F 32 -n <FS-LABEL> <DEV-TARGET-N>
-
-3) Mount target filesystem.
-# mount <DEV-TARGET-N> <MNT-TARGET-N>
-
-4) Extract ISO image on target filesystem.
-# bsdtar -x --exclude=isolinux/ --exclude=EFI/archiso/ --exclude=arch/boot/syslinux/ -f <ISO-SOURCE> -C <MNT-TARGET-N>
-
-5) Unmount target filesystem.
-# umount <MNT-TARGET-N>
-
-
-
-*** Alternative boot methods (configs/releng)
-
-** ISO in loopback mode.
-
-Note: Described method is for using with GRUB2.
- GRUB2 is installed on target media and archlinux-<YYYY>.<MM>.<DD>-<ARCH>.iso
- is at path <TARGET-PATH> on disk <D> and partition <P>,
- where filesystem is labeled as <TARGET-FS-LABEL>.
-
-menuentry "Arch Linux (x86_64)" {
- set isofile="/<TARGET-PATH>/archlinux-<YYYY>.<MM>.<DD>-<ARCH>.iso"
- loopback loop (hd<D>,<P>)$isofile
- linux (loop)/arch/boot/x86_64/vmlinuz archisolabel=<FS-LABEL> img_label=<TARGET-FS-LABEL> img_loop=$isofile
- initrd (loop)/arch/boot/x86_64/archiso.img
-}
-
-menuentry "Arch Linux (i686)" {
- set isofile="/<TARGET-PATH>/archlinux-<YYYY>.<MM>.<DD>-<ARCH>.iso"
- loopback loop (hd<D>,<P>)$isofile
- linux (loop)/arch/boot/i686/vmlinuz archisolabel=<FS-LABEL> img_label=<TARGET-FS-LABEL> img_loop=$isofile
- initrd (loop)/arch/boot/i686/archiso.img
-}
-
-
-** ISO in memdisk mode.
-
-Note: Described method is for using with SYSLINUX. Anyway MEMDISK from SYSLINUX can work
- with other bootloaders.
- SYSLINUX is installed on target media and archlinux-<YYYY>.<MM>.<DD>-<ARCH>.iso
- is at path <TARGET-PATH>.
- On 32-bit systems, is needed to pass vmalloc=nnM to the kernel, where nn is the size
- of the ISO image plus 64 MiB (or 128 MiB).
-
-
-LABEL arch_x64
- LINUX memdisk
- INITRD /<TARGET-PATH>/archlinux-<YYYY>.<MM>.<DD>-<ARCH>.iso
- APPEND iso
-
-LABEL arch_x32
- LINUX memdisk
- INITRD /<TARGET-PATH>/archlinux-<YYYY>.<MM>.<DD>-<ARCH>.iso
- APPEND iso
-
-
-** Network booting (PXE).
-
-All ISOs are ready to act as PXE server, some manual steps are needed
-to setup the desired PXE boot mode.
-Alternatively it is possible to use an existing PXE server following the same logic.
-Note: Setup network first, adjust IP adresses, and respect all slashes "/".
-
-First stage is for loading kernel and initramfs via PXE, two methods described here:
-
-* DHCP + TFTP
-
-Note: All NIC firmwares should support this.
-
-# dnsmasq --port=0 \
- --enable-tftp \
- --tftp-root=/run/archiso/bootmnt \
- --dhcp-range=192.168.0.2,192.168.0.254,86400 \
- --dhcp-boot=/arch/boot/syslinux/gpxelinux.0 \
- --dhcp-option-force=209,boot/syslinux/archiso.cfg \
- --dhcp-option-force=210,/arch/
-
-* DHCP + HTTP
-
-Note: Not all NIC firmware supports HTTP and DNS (if domain name is used).
- At least this works with iPXE and gPXE.
-
-# dnsmasq --port=0 \
- --dhcp-range=192.168.0.2,192.168.0.254,86400 \
- --dhcp-boot=http://192.168.0.7/arch/boot/syslinux/gpxelinux.0 \
- --dhcp-option-force=209,boot/syslinux/archiso.cfg \
- --dhcp-option-force=210,http://192.168.0.7/arch/
-
-
-Once the kernel is started from PXE, SquashFS files and other misc files
-inside "arch" directory must be loaded (second stage). One of the following
-methods can be used to serve the rest of live-medium.
-
-* HTTP
-
-# darkhttpd /run/archiso/bootmnt
-
-
-* NFS
-
-# echo "/run/archiso/bootmnt 192.168.0.*(ro,no_subtree_check,no_root_squash)" >> /etc/exports
-# rc.d start rpcbind nfs-common nfs-server
-
-
-* NBD
-
-Note: Adjust ARCH_201207 as needed.
-
-# cat << EOF > /tmp/nbd-server.conf
-[generic]
-[archiso]
- readonly = true
- exportname = /dev/disk/by-label/ARCH_201207
-EOF
-# nbd-server -C /tmp/nbd-server.conf
-
-
-
-*** Build requirements
-
-** For mkarchiso script needs these packages (build host):
- + squashfs-tools for mksquashfs
- + libisoburn for xorriso
- + btrfs-progs for mkfs.btrfs (optional)
-
-** For configs/releng build.sh needs theses packages (build host):
- + dosfstools for mkfs.vfat
- + patch for patch
- + lynx for fetching the latest installation guide
-
-** For these hooks needs these packages (on target root-image)
-* archiso
- + (none)
-* archiso_loop_mnt
- + (none)
-* archiso_pxe_common
- + mkinitcpio-nfs-utils for ipconfig
-* archiso_pxe_nbd
- + nbd for nbd-client
-* archiso_pxe_http
- + curl for curl
-* archiso_pxe_nfs
- + mkinitcpio-nfs-utils for nfsmount
-* archiso_shutdown
- + (none)
-
-
-*** Image types generated by mkarchiso.
-
-* image-name.sfs SquashFS image with all files directly on it.
-* image-name.fs.sfs SquashFS with only one file inside (image-name.fs),
- which is an image of some type of filesystem
- (ext4, ext3, ext2, xfs), all files reside on it.
-
-
-*** File format for aitab.
-
-The aitab file holds information about the filesystems images that must be
-created by mkarchiso and mounted at initramfs stage from the archiso hook.
-It consists of some fields which define the behaviour of images.
-
-# <img> <mnt> <arch> <sfs_comp> <fs_type> <fs_size>
-
-<img> Image name without extension (.fs .fs.sfs .sfs).
-<mnt> Mount point.
-<arch> Architecture { i686 | x86_64 | any }.
-<sfs_comp> SquashFS compression type { gzip | lzo | xz }.
-<fs_type> Set the filesystem type of the image
- { ext4 | ext3 | ext2 | xfs | btrfs }.
- A special value of "none" denotes no usage of a filesystem.
- In that case all files are pushed directly to SquashFS filesystem.
-<fs_size> An absolute value of file system image size in MiB.
- (example: 100, 1000, 4096, etc)
- A relative value of file system free space [in percent].
- {1%..99%} (example 50%, 10%, 7%).
- This is an estimation, and calculated in a simple way.
- Space used + 10% (estimated for metadata overhead) + desired %
-
-
-*** Why the /isolinux and /arch/boot/syslinux directories?
-
-The /isolinux directory holds files needed for the ISOLINUX boot loader
-module of SYSLINUX. ISOLINUX can not find config files on
-/arch/boot/syslinux, like other boot loaders modules (EXTLINUX, SYSLINUX, etc).
-When make your custom boot-pendrive, you need to copy /arch directory to it.
-/isolinux/isolinux.cfg just holds /arch/boot/syslinux/syslinux.cfg
-
-
-*** Know issues
-
-** (1) On shutdown lots of messages from systemd like:
-
- "Could not unmount /run/archiso/<ABC>: Device or resource busy"
- "Could not delete loopback /dev/loop<N>: Device or resource busy"
- This is not a real issue since, all mounted filesystem, loopback devices
- and device mapper devices made by archiso will be "free" on "shutdown tmpfs"
- (A.K.A deinitramfs), build at initramfs by [archiso_shutdown] initcpio hook.
- Proper shutdown is mostly important when persistent is used.
-
-** (2) syslinux 4.05 bug with relative directories on FAT:
-
- "Could not find kernel image: boot/syslinux/whichsys.c32"
- This should be fixed in 4.06. For now, workaround with:
- sed -i "s|../../|/arch|" /<MNT-TARGET-N>/arch/boot/syslinux/syslinux.cfg
-
-
-*** Building the most basic Arch Linux live media. (configs/baseline)
-
-* Install needed packages.
- # pacman -S git make squashfs-tools libisoburn rsync --needed
-
-* Install archiso.
- # git clone git://projects.archlinux.org/archiso.git
- # make -C archiso install
-
-* Build a basic iso.
- # /usr/share/archiso/configs/baseline/build.sh
-
-Note: If you want to customize, just see the configs/releng directory which is
-used to build official images with much more things.
-
-
-*** Building official Arch Linux live media. (configs/releng)
-
-* Install needed packages.
- # pacman -S git make squashfs-tools libisoburn dosfstools lynx patch --needed
-
-* Install archiso.
- # git clone git://projects.archlinux.org/archiso.git
- # make -C archiso install
-
-* Build them!
- # /usr/share/archiso/configs/releng/build.sh build all
-
-Note: See build.sh -h for more options.