path: root/Documentation/early-userspace
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authorLinus Torvalds <torvalds@ppc970.osdl.org>2005-04-16 15:20:36 -0700
committerLinus Torvalds <torvalds@ppc970.osdl.org>2005-04-16 15:20:36 -0700
commit1da177e4c3f41524e886b7f1b8a0c1fc7321cac2 (patch)
tree0bba044c4ce775e45a88a51686b5d9f90697ea9d /Documentation/early-userspace
Initial git repository build. I'm not bothering with the full history, even though we have it. We can create a separate "historical" git archive of that later if we want to, and in the meantime it's about 3.2GB when imported into git - space that would just make the early git days unnecessarily complicated, when we don't have a lot of good infrastructure for it. Let it rip!
Diffstat (limited to 'Documentation/early-userspace')
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diff --git a/Documentation/early-userspace/README b/Documentation/early-userspace/README
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+Early userspace support
+Last update: 2004-12-20 tlh
+"Early userspace" is a set of libraries and programs that provide
+various pieces of functionality that are important enough to be
+available while a Linux kernel is coming up, but that don't need to be
+run inside the kernel itself.
+It consists of several major infrastructure components:
+- gen_init_cpio, a program that builds a cpio-format archive
+ containing a root filesystem image. This archive is compressed, and
+ the compressed image is linked into the kernel image.
+- initramfs, a chunk of code that unpacks the compressed cpio image
+ midway through the kernel boot process.
+- klibc, a userspace C library, currently packaged separately, that is
+ optimized for correctness and small size.
+The cpio file format used by initramfs is the "newc" (aka "cpio -c")
+format, and is documented in the file "buffer-format.txt". There are
+two ways to add an early userspace image: specify an existing cpio
+archive to be used as the image or have the kernel build process build
+the image from specifications.
+You can create a cpio archive that contains the early userspace image.
+Youre cpio archive should be specified in CONFIG_INITRAMFS_SOURCE and it
+will be used directly. Only a single cpio file may be specified in
+CONFIG_INITRAMFS_SOURCE and directory and file names are not allowed in
+combination with a cpio archive.
+The kernel build process can also build an early userspace image from
+source parts rather than supplying a cpio archive. This method provides
+a way to create images with root-owned files even though the image was
+built by an unprivileged user.
+The image is specified as one or more sources in
+CONFIG_INITRAMFS_SOURCE. Sources can be either directories or files -
+cpio archives are *not* allowed when building from sources.
+A source directory will have it and all of it's contents packaged. The
+specified directory name will be mapped to '/'. When packaging a
+directory, limited user and group ID translation can be performed.
+INITRAMFS_ROOT_UID can be set to a user ID that needs to be mapped to
+user root (0). INITRAMFS_ROOT_GID can be set to a group ID that needs
+to be mapped to group root (0).
+A source file must be directives in the format required by the
+usr/gen_init_cpio utility (run 'usr/gen_init_cpio --help' to get the
+file format). The directives in the file will be passed directly to
+When a combination of directories and files are specified then the
+initramfs image will be an aggregate of all of them. In this way a user
+can create a 'root-image' directory and install all files into it.
+Because device-special files cannot be created by a unprivileged user,
+special files can be listed in a 'root-files' file. Both 'root-image'
+and 'root-files' can be listed in CONFIG_INITRAMFS_SOURCE and a complete
+early userspace image can be built by an unprivileged user.
+As a technical note, when directories and files are specified, the
+entire CONFIG_INITRAMFS_SOURCE is passed to
+scripts/gen_initramfs_list.sh. This means that CONFIG_INITRAMFS_SOURCE
+can really be interpreted as any legal argument to
+gen_initramfs_list.sh. If a directory is specified as an argument then
+the contents are scanned, uid/gid translation is performed, and
+usr/gen_init_cpio file directives are output. If a directory is
+specified as an arugemnt to scripts/gen_initramfs_list.sh then the
+contents of the file are simply copied to the output. All of the output
+directives from directory scanning and file contents copying are
+processed by usr/gen_init_cpio.
+See also 'scripts/gen_initramfs_list.sh -h'.
+Where's this all leading?
+The klibc distribution contains some of the necessary software to make
+early userspace useful. The klibc distribution is currently
+maintained separately from the kernel, but this may change early in
+the 2.7 era (it missed the boat for 2.5).
+You can obtain somewhat infrequent snapshots of klibc from
+For active users, you are better off using the klibc BitKeeper
+repositories, at http://klibc.bkbits.net/
+The standalone klibc distribution currently provides three components,
+in addition to the klibc library:
+- ipconfig, a program that configures network interfaces. It can
+ configure them statically, or use DHCP to obtain information
+ dynamically (aka "IP autoconfiguration").
+- nfsmount, a program that can mount an NFS filesystem.
+- kinit, the "glue" that uses ipconfig and nfsmount to replace the old
+ support for IP autoconfig, mount a filesystem over NFS, and continue
+ system boot using that filesystem as root.
+kinit is built as a single statically linked binary to save space.
+Eventually, several more chunks of kernel functionality will hopefully
+move to early userspace:
+- Almost all of init/do_mounts* (the beginning of this is already in
+ place)
+- ACPI table parsing
+- Insert unwieldy subsystem that doesn't really need to be in kernel
+ space here
+If kinit doesn't meet your current needs and you've got bytes to burn,
+the klibc distribution includes a small Bourne-compatible shell (ash)
+and a number of other utilities, so you can replace kinit and build
+custom initramfs images that meet your needs exactly.
+For questions and help, you can sign up for the early userspace
+mailing list at http://www.zytor.com/mailman/listinfo/klibc
+How does it work?
+The kernel has currently 3 ways to mount the root filesystem:
+a) all required device and filesystem drivers compiled into the kernel, no
+ initrd. init/main.c:init() will call prepare_namespace() to mount the
+ final root filesystem, based on the root= option and optional init= to run
+ some other init binary than listed at the end of init/main.c:init().
+b) some device and filesystem drivers built as modules and stored in an
+ initrd. The initrd must contain a binary '/linuxrc' which is supposed to
+ load these driver modules. It is also possible to mount the final root
+ filesystem via linuxrc and use the pivot_root syscall. The initrd is
+ mounted and executed via prepare_namespace().
+c) using initramfs. The call to prepare_namespace() must be skipped.
+ This means that a binary must do all the work. Said binary can be stored
+ into initramfs either via modifying usr/gen_init_cpio.c or via the new
+ initrd format, an cpio archive. It must be called "/init". This binary
+ is responsible to do all the things prepare_namespace() would do.
+ To remain backwards compatibility, the /init binary will only run if it
+ comes via an initramfs cpio archive. If this is not the case,
+ init/main.c:init() will run prepare_namespace() to mount the final root
+ and exec one of the predefined init binaries.
+Bryan O'Sullivan <bos@serpentine.com>
diff --git a/Documentation/early-userspace/buffer-format.txt b/Documentation/early-userspace/buffer-format.txt
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+ initramfs buffer format
+ -----------------------
+ Al Viro, H. Peter Anvin
+ Last revision: 2002-01-13
+Starting with kernel 2.5.x, the old "initial ramdisk" protocol is
+getting {replaced/complemented} with the new "initial ramfs"
+(initramfs) protocol. The initramfs contents is passed using the same
+memory buffer protocol used by the initrd protocol, but the contents
+is different. The initramfs buffer contains an archive which is
+expanded into a ramfs filesystem; this document details the format of
+the initramfs buffer format.
+The initramfs buffer format is based around the "newc" or "crc" CPIO
+formats, and can be created with the cpio(1) utility. The cpio
+archive can be compressed using gzip(1). One valid version of an
+initramfs buffer is thus a single .cpio.gz file.
+The full format of the initramfs buffer is defined by the following
+grammar, where:
+ * is used to indicate "0 or more occurrences of"
+ (|) indicates alternatives
+ + indicates concatenation
+ GZIP() indicates the gzip(1) of the operand
+ ALGN(n) means padding with null bytes to an n-byte boundary
+ initramfs := ("\0" | cpio_archive | cpio_gzip_archive)*
+ cpio_gzip_archive := GZIP(cpio_archive)
+ cpio_archive := cpio_file* + (<nothing> | cpio_trailer)
+ cpio_file := ALGN(4) + cpio_header + filename + "\0" + ALGN(4) + data
+ cpio_trailer := ALGN(4) + cpio_header + "TRAILER!!!\0" + ALGN(4)
+In human terms, the initramfs buffer contains a collection of
+compressed and/or uncompressed cpio archives (in the "newc" or "crc"
+formats); arbitrary amounts zero bytes (for padding) can be added
+between members.
+The cpio "TRAILER!!!" entry (cpio end-of-archive) is optional, but is
+not ignored; see "handling of hard links" below.
+The structure of the cpio_header is as follows (all fields contain
+hexadecimal ASCII numbers fully padded with '0' on the left to the
+full width of the field, for example, the integer 4780 is represented
+by the ASCII string "000012ac"):
+Field name Field size Meaning
+c_magic 6 bytes The string "070701" or "070702"
+c_ino 8 bytes File inode number
+c_mode 8 bytes File mode and permissions
+c_uid 8 bytes File uid
+c_gid 8 bytes File gid
+c_nlink 8 bytes Number of links
+c_mtime 8 bytes Modification time
+c_filesize 8 bytes Size of data field
+c_maj 8 bytes Major part of file device number
+c_min 8 bytes Minor part of file device number
+c_rmaj 8 bytes Major part of device node reference
+c_rmin 8 bytes Minor part of device node reference
+c_namesize 8 bytes Length of filename, including final \0
+c_chksum 8 bytes Checksum of data field if c_magic is 070702;
+ otherwise zero
+The c_mode field matches the contents of st_mode returned by stat(2)
+on Linux, and encodes the file type and file permissions.
+The c_filesize should be zero for any file which is not a regular file
+or symlink.
+The c_chksum field contains a simple 32-bit unsigned sum of all the
+bytes in the data field. cpio(1) refers to this as "crc", which is
+clearly incorrect (a cyclic redundancy check is a different and
+significantly stronger integrity check), however, this is the
+algorithm used.
+If the filename is "TRAILER!!!" this is actually an end-of-archive
+marker; the c_filesize for an end-of-archive marker must be zero.
+*** Handling of hard links
+When a nondirectory with c_nlink > 1 is seen, the (c_maj,c_min,c_ino)
+tuple is looked up in a tuple buffer. If not found, it is entered in
+the tuple buffer and the entry is created as usual; if found, a hard
+link rather than a second copy of the file is created. It is not
+necessary (but permitted) to include a second copy of the file
+contents; if the file contents is not included, the c_filesize field
+should be set to zero to indicate no data section follows. If data is
+present, the previous instance of the file is overwritten; this allows
+the data-carrying instance of a file to occur anywhere in the sequence
+(GNU cpio is reported to attach the data to the last instance of a
+file only.)
+c_filesize must not be zero for a symlink.
+When a "TRAILER!!!" end-of-archive marker is seen, the tuple buffer is
+reset. This permits archives which are generated independently to be
+To combine file data from different sources (without having to
+regenerate the (c_maj,c_min,c_ino) fields), therefore, either one of
+the following techniques can be used:
+a) Separate the different file data sources with a "TRAILER!!!"
+ end-of-archive marker, or
+b) Make sure c_nlink == 1 for all nondirectory entries.