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nexedi
linux
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e9a38e25
Commit
e9a38e25
authored
Aug 21, 2003
by
Bryan O'Sullivan
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Documentation for initramfs, klibc, and early userspace.
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Documentation/00-INDEX
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e9a38e25
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@@ -70,6 +70,8 @@ dnotify.txt
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@@ -70,6 +70,8 @@ dnotify.txt
- info about directory notification in Linux.
- info about directory notification in Linux.
driver-model.txt
driver-model.txt
- info about Linux driver model.
- info about Linux driver model.
early-userspace/
- info about initramfs, klibc, and userspace early during boot.
exception.txt
exception.txt
- how Linux v2.2 handles exceptions without verify_area etc.
- how Linux v2.2 handles exceptions without verify_area etc.
fb/
fb/
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Documentation/early-userspace/README
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e9a38e25
Early userspace support
=======================
Last update: 2003-08-21
"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
optimised 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". If you
want to generate your own cpio files directly instead of hacking on
gen_init_cpio, you will need to short-circuit the build process in
usr/ so that gen_init_cpio does not get run, then simply pop your own
initramfs_data.cpio.gz file into place.
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
ftp://ftp.kernel.org/pub/linux/libs/klibc/
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
Bryan O'Sullivan <bos@serpentine.com>
Documentation/early-userspace/buffer-format.txt
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e9a38e25
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
concatenated.
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.
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