path: root/README

** INTRODUCTION **

Dmidecode reports information about your system's hardware as described in
your system BIOS according to the SMBIOS/DMI standard. This information
typically includes system manufacturer, model name, serial number, BIOS
version, asset tag as well as a lot of other details of varying level of
interest and reliability depending on the manufacturer. This will often
include usage status for the CPU sockets, expansion slots (e.g. AGP, PCI,
ISA) and memory module slots, and the list of I/O ports (e.g. serial,
parallel, USB).

Part of dmidecode's code can be found in the Linux kernel, where DMI data
is used to enable or disable specific portions of code depending on the
specific hardware. Thus, one of dmidecode's use is for kernel developers to
detect system "signatures" and add them to the kernel source code when
needed.

Beware that DMI data have proven to be too unreliable to be blindly trusted.
Dmidecode does not scan your hardware, it only reports what the BIOS told it
to.


** INSTALLATION **

Dmidecode's home page is hosted on Savannah:
  http://www.nongnu.org/dmidecode/
You will find the latest version (including CVS) there, as well as fresh news
and other interesting material, such as a list of related projects.

This program was first written for Linux, and has since been reported to work
on FreeBSD as well.

There's no configure script, so simply run "make" to build dmidecode, and
"make install" to install it. You also can use "make uninstall" to remove
all files you installed. By default, files are installed in /usr/local but
you can change this behavior by editing the Makefile file and setting PREFIX
to wherever you want. You may change the C compiler and the compilation
flags as well.

Optionally, you can run "make strip" prior to "make install" if you want
smaller binaries. However, know that this will prevent any further
attempt to debug programs.

Two parameters can be set in the Makefile file to make dmidecode work on
non-i386 systems. They should be used if your system uses the big endian
byte ordering (Motorola) or doesn't support unaligned memory accesses,
respectively. For example, compiling for a SPARC processor would require
both. Note that this hasn't been much tested though, because the data
manipulated by dmidecode and the other tools is only found on i386 and
neighbour architectures (x86_64, ia64) anyway.


** DOCUMENTATION **

Each tool has a manual page, found in the man/ subdirectory. Manual pages
are installed by "make install".

For an history of the changes made to dmidecode, see the CHANGELOG file.

If you need help, your best chances are to visit the web page (see the
INSTALLATION section above) or to get in touch with the developpers
directly. Have a look at the AUTHORS file and contact one of the maintainers
(or less likely someone else, but you'd need to have a good reason for doing
so).

The most common problems are detailed in the COMMON PROBLEMS section right
below.


** COMMON PROBLEMS **

MODEL SPECIFIC ISSUES

Dmidecode used not to work on IBM T-series laptops nor on Fujitsu-Siemens
S-series laptops under Linux. This was due to the fact that the DMI table
is at a memory location we couldn't seem to reach through /dev/mem. Although
I believe this reveals a problem in the Linux kernel, which should be fixed,
a workaround was found by Chad Smith, and we are using it for now. See the
IA-64 subsection below for more details. I posted about this problem on the
LKML but did not have any answer. Since then, the list of affected systems
was extended to IBM X-series laptops and xSeries x445 servers.

IA-64

Dmidecode used to have problems on IA-64 systems. The first reason for
this is that dmidecode accesses the DMI table through /dev/mem, and reading
this file on an IA-64 system sometimes leads to a crash. A second reason is
that the method for locating the above-mentioned table differs on IA-64
(compared to x86), so dmidecode was likely to miss the table entry point.
This complex issue was reported by Glen Foster and Chad Smith from HP. We
have since been working on a solution, and dmidecode now supports IA-64
systems. Chad Smith noticed that, for some obscure reason, accessing the
/dev/mem file using mmap() instead of read() would work. Then, he wrote a
patch to export the DMI table address from the internal EFI table to /proc,
so dmidecode doesn't have to scan /dev/mem for it anymore. This patch was
since integrated into the main ia64 patch. Finally, I added the required
code to make it all work. So, in order to have dmidecode work on your IA-64
system, you need two things:
 - dmidecode version 2.2 or later;
 - an ia64 patched kernel, using linux-2.4.21-ia64-030702.diff or any later
   version.
Chad Smith tested dmidecode successfully on two different IA-64 systems, and
successes have been reported by other users too.

MMAP

Note that mmap() is now used by default on all systems, since this seems to
solve a number of problems. If your system does not have the mmap() function,
edit the Makefile file and disable USE_MMAP. Just to make sure this is clear,
mmap() is not used for performance reasons but to increase the number of
systems on which dmidecode can be successfully run. See the IA-64 subsection
above for details.


** MISCELLANEOUS TOOLS **

Three other tools come along with dmidecode: biosdecode, ownership and
vpddecode.

BIOSDECODE

This one prints all BIOS related information it can find in /dev/mem.
It used to be part of dmidecode itself, but as dmidecode was growing,
we felt that the non-DMI part had to be moved to a separate tool.

OWNERSHIP

This tool was written on a request by Luc Van de Velde for use with Novell
tools in his company. It retrieves the "ownership tag" that can be set on
most Compaq computers. Since it uses the same mechanisms dmidecode and
biosdecode use, and could be of some use for other people as well, we
decided to make it part of the project.

VPDDECODE

This tool prints the contents of the "vital product data" structure as
found in most IBM computers. It roughly shows the same information as
biosdecode does with regard to this structure, but has an additional
lookup table for the machine name.