RPM(8) Red Hat Linux RPM(8)

NAME rpm - RPM Package Manager

SYNOPSIS QUERYING AND VERIFYING PACKAGES: rpm {-q|--query} [select-options] [query-options]

rpm {-V|--verify} [select-options] [verify-options]

rpm --import PUBKEY ...

rpm {-K|--checksig} [--nosignature] [--nodigest] PACKAGE_FILE ...

INSTALLING, UPGRADING, AND REMOVING PACKAGES: rpm {-i|--install} [install-options] PACKAGE_FILE ...

rpm {-U|--upgrade} [install-options] PACKAGE_FILE ...

rpm {-F|--freshen} [install-options] PACKAGE_FILE ...

rpm {-e|--erase} [--allmatches] [--nodeps] [--noscripts] [--notriggers] [--repackage] [--test] PACKAGE_NAME ...

MISCELLANEOUS: rpm {--initdb|--rebuilddb}

rpm {--addsign|--resign} PACKAGE_FILE ...

rpm {--querytags|--showrc}

rpm {--setperms|--setugids} PACKAGE_NAME ...

select-options [PACKAGE_NAME] [-a,--all] [-f,--file FILE] [-g,--group GROUP] {-p,--package PACKAGE_FILE] [--fileid MD5] [--hdrid SHA1] [--pkgid MD5] [--tid TID] [--querybynumber HDRNUM] [--triggeredby PACKAGE_NAME] [--whatprovides CAPABILITY] [--whatrequires CAPABILITY]

query-options [--changelog] [-c,--configfiles] [-d,--docfiles] [--dump] [--filesbypkg] [-i,--info] [--last] [-l,--list] [--provides] [--qf,--queryformat QUERYFMT] [-R,--requires] [--scripts] [-s,--state] [--triggers,--triggerscripts]

verify-options [--nodeps] [--nofiles] [--noscripts] [--nodigest] [--nosignature] [--nolinkto] [--nomd5] [--nosize] [--nouser] [--nogroup] [--nomtime] [--nomode] [--nordev]

install-options [--aid] [--allfiles] [--badreloc] [--excludepath OLDPATH] [--excludedocs] [--force] [-h,--hash] [--ignoresize] [--ignorearch] [--ignoreos] [--includedocs] [--justdb] [--nodeps] [--nodigest] [--nosignature] [--nosuggest] [--noorder] [--noscripts] [--notriggers] [--oldpackage] [--percent] [--prefix NEWPATH] [--relocate OLDPATH=NEWPATH] [--repackage] [--replacefiles] [--replacepkgs] [--test]

DESCRIPTION rpm is a powerful Package Manager, which can be used to build, install, query, verify, update, and erase individual software packages. A pack- age consists of an archive of files and meta-data used to install and erase the archive files. The meta-data includes helper scripts, file attributes, and descriptive information about the package. Packages come in two varieties: binary packages, used to encapsulate software to be installed, and source packages, containing the source code and recipe necessary to produce binary packages.

One of the following basic modes must be selected: Query, Verify, Sig- nature Check, Install/Upgrade/Freshen, Uninstall, Initialize Database, Rebuild Database, Resign, Add Signature, Set Owners/Groups, Show Query- tags, and Show Configuration.

GENERAL OPTIONS These options can be used in all the different modes.

-?, --help Print a longer usage message then normal.

--version Print a single line containing the version number of rpm being used.

--quiet Print as little as possible - normally only error messages will be displayed.

-v Print verbose information - normally routine progress messages will be displayed.

-vv Print lots of ugly debugging information.

--rcfile FILELIST Each of the files in the colon separated FILELIST is read sequentially by rpm for configuration information. Only the first file in the list must exist, and tildes will be expanded to the value of $HOME. The default FILELIST is /usr/lib/rpm/rpmrc:/usr/lib/rpm/red- hat/rpmrc:/etc/rpmrc:~/.rpmrc.

--pipe CMD Pipes the output of rpm to the command CMD.

--dbpath DIRECTORY Use the database in DIRECTORY rather than the default path /var/lib/rpm

--root DIRECTORY Use the file system tree rooted at DIRECTORY for all operations. Note that this means the database within DIRECTORY will be used for dependency checks and any scriptlet(s) (e.g. %post if installing, or %prep if building, a package) will be run after a chroot(2) to DIRECTORY.

-D, --defineMACRO EXPR Defines MACRO with value EXPR.

-E, --evalEXPR Prints macro expansion of EXPR.

INSTALL AND UPGRADE OPTIONS The general form of an rpm install command is

rpm {-i|--install} [install-options] PACKAGE_FILE ...

This installs a new package.

The general form of an rpm upgrade command is

rpm {-U|--upgrade} [install-options] PACKAGE_FILE ...

This upgrades or installs the package currently installed to a newer version. This is the same as install, except all other version(s) of the package are removed after the new package is installed.

rpm {-F|--freshen} [install-options] PACKAGE_FILE ...

This will upgrade packages, but only if an earlier version currently exists. The PACKAGE_FILE may be specified as an ftp or http URL, in which case the package will be downloaded before being installed. See FTP/HTTP OPTIONS for information on rpms internal ftp and http client support.

--aid Add suggested packages to the transaction set when needed.

--allfiles Installs or upgrades all the missingok files in the package, regardless if they exist.

--badreloc Used with --relocate, permit relocations on all file paths, not just those OLDPATHs included in the binary package relocation hint(s).

--excludepath OLDPATH Dont install files whose name begins with OLDPATH.

--excludedocs Don t install any files which are marked as documentation (which includes man pages and texinfo documents).

--force Same as using --replacepkgs, --replacefiles, and --oldpackage.

-h, --hash Print 50 hash marks as the package archive is unpacked. Use with -v|--verbose for a nicer display.

--ignoresize Dont check mount file systems for sufficient disk space before installing this package.

--ignorearch Allow installation or upgrading even if the architectures of the binary package and host dont match.

--ignoreos Allow installation or upgrading even if the operating systems of the binary package and host dont match.

--includedocs Install documentation files. This is the default behavior.

--justdb Update only the database, not the filesystem.

--nodigest Dont verify package or header digests when reading.

--nosignature Don t verify package or header signatures when reading.

--nodeps Dont do a dependency check before installing or upgrading a package.

--nosuggest Don t suggest package(s) that provide a missing dependency.

--noorder Dont reorder the packages for an install. The list of packages would normally be reordered to satisfy dependencies.

--noscripts

--nopre

--nopost

--nopreun

--nopostun Dont execute the scriptlet of the same name. The --noscripts option is equivalent to

--nopre --nopost --nopreun --nopostun

and turns off the execution of the corresponding %pre, %post, %preun, and %postun scriptlet(s).

--notriggers

--notriggerin

--notriggerun

--notriggerpostun Dont execute any trigger scriptlet of the named type. The --notriggers option is equivalent to

--notriggerin --notriggerun --notriggerpostun

and turns off execution of the corresponding %triggerin, %trig- gerun, and %triggerpostun scriptlet(s).

--oldpackage Allow an upgrade to replace a newer package with an older one.

--percent Print percentages as files are unpacked from the package archive. This is intended to make rpm easy to run from other tools.

--prefix NEWPATH For relocatable binary packages, translate all file paths that start with the installation prefix in the package relocation hint(s) to NEWPATH.

--relocate OLDPATH=NEWPATH For relocatable binary packages, translate all file paths that start with OLDPATH in the package relocation hint(s) to NEWPATH. This option can be used repeatedly if several OLDPATHs in the package are to be relocated.

--repackage Re-package the files before erasing. The previously installed package will be named according to the macro %_repack- age_name_fmt and will be created in the directory named by the macro %_repackage_dir (default value is /var/spool/repackage).

--replacefiles Install the packages even if they replace files from other, already installed, packages.

--replacepkgs Install the packages even if some of them are already installed on this system.

--test Do not install the package, simply check for and report poten- tial conflicts.

ERASE OPTIONS The general form of an rpm erase command is

rpm {-e|--erase} [--allmatches] [--nodeps] [--noscripts] [--notriggers] [--repackage] [--test] PACKAGE_NAME ...

The following options may also be used:

--allmatches Remove all versions of the package which match PACKAGE_NAME. Normally an error is issued if PACKAGE_NAME matches multiple packages.

--nodeps Dont check dependencies before uninstalling the packages.

--noscripts

--nopreun

--nopostun Don t execute the scriptlet of the same name. The --noscripts option during package erase is equivalent to

--nopreun --nopostun

and turns off the execution of the corresponding %preun, and %postun scriptlet(s).

--notriggers

--notriggerun

--notriggerpostun Don t execute any trigger scriptlet of the named type. The --notriggers option is equivalent to

--notriggerun --notriggerpostun

and turns off execution of the corresponding %triggerun, and %triggerpostun scriptlet(s).

--repackage Re-package the files before erasing. The previously installed package will be named according to the macro %_repack- age_name_fmt and will be created in the directory named by the macro %_repackage_dir (default value is /var/spool/repackage).

--test Dont really uninstall anything, just go through the motions. Useful in conjunction with the -vv option for debugging.

QUERY OPTIONS The general form of an rpm query command is

rpm {-q|--query} [select-options] [query-options]

You may specify the format that package information should be printed in. To do this, you use the

--qf|--queryformat QUERYFMT

option, followed by the QUERYFMT format string. Query formats are mod- ified versions of the standard printf(3) formatting. The format is made up of static strings (which may include standard C character escapes for newlines, tabs, and other special characters) and printf(3) type formatters. As rpm already knows the type to print, the type specifier must be omitted however, and replaced by the name of the header tag to be printed, enclosed by {} characters. Tag names are case insensitive, and the leading RPMTAG_ portion of the tag name may be omitted as well.

Alternate output formats may be requested by following the tag with :typetag. Currently, the following types are supported:

:armor Wrap a public key in ASCII armor.

:base64 Encode binary data using base64.

:date Use strftime(3) "%c" format.

:day Use strftime(3) "%a %b %d %Y" format.

:depflags Format dependency flags.

:fflags Format file flags.

:hex Format in hexadecimal.

:octal Format in octal.

:perms Format file permissions.

:shescape Escape single quotes for use in a script.

:triggertype Display trigger suffix.

For example, to print only the names of the packages queried, you could use %{NAME} as the format string. To print the packages name and dis- tribution information in two columns, you could use %-30{NAME}%{DISTRI- BUTION}. rpm will print a list of all of the tags it knows about when it is invoked with the --querytags argument.

There are two subsets of options for querying: package selection, and information selection.

PACKAGE SELECTION OPTIONS: PACKAGE_NAME Query installed package named PACKAGE_NAME.

-a, --all Query all installed packages.

-f, --file FILE Query package owning FILE.

--fileid MD5 Query package that contains a given file identifier, i.e. the MD5 digest of the file contents.

-g, --group GROUP Query packages with the group of GROUP.

--hdrid SHA1 Query package that contains a given header identifier, i.e. the SHA1 digest of the immutable header region.

-p, --package PACKAGE_FILE Query an (uninstalled) package PACKAGE_FILE. The PACKAGE_FILE may be specified as an ftp or http style URL, in which case the package header will be downloaded and queried. See FTP/HTTP OPTIONS for information on rpms internal ftp and http client support. The PACKAGE_FILE argument(s), if not a binary package, will be interpreted as an ASCII package manifest. Comments are permitted, starting with a #, and each line of a package mani- fest file may include white space separated glob expressions, including URLs with remote glob expressions, that will be expanded to paths that are substituted in place of the package manifest as additional PACKAGE_FILE arguments to the query.

--pkgid MD5 Query package that contains a given package identifier, i.e. the MD5 digest of the combined header and payload contents.

--querybynumber HDRNUM Query the HDRNUMth database entry directly; this is useful only for debugging.

--specfile SPECFILE Parse and query SPECFILE as if it were a package. Although not all the information (e.g. file lists) is available, this type of query permits rpm to be used to extract information from spec files without having to write a specfile parser.

--tid TID Query package(s) that have a given TID transaction identifier. A unix time stamp is currently used as a transaction identifier. All package(s) installed or erased within a single transaction have a common identifier.

--triggeredby PACKAGE_NAME Query packages that are triggered by package(s) PACKAGE_NAME.

--whatprovides CAPABILITY Query all packages that provide the CAPABILITY capability.

--whatrequires CAPABILITY Query all packages that requires CAPABILITY for proper function- ing.

PACKAGE QUERY OPTIONS: --changelog Display change information for the package.

-c, --configfiles List only configuration files (implies -l).

-d, --docfiles List only documentation files (implies -l).

--dump Dump file information as follows (implies -l):

path size mtime md5sum mode owner group isconfig isdoc rdev symlink

--filesbypkg List all the files in each selected package.

-i, --info Display package information, including name, version, and description. This uses the --queryformat if one was specified.

--last Orders the package listing by install time such that the latest packages are at the top.

-l, --list List files in package.

--provides List capabilities this package provides.

-R, --requires List packages on which this package depends.

--scripts List the package specific scriptlet(s) that are used as part of the installation and uninstallation processes.

-s, --state Display the states of files in the package (implies -l). The state of each file is one of normal, not installed, or replaced.

--triggers, --triggerscripts Display the trigger scripts, if any, which are contained in the package.

VERIFY OPTIONS The general form of an rpm verify command is

rpm {-V|--verify} [select-options] [verify-options]

Verifying a package compares information about the installed files in the package with information about the files taken from the package metadata stored in the rpm database. Among other things, verifying compares the size, MD5 sum, permissions, type, owner and group of each file. Any discrepancies are displayed. Files that were not installed from the package, for example, documentation files excluded on instal- lation using the "--excludedocs" option, will be silently ignored.

The package selection options are the same as for package querying (including package manifest files as arguments). Other options unique to verify mode are:

--nodeps Dont verify dependencies of packages.

--nodigest Dont verify package or header digests when reading.

--nofiles Dont verify any attributes of package files.

--noscripts Don t execute the %verifyscript scriptlet (if any).

--nosignature Dont verify package or header signatures when reading.

--nolinkto

--nomd5

--nosize

--nouser

--nogroup

--nomtime

--nomode

--nordev Dont verify the corresponding file attribute.

The format of the output is a string of 8 characters, a possible attribute marker:

c %config configuration file. d %doc documentation file. g %ghost file (i.e. the file contents are not included in the package payload). l %license license file. r %readme readme file.

from the package header, followed by the file name. Each of the 8 characters denotes the result of a comparison of attribute(s) of the file to the value of those attribute(s) recorded in the database. A single "." (period) means the test passed, while a single "?" (question mark) indicates the test could not be performed (e.g. file permissions prevent reading). Otherwise, the (mnemonically emBoldened) character denotes failure of the corresponding --verify test:

S file Size differs M Mode differs (includes permissions and file type) 5 MD5 sum differs D Device major/minor number mismatch L readLink(2) path mismatch U User ownership differs G Group ownership differs T mTime differs

DIGITAL SIGNATURE AND DIGEST VERIFICATION The general forms of rpm digital signature commands are

rpm --import PUBKEY ...

rpm {--checksig} [--nosignature] [--nodigest] PACKAGE_FILE ...

The --checksig option checks all the digests and signatures contained in PACKAGE_FILE to ensure the integrity and origin of the package. Note that signatures are now verified whenever a package is read, and --checksig is useful to verify all of the digests and signatures asso- ciated with a package.

Digital signatures cannot be verified without a public key. An ASCII armored public key can be added to the rpm database using --import. An imported public key is carried in a header, and key ring management is performed exactly like package management. For example, all currently imported public keys can be displayed by:

rpm -qa gpg-pubkey*

Details about a specific public key, when imported, can be displayed by querying. Heres information about the Red Hat GPG/DSA key:

rpm -qi gpg-pubkey-db42a60e

Finally, public keys can be erased after importing just like packages. Heres how to remove the Red Hat GPG/DSA key

rpm -e gpg-pubkey-db42a60e

SIGNING A PACKAGE rpm --addsign|--resign PACKAGE_FILE ...

Both of the --addsign and --resign options generate and insert new sig- natures for each package PACKAGE_FILE given, replacing any existing signatures. There are two options for historical reasons, there is no difference in behavior currently.

USING GPG TO SIGN PACKAGES In order to sign packages using GPG, rpm must be configured to run GPG and be able to find a key ring with the appropriate keys. By default, rpm uses the same conventions as GPG to find key rings, namely the $GNUPGHOME environment variable. If your key rings are not located where GPG expects them to be, you will need to configure the macro %_gpg_path to be the location of the GPG key rings to use.

For compatibility with older versions of GPG, PGP, and rpm, only V3 OpenPGP signature packets should be configured. Either DSA or RSA ver- ification algorithms can be used, but DSA is preferred.

If you want to be able to sign packages you create yourself, you also need to create your own public and secret key pair (see the GPG man- ual). You will also need to configure the rpm macros

%_signature The signature type. Right now only gpg and pgp are supported.

%_gpg_name The name of the "user" whose key you wish to use to sign your packages.

For example, to be able to use GPG to sign packages as the user "John Doe <jdoe@foo.com>" from the key rings located in /etc/rpm/.gpg using the executable /usr/bin/gpg you would include

%_signature gpg %_gpg_path /etc/rpm/.gpg %_gpg_name John Doe <jdoe@foo.com> %_gpgbin /usr/bin/gpg

in a macro configuration file. Use /etc/rpm/macros for per-system con- figuration and ~/.rpmmacros for per-user configuration.

REBUILD DATABASE OPTIONS The general form of an rpm rebuild database command is

rpm {--initdb|--rebuilddb} [-v] [--dbpath DIRECTORY] [--root DIRECTORY]

Use --initdb to create a new database if one doesnt already exist (existing database is not overwritten), use --rebuilddb to rebuild the database indices from the installed package headers.

SHOWRC The command

rpm --showrc

shows the values rpm will use for all of the options are currently set in rpmrc and macros configuration file(s).

FTP/HTTP OPTIONS rpm can act as an FTP and/or HTTP client so that packages can be queried or installed from the internet. Package files for install, upgrade, and query operations may be specified as an ftp or http style URL:

ftp://USER:PASSWORD@HOST:PORT/path/to/package.rpm

If the :PASSWORD portion is omitted, the password will be prompted for (once per user/hostname pair). If both the user and password are omit- ted, anonymous ftp is used. In all cases, passive (PASV) ftp transfers are performed.

rpm allows the following options to be used with ftp URLs:

--ftpproxy HOST The host HOST will be used as a proxy server for all ftp trans- fers, which allows users to ftp through firewall machines which use proxy systems. This option may also be specified by config- uring the macro %_ftpproxy.

--ftpport PORT The TCP PORT number to use for the ftp connection on the proxy ftp server instead of the default port. This option may also be specified by configuring the macro %_ftpport.

rpm allows the following options to be used with http URLs:

--httpproxy HOST The host HOST will be used as a proxy server for all http trans- fers. This option may also be specified by configuring the macro %_httpproxy.

--httpport PORT The TCP PORT number to use for the http connection on the proxy http server instead of the default port. This option may also be specified by configuring the macro %_httpport.

LEGACY ISSUES Executing rpmbuild The build modes of rpm are now resident in the /usr/bin/rpmbuild exe- cutable. Although legacy compatibility provided by the popt aliases below has been adequate, the compatibility is not perfect; hence build mode compatibility through popt aliases is being removed from rpm. Install the package containing rpmbuild (usually rpm-build) and see rpmbuild(8) for documentation of all the rpm build modes previously documented here in rpm(8).

Add the following lines to /etc/popt if you wish to continue invoking rpmbuild from the rpm command line:

rpm exec --bp rpmb -bp rpm exec --bc rpmb -bc rpm exec --bi rpmb -bi rpm exec --bl rpmb -bl rpm exec --ba rpmb -ba rpm exec --bb rpmb -bb rpm exec --bs rpmb -bs rpm exec --tp rpmb -tp rpm exec --tc rpmb -tc rpm exec --ti rpmb -ti rpm exec --tl rpmb -tl rpm exec --ta rpmb -ta rpm exec --tb rpmb -tb rpm exec --ts rpmb -ts rpm exec --rebuild rpmb --rebuild rpm exec --recompile rpmb --recompile rpm exec --clean rpmb --clean rpm exec --rmsource rpmb --rmsource rpm exec --rmspec rpmb --rmspec rpm exec --target rpmb --target rpm exec --short-circuit rpmb --short-circuit

FILES rpmrc Configuration /usr/lib/rpm/rpmrc /usr/lib/rpm/redhat/rpmrc /etc/rpmrc ~/.rpmrc

Macro Configuration /usr/lib/rpm/macros /usr/lib/rpm/redhat/macros /etc/rpm/macros ~/.rpmmacros

Database /var/lib/rpm/Basenames /var/lib/rpm/Conflictname /var/lib/rpm/Dirnames /var/lib/rpm/Filemd5s /var/lib/rpm/Group /var/lib/rpm/Installtid /var/lib/rpm/Name /var/lib/rpm/Packages /var/lib/rpm/Providename /var/lib/rpm/Provideversion /var/lib/rpm/Pubkeys /var/lib/rpm/Removed /var/lib/rpm/Requirename /var/lib/rpm/Requireversion /var/lib/rpm/Sha1header /var/lib/rpm/Sigmd5 /var/lib/rpm/Triggername

Temporary /var/tmp/rpm*

SEE ALSO popt(3), rpm2cpio(8), rpmbuild(8),

rpm --help - as rpm supports customizing the options via popt aliases its impossible to guarantee that whats described in the manual matches whats available.

http://www.rpm.org/ <URL:http://www.rpm.org/>

AUTHORS Marc Ewing <marc@redhat.com> Jeff Johnson <jbj@redhat.com> Erik Troan <ewt@redhat.com>

Red Hat, Inc. 09 June 2002 RPM(8) DMIDECODE(8) DMIDECODE(8)

NAME dmidecode - DMI table decoder

SYNOPSIS dmidecode [OPTIONS]

DESCRIPTION dmidecode is a tool for dumping a computers DMI (some say SMBIOS) ta- ble contents in a human-readable format. This table contains a descrip- tion of the systems hardware components, as well as other useful pieces of information such as serial numbers and BIOS revision. Thanks to this table, you can retrieve this information without having to probe for the actual hardware. While this is a good point in terms of report speed and safeness, this also makes the presented information possibly unreliable.

The DMI table doesn t only describe what the system is currently made of, it also can report the possible evolutions (such as the fastest supported CPU or the maximal amount of memory supported).

SMBIOS stands for System Management BIOS, while DMI stands for Desktop Management Interface. Both standards are tightly related and developed by the DMTF (Desktop Management Task Force).

As you run it, dmidecode will try to locate the DMI table. If it suc- ceeds, it will then parse this table and display a list of records like this one:

Handle 0x0002, DMI type 2, 8 bytes. Base Board Information Manufacturer: Intel Product Name: C440GX+ Version: 727281-001 Serial Number: INCY92700942

Each record has:

· A handle. This is a unique identifier, which allows records to refer- ence each other. For example, processor records usually reference cache memory records using their handles.

· A type. The SMBIOS specification defines different types of elements a computer can be made of. In this example, the type is 2, which means that the record contains "Base Board Information".

· A size. Each record has a 4-byte header (2 for the handle, 1 for the type, 1 for the size), the rest is used by the record data. This value doesnt take text strings into account (these are placed at the end of the record), so the actual length of the record may be (and is often) greater than the displayed value.

· Decoded values. The information presented of course depends on the type of record. Here, we learn about the board s manufacturer, model, version and serial number.

OPTIONS -d, --dev-mem FILE Read memory from device FILE (default: /dev/mem)

-q, --quiet Be less verbose. Unknown, inactive and OEM-specific entries are not displayed. Meta-data and handle references are hidden.

-s, --string KEYWORD Only display the value of the DMI string identified by KEYWORD. KEYWORD must be a keyword from the following list: bios-vendor, bios-version, bios-release-date, system-manufacturer, system- product-name, system-version, system-serial-number, system-uuid, baseboard-manufacturer, baseboard-product-name, baseboard-ver- sion, baseboard-serial-number, baseboard-asset-tag, chassis-man- ufacturer, chassis-type, chassis-version, chassis-serial-number, chassis-asset-tag, processor-family, processor-manufacturer, processor-version, processor-frequency. Each keyword corre- sponds to a given DMI type and a given offset within this entry type. Not all strings may be meaningful or even defined on all systems. Some keywords may return more than one result on some systems (e.g. processor-version on a multi-processor system). If KEYWORD is not provided or not valid, a list of all valid keywords is printed and dmidecode exits with an error. This option cannot be used more than once.

-t, --type TYPE Only display the entries of type TYPE. TYPE can be either a DMI type number, or a comma-separated list of type numbers, or a keyword from the following list: bios, system, baseboard, chas- sis, processor, memory, cache, connector, slot. Refer to the DMI TYPES section below for details. If this option is used more than once, the set of displayed entries will be the union of all the given types. If TYPE is not provided or not valid, a list of all valid keywords is printed and dmidecode exits with an error.

-u, --dump Do not decode the entries, dump their contents as hexadecimal instead. Note that this is still a text output, no binary data will be thrown upon you. The strings attached to each entry are displayed as both hexadecimal and ASCII. This option is mainly useful for debugging.

--dump-bin FILE Do not decode the entries, instead dump the DMI data to a file in binary form. The generated file is suitable to pass to --from-dump later.

--from-dump FILE Read the DMI data from a binary file previously generated using --dump-bin.

-h, --help Display usage information and exit

-V, --version Display the version and exit

Options --string, --type and --dump-bin determine the output format and are mutually exclusive.

Please note in case of dmidecode is run on a system with BIOS that boasts new SMBIOS specification, which is not supported by the tool yet, it will print out relevant message in addition to requested data on the very top of the output. Thus informs the output data is not reliable.

DMI TYPES The SMBIOS specification defines the following DMI types:

Type Information -------------------------------------------- 0 BIOS 1 System 2 Baseboard 3 Chassis 4 Processor 5 Memory Controller 6 Memory Module 7 Cache 8 Port Connector 9 System Slots 10 On Board Devices 11 OEM Strings 12 System Configuration Options 13 BIOS Language 14 Group Associations 15 System Event Log 16 Physical Memory Array 17 Memory Device 18 32-bit Memory Error 19 Memory Array Mapped Address 20 Memory Device Mapped Address 21 Built-in Pointing Device 22 Portable Battery 23 System Reset 24 Hardware Security 25 System Power Controls 26 Voltage Probe 27 Cooling Device 28 Temperature Probe 29 Electrical Current Probe 30 Out-of-band Remote Access 31 Boot Integrity Services 32 System Boot 33 64-bit Memory Error 34 Management Device 35 Management Device Component 36 Management Device Threshold Data 37 Memory Channel 38 IPMI Device 39 Power Supply 40 Additional Information 41 Onboard Devices Extended Information 42 Management Controller Host Interface

Additionally, type 126 is used for disabled entries and type 127 is an end-of-table marker. Types 128 to 255 are for OEM-specific data. dmidecode will display these entries by default, but it can only decode them when the vendors have contributed documentation or code for them.

Keywords can be used instead of type numbers with --type. Each keyword is equivalent to a list of type numbers:

Keyword Types ------------------------------ bios 0, 13 system 1, 12, 15, 23, 32 baseboard 2, 10, 41 chassis 3 processor 4 memory 5, 6, 16, 17 cache 7 connector 8 slot 9

Keywords are matched case-insensitively. The following command lines are equivalent:

· dmidecode --type 0 --type 13

· dmidecode --type 0,13

· dmidecode --type bios

· dmidecode --type BIOS

BINARY DUMP FILE FORMAT The binary dump files generated by --dump-bin and read using --from- dump are formatted as follows:

· The SMBIOS or DMI entry point is located at offset 0x00. It is crafted to hard-code the table address at offset 0x20.

· The DMI table is located at offset 0x20.

FILES /dev/mem

BUGS More often than not, information contained in the DMI tables is inaccu- rate, incomplete or simply wrong.

AUTHORS Alan Cox, Jean Delvare

SEE ALSO biosdecode(8), mem(4), ownership(8), vpddecode(8)

dmidecode March 2012 DMIDECODE(8)