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-rw-r--r--upstream/opensuse-leap-15-6/man4/cciss.4385
-rw-r--r--upstream/opensuse-leap-15-6/man4/console_codes.4810
-rw-r--r--upstream/opensuse-leap-15-6/man4/cpuid.481
-rw-r--r--upstream/opensuse-leap-15-6/man4/dsp56k.4107
-rw-r--r--upstream/opensuse-leap-15-6/man4/fd.4232
-rw-r--r--upstream/opensuse-leap-15-6/man4/full.446
-rw-r--r--upstream/opensuse-leap-15-6/man4/fuse.4535
-rw-r--r--upstream/opensuse-leap-15-6/man4/hd.482
-rw-r--r--upstream/opensuse-leap-15-6/man4/hpsa.4234
-rw-r--r--upstream/opensuse-leap-15-6/man4/initrd.4479
-rw-r--r--upstream/opensuse-leap-15-6/man4/intro.422
-rw-r--r--upstream/opensuse-leap-15-6/man4/lirc.4422
-rw-r--r--upstream/opensuse-leap-15-6/man4/loop.4359
-rw-r--r--upstream/opensuse-leap-15-6/man4/lp.4137
-rw-r--r--upstream/opensuse-leap-15-6/man4/mem.481
-rw-r--r--upstream/opensuse-leap-15-6/man4/mouse.4171
-rw-r--r--upstream/opensuse-leap-15-6/man4/msr.442
-rw-r--r--upstream/opensuse-leap-15-6/man4/null.452
-rw-r--r--upstream/opensuse-leap-15-6/man4/pts.475
-rw-r--r--upstream/opensuse-leap-15-6/man4/ram.428
-rw-r--r--upstream/opensuse-leap-15-6/man4/random.4347
-rw-r--r--upstream/opensuse-leap-15-6/man4/rtc.4327
-rw-r--r--upstream/opensuse-leap-15-6/man4/sd.4117
-rw-r--r--upstream/opensuse-leap-15-6/man4/sk98lin.4582
-rw-r--r--upstream/opensuse-leap-15-6/man4/smartpqi.4326
-rw-r--r--upstream/opensuse-leap-15-6/man4/st.4950
-rw-r--r--upstream/opensuse-leap-15-6/man4/tty.467
-rw-r--r--upstream/opensuse-leap-15-6/man4/ttyS.433
-rw-r--r--upstream/opensuse-leap-15-6/man4/vcs.4172
-rw-r--r--upstream/opensuse-leap-15-6/man4/veth.486
-rw-r--r--upstream/opensuse-leap-15-6/man4/wavelan.4142
31 files changed, 7529 insertions, 0 deletions
diff --git a/upstream/opensuse-leap-15-6/man4/cciss.4 b/upstream/opensuse-leap-15-6/man4/cciss.4
new file mode 100644
index 00000000..85e279ed
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/cciss.4
@@ -0,0 +1,385 @@
+'\" t
+.\" Copyright (C) 2011, Hewlett-Packard Development Company, L.P.
+.\" Written by Stephen M. Cameron <scameron@beardog.cce.hp.com>
+.\"
+.\" SPDX-License-Identifier: GPL-2.0-only
+.\"
+.\" shorthand for double quote that works everywhere.
+.ds q \N'34'
+.TH cciss 4 2023-04-03 "Linux man-pages 6.04"
+.SH NAME
+cciss \- HP Smart Array block driver
+.SH SYNOPSIS
+.nf
+modprobe cciss [ cciss_allow_hpsa=1 ]
+.fi
+.SH DESCRIPTION
+.\" commit 253d2464df446456c0bba5ed4137a7be0b278aa8
+.BR Note :
+This obsolete driver was removed in Linux 4.14,
+as it is superseded by the
+.BR hpsa (4)
+driver in newer kernels.
+.PP
+.B cciss
+is a block driver for older HP Smart Array RAID controllers.
+.SS Options
+.IR "cciss_allow_hpsa=1" :
+This option prevents the
+.B cciss
+driver from attempting to drive any controllers that the
+.BR hpsa (4)
+driver is capable of controlling, which is to say, the
+.B cciss
+driver is restricted by this option to the following controllers:
+.PP
+.nf
+ Smart Array 5300
+ Smart Array 5i
+ Smart Array 532
+ Smart Array 5312
+ Smart Array 641
+ Smart Array 642
+ Smart Array 6400
+ Smart Array 6400 EM
+ Smart Array 6i
+ Smart Array P600
+ Smart Array P400i
+ Smart Array E200i
+ Smart Array E200
+ Smart Array E200i
+ Smart Array E200i
+ Smart Array E200i
+ Smart Array E500
+.fi
+.SS Supported hardware
+The
+.B cciss
+driver supports the following Smart Array boards:
+.PP
+.nf
+ Smart Array 5300
+ Smart Array 5i
+ Smart Array 532
+ Smart Array 5312
+ Smart Array 641
+ Smart Array 642
+ Smart Array 6400
+ Smart Array 6400 U320 Expansion Module
+ Smart Array 6i
+ Smart Array P600
+ Smart Array P800
+ Smart Array E400
+ Smart Array P400i
+ Smart Array E200
+ Smart Array E200i
+ Smart Array E500
+ Smart Array P700m
+ Smart Array P212
+ Smart Array P410
+ Smart Array P410i
+ Smart Array P411
+ Smart Array P812
+ Smart Array P712m
+ Smart Array P711m
+.fi
+.SS Configuration details
+To configure HP Smart Array controllers,
+use the HP Array Configuration Utility
+(either
+.BR hpacuxe (8)
+or
+.BR hpacucli (8))
+or the Offline ROM-based Configuration Utility (ORCA)
+run from the Smart Array's option ROM at boot time.
+.SH FILES
+.SS Device nodes
+The device naming scheme is as follows:
+.PP
+Major numbers:
+.IP
+.TS
+r r.
+104 cciss0
+105 cciss1
+106 cciss2
+105 cciss3
+108 cciss4
+109 cciss5
+110 cciss6
+111 cciss7
+.TE
+.PP
+Minor numbers:
+.PP
+.EX
+ b7 b6 b5 b4 b3 b2 b1 b0
+ |\-\-\-\-+\-\-\-\-| |\-\-\-\-+\-\-\-\-|
+ | |
+ | +\-\-\-\-\-\-\-\- Partition ID (0=wholedev, 1\-15 partition)
+ |
+ +\-\-\-\-\-\-\-\-\-\-\-\-\-\-\-\-\-\-\-\- Logical Volume number
+.EE
+.PP
+The device naming scheme is:
+.TS
+li l.
+/dev/cciss/c0d0 Controller 0, disk 0, whole device
+/dev/cciss/c0d0p1 Controller 0, disk 0, partition 1
+/dev/cciss/c0d0p2 Controller 0, disk 0, partition 2
+/dev/cciss/c0d0p3 Controller 0, disk 0, partition 3
+
+/dev/cciss/c1d1 Controller 1, disk 1, whole device
+/dev/cciss/c1d1p1 Controller 1, disk 1, partition 1
+/dev/cciss/c1d1p2 Controller 1, disk 1, partition 2
+/dev/cciss/c1d1p3 Controller 1, disk 1, partition 3
+.TE
+.SS Files in /proc
+The files
+.I /proc/driver/cciss/cciss[0\-9]+
+contain information about
+the configuration of each controller.
+For example:
+.PP
+.in +4n
+.EX
+$ \fBcd /proc/driver/cciss\fP
+$ \fBls \-l\fP
+total 0
+-rw\-r\-\-r\-\- 1 root root 0 2010\-09\-10 10:38 cciss0
+-rw\-r\-\-r\-\- 1 root root 0 2010\-09\-10 10:38 cciss1
+-rw\-r\-\-r\-\- 1 root root 0 2010\-09\-10 10:38 cciss2
+$ \fBcat cciss2\fP
+cciss2: HP Smart Array P800 Controller
+Board ID: 0x3223103c
+Firmware Version: 7.14
+IRQ: 16
+Logical drives: 1
+Current Q depth: 0
+Current # commands on controller: 0
+Max Q depth since init: 1
+Max # commands on controller since init: 2
+Max SG entries since init: 32
+Sequential access devices: 0
+
+cciss/c2d0: 36.38GB RAID 0
+.EE
+.in
+.\"
+.SS Files in /sys
+.TP
+.IR /sys/bus/pci/devices/ dev /cciss X /c X d Y /model
+Displays the SCSI INQUIRY page 0 model for logical drive
+.I Y
+of controller
+.IR X .
+.TP
+.IR /sys/bus/pci/devices/ dev /cciss X /c X d Y /rev
+Displays the SCSI INQUIRY page 0 revision for logical drive
+.I Y
+of controller
+.IR X .
+.TP
+.IR /sys/bus/pci/devices/ dev /cciss X /c X d Y /unique_id
+Displays the SCSI INQUIRY page 83 serial number for logical drive
+.I Y
+of controller
+.IR X .
+.TP
+.IR /sys/bus/pci/devices/ dev /cciss X /c X d Y /vendor
+Displays the SCSI INQUIRY page 0 vendor for logical drive
+.I Y
+of controller
+.IR X .
+.TP
+.IR /sys/bus/pci/devices/ dev /cciss X /c X d Y /block:cciss!c X d Y
+A symbolic link to
+.IR /sys/block/cciss!c X d Y.
+.TP
+.IR /sys/bus/pci/devices/ dev /cciss X /rescan
+When this file is written to, the driver rescans the controller
+to discover any new, removed, or modified logical drives.
+.TP
+.IR /sys/bus/pci/devices/ dev /cciss X /resettable
+A value of 1 displayed in this file indicates that
+the "reset_devices=1" kernel parameter (used by
+.BR kdump )
+is honored by this controller.
+A value of 0 indicates that the
+"reset_devices=1" kernel parameter will not be honored.
+Some models of Smart Array are not able to honor this parameter.
+.TP
+.IR /sys/bus/pci/devices/ dev /cciss X /c X d Y /lunid
+Displays the 8-byte LUN ID used to address logical drive
+.I Y
+of controller
+.IR X .
+.TP
+.IR /sys/bus/pci/devices/ dev /cciss X /c X d Y /raid_level
+Displays the RAID level of logical drive
+.I Y
+of controller
+.IR X .
+.TP
+.IR /sys/bus/pci/devices/ dev /cciss X /c X d Y /usage_count
+Displays the usage count (number of opens) of logical drive
+.I Y
+of controller
+.IR X .
+.SS SCSI tape drive and medium changer support
+SCSI sequential access devices and medium changer devices are supported and
+appropriate device nodes are automatically created (e.g.,
+.IR /dev/st0 ,
+.IR /dev/st1 ,
+etc.; see
+.BR st (4)
+for more details.)
+You must enable "SCSI tape drive support for Smart Array 5xxx" and
+"SCSI support" in your kernel configuration to be able to use SCSI
+tape drives with your Smart Array 5xxx controller.
+.PP
+Additionally, note that the driver will not engage the SCSI core at
+init time.
+The driver must be directed to dynamically engage the SCSI core via the
+.I /proc
+filesystem entry,
+which the "block" side of the driver creates as
+.I /proc/driver/cciss/cciss*
+at run time.
+This is because at driver init time,
+the SCSI core may not yet be initialized (because the driver is a block
+driver) and attempting to register it with the SCSI core in such a case
+would cause a hang.
+This is best done via an initialization script
+(typically in
+.IR /etc/init.d ,
+but could vary depending on distribution).
+For example:
+.PP
+.in +4n
+.EX
+for x in /proc/driver/cciss/cciss[0\-9]*
+do
+ echo "engage scsi" > $x
+done
+.EE
+.in
+.PP
+Once the SCSI core is engaged by the driver, it cannot be disengaged
+(except by unloading the driver, if it happens to be linked as a module.)
+.PP
+Note also that if no sequential access devices or medium changers are
+detected, the SCSI core will not be engaged by the action of the above
+script.
+.SS Hot plug support for SCSI tape drives
+Hot plugging of SCSI tape drives is supported, with some caveats.
+The
+.B cciss
+driver must be informed that changes to the SCSI bus
+have been made.
+This may be done via the
+.I /proc
+filesystem.
+For example:
+.IP
+echo "rescan" > /proc/scsi/cciss0/1
+.PP
+This causes the driver to:
+.RS
+.IP (1) 5
+query the adapter about changes to the
+physical SCSI buses and/or fiber channel arbitrated loop, and
+.IP (2)
+make note of any new or removed sequential access devices
+or medium changers.
+.RE
+.PP
+The driver will output messages indicating which
+devices have been added or removed and the controller, bus, target, and
+lun used to address each device.
+The driver then notifies the SCSI midlayer
+of these changes.
+.PP
+Note that the naming convention of the
+.I /proc
+filesystem entries
+contains a number in addition to the driver name
+(e.g., "cciss0"
+instead of just "cciss", which you might expect).
+.PP
+Note:
+.I Only
+sequential access devices and medium changers are presented
+as SCSI devices to the SCSI midlayer by the
+.B cciss
+driver.
+Specifically, physical SCSI disk drives are
+.I not
+presented to the SCSI midlayer.
+The only disk devices that are presented to the kernel are logical
+drives that the array controller constructs from regions on
+the physical drives.
+The logical drives are presented to the block layer
+(not to the SCSI midlayer).
+It is important for the driver to prevent the kernel from accessing the
+physical drives directly, since these drives are used by the array
+controller to construct the logical drives.
+.SS SCSI error handling for tape drives and medium changers
+The Linux SCSI midlayer provides an error-handling protocol that
+is initiated whenever a SCSI command fails to complete within a
+certain amount of time (which can vary depending on the command).
+The
+.B cciss
+driver participates in this protocol to some extent.
+The normal protocol is a four-step process:
+.IP (1) 5
+First, the device is told to abort the command.
+.IP (2)
+If that doesn't work, the device is reset.
+.IP (3)
+If that doesn't work, the SCSI bus is reset.
+.IP (4)
+If that doesn't work, the host bus adapter is reset.
+.PP
+The
+.B cciss
+driver is a block
+driver as well as a SCSI driver and only the tape drives and medium
+changers are presented to the SCSI midlayer.
+Furthermore, unlike more
+straightforward SCSI drivers, disk I/O continues through the block
+side during the SCSI error-recovery process.
+Therefore, the
+.B cciss
+driver implements only the first two of these actions,
+aborting the command, and resetting the device.
+Note also that most tape drives will not oblige
+in aborting commands, and sometimes it appears they will not even
+obey a reset command, though in most circumstances they will.
+If the command cannot be aborted and the device cannot be
+reset, the device will be set offline.
+.PP
+In the event that the error-handling code is triggered and a tape drive is
+successfully reset or the tardy command is successfully aborted, the
+tape drive may still not allow I/O to continue until some command
+is issued that positions the tape to a known position.
+Typically you must rewind the tape (by issuing
+.I "mt \-f /dev/st0 rewind"
+for example) before I/O can proceed again to a tape drive that was reset.
+.SH SEE ALSO
+.BR hpsa (4),
+.BR cciss_vol_status (8),
+.BR hpacucli (8),
+.BR hpacuxe (8)
+.PP
+.UR http://cciss.sf.net
+.UE ,
+and
+.I Documentation/blockdev/cciss.txt
+and
+.I Documentation/ABI/testing/sysfs\-bus\-pci\-devices\-cciss
+in the Linux kernel source tree
+.\" .SH AUTHORS
+.\" Don Brace, Steve Cameron, Chase Maupin, Mike Miller, Michael Ni,
+.\" Charles White, Francis Wiran
+.\" and probably some other people.
diff --git a/upstream/opensuse-leap-15-6/man4/console_codes.4 b/upstream/opensuse-leap-15-6/man4/console_codes.4
new file mode 100644
index 00000000..8583af2b
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/console_codes.4
@@ -0,0 +1,810 @@
+'\" t
+.\" Copyright (c) 1996 Andries Brouwer <aeb@cwi.nl>, Mon Oct 31 22:13:04 1996
+.\"
+.\" SPDX-License-Identifier: GPL-2.0-or-later
+.\"
+.\" This is combined from many sources.
+.\" For Linux, the definitive source is of course console.c.
+.\" About vt100-like escape sequences in general there are
+.\" the ISO 6429 and ISO 2022 norms, the descriptions of
+.\" an actual vt100, and the xterm docs (ctlseqs.ms).
+.\" Substantial portions of this text are derived from a write-up
+.\" by Eric S. Raymond <esr@thyrsus.com>.
+.\"
+.\" Tiny correction, aeb, 961107.
+.\"
+.\" 2006-05-27, Several corrections - Thomas E. Dickey
+.\"
+.TH console_codes 4 2023-02-05 "Linux man-pages 6.04"
+.SH NAME
+console_codes \- Linux console escape and control sequences
+.SH DESCRIPTION
+The Linux console implements a large subset of the VT102 and ECMA-48/ISO
+6429/ANSI X3.64 terminal controls, plus certain private-mode sequences
+for changing the color palette, character-set mapping, and so on.
+In the tabular descriptions below, the second column gives ECMA-48 or DEC
+mnemonics (the latter if prefixed with DEC) for the given function.
+Sequences without a mnemonic are neither ECMA-48 nor VT102.
+.PP
+After all the normal output processing has been done, and a
+stream of characters arrives at the console driver for actual
+printing, the first thing that happens is a translation from
+the code used for processing to the code used for printing.
+.PP
+If the console is in UTF-8 mode, then the incoming bytes are
+first assembled into 16-bit Unicode codes.
+Otherwise, each byte is transformed according to the current mapping table
+(which translates it to a Unicode value).
+See the \fBCharacter Sets\fP section below for discussion.
+.PP
+In the normal case, the Unicode value is converted to a font index,
+and this is stored in video memory, so that the corresponding glyph
+(as found in video ROM) appears on the screen.
+Note that the use of Unicode (and the design of the PC hardware)
+allows us to use 512 different glyphs simultaneously.
+.PP
+If the current Unicode value is a control character, or we are
+currently processing an escape sequence, the value will treated
+specially.
+Instead of being turned into a font index and rendered as
+a glyph, it may trigger cursor movement or other control functions.
+See the \fBLinux Console Controls\fP section below for discussion.
+.PP
+It is generally not good practice to hard-wire terminal controls into
+programs.
+Linux supports a
+.BR terminfo (5)
+database of terminal capabilities.
+Rather than emitting console escape sequences by hand, you will almost
+always want to use a terminfo-aware screen library or utility such as
+.BR ncurses (3),
+.BR tput (1),
+or
+.BR reset (1).
+.SS Linux console controls
+This section describes all the control characters and escape sequences
+that invoke special functions (i.e., anything other than writing a
+glyph at the current cursor location) on the Linux console.
+.PP
+.B "Control characters"
+.PP
+A character is a control character if (before transformation
+according to the mapping table) it has one of the 14 codes
+00 (NUL), 07 (BEL), 08 (BS), 09 (HT), 0a (LF), 0b (VT),
+0c (FF), 0d (CR), 0e (SO), 0f (SI), 18 (CAN), 1a (SUB),
+1b (ESC), 7f (DEL).
+One can set a "display control characters" mode (see below),
+and allow 07, 09, 0b, 18, 1a, 7f to be displayed as glyphs.
+On the other hand, in UTF-8 mode all codes 00\[en]1f are regarded
+as control characters, regardless of any "display control characters"
+mode.
+.PP
+If we have a control character, it is acted upon immediately
+and then discarded (even in the middle of an escape sequence)
+and the escape sequence continues with the next character.
+(However, ESC starts a new escape sequence, possibly aborting a previous
+unfinished one, and CAN and SUB abort any escape sequence.)
+The recognized control characters are BEL, BS, HT, LF, VT, FF,
+CR, SO, SI, CAN, SUB, ESC, DEL, CSI.
+They do what one would expect:
+.TP
+BEL (0x07, \fB\[ha]G\fP)
+beeps;
+.TP
+BS (0x08, \fB\[ha]H\fP)
+backspaces one column
+(but not past the beginning of the line);
+.TP
+HT (0x09, \fB\[ha]I\fP)
+goes to the next tab stop or to the end of the line
+if there is no earlier tab stop;
+.TP
+LF (0x0A, \fB\[ha]J\fP)
+.TQ
+VT (0x0B, \fB\[ha]K\fP)
+.TQ
+FF (0x0C, \fB\[ha]L\fP)
+all give a linefeed,
+and if LF/NL (new-line mode) is set also a carriage return;
+.TP
+CR (0x0D, \fB\[ha]M\fP)
+gives a carriage return;
+.TP
+SO (0x0E, \fB\[ha]N\fP)
+activates the G1 character set;
+.TP
+SI (0x0F, \fB\[ha]O\fP)
+activates the G0 character set;
+.TP
+CAN (0x18, \fB\[ha]X\fP)
+.TQ
+SUB (0x1A, \fB\[ha]Z\fP)
+abort escape sequences;
+.TP
+ESC (0x1B, \fB\[ha][\fP)
+starts an escape sequence;
+.TP
+DEL (0x7F)
+is ignored;
+.TP
+CSI (0x9B)
+is equivalent to ESC [.
+.PP
+.B "ESC- but not CSI-sequences"
+.ad l
+.TS
+l l lx.
+ESC c RIS Reset.
+ESC D IND Linefeed.
+ESC E NEL Newline.
+ESC H HTS Set tab stop at current column.
+ESC M RI Reverse linefeed.
+ESC Z DECID T{
+DEC private identification. The kernel
+returns the string ESC [ ? 6 c, claiming
+that it is a VT102.
+T}
+ESC 7 DECSC T{
+Save current state (cursor coordinates,
+attributes, character sets pointed at by G0, G1).
+T}
+ESC 8 DECRC T{
+Restore state most recently saved by ESC 7.
+T}
+ESC % Start sequence selecting character set
+ESC % @ \0\0\0Select default (ISO 646 / ISO 8859-1)
+ESC % G \0\0\0Select UTF-8
+ESC % 8 \0\0\0Select UTF-8 (obsolete)
+ESC # 8 DECALN T{
+DEC screen alignment test \- fill screen with E's.
+T}
+ESC ( T{
+Start sequence defining G0 character set
+(followed by one of B, 0, U, K, as below)
+T}
+ESC ( B T{
+Select default (ISO 8859-1 mapping).
+T}
+ESC ( 0 T{
+Select VT100 graphics mapping.
+T}
+ESC ( U T{
+Select null mapping \- straight to character ROM.
+T}
+ESC ( K T{
+Select user mapping \- the map that is loaded by the utility \fBmapscrn\fP(8).
+T}
+ESC ) T{
+Start sequence defining G1 (followed by one of B, 0, U, K, as above).
+T}
+ESC > DECPNM Set numeric keypad mode
+ESC = DECPAM Set application keypad mode
+ESC ] OSC T{
+Operating System Command prefix.
+T}
+ESC ] R Reset palette.
+ESC ] P T{
+Set palette, with parameter given in 7 hexadecimal digits \fInrrggbb\fP after
+the final P. Here \fIn\fP is the color (0\[en]15), and \fIrrggbb\fP indicates
+the red/green/blue values (0\[en]255).
+T}
+.TE
+.ad
+.PP
+.B "ECMA-48 CSI sequences"
+.PP
+CSI (or ESC [) is followed by a sequence of parameters,
+at most NPAR (16), that are decimal numbers separated by
+semicolons.
+An empty or absent parameter is taken to be 0.
+The sequence of parameters may be preceded by a single question mark.
+.PP
+However, after CSI [ (or ESC [ [) a single character is read
+and this entire sequence is ignored.
+(The idea is to ignore an echoed function key.)
+.PP
+The action of a CSI sequence is determined by its final character.
+.ad l
+.TS
+l l lx.
+@ ICH T{
+Insert the indicated # of blank characters.
+T}
+A CUU T{
+Move cursor up the indicated # of rows.
+T}
+B CUD T{
+Move cursor down the indicated # of rows.
+T}
+C CUF T{
+Move cursor right the indicated # of columns.
+T}
+D CUB T{
+Move cursor left the indicated # of columns.
+T}
+E CNL T{
+Move cursor down the indicated # of rows, to column 1.
+T}
+F CPL T{
+Move cursor up the indicated # of rows, to column 1.
+T}
+G CHA T{
+Move cursor to indicated column in current row.
+T}
+H CUP T{
+Move cursor to the indicated row, column (origin at 1,1).
+T}
+J ED T{
+Erase display (default: from cursor to end of display).
+T}
+ T{
+ESC [ 1 J: erase from start to cursor.
+T}
+ T{
+ESC [ 2 J: erase whole display.
+T}
+ T{
+ESC [ 3 J: erase whole display including scroll-back
+buffer (since Linux 3.0).
+T}
+.\" ESC [ 3 J: commit f8df13e0a901fe55631fed66562369b4dba40f8b
+K EL T{
+Erase line (default: from cursor to end of line).
+T}
+ T{
+ESC [ 1 K: erase from start of line to cursor.
+T}
+ T{
+ESC [ 2 K: erase whole line.
+T}
+L IL T{
+Insert the indicated # of blank lines.
+T}
+M DL T{
+Delete the indicated # of lines.
+T}
+P DCH T{
+Delete the indicated # of characters on current line.
+T}
+X ECH T{
+Erase the indicated # of characters on current line.
+T}
+a HPR T{
+Move cursor right the indicated # of columns.
+T}
+c DA T{
+Answer ESC [ ? 6 c: "I am a VT102".
+T}
+d VPA T{
+Move cursor to the indicated row, current column.
+T}
+e VPR T{
+Move cursor down the indicated # of rows.
+T}
+f HVP T{
+Move cursor to the indicated row, column.
+T}
+g TBC T{
+Without parameter: clear tab stop at current position.
+T}
+ T{
+ESC [ 3 g: delete all tab stops.
+T}
+h SM Set Mode (see below).
+l RM Reset Mode (see below).
+m SGR Set attributes (see below).
+n DSR Status report (see below).
+q DECLL Set keyboard LEDs.
+ ESC [ 0 q: clear all LEDs
+ ESC [ 1 q: set Scroll Lock LED
+ ESC [ 2 q: set Num Lock LED
+ ESC [ 3 q: set Caps Lock LED
+r DECSTBM T{
+Set scrolling region; parameters are top and bottom row.
+T}
+s ? Save cursor location.
+u ? Restore cursor location.
+\` HPA T{
+Move cursor to indicated column in current row.
+T}
+.TE
+.ad
+.PP
+.B ECMA-48 Select Graphic Rendition
+.PP
+The ECMA-48 SGR sequence ESC [ \fIparameters\fP m sets display
+attributes.
+Several attributes can be set in the same sequence, separated by
+semicolons.
+An empty parameter (between semicolons or string initiator or
+terminator) is interpreted as a zero.
+.ad l
+.TS
+l lx.
+param result
+0 T{
+reset all attributes to their defaults
+T}
+1 set bold
+2 T{
+set half-bright (simulated with color on a color display)
+T}
+3 set italic (since Linux 2.6.22; simulated with color on a color display)
+4 T{
+set underscore (simulated with color on a color display)
+(the colors used to simulate dim or underline are set
+using ESC ] ...)
+T}
+5 set blink
+7 set reverse video
+10 T{
+reset selected mapping, display control flag,
+and toggle meta flag (ECMA-48 says "primary font").
+T}
+11 T{
+select null mapping, set display control flag,
+reset toggle meta flag (ECMA-48 says "first alternate font").
+T}
+12 T{
+select null mapping, set display control flag,
+set toggle meta flag (ECMA-48 says "second alternate font").
+The toggle meta flag
+causes the high bit of a byte to be toggled
+before the mapping table translation is done.
+T}
+21 T{
+set underline; before Linux 4.17, this value
+set normal intensity (as is done in many other terminals)
+T}
+22 set normal intensity
+23 italic off (since Linux 2.6.22)
+24 underline off
+25 blink off
+27 reverse video off
+30 set black foreground
+31 set red foreground
+32 set green foreground
+33 set brown foreground
+34 set blue foreground
+35 set magenta foreground
+36 set cyan foreground
+37 set white foreground
+38 T{
+256/24-bit foreground color follows, shoehorned into 16 basic colors
+(before Linux 3.16: set underscore on, set default foreground color)
+T}
+39 T{
+set default foreground color
+(before Linux 3.16: set underscore off, set default foreground color)
+T}
+40 set black background
+41 set red background
+42 set green background
+43 set brown background
+44 set blue background
+45 set magenta background
+46 set cyan background
+47 set white background
+48 T{
+256/24-bit background color follows, shoehorned into 8 basic colors
+T}
+49 set default background color
+90..97 T{
+set foreground to bright versions of 30..37
+T}
+100..107 T{
+set background, same as 40..47 (bright not supported)
+T}
+.TE
+.ad
+.PP
+Commands 38 and 48 require further arguments:
+.TS
+l lx.
+;5;x T{
+256 color: values 0..15 are IBGR (black, red, green, ... white),
+16..231 a 6x6x6 color cube, 232..255 a grayscale ramp
+T}
+;2;r;g;b T{
+24-bit color, r/g/b components are in the range 0..255
+T}
+.TE
+.PP
+.B ECMA-48 Mode Switches
+.TP
+ESC [ 3 h
+DECCRM (default off): Display control chars.
+.TP
+ESC [ 4 h
+DECIM (default off): Set insert mode.
+.TP
+ESC [ 20 h
+LF/NL (default off): Automatically follow echo of LF, VT, or FF with CR.
+.\"
+.PP
+.B ECMA-48 Status Report Commands
+.\"
+.TP
+ESC [ 5 n
+Device status report (DSR): Answer is ESC [ 0 n (Terminal OK).
+.TP
+ESC [ 6 n
+Cursor position report (CPR): Answer is ESC [ \fIy\fP ; \fIx\fP R,
+where \fIx,y\fP is the cursor location.
+.\"
+.PP
+.B DEC Private Mode (DECSET/DECRST) sequences
+.PP
+.\"
+These are not described in ECMA-48.
+We list the Set Mode sequences;
+the Reset Mode sequences are obtained by replacing the final \[aq]h\[aq]
+by \[aq]l\[aq].
+.TP
+ESC [ ? 1 h
+DECCKM (default off): When set, the cursor keys send an ESC O prefix,
+rather than ESC [.
+.TP
+ESC [ ? 3 h
+DECCOLM (default off = 80 columns): 80/132 col mode switch.
+The driver sources note that this alone does not suffice; some user-mode
+utility such as
+.BR resizecons (8)
+has to change the hardware registers on the console video card.
+.TP
+ESC [ ? 5 h
+DECSCNM (default off): Set reverse-video mode.
+.TP
+ESC [ ? 6 h
+DECOM (default off): When set, cursor addressing is relative to
+the upper left corner of the scrolling region.
+.TP
+ESC [ ? 7 h
+DECAWM (default on): Set autowrap on.
+In this mode, a graphic
+character emitted after column 80 (or column 132 of DECCOLM is on)
+forces a wrap to the beginning of the following line first.
+.TP
+ESC [ ? 8 h
+DECARM (default on): Set keyboard autorepeat on.
+.TP
+ESC [ ? 9 h
+X10 Mouse Reporting (default off): Set reporting mode to 1 (or reset to
+0)\[em]see below.
+.TP
+ESC [ ? 25 h
+DECTECM (default on): Make cursor visible.
+.TP
+ESC [ ? 1000 h
+X11 Mouse Reporting (default off): Set reporting mode to 2 (or reset
+to 0)\[em]see below.
+.\"
+.PP
+.B Linux Console Private CSI Sequences
+.PP
+.\"
+The following sequences are neither ECMA-48 nor native VT102.
+They are native to the Linux console driver.
+Colors are in SGR parameters:
+0 = black, 1 = red, 2 = green, 3 = brown, 4 = blue, 5 = magenta, 6 =
+cyan, 7 = white; 8\[en]15 = bright versions of 0\[en]7.
+.TS
+l lx.
+ESC [ 1 ; \fIn\fP ] T{
+Set color \fIn\fP as the underline color.
+T}
+ESC [ 2 ; \fIn\fP ] T{
+Set color \fIn\fP as the dim color.
+T}
+ESC [ 8 ] T{
+Make the current color pair the default attributes.
+T}
+ESC [ 9 ; \fIn\fP ] T{
+Set screen blank timeout to \fIn\fP minutes.
+T}
+ESC [ 10 ; \fIn\fP ] T{
+Set bell frequency in Hz.
+T}
+ESC [ 11 ; \fIn\fP ] T{
+Set bell duration in msec.
+T}
+ESC [ 12 ; \fIn\fP ] T{
+Bring specified console to the front.
+T}
+ESC [ 13 ] T{
+Unblank the screen.
+T}
+ESC [ 14 ; \fIn\fP ] T{
+Set the VESA powerdown interval in minutes.
+T}
+ESC [ 15 ] T{
+Bring the previous console to the front
+(since Linux 2.6.0).
+T}
+ESC [ 16 ; \fIn\fP ] T{
+Set the cursor blink interval in milliseconds
+(since Linux 4.2).
+T}
+.\" commit bd63364caa8df38bad2b25b11b2a1b849475cce5
+.TE
+.SS Character sets
+The kernel knows about 4 translations of bytes into console-screen
+symbols.
+The four tables are: a) Latin1 \-> PC,
+b) VT100 graphics \-> PC, c) PC \-> PC, d) user-defined.
+.PP
+There are two character sets, called G0 and G1, and one of them
+is the current character set.
+(Initially G0.)
+Typing \fB\[ha]N\fP causes G1 to become current,
+\fB\[ha]O\fP causes G0 to become current.
+.PP
+These variables G0 and G1 point at a translation table, and can be
+changed by the user.
+Initially they point at tables a) and b), respectively.
+The sequences ESC ( B and ESC ( 0 and ESC ( U and ESC ( K cause G0 to
+point at translation table a), b), c), and d), respectively.
+The sequences ESC ) B and ESC ) 0 and ESC ) U and ESC ) K cause G1 to
+point at translation table a), b), c), and d), respectively.
+.PP
+The sequence ESC c causes a terminal reset, which is what you want if the
+screen is all garbled.
+The oft-advised "echo \[ha]V\[ha]O" will make only G0 current,
+but there is no guarantee that G0 points at table a).
+In some distributions there is a program
+.BR reset (1)
+that just does "echo \[ha][c".
+If your terminfo entry for the console is correct
+(and has an entry rs1=\eEc), then "tput reset" will also work.
+.PP
+The user-defined mapping table can be set using
+.BR mapscrn (8).
+The result of the mapping is that if a symbol c is printed, the symbol
+s = map[c] is sent to the video memory.
+The bitmap that corresponds to
+s is found in the character ROM, and can be changed using
+.BR setfont (8).
+.SS Mouse tracking
+The mouse tracking facility is intended to return
+.BR xterm (1)-compatible
+mouse status reports.
+Because the console driver has no way to know
+the device or type of the mouse, these reports are returned in the
+console input stream only when the virtual terminal driver receives
+a mouse update ioctl.
+These ioctls must be generated by a mouse-aware
+user-mode application such as the
+.BR gpm (8)
+daemon.
+.PP
+The mouse tracking escape sequences generated by
+\fBxterm\fP(1) encode numeric parameters in a single character as
+\fIvalue\fP+040.
+For example, \[aq]!\[aq] is 1.
+The screen coordinate system is 1-based.
+.PP
+The X10 compatibility mode sends an escape sequence on button press
+encoding the location and the mouse button pressed.
+It is enabled by sending ESC [ ? 9 h and disabled with ESC [ ? 9 l.
+On button press, \fBxterm\fP(1) sends
+ESC [ M \fIbxy\fP (6 characters).
+Here \fIb\fP is button\-1,
+and \fIx\fP and \fIy\fP are the x and y coordinates of the mouse
+when the button was pressed.
+This is the same code the kernel also produces.
+.PP
+Normal tracking mode (not implemented in Linux 2.0.24) sends an escape
+sequence on both button press and release.
+Modifier information is also sent.
+It is enabled by sending ESC [ ? 1000 h and disabled with
+ESC [ ? 1000 l.
+On button press or release, \fBxterm\fP(1) sends ESC [ M
+\fIbxy\fP.
+The low two bits of \fIb\fP encode button information:
+0=MB1 pressed, 1=MB2 pressed, 2=MB3 pressed, 3=release.
+The upper bits encode what modifiers were down when the button was
+pressed and are added together: 4=Shift, 8=Meta, 16=Control.
+Again \fIx\fP and
+\fIy\fP are the x and y coordinates of the mouse event.
+The upper left corner is (1,1).
+.SS Comparisons with other terminals
+Many different terminal types are described, like the Linux console,
+as being "VT100-compatible".
+Here we discuss differences between the
+Linux console and the two most important others, the DEC VT102 and
+.BR xterm (1).
+.\"
+.PP
+.B Control-character handling
+.PP
+The VT102 also recognized the following control characters:
+.TP
+NUL (0x00)
+was ignored;
+.TP
+ENQ (0x05)
+triggered an answerback message;
+.TP
+DC1 (0x11, \fB\[ha]Q\fP, XON)
+resumed transmission;
+.TP
+DC3 (0x13, \fB\[ha]S\fP, XOFF)
+caused VT100 to ignore (and stop transmitting)
+all codes except XOFF and XON.
+.PP
+VT100-like DC1/DC3 processing may be enabled by the terminal driver.
+.PP
+The
+.BR xterm (1)
+program (in VT100 mode) recognizes the control characters
+BEL, BS, HT, LF, VT, FF, CR, SO, SI, ESC.
+.\"
+.PP
+.B Escape sequences
+.PP
+VT100 console sequences not implemented on the Linux console:
+.TS
+l l l.
+ESC N SS2 T{
+Single shift 2. (Select G2 character set for the next character only.)
+T}
+ESC O SS3 T{
+Single shift 3. (Select G3 character set for the next character only.)
+T}
+ESC P DCS T{
+Device control string (ended by ESC \e)
+T}
+ESC X SOS Start of string.
+ESC \[ha] PM Privacy message (ended by ESC \e)
+ESC \e ST String terminator
+ESC * ... Designate G2 character set
+ESC + ... Designate G3 character set
+.TE
+.PP
+The program
+.BR xterm (1)
+(in VT100 mode) recognizes ESC c, ESC # 8, ESC >, ESC =,
+ESC D, ESC E, ESC H, ESC M, ESC N, ESC O, ESC P ... ESC \e,
+ESC Z (it answers ESC [ ? 1 ; 2 c, "I am a VT100 with
+advanced video option")
+and ESC \[ha] ... ESC \e with the same meanings as indicated above.
+It accepts ESC (, ESC ), ESC *, ESC + followed by 0, A, B for
+the DEC special character and line drawing set, UK, and US-ASCII,
+respectively.
+.PP
+The user can configure \fBxterm\fP(1) to respond to VT220-specific
+control sequences, and it will identify itself as a VT52, VT100, and
+up depending on the way it is configured and initialized.
+.PP
+It accepts ESC ] (OSC) for the setting of certain resources.
+In addition to the ECMA-48 string terminator (ST),
+\fBxterm\fP(1) accepts a BEL to terminate an OSC string.
+These are a few of the OSC control sequences recognized by \fBxterm\fP(1):
+.TS
+l l.
+ESC ] 0 ; \fItxt\fP ST T{
+Set icon name and window title to \fItxt\fP.
+T}
+ESC ] 1 ; \fItxt\fP ST Set icon name to \fItxt\fP.
+ESC ] 2 ; \fItxt\fP ST Set window title to \fItxt\fP.
+ESC ] 4 ; \fInum\fP; \fItxt\fP ST Set ANSI color \fInum\fP to \fItxt\fP.
+ESC ] 10 ; \fItxt\fP ST Set dynamic text color to \fItxt\fP.
+ESC ] 4 6 ; \fIname\fP ST T{
+Change log file to \fIname\fP (normally disabled by a compile-time option).
+T}
+ESC ] 5 0 ; \fIfn\fP ST Set font to \fIfn\fP.
+.TE
+.PP
+It recognizes the following with slightly modified meaning
+(saving more state, behaving closer to VT100/VT220):
+.TS
+l l l.
+ESC 7 DECSC Save cursor
+ESC 8 DECRC Restore cursor
+.TE
+.PP
+It also recognizes
+.TS
+l l lx.
+ESC F T{
+Cursor to lower left corner of screen (if enabled
+by \fBxterm\fP(1)'s \fBhpLowerleftBugCompat\fP resource).
+T}
+ESC l Memory lock (per HP terminals).
+ Locks memory above the cursor.
+ESC m Memory unlock (per HP terminals).
+ESC n LS2 Invoke the G2 character set.
+ESC o LS3 Invoke the G3 character set.
+ESC | LS3R Invoke the G3 character set as GR.
+ESC } LS2R Invoke the G2 character set as GR.
+ESC \[ti] LS1R Invoke the G1 character set as GR.
+.TE
+.PP
+It also recognizes ESC % and provides a more complete UTF-8
+implementation than Linux console.
+.\"
+.PP
+.B CSI Sequences
+.PP
+Old versions of \fBxterm\fP(1), for example, from X11R5,
+interpret the blink SGR as a bold SGR.
+Later versions which implemented ANSI colors, for example,
+XFree86 3.1.2A in 1995, improved this by allowing
+the blink attribute to be displayed as a color.
+Modern versions of xterm implement blink SGR as blinking text
+and still allow colored text as an alternate rendering of SGRs.
+Stock X11R6 versions did not recognize the color-setting SGRs until
+the X11R6.8 release, which incorporated XFree86 xterm.
+All ECMA-48 CSI sequences recognized by Linux are also recognized by
+.IR xterm ,
+however \fBxterm\fP(1) implements several ECMA-48 and DEC control sequences
+not recognized by Linux.
+.PP
+The \fBxterm\fP(1)
+program recognizes all of the DEC Private Mode sequences listed
+above, but none of the Linux private-mode sequences.
+For discussion of \fBxterm\fP(1)'s
+own private-mode sequences, refer to the
+\fIXterm Control Sequences\fP
+document by
+Edward Moy,
+Stephen Gildea,
+and Thomas E.\& Dickey
+available with the X distribution.
+That document, though terse, is much longer than this manual page.
+For a chronological overview,
+.PP
+.RS
+.UR http://invisible\-island.net\:/xterm\:/xterm.log.html
+.UE
+.RE
+.PP
+details changes to xterm.
+.PP
+The \fIvttest\fP program
+.PP
+.RS
+.UR http://invisible\-island.net\:/vttest/
+.UE
+.RE
+.PP
+demonstrates many of these control sequences.
+The \fBxterm\fP(1) source distribution also contains sample
+scripts which exercise other features.
+.SH NOTES
+ESC 8 (DECRC) is not able to restore the character set changed with
+ESC %.
+.SH BUGS
+In Linux 2.0.23, CSI is broken, and NUL is not ignored inside
+escape sequences.
+.PP
+Some older kernel versions (after Linux 2.0) interpret 8-bit control
+sequences.
+These "C1 controls" use codes between 128 and 159 to replace
+ESC [, ESC ] and similar two-byte control sequence initiators.
+There are fragments of that in modern kernels (either overlooked or
+broken by changes to support UTF-8),
+but the implementation is incomplete and should be regarded
+as unreliable.
+.PP
+Linux "private mode" sequences do not follow the rules in ECMA-48
+for private mode control sequences.
+In particular, those ending with ] do not use a standard terminating
+character.
+The OSC (set palette) sequence is a greater problem,
+since \fBxterm\fP(1) may interpret this as a control sequence
+which requires a string terminator (ST).
+Unlike the \fBsetterm\fP(1) sequences which will be ignored (since
+they are invalid control sequences), the palette sequence will make
+\fBxterm\fP(1) appear to hang (though pressing the return-key
+will fix that).
+To accommodate applications which have been hardcoded to use Linux
+control sequences,
+set the \fBxterm\fP(1) resource \fBbrokenLinuxOSC\fP to true.
+.PP
+An older version of this document implied that Linux recognizes the
+ECMA-48 control sequence for invisible text.
+It is ignored.
+.SH SEE ALSO
+.BR ioctl_console (2),
+.BR charsets (7)
diff --git a/upstream/opensuse-leap-15-6/man4/cpuid.4 b/upstream/opensuse-leap-15-6/man4/cpuid.4
new file mode 100644
index 00000000..04cc8364
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/cpuid.4
@@ -0,0 +1,81 @@
+.\" Copyright (c) 2009 Intel Corporation, Author Andi Kleen
+.\" Description based on comments in arch/x86/kernel/cpuid.c
+.\"
+.\" SPDX-License-Identifier: Linux-man-pages-copyleft
+.\"
+.TH cpuid 4 2022-10-30 "Linux man-pages 6.04"
+.SH NAME
+cpuid \- x86 CPUID access device
+.SH DESCRIPTION
+CPUID provides an interface for querying information about the x86 CPU.
+.PP
+This device is accessed by
+.BR lseek (2)
+or
+.BR pread (2)
+to the appropriate CPUID level and reading in chunks of 16 bytes.
+A larger read size means multiple reads of consecutive levels.
+.PP
+The lower 32 bits of the file position is used as the incoming
+.IR %eax ,
+and the upper 32 bits of the file position as the incoming
+.IR %ecx ,
+the latter is intended for "counting"
+.I eax
+levels like
+.IR eax=4 .
+.PP
+This driver uses
+.IR /dev/cpu/CPUNUM/cpuid ,
+where
+.I CPUNUM
+is the minor number,
+and on an SMP box will direct the access to CPU
+.I CPUNUM
+as listed in
+.IR /proc/cpuinfo .
+.PP
+This file is protected so that it can be read only by the user
+.IR root ,
+or members of the group
+.IR root .
+.SH NOTES
+The CPUID instruction can be directly executed by a program
+using inline assembler.
+However this device allows convenient
+access to all CPUs without changing process affinity.
+.PP
+Most of the information in
+.I cpuid
+is reported by the kernel in cooked form either in
+.I /proc/cpuinfo
+or through subdirectories in
+.IR /sys/devices/system/cpu .
+Direct CPUID access through this device should only
+be used in exceptional cases.
+.PP
+The
+.I cpuid
+driver is not auto-loaded.
+On modular kernels you might need to use the following command
+to load it explicitly before use:
+.PP
+.in +4n
+.EX
+$ modprobe cpuid
+.EE
+.in
+.PP
+There is no support for CPUID functions that require additional
+input registers.
+.PP
+Very old x86 CPUs don't support CPUID.
+.SH SEE ALSO
+.BR cpuid (1)
+.PP
+Intel Corporation, Intel 64 and IA-32 Architectures
+Software Developer's Manual Volume 2A:
+Instruction Set Reference, A-M, 3-180 CPUID reference.
+.PP
+Intel Corporation, Intel Processor Identification and
+the CPUID Instruction, Application note 485.
diff --git a/upstream/opensuse-leap-15-6/man4/dsp56k.4 b/upstream/opensuse-leap-15-6/man4/dsp56k.4
new file mode 100644
index 00000000..6faec94e
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/dsp56k.4
@@ -0,0 +1,107 @@
+.\" Copyright (c) 2000 lars brinkhoff <lars@nocrew.org>
+.\"
+.\" SPDX-License-Identifier: GPL-2.0-or-later
+.\"
+.\" Modified, Thu Jan 27 19:16:19 CET 2000, lars@nocrew.org
+.\"
+.TH dsp56k 4 2023-03-08 "Linux man-pages 6.04"
+.SH NAME
+dsp56k \- DSP56001 interface device
+.SH SYNOPSIS
+.nf
+.B #include <asm/dsp56k.h>
+.PP
+.BI "ssize_t read(int " fd ", void *" data ", size_t " length );
+.BI "ssize_t write(int " fd ", void *" data ", size_t " length );
+.PP
+.BI "int ioctl(int " fd ", DSP56K_UPLOAD, struct dsp56k_upload *" program );
+.BI "int ioctl(int " fd ", DSP56K_SET_TX_WSIZE, int " wsize );
+.BI "int ioctl(int " fd ", DSP56K_SET_RX_WSIZE, int " wsize );
+.BI "int ioctl(int " fd ", DSP56K_HOST_FLAGS, struct dsp56k_host_flags *" flags );
+.BI "int ioctl(int " fd ", DSP56K_HOST_CMD, int " cmd );
+.fi
+.SH CONFIGURATION
+The
+.I dsp56k
+device is a character device with major number 55 and minor
+number 0.
+.SH DESCRIPTION
+The Motorola DSP56001 is a fully programmable 24-bit digital signal
+processor found in Atari Falcon030-compatible computers.
+The \fIdsp56k\fP special file is used to control the DSP56001, and
+to send and receive data using the bidirectional handshaked host
+port.
+.PP
+To send a data stream to the signal processor, use
+.BR write (2)
+to the
+device, and
+.BR read (2)
+to receive processed data.
+The data can be sent or
+received in 8, 16, 24, or 32-bit quantities on the host side, but will
+always be seen as 24-bit quantities in the DSP56001.
+.PP
+The following
+.BR ioctl (2)
+calls are used to control the
+\fIdsp56k\fP device:
+.TP
+.B DSP56K_UPLOAD
+resets the DSP56001 and uploads a program.
+The third
+.BR ioctl (2)
+argument must be a pointer to a \fIstruct dsp56k_upload\fP with members
+\fIbin\fP pointing to a DSP56001 binary program, and \fIlen\fP set to
+the length of the program, counted in 24-bit words.
+.TP
+.B DSP56K_SET_TX_WSIZE
+sets the transmit word size.
+Allowed values are in the range 1 to 4,
+and is the number of bytes that will be sent at a time to the
+DSP56001.
+These data quantities will either be padded with bytes containing zero,
+or truncated to fit the native 24-bit data format of the
+DSP56001.
+.TP
+.B DSP56K_SET_RX_WSIZE
+sets the receive word size.
+Allowed values are in the range 1 to 4,
+and is the number of bytes that will be received at a time from the DSP56001.
+These data quantities will either truncated,
+or padded with a null byte (\[aq]\e0\[aq]),
+to fit the native 24-bit data format of the DSP56001.
+.TP
+.B DSP56K_HOST_FLAGS
+read and write the host flags.
+The host flags are four
+general-purpose bits that can be read by both the hosting computer and
+the DSP56001.
+Bits 0 and 1 can be written by the host, and bits 2 and
+3 can be written by the DSP56001.
+.IP
+To access the host flags, the third
+.BR ioctl (2)
+argument must be a pointer
+to a \fIstruct dsp56k_host_flags\fP.
+If bit 0 or 1 is set in the
+\fIdir\fP member, the corresponding bit in \fIout\fP will be written
+to the host flags.
+The state of all host flags will be returned in
+the lower four bits of the \fIstatus\fP member.
+.TP
+.B DSP56K_HOST_CMD
+sends a host command.
+Allowed values are in the range 0 to 31, and is a
+user-defined command handled by the program running in the DSP56001.
+.SH FILES
+.I /dev/dsp56k
+.\" .SH AUTHORS
+.\" Fredrik Noring <noring@nocrew.org>, lars brinkhoff <lars@nocrew.org>,
+.\" Tomas Berndtsson <tomas@nocrew.org>.
+.SH SEE ALSO
+.IR linux/include/asm\-m68k/dsp56k.h ,
+.IR linux/drivers/char/dsp56k.c ,
+.UR http://dsp56k.nocrew.org/
+.UE ,
+DSP56000/DSP56001 Digital Signal Processor User's Manual
diff --git a/upstream/opensuse-leap-15-6/man4/fd.4 b/upstream/opensuse-leap-15-6/man4/fd.4
new file mode 100644
index 00000000..de10ef63
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/fd.4
@@ -0,0 +1,232 @@
+'\" t
+.\" Copyright (c) 1993 Michael Haardt (michael@cantor.informatik.rwth-aachen.de)
+.\" and 1994,1995 Alain Knaff (Alain.Knaff@imag.fr)
+.\"
+.\" SPDX-License-Identifier: GPL-2.0-or-later
+.\"
+.\" Modified, Sun Feb 26 15:00:02 1995, faith@cs.unc.edu
+.\"
+.TH fd 4 2022-12-15 "Linux man-pages 6.04"
+.SH NAME
+fd \- floppy disk device
+.SH CONFIGURATION
+Floppy drives are block devices with major number 2.
+Typically they
+are owned by
+root:floppy
+(i.e., user root, group floppy) and have
+either mode 0660 (access checking via group membership) or mode 0666
+(everybody has access).
+The minor
+numbers encode the device type, drive number, and controller number.
+For each device type (that is, combination of density and track count)
+there is a base minor number.
+To this base number, add the drive's
+number on its controller and 128 if the drive is on the secondary
+controller.
+In the following device tables, \fIn\fP represents the
+drive number.
+.PP
+\fBWarning: if you use formats with more tracks
+than supported by your drive, you may cause it mechanical damage.\fP
+Trying once if more tracks than the usual 40/80 are supported should not
+damage it, but no warranty is given for that.
+If you are not sure, don't create device
+entries for those formats, so as to prevent their usage.
+.PP
+Drive-independent device files which automatically detect the media
+format and capacity:
+.TS
+l c
+l c.
+Name Base
+ minor #
+_
+\fBfd\fP\fIn\fP 0
+.TE
+.PP
+5.25 inch double-density device files:
+.TS
+lw(1i) l l l l c
+lw(1i) c c c c c.
+Name Capacity Cyl. Sect. Heads Base
+ KiB minor #
+_
+\fBfd\fP\fIn\fP\fBd360\fP 360 40 9 2 4
+.TE
+.PP
+5.25 inch high-density device files:
+.TS
+lw(1i) l l l l c
+lw(1i) c c c c c.
+Name Capacity Cyl. Sect. Heads Base
+ KiB minor #
+_
+\fBfd\fP\fIn\fP\fBh360\fP 360 40 9 2 20
+\fBfd\fP\fIn\fP\fBh410\fP 410 41 10 2 48
+\fBfd\fP\fIn\fP\fBh420\fP 420 42 10 2 64
+\fBfd\fP\fIn\fP\fBh720\fP 720 80 9 2 24
+\fBfd\fP\fIn\fP\fBh880\fP 880 80 11 2 80
+\fBfd\fP\fIn\fP\fBh1200\fP 1200 80 15 2 8
+\fBfd\fP\fIn\fP\fBh1440\fP 1440 80 18 2 40
+\fBfd\fP\fIn\fP\fBh1476\fP 1476 82 18 2 56
+\fBfd\fP\fIn\fP\fBh1494\fP 1494 83 18 2 72
+\fBfd\fP\fIn\fP\fBh1600\fP 1600 80 20 2 92
+.TE
+.PP
+3.5 inch double-density device files:
+.TS
+lw(1i) l l l l c
+lw(1i) c c c c c.
+Name Capacity Cyl. Sect. Heads Base
+ KiB minor #
+_
+\fBfd\fP\fIn\fP\fBu360\fP 360 80 9 1 12
+\fBfd\fP\fIn\fP\fBu720\fP 720 80 9 2 16
+\fBfd\fP\fIn\fP\fBu800\fP 800 80 10 2 120
+\fBfd\fP\fIn\fP\fBu1040\fP 1040 80 13 2 84
+\fBfd\fP\fIn\fP\fBu1120\fP 1120 80 14 2 88
+.TE
+.PP
+3.5 inch high-density device files:
+.TS
+lw(1i) l l l l c
+lw(1i) c c c c c.
+Name Capacity Cyl. Sect. Heads Base
+ KiB minor #
+_
+\fBfd\fP\fIn\fP\fBu360\fP 360 40 9 2 12
+\fBfd\fP\fIn\fP\fBu720\fP 720 80 9 2 16
+\fBfd\fP\fIn\fP\fBu820\fP 820 82 10 2 52
+\fBfd\fP\fIn\fP\fBu830\fP 830 83 10 2 68
+\fBfd\fP\fIn\fP\fBu1440\fP 1440 80 18 2 28
+\fBfd\fP\fIn\fP\fBu1600\fP 1600 80 20 2 124
+\fBfd\fP\fIn\fP\fBu1680\fP 1680 80 21 2 44
+\fBfd\fP\fIn\fP\fBu1722\fP 1722 82 21 2 60
+\fBfd\fP\fIn\fP\fBu1743\fP 1743 83 21 2 76
+\fBfd\fP\fIn\fP\fBu1760\fP 1760 80 22 2 96
+\fBfd\fP\fIn\fP\fBu1840\fP 1840 80 23 2 116
+\fBfd\fP\fIn\fP\fBu1920\fP 1920 80 24 2 100
+.TE
+.PP
+3.5 inch extra-density device files:
+.TS
+lw(1i) l l l l c
+lw(1i) c c c c c.
+Name Capacity Cyl. Sect. Heads Base
+ KiB minor #
+_
+\fBfd\fP\fIn\fP\fBu2880\fP 2880 80 36 2 32
+\fBfd\fP\fIn\fP\fBCompaQ\fP 2880 80 36 2 36
+\fBfd\fP\fIn\fP\fBu3200\fP 3200 80 40 2 104
+\fBfd\fP\fIn\fP\fBu3520\fP 3520 80 44 2 108
+\fBfd\fP\fIn\fP\fBu3840\fP 3840 80 48 2 112
+.TE
+.SH DESCRIPTION
+\fBfd\fP special files access the floppy disk drives in raw mode.
+The following
+.BR ioctl (2)
+calls are supported by \fBfd\fP devices:
+.TP
+.B FDCLRPRM
+clears the media information of a drive (geometry of disk in drive).
+.TP
+.B FDSETPRM
+sets the media information of a drive.
+The media information will be
+lost when the media is changed.
+.TP
+.B FDDEFPRM
+sets the media information of a drive (geometry of disk in drive).
+The media information will not be lost when the media is changed.
+This will disable autodetection.
+In order to reenable autodetection, you
+have to issue an \fBFDCLRPRM\fP.
+.TP
+.B FDGETDRVTYP
+returns the type of a drive (name parameter).
+For formats which work
+in several drive types, \fBFDGETDRVTYP\fP returns a name which is
+appropriate for the oldest drive type which supports this format.
+.TP
+.B FDFLUSH
+invalidates the buffer cache for the given drive.
+.TP
+.B FDSETMAXERRS
+sets the error thresholds for reporting errors, aborting the operation,
+recalibrating, resetting, and reading sector by sector.
+.TP
+.B FDSETMAXERRS
+gets the current error thresholds.
+.TP
+.B FDGETDRVTYP
+gets the internal name of the drive.
+.TP
+.B FDWERRORCLR
+clears the write error statistics.
+.TP
+.B FDWERRORGET
+reads the write error statistics.
+These include the total number of
+write errors, the location and disk of the first write error, and the
+location and disk of the last write error.
+Disks are identified by a
+generation number which is incremented at (almost) each disk change.
+.TP
+.B FDTWADDLE
+Switch the drive motor off for a few microseconds.
+This might be
+needed in order to access a disk whose sectors are too close together.
+.TP
+.B FDSETDRVPRM
+sets various drive parameters.
+.TP
+.B FDGETDRVPRM
+reads these parameters back.
+.TP
+.B FDGETDRVSTAT
+gets the cached drive state (disk changed, write protected et al.)
+.TP
+.B FDPOLLDRVSTAT
+polls the drive and return its state.
+.TP
+.B FDGETFDCSTAT
+gets the floppy controller state.
+.TP
+.B FDRESET
+resets the floppy controller under certain conditions.
+.TP
+.B FDRAWCMD
+sends a raw command to the floppy controller.
+.PP
+For more precise information, consult also the \fI<linux/fd.h>\fP and
+\fI<linux/fdreg.h>\fP include files, as well as the
+.BR floppycontrol (1)
+manual page.
+.SH FILES
+.I /dev/fd*
+.SH NOTES
+The various formats permit reading and writing many types of disks.
+However, if a floppy is formatted with an inter-sector gap that is too small,
+performance may drop,
+to the point of needing a few seconds to access an entire track.
+To prevent this, use interleaved formats.
+.PP
+It is not possible to
+read floppies which are formatted using GCR (group code recording),
+which is used by Apple II and Macintosh computers (800k disks).
+.PP
+Reading floppies which are hard sectored (one hole per sector, with
+the index hole being a little skewed) is not supported.
+This used to be common with older 8-inch floppies.
+.\" .SH AUTHORS
+.\" Alain Knaff (Alain.Knaff@imag.fr), David Niemi
+.\" (niemidc@clark.net), Bill Broadhurst (bbroad@netcom.com).
+.SH SEE ALSO
+.BR chown (1),
+.BR floppycontrol (1),
+.BR getfdprm (1),
+.BR mknod (1),
+.BR superformat (1),
+.BR mount (8),
+.BR setfdprm (8)
diff --git a/upstream/opensuse-leap-15-6/man4/full.4 b/upstream/opensuse-leap-15-6/man4/full.4
new file mode 100644
index 00000000..8134f108
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/full.4
@@ -0,0 +1,46 @@
+.\" This man-page is Copyright (C) 1997 John S. Kallal
+.\"
+.\" SPDX-License-Identifier: Linux-man-pages-copyleft
+.\"
+.\" correction, aeb, 970825
+.TH full 4 2022-10-30 "Linux man-pages 6.04"
+.SH NAME
+full \- always full device
+.SH CONFIGURATION
+If your system does not have
+.I /dev/full
+created already, it
+can be created with the following commands:
+.PP
+.in +4n
+.EX
+mknod \-m 666 /dev/full c 1 7
+chown root:root /dev/full
+.EE
+.in
+.SH DESCRIPTION
+The file
+.I /dev/full
+has major device number 1
+and minor device number 7.
+.PP
+Writes to the
+.I /dev/full
+device fail with an
+.B ENOSPC
+error.
+This can be used to test how a program handles disk-full errors.
+.PP
+Reads from the
+.I /dev/full
+device will return \e0 characters.
+.PP
+Seeks on
+.I /dev/full
+will always succeed.
+.SH FILES
+.I /dev/full
+.SH SEE ALSO
+.BR mknod (1),
+.BR null (4),
+.BR zero (4)
diff --git a/upstream/opensuse-leap-15-6/man4/fuse.4 b/upstream/opensuse-leap-15-6/man4/fuse.4
new file mode 100644
index 00000000..c348cb76
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/fuse.4
@@ -0,0 +1,535 @@
+.\" Copyright (c) 2016 Julia Computing Inc, Keno Fischer
+.\" Description based on include/uapi/fuse.h and code in fs/fuse
+.\"
+.\" SPDX-License-Identifier: Linux-man-pages-copyleft
+.\"
+.TH fuse 4 2023-03-30 "Linux man-pages 6.04"
+.SH NAME
+fuse \- Filesystem in Userspace (FUSE) device
+.SH SYNOPSIS
+.nf
+.B #include <linux/fuse.h>
+.fi
+.SH DESCRIPTION
+This device is the primary interface between the FUSE filesystem driver
+and a user-space process wishing to provide the filesystem (referred to
+in the rest of this manual page as the
+.IR "filesystem daemon" ).
+This manual page is intended for those
+interested in understanding the kernel interface itself.
+Those implementing a FUSE filesystem may wish to make use of
+a user-space library such as
+.I libfuse
+that abstracts away the low-level interface.
+.PP
+At its core, FUSE is a simple client-server protocol, in which the Linux
+kernel is the client and the daemon is the server.
+After obtaining a file descriptor for this device, the daemon may
+.BR read (2)
+requests from that file descriptor and is expected to
+.BR write (2)
+back its replies.
+It is important to note that a file descriptor is
+associated with a unique FUSE filesystem.
+In particular, opening a second copy of this device,
+will not allow access to resources created
+through the first file descriptor (and vice versa).
+.\"
+.SS The basic protocol
+Every message that is read by the daemon begins with a header described by
+the following structure:
+.PP
+.in +4n
+.EX
+struct fuse_in_header {
+ uint32_t len; /* Total length of the data,
+ including this header */
+ uint32_t opcode; /* The kind of operation (see below) */
+ uint64_t unique; /* A unique identifier for this request */
+ uint64_t nodeid; /* ID of the filesystem object
+ being operated on */
+ uint32_t uid; /* UID of the requesting process */
+ uint32_t gid; /* GID of the requesting process */
+ uint32_t pid; /* PID of the requesting process */
+ uint32_t padding;
+};
+.EE
+.in
+.PP
+The header is followed by a variable-length data portion
+(which may be empty) specific to the requested operation
+(the requested operation is indicated by
+.IR opcode ).
+.PP
+The daemon should then process the request and if applicable send
+a reply (almost all operations require a reply; if they do not,
+this is documented below), by performing a
+.BR write (2)
+to the file descriptor.
+All replies must start with the following header:
+.PP
+.in +4n
+.EX
+struct fuse_out_header {
+ uint32_t len; /* Total length of data written to
+ the file descriptor */
+ int32_t error; /* Any error that occurred (0 if none) */
+ uint64_t unique; /* The value from the
+ corresponding request */
+};
+.EE
+.in
+.PP
+This header is also followed by (potentially empty) variable-sized
+data depending on the executed request.
+However, if the reply is an error reply (i.e.,
+.I error
+is set),
+then no further payload data should be sent, independent of the request.
+.\"
+.SS Exchanged messages
+This section should contain documentation for each of the messages
+in the protocol.
+This manual page is currently incomplete,
+so not all messages are documented.
+For each message, first the struct sent by the kernel is given,
+followed by a description of the semantics of the message.
+.TP
+.B FUSE_INIT
+.IP
+.in +4n
+.EX
+struct fuse_init_in {
+ uint32_t major;
+ uint32_t minor;
+ uint32_t max_readahead; /* Since protocol v7.6 */
+ uint32_t flags; /* Since protocol v7.6 */
+};
+.EE
+.in
+.IP
+This is the first request sent by the kernel to the daemon.
+It is used to negotiate the protocol version and other filesystem parameters.
+Note that the protocol version may affect the layout of any structure
+in the protocol (including this structure).
+The daemon must thus remember the negotiated version
+and flags for each session.
+As of the writing of this man page,
+the highest supported kernel protocol version is
+.IR 7.26 .
+.IP
+Users should be aware that the descriptions in this manual page
+may be incomplete or incorrect for older or more recent protocol versions.
+.IP
+The reply for this request has the following format:
+.IP
+.in +4n
+.EX
+struct fuse_init_out {
+ uint32_t major;
+ uint32_t minor;
+ uint32_t max_readahead; /* Since v7.6 */
+ uint32_t flags; /* Since v7.6; some flags bits
+ were introduced later */
+ uint16_t max_background; /* Since v7.13 */
+ uint16_t congestion_threshold; /* Since v7.13 */
+ uint32_t max_write; /* Since v7.5 */
+ uint32_t time_gran; /* Since v7.6 */
+ uint32_t unused[9];
+};
+.EE
+.in
+.IP
+If the major version supported by the kernel is larger than that supported
+by the daemon, the reply shall consist of only
+.I uint32_t major
+(following the usual header),
+indicating the largest major version supported by the daemon.
+The kernel will then issue a new
+.B FUSE_INIT
+request conforming to the older version.
+In the reverse case, the daemon should
+quietly fall back to the kernel's major version.
+.IP
+The negotiated minor version is considered to be the minimum
+of the minor versions provided by the daemon and the kernel and
+both parties should use the protocol corresponding to said minor version.
+.TP
+.B FUSE_GETATTR
+.IP
+.in +4n
+.EX
+struct fuse_getattr_in {
+ uint32_t getattr_flags;
+ uint32_t dummy;
+ uint64_t fh; /* Set only if
+ (getattr_flags & FUSE_GETATTR_FH)
+};
+.EE
+.in
+.IP
+The requested operation is to compute the attributes to be returned
+by
+.BR stat (2)
+and similar operations for the given filesystem object.
+The object for which the attributes should be computed is indicated
+either by
+.I header\->nodeid
+or, if the
+.B FUSE_GETATTR_FH
+flag is set, by the file handle
+.IR fh .
+The latter case of operation is analogous to
+.BR fstat (2).
+.IP
+For performance reasons, these attributes may be cached in the kernel for
+a specified duration of time.
+While the cache timeout has not been exceeded,
+the attributes will be served from the cache and will not cause additional
+.B FUSE_GETATTR
+requests.
+.IP
+The computed attributes and the requested
+cache timeout should then be returned in the following structure:
+.IP
+.in +4n
+.EX
+struct fuse_attr_out {
+ /* Attribute cache duration (seconds + nanoseconds) */
+ uint64_t attr_valid;
+ uint32_t attr_valid_nsec;
+ uint32_t dummy;
+ struct fuse_attr {
+ uint64_t ino;
+ uint64_t size;
+ uint64_t blocks;
+ uint64_t atime;
+ uint64_t mtime;
+ uint64_t ctime;
+ uint32_t atimensec;
+ uint32_t mtimensec;
+ uint32_t ctimensec;
+ uint32_t mode;
+ uint32_t nlink;
+ uint32_t uid;
+ uint32_t gid;
+ uint32_t rdev;
+ uint32_t blksize;
+ uint32_t padding;
+ } attr;
+};
+.EE
+.in
+.TP
+.B FUSE_ACCESS
+.IP
+.in +4n
+.EX
+struct fuse_access_in {
+ uint32_t mask;
+ uint32_t padding;
+};
+.EE
+.in
+.IP
+If the
+.I default_permissions
+mount options is not used, this request may be used for permissions checking.
+No reply data is expected, but errors may be indicated
+as usual by setting the
+.I error
+field in the reply header (in particular, access denied errors
+may be indicated by returning
+.BR \-EACCES ).
+.TP
+.BR FUSE_OPEN " and " FUSE_OPENDIR
+.in +4n
+.EX
+struct fuse_open_in {
+ uint32_t flags; /* The flags that were passed
+ to the open(2) */
+ uint32_t unused;
+};
+.EE
+.in
+.IP
+The requested operation is to open the node indicated by
+.IR header\->nodeid .
+The exact semantics of what this means will depend on the
+filesystem being implemented.
+However, at the very least the
+filesystem should validate that the requested
+.I flags
+are valid for the indicated resource and then send a reply with the
+following format:
+.IP
+.in +4n
+.EX
+struct fuse_open_out {
+ uint64_t fh;
+ uint32_t open_flags;
+ uint32_t padding;
+};
+.EE
+.in
+.IP
+The
+.I fh
+field is an opaque identifier that the kernel will use to refer
+to this resource
+The
+.I open_flags
+field is a bit mask of any number of the flags
+that indicate properties of this file handle to the kernel:
+.RS 7
+.TP 18
+.B FOPEN_DIRECT_IO
+Bypass page cache for this open file.
+.TP
+.B FOPEN_KEEP_CACHE
+Don't invalidate the data cache on open.
+.TP
+.B FOPEN_NONSEEKABLE
+The file is not seekable.
+.RE
+.TP
+.BR FUSE_READ " and " FUSE_READDIR
+.IP
+.in +4n
+.EX
+struct fuse_read_in {
+ uint64_t fh;
+ uint64_t offset;
+ uint32_t size;
+ uint32_t read_flags;
+ uint64_t lock_owner;
+ uint32_t flags;
+ uint32_t padding;
+};
+.EE
+.in
+.IP
+The requested action is to read up to
+.I size
+bytes of the file or directory, starting at
+.IR offset .
+The bytes should be returned directly following the usual reply header.
+.TP
+.B FUSE_INTERRUPT
+.in +4n
+.EX
+struct fuse_interrupt_in {
+ uint64_t unique;
+};
+.EE
+.in
+.IP
+The requested action is to cancel the pending operation indicated by
+.IR unique .
+This request requires no response.
+However, receipt of this message does
+not by itself cancel the indicated operation.
+The kernel will still expect a reply to said operation (e.g., an
+.I EINTR
+error or a short read).
+At most one
+.B FUSE_INTERRUPT
+request will be issued for a given operation.
+After issuing said operation,
+the kernel will wait uninterruptibly for completion of the indicated request.
+.TP
+.B FUSE_LOOKUP
+Directly following the header is a filename to be looked up in the directory
+indicated by
+.IR header\->nodeid .
+The expected reply is of the form:
+.IP
+.in +4n
+.EX
+struct fuse_entry_out {
+ uint64_t nodeid; /* Inode ID */
+ uint64_t generation; /* Inode generation */
+ uint64_t entry_valid;
+ uint64_t attr_valid;
+ uint32_t entry_valid_nsec;
+ uint32_t attr_valid_nsec;
+ struct fuse_attr attr;
+};
+.EE
+.in
+.IP
+The combination of
+.I nodeid
+and
+.I generation
+must be unique for the filesystem's lifetime.
+.IP
+The interpretation of timeouts and
+.I attr
+is as for
+.BR FUSE_GETATTR .
+.TP
+.B FUSE_FLUSH
+.in +4n
+.EX
+struct fuse_flush_in {
+ uint64_t fh;
+ uint32_t unused;
+ uint32_t padding;
+ uint64_t lock_owner;
+};
+.EE
+.in
+.IP
+The requested action is to flush any pending changes to the indicated
+file handle.
+No reply data is expected.
+However, an empty reply message
+still needs to be issued once the flush operation is complete.
+.TP
+.BR FUSE_RELEASE " and " FUSE_RELEASEDIR
+.in +4n
+.EX
+struct fuse_release_in {
+ uint64_t fh;
+ uint32_t flags;
+ uint32_t release_flags;
+ uint64_t lock_owner;
+};
+.EE
+.in
+.IP
+These are the converse of
+.B FUSE_OPEN
+and
+.B FUSE_OPENDIR
+respectively.
+The daemon may now free any resources associated with the
+file handle
+.I fh
+as the kernel will no longer refer to it.
+There is no reply data associated with this request,
+but a reply still needs to be issued once the request has
+been completely processed.
+.TP
+.B FUSE_STATFS
+This operation implements
+.BR statfs (2)
+for this filesystem.
+There is no input data associated with this request.
+The expected reply data has the following structure:
+.IP
+.in +4n
+.EX
+struct fuse_kstatfs {
+ uint64_t blocks;
+ uint64_t bfree;
+ uint64_t bavail;
+ uint64_t files;
+ uint64_t ffree;
+ uint32_t bsize;
+ uint32_t namelen;
+ uint32_t frsize;
+ uint32_t padding;
+ uint32_t spare[6];
+};
+
+struct fuse_statfs_out {
+ struct fuse_kstatfs st;
+};
+.EE
+.in
+.IP
+For the interpretation of these fields, see
+.BR statfs (2).
+.SH ERRORS
+.TP
+.B E2BIG
+Returned from
+.BR read (2)
+operations when the kernel's request is too large for the provided buffer
+and the request was
+.BR FUSE_SETXATTR .
+.TP
+.B EINVAL
+Returned from
+.BR write (2)
+if validation of the reply failed.
+Not all mistakes in replies will be caught by this validation.
+However, basic mistakes, such as short replies or an incorrect
+.I unique
+value, are detected.
+.TP
+.B EIO
+Returned from
+.BR read (2)
+operations when the kernel's request is too large for the provided buffer.
+.IP
+.IR Note :
+There are various ways in which incorrect use of these interfaces can cause
+operations on the provided filesystem's files and directories to fail with
+.BR EIO .
+Among the possible incorrect uses are:
+.RS
+.IP \[bu] 3
+changing
+.I mode & S_IFMT
+for an inode that has previously been reported to the kernel; or
+.IP \[bu]
+giving replies to the kernel that are shorter than what the kernel expected.
+.RE
+.TP
+.B ENODEV
+Returned from
+.BR read (2)
+and
+.BR write (2)
+if the FUSE filesystem was unmounted.
+.TP
+.B EPERM
+Returned from operations on a
+.I /dev/fuse
+file descriptor that has not been mounted.
+.SH STANDARDS
+Linux.
+.SH NOTES
+The following messages are not yet documented in this manual page:
+.PP
+.\" FIXME: Document the following.
+.in +4n
+.EX
+.B FUSE_BATCH_FORGET
+.B FUSE_BMAP
+.B FUSE_CREATE
+.B FUSE_DESTROY
+.B FUSE_FALLOCATE
+.B FUSE_FORGET
+.B FUSE_FSYNC
+.B FUSE_FSYNCDIR
+.B FUSE_GETLK
+.B FUSE_GETXATTR
+.B FUSE_IOCTL
+.B FUSE_LINK
+.B FUSE_LISTXATTR
+.B FUSE_LSEEK
+.B FUSE_MKDIR
+.B FUSE_MKNOD
+.B FUSE_NOTIFY_REPLY
+.B FUSE_POLL
+.B FUSE_READDIRPLUS
+.B FUSE_READLINK
+.B FUSE_REMOVEXATTR
+.B FUSE_RENAME
+.B FUSE_RENAME2
+.B FUSE_RMDIR
+.B FUSE_SETATTR
+.B FUSE_SETLK
+.B FUSE_SETLKW
+.B FUSE_SYMLINK
+.B FUSE_UNLINK
+.B FUSE_WRITE
+.EE
+.in
+.SH SEE ALSO
+.BR fusermount (1),
+.BR mount.fuse (8)
diff --git a/upstream/opensuse-leap-15-6/man4/hd.4 b/upstream/opensuse-leap-15-6/man4/hd.4
new file mode 100644
index 00000000..76453917
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/hd.4
@@ -0,0 +1,82 @@
+.\" Copyright (c) 1993 Michael Haardt (michael@moria.de),
+.\" Fri Apr 2 11:32:09 MET DST 1993
+.\"
+.\" SPDX-License-Identifier: GPL-2.0-or-later
+.\"
+.\" Modified Sat Jul 24 16:56:20 1993 by Rik Faith <faith@cs.unc.edu>
+.\" Modified Mon Oct 21 21:38:51 1996 by Eric S. Raymond <esr@thyrsus.com>
+.\" (and some more by aeb)
+.\"
+.TH hd 4 2023-02-05 "Linux man-pages 6.04"
+.SH NAME
+hd \- MFM/IDE hard disk devices
+.SH DESCRIPTION
+The
+.B hd*
+devices are block devices to access MFM/IDE hard disk drives
+in raw mode.
+The master drive on the primary IDE controller (major device
+number 3) is
+.BR hda ;
+the slave drive is
+.BR hdb .
+The master drive of the second controller (major device number 22)
+is
+.B hdc
+and the slave is
+.BR hdd .
+.PP
+General IDE block device names have the form
+.BI hd X\c
+, or
+.BI hd XP\c
+, where
+.I X
+is a letter denoting the physical drive, and
+.I P
+is a number denoting the partition on that physical drive.
+The first form,
+.BI hd X\c
+, is used to address the whole drive.
+Partition numbers are assigned in the order the partitions
+are discovered, and only nonempty, nonextended partitions
+get a number.
+However, partition numbers 1\[en]4 are given to the
+four partitions described in the MBR (the "primary" partitions),
+regardless of whether they are unused or extended.
+Thus, the first logical partition will be
+.BI hd X 5\c
+\&.
+Both DOS-type partitioning and BSD-disklabel partitioning are supported.
+You can have at most 63 partitions on an IDE disk.
+.PP
+For example,
+.I /dev/hda
+refers to all of the first IDE drive in the system; and
+.I /dev/hdb3
+refers to the third DOS "primary" partition on the second one.
+.PP
+They are typically created by:
+.PP
+.in +4n
+.EX
+mknod \-m 660 /dev/hda b 3 0
+mknod \-m 660 /dev/hda1 b 3 1
+mknod \-m 660 /dev/hda2 b 3 2
+\&...
+mknod \-m 660 /dev/hda8 b 3 8
+mknod \-m 660 /dev/hdb b 3 64
+mknod \-m 660 /dev/hdb1 b 3 65
+mknod \-m 660 /dev/hdb2 b 3 66
+\&...
+mknod \-m 660 /dev/hdb8 b 3 72
+chown root:disk /dev/hd*
+.EE
+.in
+.SH FILES
+.I /dev/hd*
+.SH SEE ALSO
+.BR chown (1),
+.BR mknod (1),
+.BR sd (4),
+.BR mount (8)
diff --git a/upstream/opensuse-leap-15-6/man4/hpsa.4 b/upstream/opensuse-leap-15-6/man4/hpsa.4
new file mode 100644
index 00000000..10cc66b1
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/hpsa.4
@@ -0,0 +1,234 @@
+.\" Copyright (C) 2011, Hewlett-Packard Development Company, L.P.
+.\" Written by Stephen M. Cameron <scameron@beardog.cce.hp.com>
+.\"
+.\" SPDX-License-Identifier: GPL-2.0-only
+.\"
+.\" shorthand for double quote that works everywhere.
+.ds q \N'34'
+.TH hpsa 4 2022-10-30 "Linux man-pages 6.04"
+.SH NAME
+hpsa \- HP Smart Array SCSI driver
+.SH SYNOPSIS
+.nf
+modprobe hpsa [ hpsa_allow_any=1 ]
+.fi
+.SH DESCRIPTION
+.B hpsa
+is a SCSI driver for HP Smart Array RAID controllers.
+.SS Options
+.IR "hpsa_allow_any=1" :
+This option allows the driver to attempt to operate on
+any HP Smart Array hardware RAID controller,
+even if it is not explicitly known to the driver.
+This allows newer hardware to work with older drivers.
+Typically this is used to allow installation of
+operating systems from media that predates the
+RAID controller, though it may also be used to enable
+.B hpsa
+to drive older controllers that would normally be handled by the
+.BR cciss (4)
+driver.
+These older boards have not been tested and are
+not supported with
+.BR hpsa ,
+and
+.BR cciss (4)
+should still be used for these.
+.SS Supported hardware
+The
+.B hpsa
+driver supports the following Smart Array boards:
+.PP
+.nf
+ Smart Array P700M
+ Smart Array P212
+ Smart Array P410
+ Smart Array P410i
+ Smart Array P411
+ Smart Array P812
+ Smart Array P712m
+ Smart Array P711m
+ StorageWorks P1210m
+.fi
+.PP
+.\" commit 135ae6edeb51979d0998daf1357f149a7d6ebb08
+Since Linux 4.14, the following Smart Array boards are also supported:
+.PP
+.nf
+ Smart Array 5300
+ Smart Array 5312
+ Smart Array 532
+ Smart Array 5i
+ Smart Array 6400
+ Smart Array 6400 EM
+ Smart Array 641
+ Smart Array 642
+ Smart Array 6i
+ Smart Array E200
+ Smart Array E200i
+ Smart Array E200i
+ Smart Array E200i
+ Smart Array E200i
+ Smart Array E500
+ Smart Array P400
+ Smart Array P400i
+ Smart Array P600
+ Smart Array P700m
+ Smart Array P800
+.fi
+.SS Configuration details
+To configure HP Smart Array controllers,
+use the HP Array Configuration Utility (either
+.BR hpacuxe (8)
+or
+.BR hpacucli (8))
+or the Offline ROM-based Configuration Utility (ORCA)
+run from the Smart Array's option ROM at boot time.
+.SH FILES
+.SS Device nodes
+Logical drives are accessed via the SCSI disk driver
+.RB ( sd (4)),
+tape drives via the SCSI tape driver
+.RB ( st (4)),
+and
+the RAID controller via the SCSI generic driver
+.RB ( sg (4)),
+with device nodes named
+.IR /dev/sd* ,
+.IR /dev/st* ,
+and
+.IR /dev/sg* ,
+respectively.
+.SS HPSA-specific host attribute files in /sys
+.TP
+.I /sys/class/scsi_host/host*/rescan
+This is a write-only attribute.
+Writing to this attribute will cause the driver to scan for
+new, changed, or removed devices (e.g., hot-plugged tape drives,
+or newly configured or deleted logical drives, etc.)
+and notify the SCSI midlayer of any changes detected.
+Normally a rescan is triggered automatically
+by HP's Array Configuration Utility (either the GUI or the
+command-line variety);
+thus, for logical drive changes, the user should not
+normally have to use this attribute.
+This attribute may be useful when hot plugging devices like tape drives,
+or entire storage boxes containing preconfigured logical drives.
+.TP
+.I /sys/class/scsi_host/host*/firmware_revision
+This attribute contains the firmware version of the Smart Array.
+.IP
+For example:
+.IP
+.in +4n
+.EX
+# \fBcd /sys/class/scsi_host/host4\fP
+# \fBcat firmware_revision\fP
+7.14
+.EE
+.in
+.\"
+.SS HPSA-specific disk attribute files in /sys
+.TP
+.I /sys/class/scsi_disk/c:b:t:l/device/unique_id
+This attribute contains a 32 hex-digit unique ID for each logical drive.
+.IP
+For example:
+.IP
+.in +4n
+.EX
+# \fBcd /sys/class/scsi_disk/4:0:0:0/device\fP
+# \fBcat unique_id\fP
+600508B1001044395355323037570F77
+.EE
+.in
+.TP
+.I /sys/class/scsi_disk/c:b:t:l/device/raid_level
+This attribute contains the RAID level of each logical drive.
+.IP
+For example:
+.IP
+.in +4n
+.EX
+# \fBcd /sys/class/scsi_disk/4:0:0:0/device\fP
+# \fBcat raid_level\fP
+RAID 0
+.EE
+.in
+.TP
+.I /sys/class/scsi_disk/c:b:t:l/device/lunid
+This attribute contains the 16 hex-digit (8 byte) LUN ID
+by which a logical drive or physical device can be addressed.
+.IR c : b : t : l
+are the controller, bus, target, and lun of the device.
+.PP
+For example:
+.IP
+.in +4n
+.EX
+# \fBcd /sys/class/scsi_disk/4:0:0:0/device\fP
+# \fBcat lunid\fP
+0x0000004000000000
+.EE
+.in
+.\"
+.SS Supported ioctl() operations
+For compatibility with applications written for the
+.BR cciss (4)
+driver, many, but
+not all of the ioctls supported by the
+.BR cciss (4)
+driver are also supported by the
+.B hpsa
+driver.
+The data structures used by these ioctls are described in
+the Linux kernel source file
+.IR include/linux/cciss_ioctl.h .
+.TP
+.BR CCISS_DEREGDISK ", " CCISS_REGNEWDISK ", " CCISS_REGNEWD
+These three ioctls all do exactly the same thing,
+which is to cause the driver to rescan for new devices.
+This does exactly the same thing as writing to the
+hpsa-specific host "rescan" attribute.
+.TP
+.B CCISS_GETPCIINFO
+Returns PCI domain, bus, device, and function and "board ID" (PCI subsystem ID).
+.TP
+.B CCISS_GETDRIVVER
+Returns driver version in three bytes encoded as:
+.IP
+.in +4n
+.EX
+(major_version << 16) | (minor_version << 8) |
+ (subminor_version)
+.EE
+.in
+.TP
+.BR CCISS_PASSTHRU ", " CCISS_BIG_PASSTHRU
+Allows "BMIC" and "CISS" commands to be passed through to the Smart Array.
+These are used extensively by the HP Array Configuration Utility,
+SNMP storage agents, and so on.
+See
+.I cciss_vol_status
+at
+.UR http://cciss.sf.net
+.UE
+for some examples.
+.SH SEE ALSO
+.BR cciss (4),
+.BR sd (4),
+.BR st (4),
+.BR cciss_vol_status (8),
+.BR hpacucli (8),
+.BR hpacuxe (8)
+.PP
+.UR http://cciss.sf.net
+.UE ,
+and
+.I Documentation/scsi/hpsa.txt
+and
+.I Documentation/ABI/testing/sysfs\-bus\-pci\-devices\-cciss
+in the Linux kernel source tree
+.\" .SH AUTHORS
+.\" Don Brace, Steve Cameron, Tom Lawler, Mike Miller, Scott Teel
+.\" and probably some other people.
diff --git a/upstream/opensuse-leap-15-6/man4/initrd.4 b/upstream/opensuse-leap-15-6/man4/initrd.4
new file mode 100644
index 00000000..770517cb
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/initrd.4
@@ -0,0 +1,479 @@
+.\" This man-page is Copyright (C) 1997 John S. Kallal
+.\"
+.\" SPDX-License-Identifier: Linux-man-pages-copyleft
+.\"
+.\" If the you wish to distribute versions of this work under other
+.\" conditions than the above, please contact the author(s) at the following
+.\" for permission:
+.\"
+.\" John S. Kallal -
+.\" email: <kallal@voicenet.com>
+.\" mail: 518 Kerfoot Farm RD, Wilmington, DE 19803-2444, USA
+.\" phone: (302)654-5478
+.\"
+.\" $Id: initrd.4,v 0.9 1997/11/07 05:05:32 kallal Exp kallal $
+.TH initrd 4 2023-02-05 "Linux man-pages 6.04"
+.SH NAME
+initrd \- boot loader initialized RAM disk
+.SH CONFIGURATION
+.I /dev/initrd
+is a read-only block device assigned
+major number 1 and minor number 250.
+Typically
+.I /dev/initrd
+is owned by
+root:disk
+with mode 0400 (read access by root only).
+If the Linux system does not have
+.I /dev/initrd
+already created, it can be created with the following commands:
+.PP
+.in +4n
+.EX
+mknod \-m 400 /dev/initrd b 1 250
+chown root:disk /dev/initrd
+.EE
+.in
+.PP
+Also, support for both "RAM disk" and "Initial RAM disk"
+(e.g.,
+.B CONFIG_BLK_DEV_RAM=y
+and
+.BR CONFIG_BLK_DEV_INITRD=y )
+must be compiled directly into the Linux kernel to use
+.IR /dev/initrd .
+When using
+.IR /dev/initrd ,
+the RAM disk driver cannot be loaded as a module.
+.\"
+.\"
+.\"
+.SH DESCRIPTION
+The special file
+.I /dev/initrd
+is a read-only block device.
+This device is a RAM disk that is initialized (e.g., loaded)
+by the boot loader before the kernel is started.
+The kernel then can use
+.IR /dev/initrd "'s"
+contents for a two-phase system boot-up.
+.PP
+In the first boot-up phase, the kernel starts up
+and mounts an initial root filesystem from the contents of
+.I /dev/initrd
+(e.g., RAM disk initialized by the boot loader).
+In the second phase, additional drivers or other modules
+are loaded from the initial root device's contents.
+After loading the additional modules, a new root filesystem
+(i.e., the normal root filesystem) is mounted from a
+different device.
+.\"
+.\"
+.\"
+.SS Boot-up operation
+When booting up with
+.BR initrd ,
+the system boots as follows:
+.IP (1) 5
+The boot loader loads the kernel program and
+.IR /dev/initrd 's
+contents into memory.
+.IP (2)
+On kernel startup,
+the kernel uncompresses and copies the contents of the device
+.I /dev/initrd
+onto device
+.I /dev/ram0
+and then frees the memory used by
+.IR /dev/initrd .
+.IP (3)
+The kernel then read-write mounts the device
+.I /dev/ram0
+as the initial root filesystem.
+.IP (4)
+If the indicated normal root filesystem is also the initial
+root filesystem (e.g.,
+.IR /dev/ram0 )
+then the kernel skips to the last step for the usual boot sequence.
+.IP (5)
+If the executable file
+.I /linuxrc
+is present in the initial root filesystem,
+.I /linuxrc
+is executed with UID 0.
+(The file
+.I /linuxrc
+must have executable permission.
+The file
+.I /linuxrc
+can be any valid executable, including a shell script.)
+.IP (6)
+If
+.I /linuxrc
+is not executed or when
+.I /linuxrc
+terminates, the normal root filesystem is mounted.
+(If
+.I /linuxrc
+exits with any filesystems mounted on the initial root
+filesystem, then the behavior of the kernel is
+.BR UNSPECIFIED .
+See the NOTES section for the current kernel behavior.)
+.IP (7)
+If the normal root filesystem has a directory
+.IR /initrd ,
+the device
+.I /dev/ram0
+is moved from
+.I /
+to
+.IR /initrd .
+Otherwise, if the directory
+.I /initrd
+does not exist, the device
+.I /dev/ram0
+is unmounted.
+(When moved from
+.I /
+to
+.IR /initrd ,
+.I /dev/ram0
+is not unmounted and therefore processes can remain running from
+.IR /dev/ram0 .
+If directory
+.I /initrd
+does not exist on the normal root filesystem
+and any processes remain running from
+.I /dev/ram0
+when
+.I /linuxrc
+exits, the behavior of the kernel is
+.BR UNSPECIFIED .
+See the NOTES section for the current kernel behavior.)
+.IP (8)
+The usual boot sequence (e.g., invocation of
+.IR /sbin/init )
+is performed on the normal root filesystem.
+.\"
+.\"
+.\"
+.SS Options
+The following boot loader options, when used with
+.BR initrd ,
+affect the kernel's boot-up operation:
+.TP
+.BI initrd= "filename"
+Specifies the file to load as the contents of
+.IR /dev/initrd .
+For
+.B LOADLIN
+this is a command-line option.
+For
+.B LILO
+you have to use this command in the
+.B LILO
+configuration file
+.IR /etc/lilo.config .
+The filename specified with this
+option will typically be a gzipped filesystem image.
+.TP
+.B noinitrd
+This boot option disables the two-phase boot-up operation.
+The kernel performs the usual boot sequence as if
+.I /dev/initrd
+was not initialized.
+With this option, any contents of
+.I /dev/initrd
+loaded into memory by the boot loader contents are preserved.
+This option permits the contents of
+.I /dev/initrd
+to be any data and need not be limited to a filesystem image.
+However, device
+.I /dev/initrd
+is read-only and can be read only one time after system startup.
+.TP
+.BI root= "device-name"
+Specifies the device to be used as the normal root filesystem.
+For
+.B LOADLIN
+this is a command-line option.
+For
+.B LILO
+this is a boot time option or
+can be used as an option line in the
+.B LILO
+configuration file
+.IR /etc/lilo.config .
+The device specified by this option must be a mountable
+device having a suitable root filesystem.
+.\"
+.\"
+.\"
+.SS Changing the normal root filesystem
+By default,
+the kernel's settings
+(e.g., set in the kernel file with
+.BR rdev (8)
+or compiled into the kernel file),
+or the boot loader option setting
+is used for the normal root filesystems.
+For an NFS-mounted normal root filesystem, one has to use the
+.B nfs_root_name
+and
+.B nfs_root_addrs
+boot options to give the NFS settings.
+For more information on NFS-mounted root see the kernel documentation file
+.I Documentation/filesystems/nfs/nfsroot.txt
+.\" commit dc7a08166f3a5f23e79e839a8a88849bd3397c32
+(or
+.I Documentation/filesystems/nfsroot.txt
+before Linux 2.6.33).
+For more information on setting the root filesystem see also the
+.B LILO
+and
+.B LOADLIN
+documentation.
+.PP
+It is also possible for the
+.I /linuxrc
+executable to change the normal root device.
+For
+.I /linuxrc
+to change the normal root device,
+.I /proc
+must be mounted.
+After mounting
+.IR /proc ,
+.I /linuxrc
+changes the normal root device by writing into the proc files
+.IR /proc/sys/kernel/real\-root\-dev ,
+.IR /proc/sys/kernel/nfs\-root\-name ,
+and
+.IR /proc/sys/kernel/nfs\-root\-addrs .
+For a physical root device, the root device is changed by having
+.I /linuxrc
+write the new root filesystem device number into
+.IR /proc/sys/kernel/real\-root\-dev .
+For an NFS root filesystem, the root device is changed by having
+.I /linuxrc
+write the NFS setting into files
+.I /proc/sys/kernel/nfs\-root\-name
+and
+.I /proc/sys/kernel/nfs\-root\-addrs
+and then writing 0xff (e.g., the pseudo-NFS-device number) into file
+.IR /proc/sys/kernel/real\-root\-dev .
+For example, the following shell command line would change
+the normal root device to
+.IR /dev/hdb1 :
+.PP
+.in +4n
+.EX
+echo 0x365 >/proc/sys/kernel/real\-root\-dev
+.EE
+.in
+.PP
+For an NFS example, the following shell command lines would change the
+normal root device to the NFS directory
+.I /var/nfsroot
+on a local networked NFS server with IP number 193.8.232.7 for a system with
+IP number 193.8.232.2 and named "idefix":
+.PP
+.in +4n
+.EX
+echo /var/nfsroot >/proc/sys/kernel/nfs\-root\-name
+echo 193.8.232.2:193.8.232.7::255.255.255.0:idefix \e
+ >/proc/sys/kernel/nfs\-root\-addrs
+echo 255 >/proc/sys/kernel/real\-root\-dev
+.EE
+.in
+.PP
+.BR Note :
+The use of
+.I /proc/sys/kernel/real\-root\-dev
+to change the root filesystem is obsolete.
+See the Linux kernel source file
+.I Documentation/admin\-guide/initrd.rst
+.\" commit 9d85025b0418163fae079c9ba8f8445212de8568
+(or
+.I Documentation/initrd.txt
+before Linux 4.10)
+as well as
+.BR pivot_root (2)
+and
+.BR pivot_root (8)
+for information on the modern method of changing the root filesystem.
+.\" FIXME . Should this manual page describe the pivot_root mechanism?
+.\"
+.\"
+.\"
+.SS Usage
+The main motivation for implementing
+.B initrd
+was to allow for modular kernel configuration at system installation.
+.PP
+A possible system installation scenario is as follows:
+.IP (1) 5
+The loader program boots from floppy or other media with a minimal kernel
+(e.g., support for
+.IR /dev/ram ,
+.IR /dev/initrd ,
+and the ext2 filesystem) and loads
+.I /dev/initrd
+with a gzipped version of the initial filesystem.
+.IP (2)
+The executable
+.I /linuxrc
+determines what is needed to (1) mount the normal root filesystem
+(i.e., device type, device drivers, filesystem) and (2) the
+distribution media (e.g., CD-ROM, network, tape, ...).
+This can be done by asking the user, by auto-probing,
+or by using a hybrid approach.
+.IP (3)
+The executable
+.I /linuxrc
+loads the necessary modules from the initial root filesystem.
+.IP (4)
+The executable
+.I /linuxrc
+creates and populates the root filesystem.
+(At this stage the normal root filesystem does not have to be a
+completed system yet.)
+.IP (5)
+The executable
+.I /linuxrc
+sets
+.IR /proc/sys/kernel/real\-root\-dev ,
+unmounts
+.IR /proc ,
+the normal root filesystem and any other filesystems
+it has mounted, and then terminates.
+.IP (6)
+The kernel then mounts the normal root filesystem.
+.IP (7)
+Now that the filesystem is accessible and intact,
+the boot loader can be installed.
+.IP (8)
+The boot loader is configured to load into
+.I /dev/initrd
+a filesystem with the set of modules that was used to bring up the system.
+(e.g., device
+.I /dev/ram0
+can be modified, then unmounted, and finally, the image is written from
+.I /dev/ram0
+to a file.)
+.IP (9)
+The system is now bootable and additional installation tasks can be
+performed.
+.PP
+The key role of
+.I /dev/initrd
+in the above is to reuse the configuration data during normal system operation
+without requiring initial kernel selection, a large generic kernel or,
+recompiling the kernel.
+.PP
+A second scenario is for installations where Linux runs on systems with
+different hardware configurations in a single administrative network.
+In such cases, it may be desirable to use only a small set of kernels
+(ideally only one) and to keep the system-specific part of configuration
+information as small as possible.
+In this case, create a common file
+with all needed modules.
+Then, only the
+.I /linuxrc
+file or a file executed by
+.I /linuxrc
+would be different.
+.PP
+A third scenario is more convenient recovery disks.
+Because information like the location of the root filesystem
+partition is not needed at boot time, the system loaded from
+.I /dev/initrd
+can use a dialog and/or auto-detection followed by a
+possible sanity check.
+.PP
+Last but not least, Linux distributions on CD-ROM may use
+.B initrd
+for easy installation from the CD-ROM.
+The distribution can use
+.B LOADLIN
+to directly load
+.I /dev/initrd
+from CD-ROM without the need of any floppies.
+The distribution could also use a
+.B LILO
+boot floppy and then bootstrap a bigger RAM disk via
+.I /dev/initrd
+from the CD-ROM.
+.\"
+.\"
+.\"
+.SH FILES
+.I /dev/initrd
+.br
+.I /dev/ram0
+.br
+.I /linuxrc
+.br
+.I /initrd
+.\"
+.\"
+.\"
+.SH NOTES
+.IP \[bu] 3
+With the current kernel, any filesystems that remain mounted when
+.I /dev/ram0
+is moved from
+.I /
+to
+.I /initrd
+continue to be accessible.
+However, the
+.I /proc/mounts
+entries are not updated.
+.IP \[bu]
+With the current kernel, if directory
+.I /initrd
+does not exist, then
+.I /dev/ram0
+will
+.B not
+be fully unmounted if
+.I /dev/ram0
+is used by any process or has any filesystem mounted on it.
+If
+.I /dev/ram0
+is
+.B not
+fully unmounted, then
+.I /dev/ram0
+will remain in memory.
+.IP \[bu]
+Users of
+.I /dev/initrd
+should not depend on the behavior given in the above notes.
+The behavior may change in future versions of the Linux kernel.
+.\"
+.\"
+.\"
+.\" .SH AUTHORS
+.\" The kernel code for device
+.\" .BR initrd
+.\" was written by Werner Almesberger <almesber@lrc.epfl.ch> and
+.\" Hans Lermen <lermen@elserv.ffm.fgan.de>.
+.\" The code for
+.\" .BR initrd
+.\" was added to the baseline Linux kernel in development version 1.3.73.
+.SH SEE ALSO
+.BR chown (1),
+.BR mknod (1),
+.BR ram (4),
+.BR freeramdisk (8),
+.BR rdev (8)
+.PP
+.I Documentation/admin\-guide/initrd.rst
+.\" commit 9d85025b0418163fae079c9ba8f8445212de8568
+(or
+.I Documentation/initrd.txt
+before Linux 4.10)
+in the Linux kernel source tree, the LILO documentation,
+the LOADLIN documentation, the SYSLINUX documentation
diff --git a/upstream/opensuse-leap-15-6/man4/intro.4 b/upstream/opensuse-leap-15-6/man4/intro.4
new file mode 100644
index 00000000..83c8f44b
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/intro.4
@@ -0,0 +1,22 @@
+.\" Copyright (c) 1993 Michael Haardt (michael@moria.de),
+.\" Fri Apr 2 11:32:09 MET DST 1993
+.\"
+.\" SPDX-License-Identifier: GPL-2.0-or-later
+.\"
+.\" Modified Sat Jul 24 16:57:14 1993 by Rik Faith (faith@cs.unc.edu)
+.TH intro 4 2023-02-05 "Linux man-pages 6.04"
+.SH NAME
+intro \- introduction to special files
+.SH DESCRIPTION
+Section 4 of the manual describes special files (devices).
+.SH FILES
+/dev/* \[em] device files
+.SH NOTES
+.SS Authors and copyright conditions
+Look at the header of the manual page source for the author(s) and copyright
+conditions.
+Note that these can be different from page to page!
+.SH SEE ALSO
+.BR mknod (1),
+.BR mknod (2),
+.BR standards (7)
diff --git a/upstream/opensuse-leap-15-6/man4/lirc.4 b/upstream/opensuse-leap-15-6/man4/lirc.4
new file mode 100644
index 00000000..f4082629
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/lirc.4
@@ -0,0 +1,422 @@
+.\" Copyright (c) 2015-2016, Alec Leamas
+.\" Copyright (c) 2018, Sean Young <sean@mess.org>
+.\"
+.\" SPDX-License-Identifier: GPL-2.0-or-later
+.TH lirc 4 2023-02-05 "Linux man-pages 6.04"
+.SH NAME
+lirc \- lirc devices
+.SH DESCRIPTION
+The
+.I /dev/lirc*
+character devices provide a low-level
+bidirectional interface to infra-red (IR) remotes.
+Most of these devices can receive, and some can send.
+When receiving or sending data, the driver works in two different modes
+depending on the underlying hardware.
+.PP
+Some hardware (typically TV-cards) decodes the IR signal internally
+and provides decoded button presses as scancode values.
+Drivers for this kind of hardware work in
+.B LIRC_MODE_SCANCODE
+mode.
+Such hardware usually does not support sending IR signals.
+Furthermore, such hardware can only decode a limited set of IR protocols,
+usually only the protocol of the specific remote which is
+bundled with, for example, a TV-card.
+.PP
+Other hardware provides a stream of pulse/space durations.
+Such drivers work in
+.B LIRC_MODE_MODE2
+mode.
+Such hardware can be used with (almost) any kind of remote.
+This type of hardware can also be used in
+.B LIRC_MODE_SCANCODE
+mode, in which case the kernel IR decoders will decode the IR.
+These decoders can be written in extended BPF (see
+.BR bpf (2))
+and attached to the
+.B lirc
+device.
+Sometimes, this kind of hardware also supports
+sending IR data.
+.PP
+The \fBLIRC_GET_FEATURES\fR ioctl (see below) allows probing for whether
+receiving and sending is supported, and in which modes, amongst other
+features.
+.\"
+.SS Reading input with the LIRC_MODE_MODE2 mode
+In the \fBLIRC_MODE_MODE2 mode\fR, the data returned by
+.BR read (2)
+provides 32-bit values representing a space or a pulse duration.
+The time of the duration (microseconds) is encoded in the lower 24 bits.
+Pulse (also known as flash)
+indicates a duration of infrared light being detected,
+and space (also known as gap) indicates a duration with no infrared.
+If the duration of space exceeds the inactivity timeout,
+a special timeout package is delivered,
+which marks the end of a message.
+The upper 8 bits indicate the type of package:
+.TP 4
+.B LIRC_MODE2_SPACE
+Value reflects a space duration (microseconds).
+.TP 4
+.B LIRC_MODE2_PULSE
+Value reflects a pulse duration (microseconds).
+.TP 4
+.B LIRC_MODE2_FREQUENCY
+Value reflects a frequency (Hz); see the
+.B LIRC_SET_MEASURE_CARRIER_MODE
+ioctl.
+.TP 4
+.B LIRC_MODE2_TIMEOUT
+Value reflects a space duration (microseconds).
+The package reflects a timeout; see the
+.B LIRC_SET_REC_TIMEOUT_REPORTS
+ioctl.
+.\"
+.TP 4
+.B LIRC_MODE2_OVERFLOW
+The IR receiver encountered an overflow,
+and as a result data is missing
+(since Linux 5.18).
+.SS Reading input with the LIRC_MODE_SCANCODE mode
+In the \fBLIRC_MODE_SCANCODE\fR
+mode, the data returned by
+.BR read (2)
+reflects decoded button presses, in the struct \fIlirc_scancode\fR.
+The scancode is stored in the \fIscancode\fR field, and the IR protocol
+is stored in \fIrc_proto\fR.
+This field has one the values of the \fIenum rc_proto\fR.
+.\"
+.SS Writing output with the LIRC_MODE_PULSE mode
+The data written to the character device using
+.BR write (2)
+is a pulse/space sequence of integer values.
+Pulses and spaces are only marked implicitly by their position.
+The data must start and end with a pulse, thus it must always include
+an odd number of samples.
+The
+.BR write (2)
+function blocks until the data has been transmitted by the
+hardware.
+If more data is provided than the hardware can send, the
+.BR write (2)
+call fails with the error
+.BR EINVAL .
+.SS Writing output with the LIRC_MODE_SCANCODE mode
+The data written to the character devices must be a single struct
+\fIlirc_scancode\fR.
+The \fIscancode\fR and \fIrc_proto\fR fields must
+filled in, all other fields must be 0.
+The kernel IR encoders will
+convert the scancode to pulses and spaces.
+The protocol or scancode is invalid, or the
+.B lirc
+device cannot transmit.
+.SH IOCTL COMMANDS
+.nf
+#include <linux/lirc.h> /* But see BUGS */
+
+int ioctl(int fd, int cmd, int *val);
+.fi
+.PP
+The following
+.BR ioctl (2)
+operations are provided by the
+.B lirc
+character device to probe or change specific
+.B lirc
+hardware settings.
+.SS Always Supported Commands
+\fI/dev/lirc*\fR devices always support the following commands:
+.TP 4
+.BR LIRC_GET_FEATURES " (\fIvoid\fP)"
+Returns a bit mask of combined features bits; see FEATURES.
+.PP
+If a device returns an error code for
+.BR LIRC_GET_FEATURES ,
+it is safe to assume it is not a
+.B lirc
+device.
+.\"
+.SS Optional Commands
+Some
+.B lirc
+devices support the commands listed below.
+Unless otherwise stated, these fail with the error \fBENOTTY\fR if the
+operation isn't supported, or with the error \fBEINVAL\fR if the operation
+failed, or invalid arguments were provided.
+If a driver does not announce support of certain features, invoking
+the corresponding ioctls will fail with the error
+.BR ENOTTY .
+.TP
+.BR LIRC_GET_REC_MODE " (\fIvoid\fP)"
+If the
+.B lirc
+device has no receiver, this operation fails with the error
+.BR ENOTTY .
+Otherwise, it returns the receive mode, which will be one of:
+.RS
+.TP
+.B LIRC_MODE_MODE2
+The driver returns a sequence of pulse/space durations.
+.TP
+.B LIRC_MODE_SCANCODE
+The driver returns struct
+.I lirc_scancode
+values, each of which represents
+a decoded button press.
+.RE
+.TP
+.BR LIRC_SET_REC_MODE " (\fIint\fP)"
+Set the receive mode.
+.I val
+is either
+.B LIRC_MODE_SCANCODE
+or
+.BR LIRC_MODE_MODE2 .
+If the
+.B lirc
+device has no receiver, this operation fails with the error
+.B ENOTTY.
+.TP
+.BR LIRC_GET_SEND_MODE " (\fIvoid\fP)"
+Return the send mode.
+.B LIRC_MODE_PULSE
+or
+.B LIRC_MODE_SCANCODE
+is supported.
+If the
+.B lirc
+device cannot send, this operation fails with the error
+.B ENOTTY.
+.TP
+.BR LIRC_SET_SEND_MODE " (\fIint\fP)"
+Set the send mode.
+.I val
+is either
+.B LIRC_MODE_SCANCODE
+or
+.BR LIRC_MODE_PULSE .
+If the
+.B lirc
+device cannot send, this operation fails with the error
+.BR ENOTTY .
+.TP
+.BR LIRC_SET_SEND_CARRIER " (\fIint\fP)"
+Set the modulation frequency.
+The argument is the frequency (Hz).
+.TP
+.BR LIRC_SET_SEND_DUTY_CYCLE " (\fIint\fP)"
+Set the carrier duty cycle.
+.I val
+is a number in the range [0,100] which
+describes the pulse width as a percentage of the total cycle.
+Currently, no special meaning is defined for 0 or 100, but the values
+are reserved for future use.
+.TP
+.BR LIRC_GET_MIN_TIMEOUT " (\fIvoid\fP)", " "\
+LIRC_GET_MAX_TIMEOUT " (\fIvoid\fP)"
+Some devices have internal timers that can be used to detect when
+there has been no IR activity for a long time.
+This can help
+.BR lircd (8)
+in detecting that an IR signal is finished and can speed up the
+decoding process.
+These operations
+return integer values with the minimum/maximum timeout that can be
+set (microseconds).
+Some devices have a fixed timeout.
+For such drivers,
+.B LIRC_GET_MIN_TIMEOUT
+and
+.B LIRC_GET_MAX_TIMEOUT
+will fail with the error
+.BR ENOTTY .
+.TP
+.BR LIRC_SET_REC_TIMEOUT " (\fIint\fP)"
+Set the integer value for IR inactivity timeout (microseconds).
+To be accepted, the value must be within the limits defined by
+.B LIRC_GET_MIN_TIMEOUT
+and
+.BR LIRC_GET_MAX_TIMEOUT .
+A value of 0 (if supported by the hardware) disables all hardware
+timeouts and data should be reported as soon as possible.
+If the exact value cannot be set, then the next possible value
+.I greater
+than the given value should be set.
+.TP
+.BR LIRC_GET_REC_TIMEOUT " (\fIvoid\fP)"
+Return the current inactivity timeout (microseconds).
+Available since Linux 4.18.
+.TP
+.BR LIRC_SET_REC_TIMEOUT_REPORTS " (\fIint\fP)"
+Enable
+.RI ( val
+is 1) or disable
+.RI ( val
+is 0) timeout packages in
+.BR LIRC_MODE_MODE2 .
+The behavior of this operation has varied across kernel versions:
+.RS
+.IP \[bu] 3
+Since Linux 5.17:
+timeout packages are always enabled and this ioctl is a no-op.
+.IP \[bu]
+Since Linux 4.16:
+timeout packages are enabled by default.
+Each time the
+.B lirc
+device is opened, the
+.B LIRC_SET_REC_TIMEOUT
+operation can be used to disable (and, if desired, to later re-enable)
+the timeout on the file descriptor.
+.IP \[bu]
+In Linux 4.15 and earlier:
+timeout packages are disabled by default, and enabling them (via
+.BR LIRC_SET_REC_TIMEOUT )
+on any file descriptor associated with the
+.B lirc
+device has the effect of enabling timeouts for all file descriptors
+referring to that device (until timeouts are disabled again).
+.RE
+.TP
+.BR LIRC_SET_REC_CARRIER " (\fIint\fP)"
+Set the upper bound of the receive carrier frequency (Hz).
+See
+.BR LIRC_SET_REC_CARRIER_RANGE .
+.TP
+.BR LIRC_SET_REC_CARRIER_RANGE " (\fIint\fP)"
+Sets the lower bound of the receive carrier frequency (Hz).
+For this to take affect, first set the lower bound using the
+.B LIRC_SET_REC_CARRIER_RANGE
+ioctl, and then the upper bound using the
+.B LIRC_SET_REC_CARRIER
+ioctl.
+.TP
+.BR LIRC_SET_MEASURE_CARRIER_MODE " (\fIint\fP)"
+Enable
+.RI ( val
+is 1) or disable
+.RI ( val
+is 0) the measure mode.
+If enabled, from the next key press on, the driver will send
+.B LIRC_MODE2_FREQUENCY
+packets.
+By default, this should be turned off.
+.TP
+.BR LIRC_GET_REC_RESOLUTION " (\fIvoid\fP)"
+Return the driver resolution (microseconds).
+.TP
+.BR LIRC_SET_TRANSMITTER_MASK " (\fIint\fP)"
+Enable the set of transmitters specified in
+.IR val ,
+which contains a bit mask where each enabled transmitter is a 1.
+The first transmitter is encoded by the least significant bit, and so on.
+When an invalid bit mask is given, for example a bit is set even
+though the device does not have so many transmitters,
+this operation returns the
+number of available transmitters and does nothing otherwise.
+.TP
+.BR LIRC_SET_WIDEBAND_RECEIVER " (\fIint\fP)"
+Some devices are equipped with a special wide band receiver which is
+intended to be used to learn the output of an existing remote.
+This ioctl can be used to enable
+.RI ( val
+equals 1) or disable
+.RI ( val
+equals 0) this functionality.
+This might be useful for devices that otherwise have narrow band
+receivers that prevent them to be used with certain remotes.
+Wide band receivers may also be more precise.
+On the other hand, their disadvantage usually is reduced range of
+reception.
+.IP
+Note: wide band receiver may be implicitly enabled if you enable
+carrier reports.
+In that case, it will be disabled as soon as you disable carrier reports.
+Trying to disable a wide band receiver while carrier reports are active
+will do nothing.
+.\"
+.SH FEATURES
+the
+.B LIRC_GET_FEATURES
+ioctl returns a bit mask describing features of the driver.
+The following bits may be returned in the mask:
+.TP
+.B LIRC_CAN_REC_MODE2
+The driver is capable of receiving using
+.BR LIRC_MODE_MODE2 .
+.TP
+.B LIRC_CAN_REC_SCANCODE
+The driver is capable of receiving using
+.BR LIRC_MODE_SCANCODE .
+.TP
+.B LIRC_CAN_SET_SEND_CARRIER
+The driver supports changing the modulation frequency using
+.BR LIRC_SET_SEND_CARRIER .
+.TP
+.B LIRC_CAN_SET_SEND_DUTY_CYCLE
+The driver supports changing the duty cycle using
+.BR LIRC_SET_SEND_DUTY_CYCLE .
+.TP
+.B LIRC_CAN_SET_TRANSMITTER_MASK
+The driver supports changing the active transmitter(s) using
+.BR LIRC_SET_TRANSMITTER_MASK .
+.TP
+.B LIRC_CAN_SET_REC_CARRIER
+The driver supports setting the receive carrier frequency using
+.BR LIRC_SET_REC_CARRIER .
+Any
+.B lirc
+device since the drivers were merged in Linux 2.6.36
+must have
+.B LIRC_CAN_SET_REC_CARRIER_RANGE
+set if
+.B LIRC_CAN_SET_REC_CARRIER
+feature is set.
+.TP
+.B LIRC_CAN_SET_REC_CARRIER_RANGE
+The driver supports
+.BR LIRC_SET_REC_CARRIER_RANGE .
+The lower bound of the carrier must first be set using the
+.B LIRC_SET_REC_CARRIER_RANGE
+ioctl, before using the
+.B LIRC_SET_REC_CARRIER
+ioctl to set the upper bound.
+.TP
+.B LIRC_CAN_GET_REC_RESOLUTION
+The driver supports
+.BR LIRC_GET_REC_RESOLUTION .
+.TP
+.B LIRC_CAN_SET_REC_TIMEOUT
+The driver supports
+.BR LIRC_SET_REC_TIMEOUT .
+.TP
+.B LIRC_CAN_MEASURE_CARRIER
+The driver supports measuring of the modulation frequency using
+.BR LIRC_SET_MEASURE_CARRIER_MODE .
+.TP
+.B LIRC_CAN_USE_WIDEBAND_RECEIVER
+The driver supports learning mode using
+.BR LIRC_SET_WIDEBAND_RECEIVER .
+.TP
+.B LIRC_CAN_SEND_PULSE
+The driver supports sending using
+.B LIRC_MODE_PULSE
+or
+.B LIRC_MODE_SCANCODE
+.\"
+.SH BUGS
+Using these devices requires the kernel source header file
+.IR lirc.h .
+This file is not available before Linux 4.6.
+Users of older kernels could use the file bundled in
+.UR http://www.lirc.org
+.UE .
+.\"
+.SH SEE ALSO
+\fBir\-ctl\fP(1), \fBlircd\fP(8),\ \fBbpf\fP(2)
+.PP
+.UR https://www.kernel.org/\:doc/\:html/\:latest/\:userspace\-api/\:media/\:rc/\:lirc\-dev.html
+.UE
diff --git a/upstream/opensuse-leap-15-6/man4/loop.4 b/upstream/opensuse-leap-15-6/man4/loop.4
new file mode 100644
index 00000000..d552c121
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/loop.4
@@ -0,0 +1,359 @@
+.\" Copyright 2002 Urs Thuermann (urs@isnogud.escape.de)
+.\" and Copyright 2015 Michael Kerrisk <mtk.manpages@gmail.com>
+.\"
+.\" SPDX-License-Identifier: GPL-2.0-or-later
+.\"
+.TH loop 4 2023-02-05 "Linux man-pages 6.04"
+.SH NAME
+loop, loop-control \- loop devices
+.SH SYNOPSIS
+.nf
+#include <linux/loop.h>
+.fi
+.SH DESCRIPTION
+The loop device is a block device that maps its data blocks not to a
+physical device such as a hard disk or optical disk drive,
+but to the blocks of
+a regular file in a filesystem or to another block device.
+This can be useful for example to provide a block device for a filesystem
+image stored in a file, so that it can be mounted with the
+.BR mount (8)
+command.
+You could do
+.PP
+.in +4n
+.EX
+$ \fBdd if=/dev/zero of=file.img bs=1MiB count=10\fP
+$ \fBsudo losetup /dev/loop4 file.img\fP
+$ \fBsudo mkfs \-t ext4 /dev/loop4\fP
+$ \fBsudo mkdir /myloopdev\fP
+$ \fBsudo mount /dev/loop4 /myloopdev\fP
+.EE
+.in
+.PP
+See
+.BR losetup (8)
+for another example.
+.PP
+A transfer function can be specified for each loop device for
+encryption and decryption purposes.
+.PP
+The following
+.BR ioctl (2)
+operations are provided by the loop block device:
+.TP
+.B LOOP_SET_FD
+Associate the loop device with the open file whose file descriptor is
+passed as the (third)
+.BR ioctl (2)
+argument.
+.TP
+.B LOOP_CLR_FD
+Disassociate the loop device from any file descriptor.
+.TP
+.B LOOP_SET_STATUS
+Set the status of the loop device using the (third)
+.BR ioctl (2)
+argument.
+This argument is a pointer to a
+.I loop_info
+structure, defined in
+.I <linux/loop.h>
+as:
+.IP
+.in +4n
+.EX
+struct loop_info {
+ int lo_number; /* ioctl r/o */
+ dev_t lo_device; /* ioctl r/o */
+ unsigned long lo_inode; /* ioctl r/o */
+ dev_t lo_rdevice; /* ioctl r/o */
+ int lo_offset;
+ int lo_encrypt_type;
+ int lo_encrypt_key_size; /* ioctl w/o */
+ int lo_flags; /* ioctl r/w (r/o before
+ Linux 2.6.25) */
+ char lo_name[LO_NAME_SIZE];
+ unsigned char lo_encrypt_key[LO_KEY_SIZE];
+ /* ioctl w/o */
+ unsigned long lo_init[2];
+ char reserved[4];
+};
+.EE
+.in
+.IP
+The encryption type
+.RI ( lo_encrypt_type )
+should be one of
+.BR LO_CRYPT_NONE ,
+.BR LO_CRYPT_XOR ,
+.BR LO_CRYPT_DES ,
+.BR LO_CRYPT_FISH2 ,
+.BR LO_CRYPT_BLOW ,
+.BR LO_CRYPT_CAST128 ,
+.BR LO_CRYPT_IDEA ,
+.BR LO_CRYPT_DUMMY ,
+.BR LO_CRYPT_SKIPJACK ,
+or (since Linux 2.6.0)
+.BR LO_CRYPT_CRYPTOAPI .
+.IP
+The
+.I lo_flags
+field is a bit mask that can include zero or more of the following:
+.RS
+.TP
+.B LO_FLAGS_READ_ONLY
+The loopback device is read-only.
+.TP
+.BR LO_FLAGS_AUTOCLEAR " (since Linux 2.6.25)"
+.\" commit 96c5865559cee0f9cbc5173f3c949f6ce3525581
+The loopback device will autodestruct on last close.
+.TP
+.BR LO_FLAGS_PARTSCAN " (since Linux 3.2)"
+.\" commit e03c8dd14915fabc101aa495828d58598dc5af98
+Allow automatic partition scanning.
+.TP
+.BR LO_FLAGS_DIRECT_IO " (since Linux 4.10)"
+.\" commit 2e5ab5f379f96a6207c45be40c357ebb1beb8ef3
+Use direct I/O mode to access the backing file.
+.RE
+.IP
+The only
+.I lo_flags
+that can be modified by
+.B LOOP_SET_STATUS
+are
+.B LO_FLAGS_AUTOCLEAR
+and
+.BR LO_FLAGS_PARTSCAN .
+.TP
+.B LOOP_GET_STATUS
+Get the status of the loop device.
+The (third)
+.BR ioctl (2)
+argument must be a pointer to a
+.IR "struct loop_info" .
+.TP
+.BR LOOP_CHANGE_FD " (since Linux 2.6.5)"
+Switch the backing store of the loop device to the new file identified
+file descriptor specified in the (third)
+.BR ioctl (2)
+argument, which is an integer.
+This operation is possible only if the loop device is read-only and
+the new backing store is the same size and type as the old backing store.
+.TP
+.BR LOOP_SET_CAPACITY " (since Linux 2.6.30)"
+.\" commit 53d6660836f233df66490707365ab177e5fb2bb4
+Resize a live loop device.
+One can change the size of the underlying backing store and then use this
+operation so that the loop driver learns about the new size.
+This operation takes no argument.
+.TP
+.BR LOOP_SET_DIRECT_IO " (since Linux 4.10)"
+.\" commit ab1cb278bc7027663adbfb0b81404f8398437e11
+Set DIRECT I/O mode on the loop device, so that
+it can be used to open backing file.
+The (third)
+.BR ioctl (2)
+argument is an unsigned long value.
+A nonzero represents direct I/O mode.
+.TP
+.BR LOOP_SET_BLOCK_SIZE " (since Linux 4.14)"
+.\" commit 89e4fdecb51cf5535867026274bc97de9480ade5
+Set the block size of the loop device.
+The (third)
+.BR ioctl (2)
+argument is an unsigned long value.
+This value must be a power of two in the range
+[512,pagesize];
+otherwise, an
+.B EINVAL
+error results.
+.TP
+.BR LOOP_CONFIGURE " (since Linux 5.8)"
+.\" commit 3448914e8cc550ba792d4ccc74471d1ca4293aae
+Setup and configure all loop device parameters in a single step using
+the (third)
+.BR ioctl (2)
+argument.
+This argument is a pointer to a
+.I loop_config
+structure, defined in
+.I <linux/loop.h>
+as:
+.IP
+.in +4n
+.EX
+struct loop_config {
+ __u32 fd;
+ __u32 block_size;
+ struct loop_info64 info;
+ __u64 __reserved[8];
+};
+.EE
+.in
+.IP
+In addition to doing what
+.B LOOP_SET_STATUS
+can do,
+.B LOOP_CONFIGURE
+can also be used to do the following:
+.RS
+.IP \[bu] 3
+set the correct block size immediately by setting
+.IR loop_config.block_size ;
+.IP \[bu]
+explicitly request direct I/O mode by setting
+.B LO_FLAGS_DIRECT_IO
+in
+.IR loop_config.info.lo_flags ;
+and
+.IP \[bu]
+explicitly request read-only mode by setting
+.B LO_FLAGS_READ_ONLY
+in
+.IR loop_config.info.lo_flags .
+.RE
+.PP
+Since Linux 2.6, there are two new
+.BR ioctl (2)
+operations:
+.TP
+.BR LOOP_SET_STATUS64 ", " LOOP_GET_STATUS64
+These are similar to
+.BR LOOP_SET_STATUS " and " LOOP_GET_STATUS
+described above but use the
+.I loop_info64
+structure,
+which has some additional fields and a larger range for some other fields:
+.IP
+.in +4n
+.EX
+struct loop_info64 {
+ uint64_t lo_device; /* ioctl r/o */
+ uint64_t lo_inode; /* ioctl r/o */
+ uint64_t lo_rdevice; /* ioctl r/o */
+ uint64_t lo_offset;
+ uint64_t lo_sizelimit; /* bytes, 0 == max available */
+ uint32_t lo_number; /* ioctl r/o */
+ uint32_t lo_encrypt_type;
+ uint32_t lo_encrypt_key_size; /* ioctl w/o */
+ uint32_t lo_flags; i /* ioctl r/w (r/o before
+ Linux 2.6.25) */
+ uint8_t lo_file_name[LO_NAME_SIZE];
+ uint8_t lo_crypt_name[LO_NAME_SIZE];
+ uint8_t lo_encrypt_key[LO_KEY_SIZE]; /* ioctl w/o */
+ uint64_t lo_init[2];
+};
+.EE
+.in
+.SS /dev/loop-control
+Since Linux 3.1,
+.\" commit 770fe30a46a12b6fb6b63fbe1737654d28e84844
+the kernel provides the
+.I /dev/loop\-control
+device, which permits an application to dynamically find a free device,
+and to add and remove loop devices from the system.
+To perform these operations, one first opens
+.I /dev/loop\-control
+and then employs one of the following
+.BR ioctl (2)
+operations:
+.TP
+.B LOOP_CTL_GET_FREE
+Allocate or find a free loop device for use.
+On success, the device number is returned as the result of the call.
+This operation takes no argument.
+.TP
+.B LOOP_CTL_ADD
+Add the new loop device whose device number is specified
+as a long integer in the third
+.BR ioctl (2)
+argument.
+On success, the device index is returned as the result of the call.
+If the device is already allocated, the call fails with the error
+.BR EEXIST .
+.TP
+.B LOOP_CTL_REMOVE
+Remove the loop device whose device number is specified
+as a long integer in the third
+.BR ioctl (2)
+argument.
+On success, the device number is returned as the result of the call.
+If the device is in use, the call fails with the error
+.BR EBUSY .
+.SH FILES
+.TP
+.I /dev/loop*
+The loop block special device files.
+.SH EXAMPLES
+The program below uses the
+.I /dev/loop\-control
+device to find a free loop device, opens the loop device,
+opens a file to be used as the underlying storage for the device,
+and then associates the loop device with the backing store.
+The following shell session demonstrates the use of the program:
+.PP
+.in +4n
+.EX
+$ \fBdd if=/dev/zero of=file.img bs=1MiB count=10\fP
+10+0 records in
+10+0 records out
+10485760 bytes (10 MB) copied, 0.00609385 s, 1.7 GB/s
+$ \fBsudo ./mnt_loop file.img\fP
+loopname = /dev/loop5
+.EE
+.in
+.SS Program source
+\&
+.EX
+#include <fcntl.h>
+#include <linux/loop.h>
+#include <sys/ioctl.h>
+#include <stdio.h>
+#include <stdlib.h>
+#include <unistd.h>
+
+#define errExit(msg) do { perror(msg); exit(EXIT_FAILURE); \e
+ } while (0)
+
+int
+main(int argc, char *argv[])
+{
+ int loopctlfd, loopfd, backingfile;
+ long devnr;
+ char loopname[4096];
+
+ if (argc != 2) {
+ fprintf(stderr, "Usage: %s backing\-file\en", argv[0]);
+ exit(EXIT_FAILURE);
+ }
+
+ loopctlfd = open("/dev/loop\-control", O_RDWR);
+ if (loopctlfd == \-1)
+ errExit("open: /dev/loop\-control");
+
+ devnr = ioctl(loopctlfd, LOOP_CTL_GET_FREE);
+ if (devnr == \-1)
+ errExit("ioctl\-LOOP_CTL_GET_FREE");
+
+ sprintf(loopname, "/dev/loop%ld", devnr);
+ printf("loopname = %s\en", loopname);
+
+ loopfd = open(loopname, O_RDWR);
+ if (loopfd == \-1)
+ errExit("open: loopname");
+
+ backingfile = open(argv[1], O_RDWR);
+ if (backingfile == \-1)
+ errExit("open: backing\-file");
+
+ if (ioctl(loopfd, LOOP_SET_FD, backingfile) == \-1)
+ errExit("ioctl\-LOOP_SET_FD");
+
+ exit(EXIT_SUCCESS);
+}
+.EE
+.SH SEE ALSO
+.BR losetup (8),
+.BR mount (8)
diff --git a/upstream/opensuse-leap-15-6/man4/lp.4 b/upstream/opensuse-leap-15-6/man4/lp.4
new file mode 100644
index 00000000..0f33eca6
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/lp.4
@@ -0,0 +1,137 @@
+'\" t
+.\" Copyright (c) Michael Haardt (michael@cantor.informatik.rwth-aachen.de),
+.\" Sun Jan 15 19:16:33 1995
+.\"
+.\" SPDX-License-Identifier: GPL-2.0-or-later
+.\"
+.\" Modified, Sun Feb 26 15:02:58 1995, faith@cs.unc.edu
+.TH lp 4 2023-02-05 "Linux man-pages 6.04"
+.SH NAME
+lp \- line printer devices
+.SH SYNOPSIS
+.nf
+.B #include <linux/lp.h>
+.fi
+.SH CONFIGURATION
+\fBlp\fP[0\[en]2] are character devices for the parallel line printers;
+they have major number 6 and minor number 0\[en]2.
+The minor numbers
+correspond to the printer port base addresses 0x03bc, 0x0378, and 0x0278.
+Usually they have mode 220 and are owned by user
+.I root
+and group
+.IR lp .
+You can use printer ports either with polling or with interrupts.
+Interrupts are recommended when high traffic is expected, for example,
+for laser printers.
+For typical dot matrix printers, polling will usually be enough.
+The default is polling.
+.SH DESCRIPTION
+The following
+.BR ioctl (2)
+calls are supported:
+.TP
+.BR "int ioctl(int " fd ", LPTIME, int " arg )
+Sets the amount of time that the driver sleeps before rechecking the printer
+when the printer's buffer appears to be filled to
+.IR arg .
+If you have a fast printer, decrease this number;
+if you have a slow printer, then increase it.
+This is in hundredths of a second, the default 2
+being 0.02 seconds.
+It influences only the polling driver.
+.TP
+.BR "int ioctl(int " fd ", LPCHAR, int " arg )
+Sets the maximum number of busy-wait iterations which the polling driver does
+while waiting for the printer to get ready for receiving a character to
+.IR arg .
+If printing is too slow, increase this number; if the
+system gets too slow, decrease this number.
+The default is 1000.
+It influences only the polling driver.
+.TP
+.BR "int ioctl(int " fd ", LPABORT, int " arg )
+If
+.I arg
+is 0, the printer driver will retry on errors, otherwise
+it will abort.
+The default is 0.
+.TP
+.BR "int ioctl(int " fd ", LPABORTOPEN, int " arg )
+If
+.I arg
+is 0,
+.BR open (2)
+will be aborted on error, otherwise error will be ignored.
+The default is to ignore it.
+.TP
+.BR "int ioctl(int " fd ", LPCAREFUL, int " arg )
+If
+.I arg
+is 0, then the out-of-paper, offline, and error signals are
+required to be false on all writes, otherwise they are ignored.
+The default is to ignore them.
+.TP
+.BR "int ioctl(int " fd ", LPWAIT, int " arg )
+Sets the number of busy waiting iterations to wait before strobing the
+printer to accept a just-written character, and the number of iterations to
+wait before turning the strobe off again,
+to
+.IR arg .
+The specification says this time should be 0.5
+microseconds, but experience has shown the delay caused by the code is
+already enough.
+For that reason, the default value is 0.
+.\" FIXME . Actually, since Linux 2.2, the default is 1
+This is used for both the polling and the interrupt driver.
+.TP
+.BR "int ioctl(int " fd ", LPSETIRQ, int " arg )
+This
+.BR ioctl (2)
+requires superuser privileges.
+It takes an
+.I int
+containing the new IRQ as argument.
+As a side effect, the printer will be reset.
+When
+.I arg
+is 0, the polling driver will be used, which is also default.
+.TP
+.BR "int ioctl(int " fd ", LPGETIRQ, int *" arg )
+Stores the currently used IRQ in
+.IR arg .
+.TP
+.BR "int ioctl(int " fd ", LPGETSTATUS, int *" arg )
+Stores the value of the status port in
+.IR arg .
+The bits have the following meaning:
+.TS
+l l.
+LP_PBUSY inverted busy input, active high
+LP_PACK unchanged acknowledge input, active low
+LP_POUTPA unchanged out-of-paper input, active high
+LP_PSELECD unchanged selected input, active high
+LP_PERRORP unchanged error input, active low
+.TE
+.IP
+Refer to your printer manual for the meaning of the signals.
+Note that undocumented bits may also be set, depending on your printer.
+.TP
+.BR "int ioctl(int " fd ", LPRESET)"
+Resets the printer.
+No argument is used.
+.SH FILES
+.I /dev/lp*
+.\" .SH AUTHORS
+.\" The printer driver was originally written by Jim Weigand and Linus
+.\" Torvalds.
+.\" It was further improved by Michael K.\& Johnson.
+.\" The interrupt code was written by Nigel Gamble.
+.\" Alan Cox modularized it.
+.\" LPCAREFUL, LPABORT, LPGETSTATUS were added by Chris Metcalf.
+.SH SEE ALSO
+.BR chmod (1),
+.BR chown (1),
+.BR mknod (1),
+.BR lpcntl (8),
+.BR tunelp (8)
diff --git a/upstream/opensuse-leap-15-6/man4/mem.4 b/upstream/opensuse-leap-15-6/man4/mem.4
new file mode 100644
index 00000000..6cc1c7ac
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/mem.4
@@ -0,0 +1,81 @@
+.\" Copyright (c) 1993 Michael Haardt (michael@moria.de),
+.\" Fri Apr 2 11:32:09 MET DST 1993
+.\"
+.\" SPDX-License-Identifier: GPL-2.0-or-later
+.\"
+.\" Modified Sat Jul 24 16:59:10 1993 by Rik Faith (faith@cs.unc.edu)
+.TH mem 4 2022-10-30 "Linux man-pages 6.04"
+.SH NAME
+mem, kmem, port \- system memory, kernel memory and system ports
+.SH DESCRIPTION
+.I /dev/mem
+is a character device file
+that is an image of the main memory of the computer.
+It may be used, for example, to examine (and even patch) the system.
+.PP
+Byte addresses in
+.I /dev/mem
+are interpreted as physical memory addresses.
+References to nonexistent locations cause errors to be returned.
+.PP
+Examining and patching is likely to lead to unexpected results
+when read-only or write-only bits are present.
+.PP
+Since Linux 2.6.26, and depending on the architecture, the
+.B CONFIG_STRICT_DEVMEM
+kernel configuration option limits the areas
+which can be accessed through this file.
+For example: on x86, RAM access is not allowed but accessing
+memory-mapped PCI regions is.
+.PP
+It is typically created by:
+.PP
+.in +4n
+.EX
+mknod \-m 660 /dev/mem c 1 1
+chown root:kmem /dev/mem
+.EE
+.in
+.PP
+The file
+.I /dev/kmem
+is the same as
+.IR /dev/mem ,
+except that the kernel virtual memory
+rather than physical memory is accessed.
+Since Linux 2.6.26, this file is available only if the
+.B CONFIG_DEVKMEM
+kernel configuration option is enabled.
+.PP
+It is typically created by:
+.PP
+.in +4n
+.EX
+mknod \-m 640 /dev/kmem c 1 2
+chown root:kmem /dev/kmem
+.EE
+.in
+.PP
+.I /dev/port
+is similar to
+.IR /dev/mem ,
+but the I/O ports are accessed.
+.PP
+It is typically created by:
+.PP
+.in +4n
+.EX
+mknod \-m 660 /dev/port c 1 4
+chown root:kmem /dev/port
+.EE
+.in
+.SH FILES
+.I /dev/mem
+.br
+.I /dev/kmem
+.br
+.I /dev/port
+.SH SEE ALSO
+.BR chown (1),
+.BR mknod (1),
+.BR ioperm (2)
diff --git a/upstream/opensuse-leap-15-6/man4/mouse.4 b/upstream/opensuse-leap-15-6/man4/mouse.4
new file mode 100644
index 00000000..cb49a83a
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/mouse.4
@@ -0,0 +1,171 @@
+'\" t
+.\" This manpage is Copyright (C) 1996 Michael Haardt.
+.\" Updates Nov 1998, Andries Brouwer
+.\"
+.\" SPDX-License-Identifier: Linux-man-pages-copyleft
+.TH mouse 4 2023-02-05 "Linux man-pages 6.04"
+.SH NAME
+mouse \- serial mouse interface
+.SH CONFIGURATION
+Serial mice are connected to a serial RS232/V24 dialout line, see
+.BR ttyS (4)
+for a description.
+.SH DESCRIPTION
+.SS Introduction
+The pinout of the usual 9 pin plug as used for serial mice is:
+.PP
+.TS
+center;
+r c l.
+pin name used for
+2 RX Data
+3 TX \-12 V, Imax = 10 mA
+4 DTR +12 V, Imax = 10 mA
+7 RTS +12 V, Imax = 10 mA
+5 GND Ground
+.TE
+.PP
+This is the specification, in fact 9 V suffices with most mice.
+.PP
+The mouse driver can recognize a mouse by dropping RTS to low and raising
+it again.
+About 14 ms later the mouse will send 0x4D (\[aq]M\[aq]) on the data line.
+After a further 63 ms, a Microsoft-compatible 3-button mouse will send
+0x33 (\[aq]3\[aq]).
+.PP
+The relative mouse movement is sent as
+.I dx
+(positive means right)
+and
+.I dy
+(positive means down).
+Various mice can operate at different speeds.
+To select speeds, cycle through the
+speeds 9600, 4800, 2400, and 1200 bit/s, each time writing the two characters
+from the table below and waiting 0.1 seconds.
+The following table shows available speeds and the strings that select them:
+.PP
+.TS
+center;
+l l.
+bit/s string
+9600 *q
+4800 *p
+2400 *o
+1200 *n
+.TE
+.PP
+The first byte of a data packet can be used for synchronization purposes.
+.SS Microsoft protocol
+The
+.B Microsoft
+protocol uses 1 start bit, 7 data bits, no parity
+and one stop bit at the speed of 1200 bits/sec.
+Data is sent to RxD in 3-byte packets.
+The
+.I dx
+and
+.I dy
+movements are sent as
+two's-complement,
+.I lb
+.RI ( rb )
+are set when the left (right)
+button is pressed:
+.PP
+.TS
+center;
+r c c c c c c c.
+byte d6 d5 d4 d3 d2 d1 d0
+1 1 lb rb dy7 dy6 dx7 dx6
+2 0 dx5 dx4 dx3 dx2 dx1 dx0
+3 0 dy5 dy4 dy3 dy2 dy1 dy0
+.TE
+.SS 3-button Microsoft protocol
+Original Microsoft mice only have two buttons.
+However, there are some
+three button mice which also use the Microsoft protocol.
+Pressing or
+releasing the middle button is reported by sending a packet with zero
+movement and no buttons pressed.
+(Thus, unlike for the other two buttons, the status of the middle
+button is not reported in each packet.)
+.SS Logitech protocol
+Logitech serial 3-button mice use a different extension of the
+Microsoft protocol: when the middle button is up, the above 3-byte
+packet is sent.
+When the middle button is down a 4-byte packet is
+sent, where the 4th byte has value 0x20 (or at least has the 0x20
+bit set).
+In particular, a press of the middle button is reported
+as 0,0,0,0x20 when no other buttons are down.
+.SS Mousesystems protocol
+The
+.B Mousesystems
+protocol uses 1 start bit, 8 data bits, no parity,
+and two stop bits at the speed of 1200 bits/sec.
+Data is sent to RxD in
+5-byte packets.
+.I dx
+is sent as the sum of the two two's-complement
+values,
+.I dy
+is send as negated sum of the two two's-complement
+values.
+.I lb
+.RI ( mb ,
+.IR rb )
+are cleared when the left (middle,
+right) button is pressed:
+.PP
+.TS
+center;
+r c c c c c c c c.
+byte d7 d6 d5 d4 d3 d2 d1 d0
+1 1 0 0 0 0 lb mb rb
+2 0 dxa6 dxa5 dxa4 dxa3 dxa2 dxa1 dxa0
+3 0 dya6 dya5 dya4 dya3 dya2 dya1 dya0
+4 0 dxb6 dxb5 dxb4 dxb3 dxb2 dxb1 dxb0
+5 0 dyb6 dyb5 dyb4 dyb3 dyb2 dyb1 dyb0
+.TE
+.PP
+Bytes 4 and 5 describe the change that occurred since bytes 2 and 3
+were transmitted.
+.SS Sun protocol
+The
+.B Sun
+protocol is the 3-byte version of the above 5-byte
+Mousesystems protocol: the last two bytes are not sent.
+.SS MM protocol
+The
+.B MM
+protocol uses 1 start bit, 8 data bits, odd parity, and one
+stop bit at the speed of 1200 bits/sec.
+Data is sent to RxD in 3-byte
+packets.
+.I dx
+and
+.I dy
+are sent as single signed values, the
+sign bit indicating a negative value.
+.I lb
+.RI ( mb ,
+.IR rb )
+are
+set when the left (middle, right) button is pressed:
+.PP
+.TS
+center;
+r c c c c c c c c.
+byte d7 d6 d5 d4 d3 d2 d1 d0
+1 1 0 0 dxs dys lb mb rb
+2 0 dx6 dx5 dx4 dx3 dx2 dx1 dx0
+3 0 dy6 dy5 dy4 dy3 dy2 dy1 dy0
+.TE
+.SH FILES
+.TP
+.I /dev/mouse
+A commonly used symbolic link pointing to a mouse device.
+.SH SEE ALSO
+.BR ttyS (4),
+.BR gpm (8)
diff --git a/upstream/opensuse-leap-15-6/man4/msr.4 b/upstream/opensuse-leap-15-6/man4/msr.4
new file mode 100644
index 00000000..d3c97c24
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/msr.4
@@ -0,0 +1,42 @@
+.\" Copyright (c) 2009 Intel Corporation, Author Andi Kleen
+.\" Some sentences copied from comments in arch/x86/kernel/msr.c
+.\"
+.\" SPDX-License-Identifier: Linux-man-pages-copyleft
+.\"
+.TH msr 4 2022-10-30 "Linux man-pages 6.04"
+.SH NAME
+msr \- x86 CPU MSR access device
+.SH DESCRIPTION
+.I /dev/cpu/CPUNUM/msr
+provides an interface to read and write the model-specific
+registers (MSRs) of an x86 CPU.
+.I CPUNUM
+is the number of the CPU to access as listed in
+.IR /proc/cpuinfo .
+.PP
+The register access is done by opening the file and seeking
+to the MSR number as offset in the file, and then
+reading or writing in chunks of 8 bytes.
+An I/O transfer of more than 8 bytes means multiple reads or writes
+of the same register.
+.PP
+This file is protected so that it can be read and written only by the user
+.IR root ,
+or members of the group
+.IR root .
+.SH NOTES
+The
+.I msr
+driver is not auto-loaded.
+On modular kernels you might need to use the following command
+to load it explicitly before use:
+.PP
+.in +4n
+.EX
+$ modprobe msr
+.EE
+.in
+.SH SEE ALSO
+Intel Corporation Intel 64 and IA-32 Architectures
+Software Developer's Manual Volume 3B Appendix B,
+for an overview of the Intel CPU MSRs.
diff --git a/upstream/opensuse-leap-15-6/man4/null.4 b/upstream/opensuse-leap-15-6/man4/null.4
new file mode 100644
index 00000000..b141ab36
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/null.4
@@ -0,0 +1,52 @@
+.\" Copyright (c) 1993 Michael Haardt (michael@moria.de),
+.\" Fri Apr 2 11:32:09 MET DST 1993
+.\"
+.\" SPDX-License-Identifier: GPL-2.0-or-later
+.\"
+.\" Modified Sat Jul 24 17:00:12 1993 by Rik Faith (faith@cs.unc.edu)
+.TH null 4 2023-02-05 "Linux man-pages 6.04"
+.SH NAME
+null, zero \- data sink
+.SH DESCRIPTION
+Data written to the
+.I /dev/null
+and
+.I /dev/zero
+special files is discarded.
+.PP
+Reads from
+.I /dev/null
+always return end of file (i.e.,
+.BR read (2)
+returns 0), whereas reads from
+.I /dev/zero
+always return bytes containing zero (\[aq]\e0\[aq] characters).
+.PP
+These devices are typically created by:
+.PP
+.in +4n
+.EX
+mknod \-m 666 /dev/null c 1 3
+mknod \-m 666 /dev/zero c 1 5
+chown root:root /dev/null /dev/zero
+.EE
+.in
+.SH FILES
+.I /dev/null
+.br
+.I /dev/zero
+.SH NOTES
+If these devices are not writable and readable for all users, many
+programs will act strangely.
+.PP
+Since Linux 2.6.31,
+.\" commit 2b83868723d090078ac0e2120e06a1cc94dbaef0
+reads from
+.I /dev/zero
+are interruptible by signals.
+(This change was made to help with bad latencies for large reads from
+.IR /dev/zero .)
+.SH SEE ALSO
+.BR chown (1),
+.BR mknod (1),
+.BR full (4)
diff --git a/upstream/opensuse-leap-15-6/man4/pts.4 b/upstream/opensuse-leap-15-6/man4/pts.4
new file mode 100644
index 00000000..49f02b7e
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/pts.4
@@ -0,0 +1,75 @@
+.\" This man page was written by Jeremy Phelps <jphelps@notreached.net>.
+.\" Notes added - aeb
+.\"
+.\" %%%LICENSE_START(FREELY_REDISTRIBUTABLE)
+.\" Redistribute and revise at will.
+.\" %%%LICENSE_END
+.\"
+.TH pts 4 2022-10-30 "Linux man-pages 6.04"
+.SH NAME
+ptmx, pts \- pseudoterminal master and slave
+.SH DESCRIPTION
+The file
+.I /dev/ptmx
+(the pseudoterminal multiplexor device)
+is a character file with major number 5 and
+minor number 2, usually with mode 0666 and ownership root:root.
+It is used to create a pseudoterminal master and slave pair.
+.PP
+When a process opens
+.IR /dev/ptmx ,
+it gets a file
+descriptor for a pseudoterminal master
+and a pseudoterminal slave device is created in the
+.I /dev/pts
+directory.
+Each file descriptor obtained by opening
+.I /dev/ptmx
+is an independent pseudoterminal master with its own associated slave,
+whose path can
+be found by passing the file descriptor to
+.BR ptsname (3).
+.PP
+Before opening the pseudoterminal slave, you must pass the master's file
+descriptor to
+.BR grantpt (3)
+and
+.BR unlockpt (3).
+.PP
+Once both the pseudoterminal master and slave are open, the slave provides
+processes with an interface that is identical to that of a real terminal.
+.PP
+Data written to the slave is presented on the master file descriptor as input.
+Data written to the master is presented to the slave as input.
+.PP
+In practice, pseudoterminals are used for implementing terminal emulators
+such as
+.BR xterm (1),
+in which data read from the pseudoterminal master is interpreted by the
+application in the same way
+a real terminal would interpret the data, and for implementing remote-login
+programs such as
+.BR sshd (8),
+in which data read from the pseudoterminal master is sent across the network
+to a client program that is connected to a terminal or terminal emulator.
+.PP
+Pseudoterminals can also be used to send input to programs that normally
+refuse to read input from pipes (such as
+.BR su (1),
+and
+.BR passwd (1)).
+.SH FILES
+.IR /dev/ptmx ,
+.I /dev/pts/*
+.SH NOTES
+The Linux support for the above (known as UNIX 98 pseudoterminal naming)
+is done using the
+.I devpts
+filesystem, which should be mounted on
+.IR /dev/pts .
+.SH SEE ALSO
+.BR getpt (3),
+.BR grantpt (3),
+.BR ptsname (3),
+.BR unlockpt (3),
+.BR pty (7)
diff --git a/upstream/opensuse-leap-15-6/man4/ram.4 b/upstream/opensuse-leap-15-6/man4/ram.4
new file mode 100644
index 00000000..bbe1c9b8
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/ram.4
@@ -0,0 +1,28 @@
+.\" Copyright (c) 1993 Michael Haardt (michael@moria.de),
+.\" Fri Apr 2 11:32:09 MET DST 1993
+.\"
+.\" SPDX-License-Identifier: GPL-2.0-or-later
+.\"
+.\" Modified Sat Jul 24 17:01:11 1993 by Rik Faith (faith@cs.unc.edu)
+.TH ram 4 2022-10-30 "Linux man-pages 6.04"
+.SH NAME
+ram \- ram disk device
+.SH DESCRIPTION
+The
+.I ram
+device is a block device to access the ram disk in raw mode.
+.PP
+It is typically created by:
+.PP
+.in +4n
+.EX
+mknod \-m 660 /dev/ram b 1 1
+chown root:disk /dev/ram
+.EE
+.in
+.SH FILES
+.I /dev/ram
+.SH SEE ALSO
+.BR chown (1),
+.BR mknod (1),
+.BR mount (8)
diff --git a/upstream/opensuse-leap-15-6/man4/random.4 b/upstream/opensuse-leap-15-6/man4/random.4
new file mode 100644
index 00000000..2781ec4d
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/random.4
@@ -0,0 +1,347 @@
+.\" Copyright (c) 1997 John S. Kallal (kallal@voicenet.com)
+.\"
+.\" SPDX-License-Identifier: GPL-2.0-or-later
+.\"
+.\" Some changes by tytso and aeb.
+.\"
+.\" 2004-12-16, John V. Belmonte/mtk, Updated init and quit scripts
+.\" 2004-04-08, AEB, Improved description of read from /dev/urandom
+.\" 2008-06-20, George Spelvin <linux@horizon.com>,
+.\" Matt Mackall <mpm@selenic.com>
+.\"
+.TH random 4 2022-12-04 "Linux man-pages 6.04"
+.SH NAME
+random, urandom \- kernel random number source devices
+.SH SYNOPSIS
+.nf
+#include <linux/random.h>
+.PP
+.BI "int ioctl(" fd ", RND" request ", " param ");"
+.fi
+.SH DESCRIPTION
+The character special files \fI/dev/random\fP and
+\fI/dev/urandom\fP (present since Linux 1.3.30)
+provide an interface to the kernel's random number generator.
+The file
+.I /dev/random
+has major device number 1 and minor device number 8.
+The file
+.I /dev/urandom
+has major device number 1 and minor device number 9.
+.PP
+The random number generator gathers environmental noise
+from device drivers and other sources into an entropy pool.
+The generator also keeps an estimate of the
+number of bits of noise in the entropy pool.
+From this entropy pool, random numbers are created.
+.PP
+Linux 3.17 and later provides the simpler and safer
+.BR getrandom (2)
+interface which requires no special files;
+see the
+.BR getrandom (2)
+manual page for details.
+.PP
+When read, the
+.I /dev/urandom
+device returns random bytes using a pseudorandom
+number generator seeded from the entropy pool.
+Reads from this device do not block (i.e., the CPU is not yielded),
+but can incur an appreciable delay when requesting large amounts of data.
+.PP
+When read during early boot time,
+.I /dev/urandom
+may return data prior to the entropy pool being initialized.
+.\" This is a real problem; see
+.\" commit 9b4d008787f864f17d008c9c15bbe8a0f7e2fc24
+If this is of concern in your application, use
+.BR getrandom (2)
+or \fI/dev/random\fP instead.
+.PP
+The \fI/dev/random\fP device is a legacy interface which dates back to
+a time where the cryptographic primitives used in the implementation
+of \fI/dev/urandom\fP were not widely trusted.
+It will return random bytes only within the estimated number of
+bits of fresh noise in the entropy pool, blocking if necessary.
+\fI/dev/random\fP is suitable for applications that need
+high quality randomness, and can afford indeterminate delays.
+.PP
+When the entropy pool is empty, reads from \fI/dev/random\fP will block
+until additional environmental noise is gathered.
+Since Linux 5.6, the
+.B O_NONBLOCK
+flag is ignored as
+.I /dev/random
+will no longer block except during early boot process.
+In earlier versions, if
+.BR open (2)
+is called for
+.I /dev/random
+with the
+.B O_NONBLOCK
+flag, a subsequent
+.BR read (2)
+will not block if the requested number of bytes is not available.
+Instead, the available bytes are returned.
+If no byte is available,
+.BR read (2)
+will return \-1 and
+.I errno
+will be set to
+.BR EAGAIN .
+.PP
+The
+.B O_NONBLOCK
+flag has no effect when opening
+.IR /dev/urandom .
+When calling
+.BR read (2)
+for the device
+.IR /dev/urandom ,
+reads of up to 256 bytes will return as many bytes as are requested
+and will not be interrupted by a signal handler.
+Reads with a buffer over this limit may return less than the
+requested number of bytes or fail with the error
+.BR EINTR ,
+if interrupted by a signal handler.
+.PP
+Since Linux 3.16,
+.\" commit 79a8468747c5f95ed3d5ce8376a3e82e0c5857fc
+a
+.BR read (2)
+from
+.I /dev/urandom
+will return at most 32\ MB.
+A
+.BR read (2)
+from
+.I /dev/random
+will return at most 512 bytes
+.\" SEC_XFER_SIZE in drivers/char/random.c
+(340 bytes before Linux 2.6.12).
+.PP
+Writing to \fI/dev/random\fP or \fI/dev/urandom\fP will update the
+entropy pool with the data written, but this will not result in a
+higher entropy count.
+This means that it will impact the contents
+read from both files, but it will not make reads from
+\fI/dev/random\fP faster.
+.SS Usage
+The
+.I /dev/random
+interface is considered a legacy interface, and
+.I /dev/urandom
+is preferred and sufficient in all use cases, with the exception of
+applications which require randomness during early boot time; for
+these applications,
+.BR getrandom (2)
+must be used instead,
+because it will block until the entropy pool is initialized.
+.PP
+If a seed file is saved across reboots as recommended below,
+the output is
+cryptographically secure against attackers without local root access as
+soon as it is reloaded in the boot sequence, and perfectly adequate for
+network encryption session keys.
+(All major Linux distributions have saved the seed file across reboots
+since 2000 at least.)
+Since reads from
+.I /dev/random
+may block, users will usually want to open it in nonblocking mode
+(or perform a read with timeout),
+and provide some sort of user notification if the desired
+entropy is not immediately available.
+.\"
+.SS Configuration
+If your system does not have
+\fI/dev/random\fP and \fI/dev/urandom\fP created already, they
+can be created with the following commands:
+.PP
+.in +4n
+.EX
+mknod \-m 666 /dev/random c 1 8
+mknod \-m 666 /dev/urandom c 1 9
+chown root:root /dev/random /dev/urandom
+.EE
+.in
+.PP
+When a Linux system starts up without much operator interaction,
+the entropy pool may be in a fairly predictable state.
+This reduces the actual amount of noise in the entropy pool
+below the estimate.
+In order to counteract this effect, it helps to carry
+entropy pool information across shut-downs and start-ups.
+To do this, add the lines to an appropriate script
+which is run during the Linux system start-up sequence:
+.PP
+.in +4n
+.EX
+echo "Initializing random number generator..."
+random_seed=/var/run/random\-seed
+# Carry a random seed from start\-up to start\-up
+# Load and then save the whole entropy pool
+if [ \-f $random_seed ]; then
+ cat $random_seed >/dev/urandom
+else
+ touch $random_seed
+fi
+chmod 600 $random_seed
+poolfile=/proc/sys/kernel/random/poolsize
+[ \-r $poolfile ] && bits=$(cat $poolfile) || bits=4096
+bytes=$(expr $bits / 8)
+dd if=/dev/urandom of=$random_seed count=1 bs=$bytes
+.EE
+.in
+.PP
+Also, add the following lines in an appropriate script which is
+run during the Linux system shutdown:
+.PP
+.in +4n
+.EX
+# Carry a random seed from shut\-down to start\-up
+# Save the whole entropy pool
+echo "Saving random seed..."
+random_seed=/var/run/random\-seed
+touch $random_seed
+chmod 600 $random_seed
+poolfile=/proc/sys/kernel/random/poolsize
+[ \-r $poolfile ] && bits=$(cat $poolfile) || bits=4096
+bytes=$(expr $bits / 8)
+dd if=/dev/urandom of=$random_seed count=1 bs=$bytes
+.EE
+.in
+.PP
+In the above examples, we assume Linux 2.6.0 or later, where
+.I /proc/sys/kernel/random/poolsize
+returns the size of the entropy pool in bits (see below).
+.\"
+.SS /proc interfaces
+The files in the directory
+.I /proc/sys/kernel/random
+(present since Linux 2.3.16) provide additional information about the
+.I /dev/random
+device:
+.TP
+.I entropy_avail
+This read-only file gives the available entropy, in bits.
+This will be a number in the range 0 to 4096.
+.TP
+.I poolsize
+This file
+gives the size of the entropy pool.
+The semantics of this file vary across kernel versions:
+.RS
+.TP
+Linux 2.4:
+This file gives the size of the entropy pool in
+.IR bytes .
+Normally, this file will have the value 512, but it is writable,
+and can be changed to any value for which an algorithm is available.
+The choices are 32, 64, 128, 256, 512, 1024, or 2048.
+.TP
+Linux 2.6 and later:
+This file is read-only, and gives the size of the entropy pool in
+.IR bits .
+It contains the value 4096.
+.RE
+.TP
+.I read_wakeup_threshold
+This file
+contains the number of bits of entropy required for waking up processes
+that sleep waiting for entropy from
+.IR /dev/random .
+The default is 64.
+.TP
+.I write_wakeup_threshold
+This file
+contains the number of bits of entropy below which we wake up
+processes that do a
+.BR select (2)
+or
+.BR poll (2)
+for write access to
+.IR /dev/random .
+These values can be changed by writing to the files.
+.TP
+.IR uuid " and " boot_id
+These read-only files
+contain random strings like 6fd5a44b-35f4-4ad4-a9b9-6b9be13e1fe9.
+The former is generated afresh for each read, the latter was
+generated once.
+.\"
+.SS ioctl(2) interface
+The following
+.BR ioctl (2)
+requests are defined on file descriptors connected to either \fI/dev/random\fP
+or \fI/dev/urandom\fP.
+All requests performed will interact with the input
+entropy pool impacting both \fI/dev/random\fP and \fI/dev/urandom\fP.
+The
+.B CAP_SYS_ADMIN
+capability is required for all requests except
+.BR RNDGETENTCNT .
+.TP
+.B RNDGETENTCNT
+Retrieve the entropy count of the input pool, the contents will be the same
+as the
+.I entropy_avail
+file under proc.
+The result will be stored in the int pointed to by the argument.
+.TP
+.B RNDADDTOENTCNT
+Increment or decrement the entropy count of the input pool
+by the value pointed to by the argument.
+.TP
+.B RNDGETPOOL
+Removed in Linux 2.6.9.
+.TP
+.B RNDADDENTROPY
+Add some additional entropy to the input pool,
+incrementing the entropy count.
+This differs from writing to \fI/dev/random\fP or \fI/dev/urandom\fP,
+which only adds some
+data but does not increment the entropy count.
+The following structure is used:
+.IP
+.in +4n
+.EX
+struct rand_pool_info {
+ int entropy_count;
+ int buf_size;
+ __u32 buf[0];
+};
+.EE
+.in
+.IP
+Here
+.I entropy_count
+is the value added to (or subtracted from) the entropy count, and
+.I buf
+is the buffer of size
+.I buf_size
+which gets added to the entropy pool.
+.TP
+.BR RNDZAPENTCNT ", " RNDCLEARPOOL
+Zero the entropy count of all pools and add some system data (such as
+wall clock) to the pools.
+.SH FILES
+.I /dev/random
+.br
+.I /dev/urandom
+.SH NOTES
+For an overview and comparison of the various interfaces that
+can be used to obtain randomness, see
+.BR random (7).
+.SH BUGS
+During early boot time, reads from
+.I /dev/urandom
+may return data prior to the entropy pool being initialized.
+.\" .SH AUTHOR
+.\" The kernel's random number generator was written by
+.\" Theodore Ts'o (tytso@athena.mit.edu).
+.SH SEE ALSO
+.BR mknod (1),
+.BR getrandom (2),
+.BR random (7)
+.PP
+RFC\ 1750, "Randomness Recommendations for Security"
diff --git a/upstream/opensuse-leap-15-6/man4/rtc.4 b/upstream/opensuse-leap-15-6/man4/rtc.4
new file mode 100644
index 00000000..bb69bb35
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/rtc.4
@@ -0,0 +1,327 @@
+.\" rtc.4
+.\" Copyright 2002 Urs Thuermann (urs@isnogud.escape.de)
+.\"
+.\" SPDX-License-Identifier: GPL-2.0-or-later
+.\"
+.\" $Id: rtc.4,v 1.4 2005/12/05 17:19:49 urs Exp $
+.\"
+.\" 2006-02-08 Various additions by mtk
+.\" 2006-11-26 cleanup, cover the generic rtc framework; David Brownell
+.\"
+.TH rtc 4 2023-02-05 "Linux man-pages 6.04"
+.SH NAME
+rtc \- real-time clock
+.SH SYNOPSIS
+.nf
+#include <linux/rtc.h>
+.PP
+.BI "int ioctl(" fd ", RTC_" request ", " param ");"
+.fi
+.SH DESCRIPTION
+This is the interface to drivers for real-time clocks (RTCs).
+.PP
+Most computers have one or more hardware clocks which record the
+current "wall clock" time.
+These are called "Real Time Clocks" (RTCs).
+One of these usually has battery backup power so that it tracks the time
+even while the computer is turned off.
+RTCs often provide alarms and other interrupts.
+.PP
+All i386 PCs, and ACPI-based systems, have an RTC that is compatible with
+the Motorola MC146818 chip on the original PC/AT.
+Today such an RTC is usually integrated into the mainboard's chipset
+(south bridge), and uses a replaceable coin-sized backup battery.
+.PP
+Non-PC systems, such as embedded systems built around system-on-chip
+processors, use other implementations.
+They usually won't offer the same functionality as the RTC from a PC/AT.
+.SS RTC vs system clock
+RTCs should not be confused with the system clock, which is
+a software clock maintained by the kernel and used to implement
+.BR gettimeofday (2)
+and
+.BR time (2),
+as well as setting timestamps on files, and so on.
+The system clock reports seconds and microseconds since a start point,
+defined to be the POSIX Epoch: 1970-01-01 00:00:00 +0000 (UTC).
+(One common implementation counts timer interrupts, once
+per "jiffy", at a frequency of 100, 250, or 1000 Hz.)
+That is, it is supposed to report wall clock time, which RTCs also do.
+.PP
+A key difference between an RTC and the system clock is that RTCs
+run even when the system is in a low power state (including "off"),
+and the system clock can't.
+Until it is initialized, the system clock can only report time since
+system boot ... not since the POSIX Epoch.
+So at boot time, and after resuming from a system low power state, the
+system clock will often be set to the current wall clock time using an RTC.
+Systems without an RTC need to set the system clock using another clock,
+maybe across the network or by entering that data manually.
+.SS RTC functionality
+RTCs can be read and written with
+.BR hwclock (8),
+or directly with the
+.BR ioctl (2)
+requests listed below.
+.PP
+Besides tracking the date and time, many RTCs can also generate
+interrupts
+.IP \[bu] 3
+on every clock update (i.e., once per second);
+.IP \[bu]
+at periodic intervals with a frequency that can be set to
+any power-of-2 multiple in the range 2 Hz to 8192 Hz;
+.IP \[bu]
+on reaching a previously specified alarm time.
+.PP
+Each of those interrupt sources can be enabled or disabled separately.
+On many systems, the alarm interrupt can be configured as a system wakeup
+event, which can resume the system from a low power state such as
+Suspend-to-RAM (STR, called S3 in ACPI systems),
+Hibernation (called S4 in ACPI systems),
+or even "off" (called S5 in ACPI systems).
+On some systems, the battery backed RTC can't issue
+interrupts, but another one can.
+.PP
+The
+.I /dev/rtc
+(or
+.IR /dev/rtc0 ,
+.IR /dev/rtc1 ,
+etc.)
+device can be opened only once (until it is closed) and it is read-only.
+On
+.BR read (2)
+and
+.BR select (2)
+the calling process is blocked until the next interrupt from that RTC
+is received.
+Following the interrupt, the process can read a long integer, of which
+the least significant byte contains a bit mask encoding
+the types of interrupt that occurred,
+while the remaining 3 bytes contain the number of interrupts since the
+last
+.BR read (2).
+.SS ioctl(2) interface
+The following
+.BR ioctl (2)
+requests are defined on file descriptors connected to RTC devices:
+.TP
+.B RTC_RD_TIME
+Returns this RTC's time in the following structure:
+.IP
+.in +4n
+.EX
+struct rtc_time {
+ int tm_sec;
+ int tm_min;
+ int tm_hour;
+ int tm_mday;
+ int tm_mon;
+ int tm_year;
+ int tm_wday; /* unused */
+ int tm_yday; /* unused */
+ int tm_isdst; /* unused */
+};
+.EE
+.in
+.IP
+The fields in this structure have the same meaning and ranges as for the
+.I tm
+structure described in
+.BR gmtime (3).
+A pointer to this structure should be passed as the third
+.BR ioctl (2)
+argument.
+.TP
+.B RTC_SET_TIME
+Sets this RTC's time to the time specified by the
+.I rtc_time
+structure pointed to by the third
+.BR ioctl (2)
+argument.
+To set the
+RTC's time the process must be privileged (i.e., have the
+.B CAP_SYS_TIME
+capability).
+.TP
+.BR RTC_ALM_READ ", " RTC_ALM_SET
+Read and set the alarm time, for RTCs that support alarms.
+The alarm interrupt must be separately enabled or disabled using the
+.BR RTC_AIE_ON ", " RTC_AIE_OFF
+requests.
+The third
+.BR ioctl (2)
+argument is a pointer to an
+.I rtc_time
+structure.
+Only the
+.IR tm_sec ,
+.IR tm_min ,
+and
+.I tm_hour
+fields of this structure are used.
+.TP
+.BR RTC_IRQP_READ ", " RTC_IRQP_SET
+Read and set the frequency for periodic interrupts,
+for RTCs that support periodic interrupts.
+The periodic interrupt must be separately enabled or disabled using the
+.BR RTC_PIE_ON ", " RTC_PIE_OFF
+requests.
+The third
+.BR ioctl (2)
+argument is an
+.I "unsigned long\ *"
+or an
+.IR "unsigned long" ,
+respectively.
+The value is the frequency in interrupts per second.
+The set of allowable frequencies is the multiples of two
+in the range 2 to 8192.
+Only a privileged process (i.e., one having the
+.B CAP_SYS_RESOURCE
+capability) can set frequencies above the value specified in
+.IR /proc/sys/dev/rtc/max\-user\-freq .
+(This file contains the value 64 by default.)
+.TP
+.BR RTC_AIE_ON ", " RTC_AIE_OFF
+Enable or disable the alarm interrupt, for RTCs that support alarms.
+The third
+.BR ioctl (2)
+argument is ignored.
+.TP
+.BR RTC_UIE_ON ", " RTC_UIE_OFF
+Enable or disable the interrupt on every clock update,
+for RTCs that support this once-per-second interrupt.
+The third
+.BR ioctl (2)
+argument is ignored.
+.TP
+.BR RTC_PIE_ON ", " RTC_PIE_OFF
+Enable or disable the periodic interrupt,
+for RTCs that support these periodic interrupts.
+The third
+.BR ioctl (2)
+argument is ignored.
+Only a privileged process (i.e., one having the
+.B CAP_SYS_RESOURCE
+capability) can enable the periodic interrupt if the frequency is
+currently set above the value specified in
+.IR /proc/sys/dev/rtc/max\-user\-freq .
+.TP
+.BR RTC_EPOCH_READ ", " RTC_EPOCH_SET
+Many RTCs encode the year in an 8-bit register which is either
+interpreted as an 8-bit binary number or as a BCD number.
+In both cases,
+the number is interpreted relative to this RTC's Epoch.
+The RTC's Epoch is
+initialized to 1900 on most systems but on Alpha and MIPS it might
+also be initialized to 1952, 1980, or 2000, depending on the value of
+an RTC register for the year.
+With some RTCs,
+these operations can be used to read or to set the RTC's Epoch,
+respectively.
+The third
+.BR ioctl (2)
+argument is an
+.I "unsigned long\ *"
+or an
+.IR "unsigned long" ,
+respectively, and the value returned (or assigned) is the Epoch.
+To set the RTC's Epoch the process must be privileged (i.e., have the
+.B CAP_SYS_TIME
+capability).
+.TP
+.BR RTC_WKALM_RD ", " RTC_WKALM_SET
+Some RTCs support a more powerful alarm interface, using these ioctls
+to read or write the RTC's alarm time (respectively) with this structure:
+.PP
+.RS
+.in +4n
+.EX
+struct rtc_wkalrm {
+ unsigned char enabled;
+ unsigned char pending;
+ struct rtc_time time;
+};
+.EE
+.in
+.RE
+.IP
+The
+.I enabled
+flag is used to enable or disable the alarm interrupt,
+or to read its current status; when using these calls,
+.BR RTC_AIE_ON " and " RTC_AIE_OFF
+are not used.
+The
+.I pending
+flag is used by
+.B RTC_WKALM_RD
+to report a pending interrupt
+(so it's mostly useless on Linux, except when talking
+to the RTC managed by EFI firmware).
+The
+.I time
+field is as used with
+.B RTC_ALM_READ
+and
+.B RTC_ALM_SET
+except that the
+.IR tm_mday ,
+.IR tm_mon ,
+and
+.I tm_year
+fields are also valid.
+A pointer to this structure should be passed as the third
+.BR ioctl (2)
+argument.
+.SH FILES
+.TP
+.IR /dev/rtc ", " /dev/rtc0 ", " /dev/rtc1 ", etc."
+RTC special character device files.
+.TP
+.I /proc/driver/rtc
+status of the (first) RTC.
+.SH NOTES
+When the kernel's system time is synchronized with an external
+reference using
+.BR adjtimex (2)
+it will update a designated RTC periodically every 11 minutes.
+To do so, the kernel has to briefly turn off periodic interrupts;
+this might affect programs using that RTC.
+.PP
+An RTC's Epoch has nothing to do with the POSIX Epoch which is
+used only for the system clock.
+.PP
+If the year according to the RTC's Epoch and the year register is
+less than 1970 it is assumed to be 100 years later, that is, between 2000
+and 2069.
+.PP
+Some RTCs support "wildcard" values in alarm fields, to support
+scenarios like periodic alarms at fifteen minutes after every hour,
+or on the first day of each month.
+Such usage is nonportable;
+portable user-space code expects only a single alarm interrupt, and
+will either disable or reinitialize the alarm after receiving it.
+.PP
+Some RTCs support periodic interrupts with periods that are multiples
+of a second rather than fractions of a second;
+multiple alarms;
+programmable output clock signals;
+nonvolatile memory;
+and other hardware
+capabilities that are not currently exposed by this API.
+.SH SEE ALSO
+.BR date (1),
+.BR adjtimex (2),
+.BR gettimeofday (2),
+.BR settimeofday (2),
+.BR stime (2),
+.BR time (2),
+.BR gmtime (3),
+.BR time (7),
+.BR hwclock (8)
+.PP
+.I Documentation/rtc.txt
+in the Linux kernel source tree
diff --git a/upstream/opensuse-leap-15-6/man4/sd.4 b/upstream/opensuse-leap-15-6/man4/sd.4
new file mode 100644
index 00000000..87b958c9
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/sd.4
@@ -0,0 +1,117 @@
+.\" sd.4
+.\" Copyright 1992 Rickard E. Faith (faith@cs.unc.edu)
+.\"
+.\" SPDX-License-Identifier: Linux-man-pages-copyleft
+.\"
+.TH sd 4 2023-02-05 "Linux man-pages 6.04"
+.SH NAME
+sd \- driver for SCSI disk drives
+.SH SYNOPSIS
+.nf
+.BR "#include <linux/hdreg.h> " "/* for HDIO_GETGEO */"
+.BR "#include <linux/fs.h> " "/* for BLKGETSIZE and BLKRRPART */"
+.fi
+.SH CONFIGURATION
+The block device name has the following form:
+.BI sd lp,
+where
+.I l
+is a letter denoting the physical drive, and
+.I p
+is a number denoting the partition on that physical drive.
+Often, the partition number,
+.IR p ,
+will be left off when the device corresponds to the whole drive.
+.PP
+SCSI disks have a major device number of 8, and a minor device number of
+the form (16 *
+.IR drive_number ") + " partition_number ,
+where
+.I drive_number
+is the number of the physical drive in order of detection, and
+.I partition_number
+is as follows:
+.IP \[bu] 3
+partition 0 is the whole drive
+.IP \[bu]
+partitions 1\[en]4 are the DOS "primary" partitions
+.IP \[bu]
+partitions 5\[en]8 are the DOS "extended" (or "logical") partitions
+.PP
+For example,
+.I /dev/sda
+will have major 8, minor 0, and will refer to all of the first SCSI drive
+in the system; and
+.I /dev/sdb3
+will have major 8, minor 19, and will refer to the third DOS "primary"
+partition on the second SCSI drive in the system.
+.PP
+At this time, only block devices are provided.
+Raw devices have not yet been implemented.
+.SH DESCRIPTION
+The following
+.IR ioctl s
+are provided:
+.TP
+.B HDIO_GETGEO
+Returns the BIOS disk parameters in the following structure:
+.PP
+.in +4n
+.EX
+struct hd_geometry {
+ unsigned char heads;
+ unsigned char sectors;
+ unsigned short cylinders;
+ unsigned long start;
+};
+.EE
+.in
+.IP
+A pointer to this structure is passed as the
+.BR ioctl (2)
+parameter.
+.IP
+The information returned in the parameter is the disk geometry of the drive
+.I "as understood by DOS!"
+This geometry is
+.I not
+the physical geometry of the drive.
+It is used when constructing the
+drive's partition table, however, and is needed for convenient operation
+of
+.BR fdisk (1),
+.BR efdisk (1),
+and
+.BR lilo (1).
+If the geometry information is not available, zero will be returned for all
+of the parameters.
+.TP
+.B BLKGETSIZE
+Returns the device size in sectors.
+The
+.BR ioctl (2)
+parameter should be a pointer to a
+.IR long .
+.TP
+.B BLKRRPART
+Forces a reread of the SCSI disk partition tables.
+No parameter is needed.
+.IP
+The SCSI
+.BR ioctl (2)
+operations are also supported.
+If the
+.BR ioctl (2)
+parameter is required, and it is NULL, then
+.BR ioctl (2)
+fails with the error
+.BR EINVAL .
+.SH FILES
+.TP
+.I /dev/sd[a\-h]
+the whole device
+.TP
+.I /dev/sd[a\-h][0\-8]
+individual block partitions
+.\".SH SEE ALSO
+.\".BR scsi (4)
diff --git a/upstream/opensuse-leap-15-6/man4/sk98lin.4 b/upstream/opensuse-leap-15-6/man4/sk98lin.4
new file mode 100644
index 00000000..7304411f
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/sk98lin.4
@@ -0,0 +1,582 @@
+'\" t
+.\" (C)Copyright 1999-2003 Marvell(R) -- linux@syskonnect.de
+.\" sk98lin.4 1.1 2003/12/17 10:03:18
+.\"
+.\" SPDX-License-Identifier: GPL-2.0-or-later
+.\"
+.\" This manpage can be viewed using `groff -Tascii -man sk98lin.4 | less`
+.\"
+.TH sk98lin 4 2023-02-05 "Linux man-pages 6.04"
+.SH NAME
+sk98lin \- Marvell/SysKonnect Gigabit Ethernet driver v6.21
+.SH SYNOPSIS
+.B insmod sk98lin.o
+.RB [ Speed_A=\c
+.IR i,j,... ]
+.RB [ Speed_B=\c
+.IR i,j,... ]
+.RB [ AutoNeg_A=\c
+.IR i,j,... ]
+.RB [ AutoNeg_B=\c
+.IR i,j,... ]
+.RB [ DupCap_A=\c
+.IR i,j,... ]
+.RB [ DupCap_B=\c
+.IR i,j,... ]
+.RB [ FlowCtrl_A=\c
+.IR i,j,... ]
+.RB [ FlowCtrl_B=\c
+.IR i,j,... ]
+.RB [ Role_A=\c
+.IR i,j,... ]
+.RB [ Role_B=\c
+.IR i,j,... ]
+.RB [ ConType=\c
+.IR i,j,... ]
+.RB [ Moderation=\c
+.IR i,j,... ]
+.RB [ IntsPerSec=\c
+.IR i,j,... ]
+.RB [ PrefPort=\c
+.IR i,j,... ]
+.RB [ RlmtMode=\c
+.IR i,j,... ]
+.SH DESCRIPTION
+.ad l
+.hy 0
+.BR Note :
+This obsolete driver was removed in Linux 2.6.26.
+.PP
+.B sk98lin
+is the Gigabit Ethernet driver for
+Marvell and SysKonnect network adapter cards.
+It supports SysKonnect SK-98xx/SK-95xx
+compliant Gigabit Ethernet Adapter and
+any Yukon compliant chipset.
+.PP
+When loading the driver using insmod,
+parameters for the network adapter cards
+might be stated as a sequence of comma separated commands.
+If for instance two network adapters are installed and AutoNegotiation on
+Port A of the first adapter should be ON,
+but on the Port A of the second adapter switched OFF, one must enter:
+.PP
+.in +4n
+.EX
+insmod sk98lin.o AutoNeg_A=On,Off
+.EE
+.in
+.PP
+After
+.B sk98lin
+is bound to one or more adapter cards and the
+.I /proc
+filesystem is mounted on your system, a dedicated statistics file
+will be created in the folder
+.I /proc/net/sk98lin
+for all ports of the installed network adapter cards.
+Those files are named
+.IR eth[x] ,
+where
+.I x
+is the number of the interface that has been assigned to a
+dedicated port by the system.
+.PP
+If loading is finished, any desired IP address can be
+assigned to the respective
+.I eth[x]
+interface using the
+.BR ifconfig (8)
+command.
+This causes the adapter to connect to the Ethernet and to display a status
+message on the console saying "ethx: network connection up using port y"
+followed by the configured or detected connection parameters.
+.PP
+The
+.B sk98lin
+also supports large frames (also called jumbo frames).
+Using jumbo frames can improve throughput tremendously when
+transferring large amounts of data.
+To enable large frames, the MTU (maximum transfer unit) size
+for an interface is to be set to a high value.
+The default MTU size is 1500 and can be changed up to 9000 (bytes).
+Setting the MTU size can be done when assigning the IP address
+to the interface or later by using the
+.BR ifconfig (8)
+command with the mtu parameter.
+If for instance eth0 needs an IP
+address and a large frame MTU size,
+the following two commands might be used:
+.PP
+.in +4n
+.EX
+ifconfig eth0 10.1.1.1
+ifconfig eth0 mtu 9000
+.EE
+.in
+.PP
+Those two commands might even be combined into one:
+.PP
+.in +4n
+.EX
+ifconfig eth0 10.1.1.1 mtu 9000
+.EE
+.in
+.PP
+Note that large frames can be used only if permitted by
+your network infrastructure.
+This means, that any switch being used in your Ethernet must
+also support large frames.
+Quite some switches support large frames,
+but need to be configured to do so.
+Most of the times, their default setting is to support only
+standard frames with an MTU size of 1500 (bytes).
+In addition to the switches inside the network,
+all network adapters that are to be used must also be
+enabled regarding jumbo frames.
+If an adapter is not set to receive large frames, it will simply drop them.
+.PP
+Switching back to the standard Ethernet frame size can be done by using the
+.BR ifconfig (8)
+command again:
+.PP
+.in +4n
+.EX
+ifconfig eth0 mtu 1500
+.EE
+.in
+.PP
+The Marvell/SysKonnect Gigabit Ethernet driver for Linux is able to
+support VLAN and Link Aggregation according to
+IEEE standards 802.1, 802.1q, and 802.3ad.
+Those features are available only after installation of open source modules
+which can be found on the Internet:
+.PP
+.IR VLAN \c
+:
+.UR http://www.candelatech.com\:/\[ti]greear\:/vlan.html
+.UE
+.br
+.I Link
+.IR Aggregation \c
+:
+.UR http://www.st.rim.or.jp\:/\[ti]yumo
+.UE
+.PP
+Note that Marvell/SysKonnect does not offer any support for these
+open source modules and does not take the responsibility for any
+kind of failures or problems arising when using these modules.
+.SS Parameters
+.TP
+.BI Speed_A= i,j,...
+This parameter is used to set the speed capabilities of port A of an
+adapter card.
+It is valid only for Yukon copper adapters.
+Possible values are:
+.IR 10 ,
+.IR 100 ,
+.IR 1000 ,
+or
+.IR Auto ;
+.I Auto
+is the default.
+Usually, the speed is negotiated between the two ports
+during link establishment.
+If this fails,
+a port can be forced to a specific setting with this parameter.
+.TP
+.BI Speed_B= i,j,...
+This parameter is used to set the speed capabilities of port B of
+an adapter card.
+It is valid only for Yukon copper adapters.
+Possible values are:
+.IR 10 ,
+.IR 100 ,
+.IR 1000 ,
+or
+.IR Auto ;
+.I Auto
+is the default.
+Usually, the speed is negotiated between the two ports during link
+establishment.
+If this fails,
+a port can be forced to a specific setting with this parameter.
+.TP
+.BI AutoNeg_A= i,j,...
+Enables or disables the use of autonegotiation of port A of an adapter card.
+Possible values are:
+.IR On ,
+.IR Off ,
+or
+.IR Sense ;
+.I On
+is the default.
+The
+.I Sense
+mode automatically detects whether the link partner supports
+auto-negotiation or not.
+.TP
+.BI AutoNeg_B= i,j,...
+Enables or disables the use of autonegotiation of port B of an adapter card.
+Possible values are:
+.IR On ,
+.IR Off ,
+or
+.IR Sense ;
+.I On
+is the default.
+The
+.I Sense
+mode automatically detects whether the link partner supports
+auto-negotiation or not.
+.TP
+.BI DupCap_A= i,j,...
+This parameter indicates the duplex mode to be used for port A
+of an adapter card.
+Possible values are:
+.IR Half ,
+.IR Full ,
+or
+.IR Both ;
+.I Both
+is the default.
+This parameter is relevant only if AutoNeg_A of port A is not set to
+.IR Sense .
+If AutoNeg_A is set to
+.IR On ,
+all three values of DupCap_A (
+.IR Half ,
+.IR Full ,
+or
+.IR Both )
+might be stated.
+If AutoNeg_A is set to
+.IR Off ,
+only DupCap_A values
+.I Full
+and
+.I Half
+are allowed.
+This DupCap_A parameter is useful if your link partner does not
+support all possible duplex combinations.
+.TP
+.BI DupCap_B= i,j,...
+This parameter indicates the duplex mode to be used for port B
+of an adapter card.
+Possible values are:
+.IR Half ,
+.IR Full ,
+or
+.IR Both ;
+.I Both
+is the default.
+This parameter is relevant only if AutoNeg_B of port B is not set to
+.IR Sense .
+If AutoNeg_B is set to
+.IR On ,
+all three values of DupCap_B (
+.IR Half ,
+.IR Full ,
+or
+.IR Both )
+might be stated.
+If AutoNeg_B is set to
+.IR Off ,
+only DupCap_B values
+.I Full
+and
+.I Half
+are allowed.
+This DupCap_B parameter is useful if your link partner does not
+support all possible duplex combinations.
+.TP
+.BI FlowCtrl_A= i,j,...
+This parameter can be used to set the flow control capabilities the
+port reports during auto-negotiation.
+Possible values are:
+.IR Sym ,
+.IR SymOrRem ,
+.IR LocSend ,
+or
+.IR None ;
+.I SymOrRem
+is the default.
+The different modes have the following meaning:
+.RS
+.TP
+.IR Sym " = Symmetric"
+Both link partners are allowed to send PAUSE frames.
+.TP
+.IR SymOrRem " = SymmetricOrRemote"
+Both or only remote partner are allowed to send PAUSE frames.
+.TP
+.IR LocSend " = LocalSend"
+Only local link partner is allowed to send PAUSE frames.
+.TP
+.IR None " = None"
+No link partner is allowed to send PAUSE frames.
+.RE
+.IP
+Note that this parameter is ignored if AutoNeg_A is set to
+.IR Off .
+.TP
+.BI FlowCtrl_B= i,j,...
+This parameter can be used to set the flow control capabilities the
+port reports during auto-negotiation.
+Possible values are:
+.IR Sym ,
+.IR SymOrRem ,
+.IR LocSend ,
+or
+.IR None ;
+.I SymOrRem
+is the default.
+The different modes have the following meaning:
+.RS
+.TP
+.IR Sym " = Symmetric"
+Both link partners are allowed to send PAUSE frames.
+.TP
+.IR SymOrRem " = SymmetricOrRemote"
+Both or only remote partner are allowed to send PAUSE frames.
+.TP
+.IR LocSend " = LocalSend"
+Only local link partner is allowed to send PAUSE frames.
+.TP
+.IR None " = None"
+No link partner is allowed to send PAUSE frames.
+.RE
+.IP
+Note that this parameter is ignored if AutoNeg_B is set to
+.IR Off .
+.TP
+.BI Role_A= i,j,...
+This parameter is valid only for 1000Base-T adapter cards.
+For two 1000Base-T ports to communicate,
+one must take the role of the master (providing timing information),
+while the other must be the slave.
+Possible values are:
+.IR Auto ,
+.IR Master ,
+or
+.IR Slave ;
+.I Auto
+is the default.
+Usually, the role of a port is negotiated between two ports during
+link establishment, but if that fails the port A of an adapter card
+can be forced to a specific setting with this parameter.
+.TP
+.BI Role_B= i,j,...
+This parameter is valid only for 1000Base-T adapter cards.
+For two 1000Base-T ports to communicate, one must take
+the role of the master (providing timing information),
+while the other must be the slave.
+Possible values are:
+.IR Auto ,
+.IR Master ,
+or
+.IR Slave ;
+.I Auto
+is the default.
+Usually, the role of a port is negotiated between
+two ports during link establishment, but if that fails
+the port B of an adapter card can be forced to a
+specific setting with this parameter.
+.TP
+.BI ConType= i,j,...
+This parameter is a combination of all five per-port parameters
+within one single parameter.
+This simplifies the configuration of both ports of an adapter card.
+The different values of this variable reflect the
+most meaningful combinations of port parameters.
+Possible values and their corresponding combination of per-port parameters:
+.IP
+.TS
+lb lb lb lb lb lb
+l l l l l l.
+ConType DupCap AutoNeg FlowCtrl Role Speed
+\fIAuto\fP Both On SymOrRem Auto Auto
+\fI100FD\fP Full Off None Auto 100
+\fI100HD\fP Half Off None Auto 100
+\fI10FD\fP Full Off None Auto 10
+\fI10HD\fP Half Off None Auto 10
+.TE
+.IP
+Stating any other port parameter together with this
+.I ConType
+parameter will result in a merged configuration of those settings.
+This is due to
+the fact, that the per-port parameters (e.g.,
+.IR Speed_A )
+have a higher priority than the combined variable
+.IR ConType .
+.TP
+.BI Moderation= i,j,...
+Interrupt moderation is employed to limit the maximum number of interrupts
+the driver has to serve.
+That is, one or more interrupts (which indicate any transmit or
+receive packet to be processed) are queued until the driver processes them.
+When queued interrupts are to be served, is determined by the
+.I IntsPerSec
+parameter, which is explained later below.
+Possible moderation modes are:
+.IR None ,
+.IR Static ,
+or
+.IR Dynamic ;
+.I None
+is the default.
+The different modes have the following meaning:
+.IP
+.I None
+No interrupt moderation is applied on the adapter card.
+Therefore, each transmit or receive interrupt is served immediately
+as soon as it appears on the interrupt line of the adapter card.
+.IP
+.I Static
+Interrupt moderation is applied on the adapter card.
+All transmit and receive interrupts are queued until
+a complete moderation interval ends.
+If such a moderation interval ends, all queued interrupts
+are processed in one big bunch without any delay.
+The term
+.I Static
+reflects the fact, that interrupt moderation is always enabled,
+regardless how much network load is currently passing via a
+particular interface.
+In addition, the duration of the moderation interval has a fixed
+length that never changes while the driver is operational.
+.IP
+.I Dynamic
+Interrupt moderation might be applied on the adapter card,
+depending on the load of the system.
+If the driver detects that the system load is too high,
+the driver tries to shield the system against too much network
+load by enabling interrupt moderation.
+If\[em]at a later time\[em]the CPU utilization decreases
+again (or if the network load is negligible), the interrupt
+moderation will automatically be disabled.
+.IP
+Interrupt moderation should be used when the driver has to
+handle one or more interfaces with a high network load,
+which\[em]as a consequence\[em]leads also to a high CPU utilization.
+When moderation is applied in such high network load situations,
+CPU load might be reduced by 20\[en]30% on slow computers.
+.IP
+Note that the drawback of using interrupt moderation is an increase of
+the round-trip-time (RTT), due to the queuing and serving of
+interrupts at dedicated moderation times.
+.TP
+.BI IntsPerSec= i,j,...
+This parameter determines the length of any interrupt moderation interval.
+Assuming that static interrupt moderation is to be used, an
+.I IntsPerSec
+parameter value of 2000 will lead to an interrupt moderation interval of
+500 microseconds.
+Possible values for this parameter are in the range of
+30...40000 (interrupts per second).
+The default value is 2000.
+.IP
+This parameter is used only if either static or dynamic interrupt moderation
+is enabled on a network adapter card.
+This parameter is ignored if no moderation is applied.
+.IP
+Note that the duration of the moderation interval is to be chosen with care.
+At first glance, selecting a very long duration (e.g., only 100 interrupts per
+second) seems to be meaningful, but the increase of packet-processing delay
+is tremendous.
+On the other hand, selecting a very short moderation time might
+compensate the use of any moderation being applied.
+.TP
+.BI PrefPort= i,j,...
+This parameter is used to force the preferred port to
+A or B (on dual-port network adapters).
+The preferred port is the one that is used if both ports A and B are
+detected as fully functional.
+Possible values are:
+.I A
+or
+.IR B ;
+.I A
+is the default.
+.TP
+.BI RlmtMode= i,j,...
+RLMT monitors the status of the port.
+If the link of the active port fails,
+RLMT switches immediately to the standby link.
+The virtual link is maintained as long as at least one "physical" link is up.
+This parameters states how RLMT should monitor both ports.
+Possible values are:
+.IR CheckLinkState ,
+.IR CheckLocalPort ,
+.IR CheckSeg ,
+or
+.IR DualNet ;
+.I CheckLinkState
+is the default.
+The different modes have the following meaning:
+.IP
+.I CheckLinkState
+Check link state only: RLMT uses the link state reported by the adapter
+hardware for each individual port to determine whether a port can be used
+for all network traffic or not.
+.IP
+.I CheckLocalPort
+In this mode, RLMT monitors the network path between the two
+ports of an adapter by regularly exchanging packets between them.
+This mode requires a network configuration in which the
+two ports are able to "see" each other (i.e., there
+must not be any router between the ports).
+.IP
+.I CheckSeg
+Check local port and segmentation:
+This mode supports the same functions as the CheckLocalPort
+mode and additionally checks network segmentation between the ports.
+Therefore, this mode is to be used only if Gigabit Ethernet
+switches are installed on the network that have been
+configured to use the Spanning Tree protocol.
+.IP
+.I DualNet
+In this mode, ports A and B are used as separate devices.
+If you have a dual port adapter, port A will be configured as
+.I eth[x]
+and port B as
+.IR eth[x+1] .
+Both ports can be used independently with distinct IP addresses.
+The preferred port setting is not used.
+RLMT is turned off.
+.IP
+Note that RLMT modes
+.I CheckLocalPort
+and
+.I CheckLinkState
+are designed to operate in configurations where a
+network path between the ports on one adapter exists.
+Moreover, they are not designed to work where adapters are
+connected back-to-back.
+.SH FILES
+.TP
+.I /proc/net/sk98lin/eth[x]
+The statistics file of a particular interface of an adapter card.
+It contains generic information about the adapter card plus a detailed
+summary of all transmit and receive counters.
+.TP
+.I /usr/src/linux/Documentation/networking/sk98lin.txt
+This is the
+.I README
+file of the
+.I sk98lin
+driver.
+It contains a detailed installation HOWTO and describes all parameters
+of the driver.
+It denotes also common problems and provides the solution to them.
+.SH BUGS
+Report any bugs to linux@syskonnect.de
+.\" .SH AUTHORS
+.\" Ralph Roesler \[em] rroesler@syskonnect.de
+.\" .br
+.\" Mirko Lindner \[em] mlindner@syskonnect.de
+.SH SEE ALSO
+.BR ifconfig (8),
+.BR insmod (8),
+.BR modprobe (8)
diff --git a/upstream/opensuse-leap-15-6/man4/smartpqi.4 b/upstream/opensuse-leap-15-6/man4/smartpqi.4
new file mode 100644
index 00000000..b896f737
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/smartpqi.4
@@ -0,0 +1,326 @@
+'\" t
+.\" Copyright (C) 2019, Microchip Technology Inc. and its subsidiaries
+.\" Copyright (C) 2016-2018, Microsemi Corporation
+.\" Copyright (C) 2016, PMC-Sierra, Inc.
+.\" Written by Kevin Barnett <kevin.barnett@microsemi.com>
+.\"
+.\" SPDX-License-Identifier: GPL-2.0-only
+.TH smartpqi 4 2022-12-15 "Linux man-pages 6.04"
+.SH NAME
+smartpqi \- Microsemi Smart Family SCSI driver
+.SH SYNOPSIS
+.SY "modprobe smartpqi"
+.RB [ disable_device_id_wildcards= { 0 | 1 }]
+.RB [ disable_heartbeat= { 0 | 1 }]
+.RB [ disable_ctrl_shutdown= { 0 | 1 }]
+.RB [ lockup_action= { none | reboot | panic }]
+.RB [ expose_ld_first= { 0 | 1 }]
+.RB [ hide_vsep= { 0 | 1 }]
+.YS
+.SH DESCRIPTION
+.B smartpqi
+is a SCSI driver for Microsemi Smart Family controllers.
+.SS Supported \f[BI]ioctl\fP\/() operations
+For compatibility with applications written for the
+.BR cciss (4)
+and
+.BR hpsa (4)
+drivers, many, but not all of the
+.BR ioctl (2)
+operations supported by the
+.B hpsa
+driver are also supported by the
+.B smartpqi
+driver.
+The data structures used by these operations
+are described in the Linux kernel source file
+.IR include/linux/cciss_ioctl.h .
+.TP
+.BR CCISS_DEREGDISK ", " CCISS_REGNEWDISK ", " CCISS_REGNEWD
+These operations
+all do exactly the same thing, which is to cause the driver to re-scan
+for new devices.
+This does exactly the same thing as writing to the
+.BR smartpqi -specific
+host
+.I rescan
+attribute.
+.TP
+.B CCISS_GETPCIINFO
+This operation returns the PCI domain, bus,
+device, and function and "board ID" (PCI subsystem ID).
+.TP
+.B CCISS_GETDRIVVER
+This operation returns the driver version in four bytes, encoded as:
+.IP
+.in +4n
+.EX
+(major_version << 28) | (minor_version << 24) |
+ (release << 16) | revision
+.EE
+.in
+.TP
+.B CCISS_PASSTHRU
+Allows BMIC and CISS commands to be passed through to the controller.
+.SS Boot options
+.TP
+.BR disable_device_id_wildcards= { 0 | 1 }
+Disables support for device ID wildcards.
+The default value is 0.
+.TP
+.BR disable_heartbeat= { 0 | 1 }
+Disables support for the controller's heartbeat check.
+This parameter is used for debugging purposes.
+The default value is 0, leaving the controller's heartbeat check active.
+.TP
+.BR disable_ctrl_shutdown= { 0 | 1 }
+Disables support for shutting down the controller in the
+event of a controller lockup.
+The default value is 0.
+.TP
+.BR lockup_action= { none | reboot | panic }
+Specifies the action the driver takes when a controller
+lockup is detected.
+The default action is
+.BR none .
+.TS
+l l
+---
+l l.
+parameter action
+\fBnone\fP take controller offline only
+\fBreboot\fP reboot the system
+\fBpanic\fP panic the system
+.TE
+.TP
+.BR expose_ld_first= { 0 | 1 }
+This option enables support for exposing logical devices to
+the operating system before physical devices.
+The default value is 0.
+.TP
+.BR hide_vsep= { 0 | 1 }
+This option enables disabling exposure of the virtual SEP to the host.
+This is usually associated with direct attached drives.
+The default value is 0.
+.SH FILES
+.SS Device nodes
+Logical drives are accessed via the SCSI disk driver
+.RI ( sd ),
+tape drives via the SCSI tape driver
+.RI ( st ),
+and the RAID controller via the SCSI generic driver
+.RI ( sg ),
+with device nodes named
+.IR /dev/sd *,
+.IR /dev/st *,
+and
+.IR /dev/sg *,
+respectively.
+.SS SmartPQI-specific host attribute files in \f[BI]/sys\fP
+.TP
+.IR /sys/class/scsi_host/host * /rescan
+The host
+.I rescan
+attribute is a write-only attribute.
+Writing to this attribute will cause the driver to scan for new,
+changed, or removed devices (e.g., hot-plugged tape drives, or newly
+configured or deleted logical drives) and notify the SCSI mid-layer of
+any changes detected.
+Usually this action is triggered automatically by configuration
+changes, so the user should not normally have to write to this file.
+Doing so may be useful when hot-plugging devices such as tape drives or
+entire storage boxes containing pre-configured logical drives.
+.TP
+.IR /sys/class/scsi_host/host * /version
+The host
+.I version
+attribute is a read-only attribute.
+This attribute contains the driver version and the controller firmware
+version.
+.IP
+For example:
+.IP
+.in +4n
+.EX
+$ \c
+.B cat /sys/class/scsi_host/host1/version
+driver: 1.1.2\-126
+firmware: 1.29\-112
+.EE
+.in
+.TP
+.IR /sys/class/scsi_host/host * /lockup_action
+The host
+.I lockup_action
+attribute is a read/write attribute.
+This attribute will cause the driver to perform a specific action in the
+unlikely event that a controller lockup has been detected.
+See
+.B OPTIONS
+above
+for an explanation of the
+.I lockup_action
+values.
+.TP
+.I /sys/class/scsi_host/host*/driver_version
+The
+.I driver_version
+attribute is read-only.
+This attribute contains the smartpqi driver version.
+.IP
+For example:
+.IP
+.in +4n
+.EX
+$ \c
+.B cat /sys/class/scsi_host/host1/driver_version
+1.1.2\-126
+.EE
+.in
+.TP
+.I /sys/class/scsi_host/host*/firmware_version
+The
+.I firmware_version
+attribute is read-only.
+This attribute contains the controller firmware version.
+.IP
+For example:
+.IP
+.in +4n
+.EX
+$ \c
+.B cat /sys/class/scsi_host/host1/firmware_version
+1.29\-112
+.EE
+.in
+.TP
+.I /sys/class/scsi_host/host*/model
+The
+.I model
+attribute is read-only.
+This attribute contains the product identification string of the controller.
+.IP
+For example:
+.IP
+.in +4n
+.EX
+$ \c
+.B cat /sys/class/scsi_host/host1/model
+1100\-16i
+.EE
+.in
+.TP
+.I /sys/class/scsi_host/host*/serial_number
+The
+.I serial_number
+attribute is read-only.
+This attribute contains the unique identification number of the controller.
+.IP
+For example:
+.IP
+.in +4n
+.EX
+$ \c
+.B cat /sys/class/scsi_host/host1/serial_number
+6A316373777
+.EE
+.in
+.TP
+.I /sys/class/scsi_host/host*/vendor
+The
+.I vendor
+attribute is read-only.
+This attribute contains the vendor identification string of the controller.
+.IP
+For example:
+.IP
+.in +4n
+.EX
+$ \c
+.B cat /sys/class/scsi_host/host1/vendor
+Adaptec
+.EE
+.in
+.SS SmartPQI-specific disk attribute files in \f[BI]/sys\fP
+In the file specifications below,
+.I c
+stands for the number of the appropriate SCSI controller,
+.I b
+is the bus number,
+.I t
+the target number, and
+.I l
+is the logical unit number (LUN).
+.TP
+.IR /sys/class/scsi_disk/ c : b : t : l /device/raid_level
+The
+.I raid_level
+attribute is read-only.
+This attribute contains the RAID level of each logical drive.
+.IP
+For example:
+.IP
+.in +4n
+.EX
+$ \c
+.B cat /sys/class/scsi_disk/4:0:0:0/device/raid_level
+RAID 0
+.EE
+.in
+.TP
+.IR /sys/class/scsi_disk/c : b : t : l/device/sas_address
+The
+.I sas_address
+attribute is read-only.
+This attribute contains the unique identifier of the disk.
+.IP
+For example:
+.IP
+.in +4n
+.EX
+$ \c
+.B cat /sys/class/scsi_disk/1:0:3:0/device/sas_address
+0x5001173d028543a2
+.EE
+.in
+.TP
+.IR /sys/class/scsi_disk/c : b : t : l/device/ssd_smart_path_enabled
+The
+.I ssd_smart_path_enabled
+attribute is read-only.
+This attribute is for ioaccel-enabled volumes.
+(Ioaccel is an alternative driver submission path that allows the
+driver to send I/O requests directly to backend SCSI devices,
+bypassing the controller firmware.
+This results in an increase in performance.
+This method is used for HBA disks and for logical volumes comprised of SSDs.)
+Contains 1 if ioaccel is enabled for the volume and 0 otherwise.
+.IP
+For example:
+.IP
+.in +4n
+.EX
+$ \c
+.B cat /sys/class/scsi_disk/1:0:3:0/device/ssd_smart_path_enabled
+0
+.EE
+.in
+.SH VERSIONS
+The
+.B smartpqi
+driver was added in Linux 4.9.
+.SH NOTES
+.SS Configuration
+To configure a Microsemi Smart Family controller,
+refer to the User Guide for the controller,
+which can be found by searching for the specific controller at
+.UR https://storage.microsemi.com/
+.UE .
+.SH SEE ALSO
+.BR cciss (4),
+.BR hpsa (4),
+.BR sd (4),
+.BR st (4)
+.PP
+.I Documentation/ABI/testing/sysfs\-bus\-pci\-devices\-cciss
+in the Linux kernel source tree.
diff --git a/upstream/opensuse-leap-15-6/man4/st.4 b/upstream/opensuse-leap-15-6/man4/st.4
new file mode 100644
index 00000000..641595c6
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/st.4
@@ -0,0 +1,950 @@
+.\" Copyright 1995 Robert K. Nichols (Robert.K.Nichols@att.com)
+.\" Copyright 1999-2005 Kai Mäkisara (Kai.Makisara@kolumbus.fi)
+.\"
+.\" SPDX-License-Identifier: Linux-man-pages-copyleft
+.TH st 4 2023-02-05 "Linux man-pages 6.04"
+.SH NAME
+st \- SCSI tape device
+.SH SYNOPSIS
+.nf
+.B #include <sys/mtio.h>
+.PP
+.BI "int ioctl(int " fd ", int " request " [, (void *)" arg3 "]);"
+.BI "int ioctl(int " fd ", MTIOCTOP, (struct mtop *)" mt_cmd );
+.BI "int ioctl(int " fd ", MTIOCGET, (struct mtget *)" mt_status );
+.BI "int ioctl(int " fd ", MTIOCPOS, (struct mtpos *)" mt_pos );
+.fi
+.SH DESCRIPTION
+The
+.B st
+driver provides the interface to a variety of SCSI tape devices.
+Currently, the driver takes control of all detected devices of type
+\[lq]sequential-access\[rq].
+The
+.B st
+driver uses major device number 9.
+.PP
+Each device uses eight minor device numbers.
+The lowermost five bits
+in the minor numbers are assigned sequentially in the order of
+detection.
+In the 2.6 kernel, the bits above the eight lowermost bits are
+concatenated to the five lowermost bits to form the tape number.
+The minor numbers can be grouped into
+two sets of four numbers: the principal (auto-rewind) minor device numbers,
+.IR n ,
+and the \[lq]no-rewind\[rq] device numbers,
+.RI ( n " + 128)."
+Devices opened using the principal device number will be sent a
+.B REWIND
+command when they are closed.
+Devices opened using the \[lq]no-rewind\[rq] device number will not.
+(Note that using an auto-rewind device for positioning the tape with,
+for instance, mt does not lead to the desired result: the tape is
+rewound after the mt command and the next command starts from the
+beginning of the tape).
+.PP
+Within each group, four minor numbers are available to define
+devices with different characteristics (block size, compression,
+density, etc.)
+When the system starts up, only the first device is available.
+The other three are activated when the default
+characteristics are defined (see below).
+(By changing compile-time
+constants, it is possible to change the balance between the maximum
+number of tape drives and the number of minor numbers for each
+drive.
+The default allocation allows control of 32 tape drives.
+For instance, it is possible to control up to 64 tape drives
+with two minor numbers for different options.)
+.PP
+Devices are typically created by:
+.PP
+.in +4n
+.EX
+mknod \-m 666 /dev/st0 c 9 0
+mknod \-m 666 /dev/st0l c 9 32
+mknod \-m 666 /dev/st0m c 9 64
+mknod \-m 666 /dev/st0a c 9 96
+mknod \-m 666 /dev/nst0 c 9 128
+mknod \-m 666 /dev/nst0l c 9 160
+mknod \-m 666 /dev/nst0m c 9 192
+mknod \-m 666 /dev/nst0a c 9 224
+.EE
+.in
+.PP
+There is no corresponding block device.
+.PP
+The driver uses an internal buffer that has to be large enough to hold
+at least one tape block.
+Before Linux 2.1.121, the buffer is
+allocated as one contiguous block.
+This limits the block size to the
+largest contiguous block of memory the kernel allocator can provide.
+The limit is currently 128\ kB for 32-bit architectures and
+256\ kB for 64-bit architectures.
+In newer kernels the driver
+allocates the buffer in several parts if necessary.
+By default, the
+maximum number of parts is 16.
+This means that the maximum block size
+is very large (2\ MB if allocation of 16 blocks of 128\ kB succeeds).
+.PP
+The driver's internal buffer size is determined by a compile-time
+constant which can be overridden with a kernel startup option.
+In addition to this, the driver tries to allocate a larger temporary
+buffer at run time if necessary.
+However, run-time allocation of large
+contiguous blocks of memory may fail and it is advisable not to rely
+too much on dynamic buffer allocation before Linux 2.1.121
+(this applies also to demand-loading the driver with kerneld or kmod).
+.PP
+The driver does not specifically support any tape drive brand or
+model.
+After system start-up the tape device options are defined by
+the drive firmware.
+For example, if the drive firmware selects fixed-block mode,
+the tape device uses fixed-block mode.
+The options can
+be changed with explicit
+.BR ioctl (2)
+calls and remain in effect when the device is closed and reopened.
+Setting the options affects both the auto-rewind and the nonrewind
+device.
+.PP
+Different options can be specified for the different devices within
+the subgroup of four.
+The options take effect when the device is
+opened.
+For example, the system administrator can define
+one device that writes in fixed-block mode with a certain block size,
+and one which writes in variable-block mode (if the drive supports
+both modes).
+.PP
+The driver supports
+.B tape partitions
+if they are supported by the drive.
+(Note that the tape partitions
+have nothing to do with disk partitions.
+A partitioned tape can be
+seen as several logical tapes within one medium.)
+Partition support has to be enabled with an
+.BR ioctl (2).
+The tape
+location is preserved within each partition across partition changes.
+The partition used for subsequent tape operations is
+selected with an
+.BR ioctl (2).
+The partition switch is executed together with
+the next tape operation in order to avoid unnecessary tape
+movement.
+The maximum number of partitions on a tape is defined by a
+compile-time constant (originally four).
+The driver contains an
+.BR ioctl (2)
+that can format a tape with either one or two partitions.
+.PP
+Device
+.I /dev/tape
+is usually created as a hard or soft link to the default tape device
+on the system.
+.PP
+Starting from Linux 2.6.2, the driver exports in the sysfs directory
+.I /sys/class/scsi_tape
+the attached devices and some parameters assigned to the devices.
+.SS Data transfer
+The driver supports operation in both fixed-block mode and
+variable-block mode (if supported by the drive).
+In fixed-block mode the drive
+writes blocks of the specified size and the block size is not
+dependent on the byte counts of the write system calls.
+In variable-block mode one tape block is written for each write call
+and the byte
+count determines the size of the corresponding tape block.
+Note that
+the blocks on the tape don't contain any information about the
+writing mode: when reading, the only important thing is to use
+commands that accept the block sizes on the tape.
+.PP
+In variable-block mode the read byte count does not have to match
+the tape block size exactly.
+If the byte count is larger than the
+next block on tape, the driver returns the data and the function
+returns the actual block size.
+If the block size is larger than the
+byte count, an error is returned.
+.PP
+In fixed-block mode the read byte counts can be arbitrary if
+buffering is enabled, or a multiple of the tape block size if
+buffering is disabled.
+Before Linux 2.1.121 allow writes with
+arbitrary byte count if buffering is enabled.
+In all other cases
+(before Linux 2.1.121 with buffering disabled or newer kernel) the
+write byte count must be a multiple of the tape block size.
+.PP
+In Linux 2.6, the driver tries to use direct transfers between the user
+buffer and the device.
+If this is not possible, the driver's internal buffer
+is used.
+The reasons for not using direct transfers include improper alignment
+of the user buffer (default is 512 bytes but this can be changed by the HBA
+driver), one or more pages of the user buffer not reachable by the
+SCSI adapter, and so on.
+.PP
+A filemark is automatically written to tape if the last tape operation
+before close was a write.
+.PP
+When a filemark is encountered while reading, the following
+happens.
+If there are data remaining in the buffer when the filemark
+is found, the buffered data is returned.
+The next read returns zero
+bytes.
+The following read returns data from the next file.
+The end of
+recorded data is signaled by returning zero bytes for two consecutive
+read calls.
+The third read returns an error.
+.SS Ioctls
+The driver supports three
+.BR ioctl (2)
+requests.
+Requests not recognized by the
+.B st
+driver are passed to the
+.B SCSI
+driver.
+The definitions below are from
+.IR /usr/include/linux/mtio.h :
+.SS MTIOCTOP \[em] perform a tape operation
+This request takes an argument of type
+.IR "(struct mtop\ *)" .
+Not all drives support all operations.
+The driver returns an
+.B EIO
+error if the drive rejects an operation.
+.PP
+.in +4n
+.EX
+/* Structure for MTIOCTOP \- mag tape op command: */
+struct mtop {
+ short mt_op; /* operations defined below */
+ int mt_count; /* how many of them */
+};
+.EE
+.in
+.PP
+Magnetic tape operations for normal tape use:
+.TP
+.B MTBSF
+Backward space over
+.I mt_count
+filemarks.
+.TP
+.B MTBSFM
+Backward space over
+.I mt_count
+filemarks.
+Reposition the tape to the EOT side of the last filemark.
+.TP
+.B MTBSR
+Backward space over
+.I mt_count
+records (tape blocks).
+.TP
+.B MTBSS
+Backward space over
+.I mt_count
+setmarks.
+.TP
+.B MTCOMPRESSION
+Enable compression of tape data within the drive if
+.I mt_count
+is nonzero and disable compression if
+.I mt_count
+is zero.
+This command uses the MODE page 15 supported by most DATs.
+.TP
+.B MTEOM
+Go to the end of the recorded media (for appending files).
+.TP
+.B MTERASE
+Erase tape.
+With Linux 2.6, short erase (mark tape empty) is performed if the
+argument is zero.
+Otherwise, long erase (erase all) is done.
+.TP
+.B MTFSF
+Forward space over
+.I mt_count
+filemarks.
+.TP
+.B MTFSFM
+Forward space over
+.I mt_count
+filemarks.
+Reposition the tape to the BOT side of the last filemark.
+.TP
+.B MTFSR
+Forward space over
+.I mt_count
+records (tape blocks).
+.TP
+.B MTFSS
+Forward space over
+.I mt_count
+setmarks.
+.TP
+.B MTLOAD
+Execute the SCSI load command.
+A special case is available for some HP
+autoloaders.
+If
+.I mt_count
+is the constant
+.B MT_ST_HPLOADER_OFFSET
+plus a number, the number is
+sent to the drive to control the autoloader.
+.TP
+.B MTLOCK
+Lock the tape drive door.
+.TP
+.B MTMKPART
+Format the tape into one or two partitions.
+If
+.I mt_count
+is positive, it gives the size of partition 1 and partition
+0 contains the rest of the tape.
+If
+.I mt_count
+is zero, the tape is formatted into one partition.
+From Linux 4.6,
+.\" commit 8038e6456a3e6f5c4759e0d73c4f9165b90c93e7
+a negative
+.I mt_count
+specifies the size of partition 0 and
+the rest of the tape contains partition 1.
+The physical ordering of partitions depends on the drive.
+This command is not allowed for a drive unless the partition support
+is enabled for the drive (see
+.B MT_ST_CAN_PARTITIONS
+below).
+.TP
+.B MTNOP
+No op\[em]flushes the driver's buffer as a side effect.
+Should be used before reading status with
+.BR MTIOCGET .
+.TP
+.B MTOFFL
+Rewind and put the drive off line.
+.TP
+.B MTRESET
+Reset drive.
+.TP
+.B MTRETEN
+Re-tension tape.
+.TP
+.B MTREW
+Rewind.
+.TP
+.B MTSEEK
+Seek to the tape block number specified in
+.IR mt_count .
+This operation requires either a SCSI-2 drive that supports the
+.B LOCATE
+command (device-specific address)
+or a Tandberg-compatible SCSI-1 drive (Tandberg, Archive
+Viper, Wangtek, ...).
+The block number should be one that was previously returned by
+.B MTIOCPOS
+if device-specific addresses are used.
+.TP
+.B MTSETBLK
+Set the drive's block length to the value specified in
+.IR mt_count .
+A block length of zero sets the drive to variable block size mode.
+.TP
+.B MTSETDENSITY
+Set the tape density to the code in
+.IR mt_count .
+The density codes supported by a drive can be found from the drive
+documentation.
+.TP
+.B MTSETPART
+The active partition is switched to
+.IR mt_count .
+The partitions are numbered from zero.
+This command is not allowed for
+a drive unless the partition support is enabled for the drive (see
+.B MT_ST_CAN_PARTITIONS
+below).
+.TP
+.B MTUNLOAD
+Execute the SCSI unload command (does not eject the tape).
+.TP
+.B MTUNLOCK
+Unlock the tape drive door.
+.TP
+.B MTWEOF
+Write
+.I mt_count
+filemarks.
+.TP
+.B MTWSM
+Write
+.I mt_count
+setmarks.
+.PP
+Magnetic tape operations for setting of device options (by the superuser):
+.TP
+.B MTSETDRVBUFFER
+Set various drive and driver options according to bits encoded in
+.IR mt_count .
+These consist of the drive's buffering mode, a set of Boolean driver
+options, the buffer write threshold, defaults for the block size and
+density, and timeouts (only since Linux 2.1).
+A single operation can affect only one item in the list below (the
+Booleans counted as one item.)
+.IP
+A value having zeros in the high-order 4 bits will be used to set the
+drive's buffering mode.
+The buffering modes are:
+.RS
+.TP
+.B 0
+The drive will not report
+.B GOOD
+status on write commands until the data
+blocks are actually written to the medium.
+.TP
+.B 1
+The drive may report
+.B GOOD
+status on write commands as soon as all the
+data has been transferred to the drive's internal buffer.
+.TP
+.B 2
+The drive may report
+.B GOOD
+status on write commands as soon as (a) all
+the data has been transferred to the drive's internal buffer, and
+(b) all buffered data from different initiators has been successfully
+written to the medium.
+.RE
+.IP
+To control the write threshold the value in
+.I mt_count
+must include the constant
+.B MT_ST_WRITE_THRESHOLD
+bitwise ORed with a block count in the low 28 bits.
+The block count refers to 1024-byte blocks, not the physical block
+size on the tape.
+The threshold cannot exceed the driver's internal buffer size (see
+DESCRIPTION, above).
+.IP
+To set and clear the Boolean options
+the value in
+.I mt_count
+must include one of the constants
+.BR MT_ST_BOOLEANS ,
+.BR MT_ST_SETBOOLEANS ,
+.BR MT_ST_CLEARBOOLEANS ,
+or
+.B MT_ST_DEFBOOLEANS
+bitwise ORed with
+whatever combination of the following options is desired.
+Using
+.B MT_ST_BOOLEANS
+the options can be set to the values
+defined in the corresponding bits.
+With
+.B MT_ST_SETBOOLEANS
+the options can be selectively set and with
+.B MT_ST_DEFBOOLEANS
+selectively cleared.
+.IP
+The default options for a tape device are set with
+.BR MT_ST_DEFBOOLEANS .
+A nonactive tape device (e.g., device with
+minor 32 or 160) is activated when the default options for it are
+defined the first time.
+An activated device inherits from the device
+activated at start-up the options not set explicitly.
+.IP
+The Boolean options are:
+.RS
+.TP
+.BR MT_ST_BUFFER_WRITES " (Default: true)"
+Buffer all write operations in fixed-block mode.
+If this option is false and the drive uses a fixed block size, then
+all write operations must be for a multiple of the block size.
+This option must be set false to write reliable multivolume archives.
+.TP
+.BR MT_ST_ASYNC_WRITES " (Default: true)"
+When this option is true, write operations return immediately without
+waiting for the data to be transferred to the drive if the data fits
+into the driver's buffer.
+The write threshold determines how full the buffer must be before a
+new SCSI write command is issued.
+Any errors reported by the drive will be held until the next
+operation.
+This option must be set false to write reliable multivolume archives.
+.TP
+.BR MT_ST_READ_AHEAD " (Default: true)"
+This option causes the driver to provide read buffering and
+read-ahead in fixed-block mode.
+If this option is false and the drive uses a fixed block size, then
+all read operations must be for a multiple of the block size.
+.TP
+.BR MT_ST_TWO_FM " (Default: false)"
+This option modifies the driver behavior when a file is closed.
+The normal action is to write a single filemark.
+If the option is true, the driver will write two filemarks and
+backspace over the second one.
+.IP
+Note:
+This option should not be set true for QIC tape drives since they are
+unable to overwrite a filemark.
+These drives detect the end of recorded data by testing for blank tape
+rather than two consecutive filemarks.
+Most other current drives also
+detect the end of recorded data and using two filemarks is usually
+necessary only when interchanging tapes with some other systems.
+.TP
+.BR MT_ST_DEBUGGING " (Default: false)"
+This option turns on various debugging messages from the driver
+(effective only if the driver was compiled with
+.B DEBUG
+defined nonzero).
+.TP
+.BR MT_ST_FAST_EOM " (Default: false)"
+This option causes the
+.B MTEOM
+operation to be sent directly to the
+drive, potentially speeding up the operation but causing the driver to
+lose track of the current file number normally returned by the
+.B MTIOCGET
+request.
+If
+.B MT_ST_FAST_EOM
+is false, the driver will respond to an
+.B MTEOM
+request by forward spacing over files.
+.TP
+.BR MT_ST_AUTO_LOCK " (Default: false)"
+When this option is true, the drive door is locked when the device file is
+opened and unlocked when it is closed.
+.TP
+.BR MT_ST_DEF_WRITES " (Default: false)"
+The tape options (block size, mode, compression, etc.) may change
+when changing from one device linked to a drive to another device
+linked to the same drive depending on how the devices are
+defined.
+This option defines when the changes are enforced by the
+driver using SCSI-commands and when the drives auto-detection
+capabilities are relied upon.
+If this option is false, the driver
+sends the SCSI-commands immediately when the device is changed.
+If the
+option is true, the SCSI-commands are not sent until a write is
+requested.
+In this case, the drive firmware is allowed to detect the
+tape structure when reading and the SCSI-commands are used only to
+make sure that a tape is written according to the correct specification.
+.TP
+.BR MT_ST_CAN_BSR " (Default: false)"
+When read-ahead is used, the tape must sometimes be spaced backward to the
+correct position when the device is closed and the SCSI command to
+space backward over records is used for this purpose.
+Some older
+drives can't process this command reliably and this option can be used
+to instruct the driver not to use the command.
+The end result is that,
+with read-ahead and fixed-block mode, the tape may not be correctly
+positioned within a file when the device is closed.
+With Linux 2.6, the
+default is true for drives supporting SCSI-3.
+.TP
+.BR MT_ST_NO_BLKLIMS " (Default: false)"
+Some drives don't accept the
+.B "READ BLOCK LIMITS"
+SCSI command.
+If this is used, the driver does not use the command.
+The drawback is
+that the driver can't check before sending commands if the selected
+block size is acceptable to the drive.
+.TP
+.BR MT_ST_CAN_PARTITIONS " (Default: false)"
+This option enables support for several partitions within a
+tape.
+The option applies to all devices linked to a drive.
+.TP
+.BR MT_ST_SCSI2LOGICAL " (Default: false)"
+This option instructs the driver to use the logical block addresses
+defined in the SCSI-2 standard when performing the seek and tell
+operations (both with
+.B MTSEEK
+and
+.B MTIOCPOS
+commands and when changing tape
+partition).
+Otherwise, the device-specific addresses are used.
+It is highly advisable to set this option if the drive supports the
+logical addresses because they count also filemarks.
+There are some
+drives that support only the logical block addresses.
+.TP
+.BR MT_ST_SYSV " (Default: false)"
+When this option is enabled, the tape devices use the System V
+semantics.
+Otherwise, the BSD semantics are used.
+The most important
+difference between the semantics is what happens when a device used
+for reading is closed: in System V semantics the tape is spaced forward
+past the next filemark if this has not happened while using the
+device.
+In BSD semantics the tape position is not changed.
+.TP
+.BR MT_NO_WAIT " (Default: false)"
+Enables immediate mode (i.e., don't wait for the command to finish) for some
+commands (e.g., rewind).
+.PP
+An example:
+.PP
+.in +4n
+.EX
+struct mtop mt_cmd;
+mt_cmd.mt_op = MTSETDRVBUFFER;
+mt_cmd.mt_count = MT_ST_BOOLEANS |
+ MT_ST_BUFFER_WRITES | MT_ST_ASYNC_WRITES;
+ioctl(fd, MTIOCTOP, mt_cmd);
+.EE
+.in
+.PP
+The default block size for a device can be set with
+.B MT_ST_DEF_BLKSIZE
+and the default density code can be set with
+.BR MT_ST_DEFDENSITY .
+The values for the parameters are or'ed
+with the operation code.
+.PP
+With Linux 2.1.x and later, the timeout values can be set with the
+subcommand
+.B MT_ST_SET_TIMEOUT
+ORed with the timeout in seconds.
+The long timeout (used for rewinds and other commands
+that may take a long time) can be set with
+.BR MT_ST_SET_LONG_TIMEOUT .
+The kernel defaults are very long to
+make sure that a successful command is not timed out with any
+drive.
+Because of this, the driver may seem stuck even if it is only
+waiting for the timeout.
+These commands can be used to set more
+practical values for a specific drive.
+The timeouts set for one device
+apply for all devices linked to the same drive.
+.PP
+Starting from Linux 2.4.19 and Linux 2.5.43, the driver supports a status
+bit which indicates whether the drive requests cleaning.
+The method used by the
+drive to return cleaning information is set using the
+.B MT_ST_SEL_CLN
+subcommand.
+If the value is zero, the cleaning
+bit is always zero.
+If the value is one, the TapeAlert data defined
+in the SCSI-3 standard is used (not yet implemented).
+Values 2\[en]17 are
+reserved.
+If the lowest eight bits are >= 18, bits from the extended
+sense data are used.
+The bits 9\[en]16 specify a mask to select the bits
+to look at and the bits 17\[en]23 specify the bit pattern to look for.
+If the bit pattern is zero, one or more bits under the mask indicate
+the cleaning request.
+If the pattern is nonzero, the pattern must match
+the masked sense data byte.
+.RE
+.SS MTIOCGET \[em] get status
+This request takes an argument of type
+.IR "(struct mtget\ *)" .
+.PP
+.in +4n
+.EX
+/* structure for MTIOCGET \- mag tape get status command */
+struct mtget {
+ long mt_type;
+ long mt_resid;
+ /* the following registers are device dependent */
+ long mt_dsreg;
+ long mt_gstat;
+ long mt_erreg;
+ /* The next two fields are not always used */
+ daddr_t mt_fileno;
+ daddr_t mt_blkno;
+};
+.EE
+.in
+.TP
+\fImt_type\fP
+The header file defines many values for
+.IR mt_type ,
+but the current driver reports only the generic types
+.B MT_ISSCSI1
+(Generic SCSI-1 tape)
+and
+.B MT_ISSCSI2
+(Generic SCSI-2 tape).
+.TP
+\fImt_resid\fP
+contains the current tape partition number.
+.TP
+\fImt_dsreg\fP
+reports the drive's current settings for block size (in the low 24
+bits) and density (in the high 8 bits).
+These fields are defined by
+.BR MT_ST_BLKSIZE_SHIFT ,
+.BR MT_ST_BLKSIZE_MASK ,
+.BR MT_ST_DENSITY_SHIFT ,
+and
+.BR MT_ST_DENSITY_MASK .
+.TP
+\fImt_gstat\fP
+reports generic (device independent) status information.
+The header file defines macros for testing these status bits:
+.RS
+.TP
+\fBGMT_EOF\fP(\fIx\fP)
+The tape is positioned just after a filemark
+(always false after an
+.B MTSEEK
+operation).
+.TP
+\fBGMT_BOT\fP(\fIx\fP)
+The tape is positioned at the beginning of the first file (always false
+after an
+.B MTSEEK
+operation).
+.TP
+\fBGMT_EOT\fP(\fIx\fP)
+A tape operation has reached the physical End Of Tape.
+.TP
+\fBGMT_SM\fP(\fIx\fP)
+The tape is currently positioned at a setmark
+(always false after an
+.B MTSEEK
+operation).
+.TP
+\fBGMT_EOD\fP(\fIx\fP)
+The tape is positioned at the end of recorded data.
+.TP
+\fBGMT_WR_PROT\fP(\fIx\fP)
+The drive is write-protected.
+For some drives this can also mean that the drive does not support
+writing on the current medium type.
+.TP
+\fBGMT_ONLINE\fP(\fIx\fP)
+The last
+.BR open (2)
+found the drive with a tape in place and ready for operation.
+.TP
+\fBGMT_D_6250\fP(\fIx\fP)
+.TQ
+\fBGMT_D_1600\fP(\fIx\fP)
+.TQ
+\fBGMT_D_800\fP(\fIx\fP)
+This \[lq]generic\[rq] status information reports the current
+density setting for 9-track \(12" tape drives only.
+.TP
+\fBGMT_DR_OPEN\fP(\fIx\fP)
+The drive does not have a tape in place.
+.TP
+\fBGMT_IM_REP_EN\fP(\fIx\fP)
+Immediate report mode.
+This bit is set if there are no guarantees that
+the data has been physically written to the tape when the write call
+returns.
+It is set zero only when the driver does not buffer data and
+the drive is set not to buffer data.
+.TP
+\fBGMT_CLN\fP(\fIx\fP)
+The drive has requested cleaning.
+Implemented since Linux 2.4.19 and Linux 2.5.43.
+.RE
+.TP
+\fImt_erreg\fP
+The only field defined in
+.I mt_erreg
+is the recovered error count in the low 16 bits (as defined by
+.B MT_ST_SOFTERR_SHIFT
+and
+.BR MT_ST_SOFTERR_MASK ).
+Due to inconsistencies in the way drives report recovered errors, this
+count is often not maintained (most drives do not by default report
+soft errors but this can be changed with a SCSI MODE SELECT command).
+.TP
+\fImt_fileno\fP
+reports the current file number (zero-based).
+This value is set to \-1 when the file number is unknown (e.g., after
+.B MTBSS
+or
+.BR MTSEEK ).
+.TP
+\fImt_blkno\fP
+reports the block number (zero-based) within the current file.
+This value is set to \-1 when the block number is unknown (e.g., after
+.BR MTBSF ,
+.BR MTBSS ,
+or
+.BR MTSEEK ).
+.SS MTIOCPOS \[em] get tape position
+This request takes an argument of type
+.I "(struct mtpos\ *)"
+and reports the drive's notion of the current tape block number,
+which is not the same as
+.I mt_blkno
+returned by
+.BR MTIOCGET .
+This drive must be a SCSI-2 drive that supports the
+.B "READ POSITION"
+command (device-specific address)
+or a Tandberg-compatible SCSI-1 drive (Tandberg, Archive
+Viper, Wangtek, ... ).
+.PP
+.in +4n
+.EX
+/* structure for MTIOCPOS \- mag tape get position command */
+struct mtpos {
+ long mt_blkno; /* current block number */
+};
+.EE
+.in
+.SH RETURN VALUE
+.TP
+.B EACCES
+An attempt was made to write or erase a write-protected tape.
+(This error is not detected during
+.BR open (2).)
+.TP
+.B EBUSY
+The device is already in use or the driver was unable to allocate a
+buffer.
+.TP
+.B EFAULT
+The command parameters point to memory not belonging to the calling
+process.
+.TP
+.B EINVAL
+An
+.BR ioctl (2)
+had an invalid argument, or a requested block size was invalid.
+.TP
+.B EIO
+The requested operation could not be completed.
+.TP
+.B ENOMEM
+The byte count in
+.BR read (2)
+is smaller than the next physical block on the tape.
+(Before Linux 2.2.18 and Linux 2.4.0 the extra bytes have been
+.\" Precisely: Linux 2.6.0-test6
+silently ignored.)
+.TP
+.B ENOSPC
+A write operation could not be completed because the tape reached
+end-of-medium.
+.TP
+.B ENOSYS
+Unknown
+.BR ioctl (2).
+.TP
+.B ENXIO
+During opening, the tape device does not exist.
+.TP
+.B EOVERFLOW
+An attempt was made to read or write a variable-length block that is
+larger than the driver's internal buffer.
+.TP
+.B EROFS
+Open is attempted with
+.B O_WRONLY
+or
+.B O_RDWR
+when the tape in the drive is write-protected.
+.SH FILES
+.TP
+.I /dev/st*
+the auto-rewind SCSI tape devices
+.TP
+.I /dev/nst*
+the nonrewind SCSI tape devices
+.\" .SH AUTHOR
+.\" The driver has been written by Kai M\(:akisara (Kai.Makisara@metla.fi)
+.\" starting from a driver written by Dwayne Forsyth.
+.\" Several other
+.\" people have also contributed to the driver.
+.SH NOTES
+.IP \[bu] 3
+When exchanging data between systems, both systems have to agree on
+the physical tape block size.
+The parameters of a drive after startup
+are often not the ones most operating systems use with these
+devices.
+Most systems use drives in variable-block mode if the drive
+supports that mode.
+This applies to most modern drives, including
+DATs, 8mm helical scan drives, DLTs, etc.
+It may be advisable to use
+these drives in variable-block mode also in Linux (i.e., use
+.B MTSETBLK
+or
+.B MTSETDEFBLK
+at system startup to set the mode), at least when
+exchanging data with a foreign system.
+The drawback of
+this is that a fairly large tape block size has to be used to get
+acceptable data transfer rates on the SCSI bus.
+.IP \[bu]
+Many programs (e.g.,
+.BR tar (1))
+allow the user to specify the blocking
+factor on the command line.
+Note that this determines the physical block
+size on tape only in variable-block mode.
+.IP \[bu]
+In order to use SCSI tape drives, the basic SCSI driver,
+a SCSI-adapter driver and the SCSI tape driver must be either
+configured into the kernel or loaded as modules.
+If the SCSI-tape
+driver is not present, the drive is recognized but the tape support
+described in this page is not available.
+.IP \[bu]
+The driver writes error messages to the console/log.
+The SENSE
+codes written into some messages are automatically translated to text
+if verbose SCSI messages are enabled in kernel configuration.
+.IP \[bu]
+The driver's internal buffering allows good throughput in fixed-block
+mode also with small
+.BR read (2)
+and
+.BR write (2)
+byte counts.
+With direct transfers
+this is not possible and may cause a surprise when moving to the 2.6
+kernel.
+The solution is to tell the software to use larger transfers (often
+telling it to use larger blocks).
+If this is not possible, direct transfers can be disabled.
+.SH SEE ALSO
+.BR mt (1)
+.PP
+The file
+.I drivers/scsi/README.st
+or
+.I Documentation/scsi/st.txt
+(kernel >= 2.6) in the Linux kernel source tree contains
+the most recent information about the driver and its configuration
+possibilities
diff --git a/upstream/opensuse-leap-15-6/man4/tty.4 b/upstream/opensuse-leap-15-6/man4/tty.4
new file mode 100644
index 00000000..e75395c1
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/tty.4
@@ -0,0 +1,67 @@
+.\" Copyright (c) 1993 Michael Haardt (michael@moria.de),
+.\" Fri Apr 2 11:32:09 MET DST 1993
+.\"
+.\" SPDX-License-Identifier: GPL-2.0-or-later
+.\"
+.\" Modified 1993-07-24 by Rik Faith (faith@cs.unc.edu)
+.\" Modified 2003-04-07 by Michael Kerrisk
+.\"
+.TH tty 4 2022-10-30 "Linux man-pages 6.04"
+.SH NAME
+tty \- controlling terminal
+.SH DESCRIPTION
+The file
+.I /dev/tty
+is a character file with major number 5 and
+minor number 0, usually with mode 0666 and ownership root:tty.
+It is a synonym for the controlling terminal of a process, if any.
+.PP
+In addition to the
+.BR ioctl (2)
+requests supported by the device that
+.B tty
+refers to, the
+.BR ioctl (2)
+request
+.B TIOCNOTTY
+is supported.
+.SS TIOCNOTTY
+Detach the calling process from its controlling terminal.
+.PP
+If the process is the session leader,
+then
+.B SIGHUP
+and
+.B SIGCONT
+signals are sent to the foreground process group
+and all processes in the current session lose their controlling tty.
+.PP
+This
+.BR ioctl (2)
+call works only on file descriptors connected
+to
+.IR /dev/tty .
+It is used by daemon processes when they are invoked
+by a user at a terminal.
+The process attempts to open
+.IR /dev/tty .
+If the open succeeds, it
+detaches itself from the terminal by using
+.BR TIOCNOTTY ,
+while if the
+open fails, it is obviously not attached to a terminal and does not need
+to detach itself.
+.SH FILES
+.I /dev/tty
+.SH SEE ALSO
+.BR chown (1),
+.BR mknod (1),
+.BR ioctl (2),
+.BR ioctl_console (2),
+.BR ioctl_tty (2),
+.BR termios (3),
+.BR ttyS (4),
+.BR vcs (4),
+.BR pty (7),
+.BR agetty (8),
+.BR mingetty (8)
diff --git a/upstream/opensuse-leap-15-6/man4/ttyS.4 b/upstream/opensuse-leap-15-6/man4/ttyS.4
new file mode 100644
index 00000000..1320fed2
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/ttyS.4
@@ -0,0 +1,33 @@
+.\" Copyright (c) 1993 Michael Haardt (michael@moria.de),
+.\" Fri Apr 2 11:32:09 MET DST 1993
+.\"
+.\" SPDX-License-Identifier: GPL-2.0-or-later
+.\"
+.\" Modified Sat Jul 24 17:03:24 1993 by Rik Faith (faith@cs.unc.edu)
+.TH ttyS 4 2022-10-30 "Linux man-pages 6.04"
+.SH NAME
+ttyS \- serial terminal lines
+.SH DESCRIPTION
+.B ttyS[0\-3]
+are character devices for the serial terminal lines.
+.PP
+They are typically created by:
+.PP
+.in +4n
+.EX
+mknod \-m 660 /dev/ttyS0 c 4 64 # base address 0x3f8
+mknod \-m 660 /dev/ttyS1 c 4 65 # base address 0x2f8
+mknod \-m 660 /dev/ttyS2 c 4 66 # base address 0x3e8
+mknod \-m 660 /dev/ttyS3 c 4 67 # base address 0x2e8
+chown root:tty /dev/ttyS[0\-3]
+.EE
+.in
+.SH FILES
+.I /dev/ttyS[0\-3]
+.SH SEE ALSO
+.BR chown (1),
+.BR mknod (1),
+.BR tty (4),
+.BR agetty (8),
+.BR mingetty (8),
+.BR setserial (8)
diff --git a/upstream/opensuse-leap-15-6/man4/vcs.4 b/upstream/opensuse-leap-15-6/man4/vcs.4
new file mode 100644
index 00000000..91998694
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/vcs.4
@@ -0,0 +1,172 @@
+.\" Copyright (c) 1995 James R. Van Zandt <jrv@vanzandt.mv.com>
+.\" Sat Feb 18 09:11:07 EST 1995
+.\"
+.\" SPDX-License-Identifier: GPL-2.0-or-later
+.\"
+.\" Modified, Sun Feb 26 15:08:05 1995, faith@cs.unc.edu
+.\" 2007-12-17, Samuel Thibault <samuel.thibault@ens-lyon.org>:
+.\" document the VT_GETHIFONTMASK ioctl
+.\" "
+.TH vcs 4 2023-02-05 "Linux man-pages 6.04"
+.SH NAME
+vcs, vcsa \- virtual console memory
+.SH DESCRIPTION
+.I /dev/vcs0
+is a character device with major number 7 and minor number
+0, usually with mode 0644 and ownership root:tty.
+It refers to the memory of the currently
+displayed virtual console terminal.
+.PP
+.I /dev/vcs[1\-63]
+are character devices for virtual console
+terminals, they have major number 7 and minor number 1 to 63, usually
+mode 0644 and ownership root:tty.
+.I /dev/vcsa[0\-63]
+are the same, but
+using
+.IR "unsigned short" s
+(in host byte order) that include attributes,
+and prefixed with four bytes giving the screen
+dimensions and cursor position:
+.IR lines ,
+.IR columns ,
+.IR x ,
+.IR y .
+.RI ( x
+=
+.I y
+= 0 at the top left corner of the screen.)
+.PP
+When a 512-character font is loaded,
+the 9th bit position can be fetched by applying the
+.BR ioctl (2)
+.B VT_GETHIFONTMASK
+operation
+(available since Linux 2.6.18)
+on
+.IR /dev/tty[1\-63] ;
+the value is returned in the
+.I "unsigned short"
+pointed to by the third
+.BR ioctl (2)
+argument.
+.PP
+These devices replace the screendump
+.BR ioctl (2)
+operations of
+.BR ioctl_console (2),
+so the system
+administrator can control access using filesystem permissions.
+.PP
+The devices for the first eight virtual consoles may be created by:
+.PP
+.in +4n
+.EX
+for x in 0 1 2 3 4 5 6 7 8; do
+ mknod \-m 644 /dev/vcs$x c 7 $x;
+ mknod \-m 644 /dev/vcsa$x c 7 $[$x+128];
+done
+chown root:tty /dev/vcs*
+.EE
+.in
+.PP
+No
+.BR ioctl (2)
+requests are supported.
+.SH FILES
+.I /dev/vcs[0\-63]
+.br
+.I /dev/vcsa[0\-63]
+.\" .SH AUTHOR
+.\" Andries Brouwer <aeb@cwi.nl>
+.SH VERSIONS
+Introduced with Linux 1.1.92.
+.SH EXAMPLES
+You may do a screendump on vt3 by switching to vt1 and typing
+.PP
+.in +4n
+.EX
+cat /dev/vcs3 >foo
+.EE
+.in
+.PP
+Note that the output does not contain
+newline characters, so some processing may be required, like
+in
+.PP
+.in +4n
+.EX
+fold \-w 81 /dev/vcs3 | lpr
+.EE
+.in
+.PP
+or (horrors)
+.PP
+.in +4n
+.EX
+setterm \-dump 3 \-file /proc/self/fd/1
+.EE
+.in
+.PP
+The
+.I /dev/vcsa0
+device is used for Braille support.
+.PP
+This program displays the character and screen attributes under the
+cursor of the second virtual console, then changes the background color
+there:
+.PP
+.EX
+#include <unistd.h>
+#include <stdlib.h>
+#include <stdio.h>
+#include <fcntl.h>
+#include <sys/ioctl.h>
+#include <linux/vt.h>
+
+int
+main(void)
+{
+ int fd;
+ char *device = "/dev/vcsa2";
+ char *console = "/dev/tty2";
+ struct {unsigned char lines, cols, x, y;} scrn;
+ unsigned short s;
+ unsigned short mask;
+ unsigned char attrib;
+ int ch;
+
+ fd = open(console, O_RDWR);
+ if (fd < 0) {
+ perror(console);
+ exit(EXIT_FAILURE);
+ }
+ if (ioctl(fd, VT_GETHIFONTMASK, &mask) < 0) {
+ perror("VT_GETHIFONTMASK");
+ exit(EXIT_FAILURE);
+ }
+ (void) close(fd);
+ fd = open(device, O_RDWR);
+ if (fd < 0) {
+ perror(device);
+ exit(EXIT_FAILURE);
+ }
+ (void) read(fd, &scrn, 4);
+ (void) lseek(fd, 4 + 2*(scrn.y*scrn.cols + scrn.x), SEEK_SET);
+ (void) read(fd, &s, 2);
+ ch = s & 0xff;
+ if (s & mask)
+ ch |= 0x100;
+ attrib = ((s & \[ti]mask) >> 8);
+ printf("ch=%#03x attrib=%#02x\en", ch, attrib);
+ s \[ha]= 0x1000;
+ (void) lseek(fd, \-2, SEEK_CUR);
+ (void) write(fd, &s, 2);
+ exit(EXIT_SUCCESS);
+}
+.EE
+.SH SEE ALSO
+.BR ioctl_console (2),
+.BR tty (4),
+.BR ttyS (4),
+.BR gpm (8)
diff --git a/upstream/opensuse-leap-15-6/man4/veth.4 b/upstream/opensuse-leap-15-6/man4/veth.4
new file mode 100644
index 00000000..8cd4e766
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/veth.4
@@ -0,0 +1,86 @@
+.\" Copyright (c) 2012 Tomáš Pospíšek (tpo_deb@sourcepole.ch),
+.\" Fri, 03 Nov 2012 22:35:33 +0100
+.\" and Copyright (c) 2012 Eric W. Biederman <ebiederm@xmission.com>
+.\"
+.\" SPDX-License-Identifier: GPL-2.0-or-later
+.\"
+.\"
+.TH veth 4 2023-02-05 "Linux man-pages 6.04"
+.SH NAME
+veth \- Virtual Ethernet Device
+.SH DESCRIPTION
+The
+.B veth
+devices are virtual Ethernet devices.
+They can act as tunnels between network namespaces to create
+a bridge to a physical network device in another namespace,
+but can also be used as standalone network devices.
+.PP
+.B veth
+devices are always created in interconnected pairs.
+A pair can be created using the command:
+.PP
+.in +4n
+.EX
+# ip link add <p1-name> type veth peer name <p2-name>
+.EE
+.in
+.PP
+In the above,
+.I p1-name
+and
+.I p2-name
+are the names assigned to the two connected end points.
+.PP
+Packets transmitted on one device in the pair are immediately received on
+the other device.
+When either device is down, the link state of the pair is down.
+.PP
+.B veth
+device pairs are useful for combining the network
+facilities of the kernel together in interesting ways.
+A particularly interesting use case is to place one end of a
+.B veth
+pair in one network namespace and the other end in another network namespace,
+thus allowing communication between network namespaces.
+To do this, one can provide the
+.B netns
+parameter when creating the interfaces:
+.PP
+.in +4n
+.EX
+# ip link add <p1\-name> netns <p1\-ns> type veth peer <p2\-name> netns <p2\-ns>
+.EE
+.in
+.PP
+or, for an existing
+.B veth
+pair, move one side to the other namespace:
+.PP
+.in +4n
+.EX
+# ip link set <p2\-name> netns <p2\-ns>
+.EE
+.in
+.PP
+.BR ethtool (8)
+can be used to find the peer of a
+.B veth
+network interface, using commands something like:
+.PP
+.in +4n
+.EX
+# \fBip link add ve_A type veth peer name ve_B\fP # Create veth pair
+# \fBethtool \-S ve_A\fP # Discover interface index of peer
+NIC statistics:
+ peer_ifindex: 16
+# \fBip link | grep \[aq]\[ha]16:\[aq]\fP # Look up interface
+16: ve_B@ve_A: <BROADCAST,MULTICAST,M\-DOWN> mtu 1500 qdisc ...
+.EE
+.in
+.SH "SEE ALSO"
+.BR clone (2),
+.BR network_namespaces (7),
+.BR ip (8),
+.BR ip\-link (8),
+.BR ip\-netns (8)
diff --git a/upstream/opensuse-leap-15-6/man4/wavelan.4 b/upstream/opensuse-leap-15-6/man4/wavelan.4
new file mode 100644
index 00000000..755b09e8
--- /dev/null
+++ b/upstream/opensuse-leap-15-6/man4/wavelan.4
@@ -0,0 +1,142 @@
+.\" From jt@hplb.hpl.hp.com Thu Dec 19 18:31:49 1996
+.\" From: Jean Tourrilhes <jt@hplb.hpl.hp.com>
+.\" Address: HP Labs, Filton Road, Stoke Gifford, Bristol BS12 6QZ, U.K.
+.\" Jean II - HPLB - '96
+.\" wavelan.c.4
+.\"
+.\" Provenance of this page is unclear.
+.\"
+.\" SPDX-License-Identifier: GPL-1.0-or-later
+.\"
+.TH wavelan 4 2023-02-05 "Linux man-pages 6.04"
+.SH NAME
+wavelan \- AT&T GIS WaveLAN ISA device driver
+.SH SYNOPSIS
+.nf
+.BI "insmod wavelan_cs.o [io=" B,B.. "] [ irq=" I,I.. "] [name=" N,N.. ]
+.fi
+.SH DESCRIPTION
+.I This driver is obsolete:
+it was removed in Linux 2.6.35.
+.PP
+.B wavelan
+is the low-level device driver for the NCR / AT&T / Lucent
+.B WaveLAN ISA
+and Digital (DEC)
+.B RoamAbout DS
+wireless ethernet adapter.
+This driver is available as a module or
+might be compiled in the kernel.
+This driver supports multiple cards
+in both forms (up to 4) and allocates the next available ethernet
+device (eth0..eth#) for each card found, unless a device name is
+explicitly specified (see below).
+This device name will be reported
+in the kernel log file with the MAC address, NWID, and frequency used
+by the card.
+.SS Parameters
+This section applies to the module form (parameters passed on the
+.BR insmod (8)
+command line).
+If the driver is included in the kernel, use the
+.I ether=IRQ,IO,NAME
+syntax on the kernel command line.
+.TP
+.B io
+Specify the list of base addresses where to search for wavelan cards
+(setting by dip switch on the card).
+If you don't specify any io
+address, the driver will scan 0x390 and 0x3E0 addresses, which might
+conflict with other hardware...
+.TP
+.B irq
+Set the list of IRQs that each wavelan card should use (the value is
+saved in permanent storage for future use).
+.TP
+.B name
+Set the list of names to be used for each wavelan card device (name
+used by
+.BR ifconfig (8)).
+.SS Wireless extensions
+Use
+.BR iwconfig (8)
+to manipulate wireless extensions.
+.SS NWID (or domain)
+Set the network ID
+.RI [ 0
+to
+.IR FFFF ]
+or disable it
+.RI [ off ].
+As the NWID is stored in the card Permanent Storage Area, it will be
+reused at any further invocation of the driver.
+.SS Frequency & channels
+For the 2.4\ GHz 2.00 Hardware, you are able to set the frequency by
+specifying one of the 10 defined channels
+.RI ( 2.412,
+.I 2.422, 2.425, 2.4305, 2.432, 2.442, 2.452, 2.460, 2.462
+or
+.IR 2.484 )
+or directly as a numeric value.
+The frequency is changed immediately and
+permanently.
+Frequency availability depends on the regulations...
+.SS Statistics spy
+Set a list of MAC addresses in the driver (up to 8) and get the last
+quality of link for each of those (see
+.BR iwspy (8)).
+.SS /proc/net/wireless
+.I status
+is the status reported by the modem.
+.I Link quality
+reports the quality of the modulation on the air (direct sequence
+spread spectrum) [max = 16].
+.I Level
+and
+.I Noise
+refer to the signal level and noise level [max = 64].
+The
+.I crypt discarded packet
+and
+.I misc discarded packet
+counters are not implemented.
+.SS Private ioctl
+You may use
+.BR iwpriv (8)
+to manipulate private ioctls.
+.SS Quality and level threshold
+Enables you to define the quality and level threshold used by the
+modem (packet below that level are discarded).
+.SS Histogram
+This functionality makes it possible to set a number of
+signal level intervals and
+to count the number of packets received in each of those defined
+intervals.
+This distribution might be used to calculate the mean value
+and standard deviation of the signal level.
+.SS Specific notes
+This driver fails to detect some
+.B non-NCR/AT&T/Lucent
+Wavelan cards.
+If this happens for you, you must look in the source code on
+how to add your card to the detection routine.
+.PP
+Some of the mentioned features are optional.
+You may enable or disable
+them by changing flags in the driver header and recompile.
+.\" .SH AUTHOR
+.\" Bruce Janson \[em] bruce@cs.usyd.edu.au
+.\" .br
+.\" Jean Tourrilhes \[em] jt@hplb.hpl.hp.com
+.\" .br
+.\" (and others; see source code for details)
+.\"
+.\" SEE ALSO part
+.\"
+.SH SEE ALSO
+.BR wavelan_cs (4),
+.BR ifconfig (8),
+.BR insmod (8),
+.BR iwconfig (8),
+.BR iwpriv (8),
+.BR iwspy (8)