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- .TH CONS 3
- .SH NAME
- cons \- console, clocks, process/process group ids, user, null, reboot, etc.
- .SH SYNOPSIS
- .nf
- .B bind #c /dev
- .B /dev/bintime
- .B /dev/cons
- .B /dev/consctl
- .B /dev/cputime
- .B /dev/drivers
- .B /dev/hostdomain
- .B /dev/hostowner
- .B /dev/kmesg
- .B /dev/kprint
- .B /dev/null
- .B /dev/osversion
- .B /dev/pgrpid
- .B /dev/pid
- .B /dev/ppid
- .B /dev/random
- .B /dev/reboot
- .B /dev/swap
- .B /dev/sysname
- .B /dev/sysstat
- .B /dev/time
- .B /dev/user
- .B /dev/zero
- .fi
- .SH DESCRIPTION
- The console device serves a one-level directory
- giving access to the console and
- miscellaneous information.
- .PP
- Reading the
- .B cons
- file returns characters typed on the keyboard.
- Normally, characters are buffered to enable erase and kill processing.
- A control-U,
- .LR ^U ,
- typed at the keyboard
- .I kills
- the current input line (removes all characters
- from the buffer of characters
- not yet read via
- .BR cons ),
- and a backspace
- .I erases
- the previous non-kill, non-erase character from the input buffer.
- Killing and erasing only delete characters back to, but not including,
- the last newline.
- Characters typed at the keyboard actually produce 16-bit runes (see
- .IR utf (6)),
- but the runes are translated into the variable-length
- .SM UTF
- encoding (see
- .IR utf (6))
- before putting them into the buffer.
- A
- .IR read (2)
- of length greater than zero causes the process to wait until a
- newline or a
- .L ^D
- ends the buffer, and then returns as much of the buffer as the argument
- to
- .B read
- allows, but only up to one complete line.
- A terminating
- .L ^D
- is not put into the buffer.
- If part of the line remains, the next
- .B read
- will return bytes from that remainder and not part of any new line
- that has been typed since.
- .PP
- If
- the string
- .B rawon
- has been written to the
- .B consctl
- file and the file is still open,
- .B cons
- is in
- .IR "raw mode" :
- characters are not echoed as they are typed,
- backspace and
- .L ^D
- are not treated specially,
- and characters are available to
- .I read
- as soon as they are typed.
- Ordinary mode is reentered when
- .B rawoff
- is written to
- .B consctl
- or this file is closed.
- .PP
- A
- .I write
- (see
- .IR read (2))
- to
- .B cons
- causes the characters to be printed on the console screen.
- .PP
- The
- .B osversion
- file contains a textual representation of the operating system's version and parameters.
- At the moment, it contains one field: the 9P protocol version, currently
- .BR 2000 .
- .PP
- The
- .B kmesg
- file holds the last 16 kilobytes of output written to the console
- by the kernel's print statements or by processes writing to
- .BR /dev/cons .
- It is useful for retrieving boot messages once the boot
- process is over.
- .PP
- The
- .B kprint
- file may be read to receive a copy of the data written
- to the console by the kernel's print statements or by processes
- writing to
- .BR /dev/cons .
- Only data written after the file is opened is available.
- If the machine's console is a serial line, the data is sent both to the
- console and to
- .BR kprint ;
- if its console is a graphics screen, the data is sent either to the
- display or to
- .BR kprint ,
- but not both.
- (It is advisable not to open
- .B kprint
- on terminals until you have started
- .IR rio (1).)
- .PP
- The
- .B null
- file throws away anything written to it
- and always returns zero when read.
- .PP
- The
- .B zero
- file is a read-only file that produces an infinite stream of zero-valued bytes when read.
- .PP
- The
- .B drivers
- file contains, one per line, a listing of the drivers configured in the kernel, in the format
- .IP
- .EX
- #c cons
- .EE
- .PP
- The
- .B hostdomain
- file contains the name of the authentication domain that
- this host belongs to; see
- .IR authsrv (6).
- Only the user named in
- .B /dev/hostowner
- may write this.
- .PP
- The
- .B hostowner
- file contains the name of the user that owns the console device files.
- The hostowner also has group permissions for any local devices.
- .PP
- Reads from
- .B random
- return a stream of random numbers. The numbers are
- generated by a low priority kernel process that loops
- incrementing a variable. Each clock tick the variable
- is sampled and, if it has changed sufficiently, the last
- few bits are appended to a buffer. This process is inefficient
- at best producing at most a few hundred bits a second.
- Therefore,
- .B random
- should be treated as a seed to
- pseudo-random number generators which can produce a faster
- rate stream.
- .PP
- Writing the string
- .B reboot
- to
- .B reboot
- causes the system to shutdown and, if
- possible, restart.
- Writing the string
- .B reboot
- .I kernelpath
- loads the named kernel image and restarts,
- preserving the kernel configuration in
- .BR #ec ,
- except that the
- .B bootfile
- variable is set to
- .IR kernelpath .
- Only the host
- owner has the ability to open this file.
- .PP
- .B Bintime
- is a binary interface that provides
- the same information as
- .B time
- .RI ( q.v. ),
- in binary form,
- and also controls clock frequency and clock trim.
- All integers read or written from
- .B bintime
- are in big endian order.
- Unlike the other files, reads and writes do not affect
- the offset. Therefore, there is no need for a seek
- back to zero between subsequent accesses.
- A read of
- .B bintime
- returns 24 bytes, three 8 byte numbers, representing nanoseconds
- since start of epoch, clock ticks, and clock frequency.
- .PP
- A write to
- .B bintime
- is a message with one of 3 formats:
- .IP "\f5n\fP<8-byte \f2time\fP>" 1.2i
- set the nanoseconds since epoch to the given
- .IR time .
- .IP "\f5d\fP<8-byte \f2delta\fP><4-byte \f2period\fP>" 1.2i
- trim the nanoseconds since epoch by
- .I delta
- over the next
- .I period
- seconds.
- .IP "\f5f\fP<8-byte \f2freq\fP>" 1.2i
- Set the frequency for interpreting clock ticks to be
- .I freq
- ticks per second.
- .PP
- The rest of the files contain (mostly) read-only strings.
- Each string has a fixed length: a
- .IR read (2)
- of more than that gives a result of that fixed length (the result does not
- include a terminating zero byte);
- a
- .I read
- of less than that length leaves the file offset so the
- rest of the string (but no more) will be read the next time.
- To reread the file without closing it,
- .I seek
- must be used to reset the offset.
- When the file contains numeric data
- each number is formatted in decimal.
- If the binary number fits in 32 bits, it is formatted as an
- 11 digit decimal number with
- leading blanks and one trailing blank; totaling 12 bytes.
- Otherwise, it
- is formatted as 21 digit decimal numbers with leading blanks and one
- trailing blank; totaling 22 bytes.
- .PP
- The
- .B cputime
- file holds six 32-bit numbers, containing the time in milliseconds
- that the current process has spent in user mode, system calls,
- real elapsed time, and then the time spent, by exited children and their descendants,
- in user mode, system calls, and real elapsed time.
- .PP
- The
- .B time
- file holds one 32-bit number representing the seconds since start of epoch
- and three 64-bit numbers, representing nanoseconds since
- start of epoch, clock ticks, and clock frequency.
- .PP
- A write of a decimal number to
- .B time
- will set the seconds since epoch.
- .PP
- The
- .B sysname
- file holds the textual name of the machine, e.g.
- .BR kremvax ,
- if known.
- .PP
- The
- .B sysstat
- file holds 10 numbers:
- processor number, context switches, interrupts, system calls, page faults,
- TLB faults, TLB purges, load average, idle time and time spent servicing interrupts.
- The load average is in units of milli-CPUs and is decayed over time;
- idle time and interrupt time are percentage units;
- the others are total counts from boot time.
- If the machine is a multiprocessor,
- .B sysstat
- holds one line per processor.
- Writing anything to
- .B sysstat
- resets all of the counts on all processors.
- .PP
- The
- .B swap
- device holds a text block giving memory usage statistics:
- .IP
- .EX
- \fIn\fP memory
- \fIn\fP pagesize
- \fIn\fP kernel
- \fIn\fP/\fIm\fP user
- \fIn\fP/\fIm\fP swap
- \fIn\fP/\fIm\fP kernel malloc
- \fIn\fP/\fIm\fP kernel draw
- .EE
- .PP
- These are total memory (bytes), system page size (bytes),
- kernel memory (pages), user memory (pages), swap space (pages),
- kernel malloced data (bytes), and kernel graphics data (bytes).
- The expression
- .IR n / m
- indicates
- .I n
- used out of
- .I m
- available.
- These numbers are not blank padded.
- .PP
- To turn on swapping, write to
- .B swap
- the textual file descriptor number of a file or device on which to swap.
- See
- .IR swap (8).
- .PP
- The other files served by the
- .I cons
- device are all single numbers:
- .TP 10
- .B pgrpid
- process group number
- .TP
- .B pid
- process number
- .TP
- .B ppid
- parent's process number
- .SH SEE ALSO
- .IR draw (3),
- .IR keyboard (6),
- .IR authsrv (6),
- .IR utf (6),
- .IR swap (8)
- .SH SOURCE
- .B /sys/src/9/port/devcons.c
- .SH BUGS
- For debugging, two control-T's followed by a letter
- generate console output and manage debugging:
- .L ^T^Td
- toggles whether the console debugger will be run if the system fails.
- .L ^T^TD
- starts the console debugger immediately.
- .L ^T^Tk
- kills the largest process; use with care.
- .L ^T^Tp
- prints data about processes.
- .L ^T^Tq
- prints the run queue for processor 0.
- .L ^T^Ts
- prints the kernel stack.
- .L ^T^Tx
- prints data about kernel memory allocation.
- .PP
- The system can be rebooted by typing
- .LR ^T^Tr .
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