507 lines
12 KiB
Text
507 lines
12 KiB
Text
.TH PROC 3
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.SH NAME
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proc \- running processes
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.SH SYNOPSIS
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.nf
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.B bind #p /proc
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.sp 0.3v
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.B /proc/trace
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.BI /proc/ n /args
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.BI /proc/ n /ctl
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.BI /proc/ n /fd
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.BI /proc/ n /fpregs
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.BI /proc/ n /kregs
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.BI /proc/ n /mem
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.BI /proc/ n /note
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.BI /proc/ n /noteid
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.BI /proc/ n /notepg
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.BI /proc/ n /ns
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.BI /proc/ n /proc
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.BI /proc/ n /profile
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.BI /proc/ n /regs
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.BI /proc/ n /segment
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.BI /proc/ n /status
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.BI /proc/ n /text
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.BI /proc/ n /wait
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\&...
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.fi
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.SH DESCRIPTION
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The
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.I proc
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device serves a two-level directory structure.
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The first level contains the
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.B trace
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file (see below) and numbered directories
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corresponding to pids of live processes;
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each such directory contains a set of files
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representing the corresponding process.
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.PP
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The
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.B mem
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file contains the current memory image of the process.
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A read or write at offset
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.IR o ,
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which must be a valid virtual address,
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accesses bytes from address
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.IR o
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up to the end of the memory segment containing
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.IR o .
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Kernel virtual memory, including the kernel stack for the process and
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saved user registers (whose addresses are machine-dependent),
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can be accessed through
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.BR mem .
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Writes are permitted only while the process is in the
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.B Stopped
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state and only to user addresses or registers.
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.PP
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The read-only
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.B proc
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file contains the kernel per-process
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structure.
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Its main use is to recover the kernel stack and program counter
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for kernel debugging.
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.PP
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The files
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.BR regs ,
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.BR fpregs ,
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and
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.BR kregs
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hold representations of the user-level registers, floating-point registers,
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and kernel registers in machine-dependent form.
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The
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.B kregs
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file is read-only.
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.PP
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The read-only
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.B fd
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file lists the open file descriptors of the process.
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The first line of the file is its current directory; subsequent lines list, one per line,
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the open files, giving the decimal file descriptor number; whether the file is open for read
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.RB ( r ),
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write,
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.RB ( w ),
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or both
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.RB ( rw );
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the type, device number, and qid of the file; its I/O unit (the amount of data
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that may be transferred on the file as a contiguous piece; see
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.IR iounit (2)),
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its I/O offset; and its name at the time it was opened.
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.PP
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The read-only
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.B ns
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file contains a textual representation of the process's file name space, in the format of
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.IR namespace (6)
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accepted by
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.B newns
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(see
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.IR auth (2)).
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The last line of the file identifies the current working directory of the process, in the form of a
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.B cd
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command
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(see
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.IR rc (1)).
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The information in this file is based on the names files had when the name space was assembled,
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so the names it contains may be inaccessible if the files have been subsequently renamed or rearranged.
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.PP
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The read-only
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.B segment
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file contains a textual display of the memory segments
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attached to the process. Each line has multiple fields:
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the type of segment (\c
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.BR Stack ,
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.BR Text ,
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.BR Data ,
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.BR Bss ,
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etc.); one-letter flags such as
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.B R
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for read-only, if any;
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starting virtual address, in hexadecimal;
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ending virtual address, and reference count.
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.PP
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The read-only
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.B status
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file contains a string with twelve fields, each followed by a space.
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The fields are:
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.IP \-
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the process name and user name, each 27 characters left justified
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.IP \-
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the process state, 11 characters left justified (see
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.IR ps (1))
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.IP \-
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the six 11-character numbers also held in the process's
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.B #c/cputime
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file
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.IP \-
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the amount of memory used by the process, except its stack,
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in units of 1024 bytes
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.IP \-
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the base and current scheduling priority, each 11 character numbers
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.PP
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The read-only
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.B args
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file contains the arguments of the program when it was created by
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.IR exec (2).
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If the program was not created by
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.BR exec ,
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such as by
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.IR fork (2),
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its
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.B args
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file will be empty.
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The format of the file is a list of quoted strings suitable for
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.BR tokenize ;
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see
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.IR getfields (2).
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.PP
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The
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.B text
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file is a pseudonym for the file
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from which the process was executed;
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its main use is to recover the symbol table of the process.
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.PP
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The
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.B wait
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file may be read to recover
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records from the exiting children of the process in the format of
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.B await
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(see
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.IR wait (2)).
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If the process has no extant children, living or exited,
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a read of
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.B wait
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will block.
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It is an error for a process to attempt to read its own
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.B wait
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file when it has no children.
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When a process's
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.B wait
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file is being read,
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the process will draw an error
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if it attempts an
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.B await
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system call; similarly, if a process is in an
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.B await
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system call, its
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.B wait
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file cannot be read by any process.
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.PP
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The read-only
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.B profile
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file contains the instruction frequency count information used for multiprocess profiling; see
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.B tprof
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in
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.IR prof (1).
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The information is gleaned by sampling the program's user-level program counter
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at interrupt time.
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.PP
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Strings written to the
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.B note
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file will be posted as a note to the process
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(see
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.IR notify (2)).
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The note should be less than
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.B ERRLEN-1
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characters long;
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the last character is reserved for a terminating NUL character.
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A read of at least
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.B ERRLEN
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characters will retrieve the oldest note posted to the
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process and prevent its delivery to the process.
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The
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.B notepg
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file is similar, but the note will be delivered to all the
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processes in the target process's
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.I note group
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(see
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.IR fork (2)).
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However, if the process doing the write is in the group,
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it will not receive the note.
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The
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.B notepg
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file is write-only.
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.PP
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The textual
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.B noteid
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file may be read to recover an integer identifying the note group of the process
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(see
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.B RFNOTEG
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in
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.IR fork (2)).
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The file may be written to cause the process to change to another note group,
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provided the group exists and is owned by the same user.
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.PP
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The file
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.B /proc/trace
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can be opened once and read to see trace events from processes that have
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had the string
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.B trace
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written to their
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.B ctl
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file.
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Each event produces, in native machine format, the
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.IR pid ,
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a
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.IR type ,
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and a
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.I "time stamp"
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(see
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.B /sys/include/trace.h
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and
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.BR /sys/src/cmd/trace.c ).
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.
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.SS Control messages
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Textual messages written to the
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.B ctl
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file control the execution of the process.
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Some require that the process is in a particular state
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and return an error if it is not.
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.TP 10n
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.B stop
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Suspend execution of the process, putting it in the
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.B Stopped
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state.
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.TP 10n
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.B start
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Resume execution of a
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.B Stopped
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process.
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.TP 10n
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.B waitstop
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Do not affect the process directly but, like all other messages ending with
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.BR stop ,
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block the process writing the
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.B ctl
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file until the target process is in the
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.B Stopped
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state or exits.
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Also like other
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.B stop
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control messages,
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if the target process would receive a note while the message is pending,
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it is instead stopped and the debugging process is resumed.
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.TP 10n
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.B startstop
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Allow a
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.B Stopped
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process to resume, and then do a
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.B waitstop
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action.
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.TP 10n
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.B hang
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Set a bit in the process so that,
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when it completes an
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.IR exec (2)
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system call, it will enter the
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.B Stopped
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state before returning to user mode.
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This bit is inherited across
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.IR fork (2)
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and
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.IR exec (2).
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.TP 10n
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.B "close\ \fIn
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Close file descriptor
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.I n
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in the process.
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.TP 10n
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.B closefiles
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Close all open file descriptors in the process.
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.TP 10n
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.B nohang
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Clear the hang bit.
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.TP 10n
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.B noswap
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Don't allow this process to be swapped out. This should
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be used carefully and sparingly or the system could run
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out of memory. It is meant for processes that can't be
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swapped, like the ones implementing the swap device and for
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processes containing sensitive data.
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.TP 10n
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.B kill
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Kill the process the next time it crosses the user/kernel boundary.
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.TP 10n
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.B private
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Make it impossible to read the process's user memory.
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This property is inherited on fork, cleared on
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.IR exec (2),
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and is not otherwise resettable.
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.TP 10n
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.B "pri\ \fIn
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Set the base priority for the process to the integer
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.IR n .
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.TP 10n
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.B "wired\ \fIn
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Wire the process to processor
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.IR n .
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.TP 10n
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.B trace
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Without an argument, toggle trace event generation for this process into
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.B /proc/trace
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(see below).
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With a zero argument, tracing for the proc is turned off, with a non-zero numeric
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argument, it is turned on.
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.TP 10n
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.B "period\ \fInu
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Set the real-time scheduling period of the process to
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.IR nu ,
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where
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.I n
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is an optionally signed number containing an optional decimal point and
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.I u
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is one of
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.BR s ,
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.BR ms ,
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.BR us ,
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.BR µs ,
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.BR ns ,
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or
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empty. The time is interpreted, respectively, as
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.IR seconds ,
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.IR milliseconds ,
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.IR microseconds ,
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.IR microseconds ,
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.IR nanoseconds ,
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or, in the case of an absent units specifier, as
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.IR nanoseconds .
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If the time specifier is signed, it is interpreted as an increment or decrement
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from a previously set value. See also the
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.B admit
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command below.
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.TP 10n
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.B "deadline\ \fInu
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Set the real-time deadline interval of the process to
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.IR nu ,
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where
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.I n
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and
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.I u
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are interpreted as for
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.B period
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above.
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.TP 10n
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.B "cost\ \fInu
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Set the real-time cost (maximum CPU time per period) of the process to
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.IR nu ,
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where
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.I n
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and
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.I u
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are interpreted as for
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.B period
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above.
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.TP 10n
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.B "sporadic
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Use sporadic scheduling for the real-time process. The description of the
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.B admit
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command below contains further details.
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.TP 10n
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.B "yieldonblock
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Make the real-time process yield on blocking I/O.
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The description of the
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.B admit
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command below contains further details.
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.TP 10n
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.B "admit
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Given real-time
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.IR period ,
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.I deadline
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and
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.I cost
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are set (an unset
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.I deadline
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will set
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.I deadline
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to
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.IR period ),
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perform a schedulability test and start scheduling the process as a real-time
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process if the test succeeds. If the test fails, the
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.B write
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will fail with error set to the reason for failure.
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.TP 10n
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.B event
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Add a user event to the
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.B /proc/trace
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file.
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.PD
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.
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.SS Real-time scheduling
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.I Real-time
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processes are periodically
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.IR released ,
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giving them a higher priority than non-real-time processes until they either
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give up the processor voluntarily, they exhaust their CPU allocation, or they reach their
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.IR deadline .
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The moment of release is dictated by the
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.I period
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and whether the process is
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.I sporadic
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or not.
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Non-sporadic processes are called
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.I periodic
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and they are released precisely at intervals of their period (but periods can be skipped
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if the process blocks on I/O).
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Sporadic processes are released whenever they become
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runnable (after being blocked by
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.IR sleep ()
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or I/O), but always at least an interval of
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.I period
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after the previous release.
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.PP
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The
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.I deadline
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of a real-time process specifies that the process must complete within the first
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.I deadline
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seconds of its
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.IR period .
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The dealine must be less than or equal to the period.
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If it is not specified, it is set to the period.
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.PP
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The
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.I cost
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of a real-time process describes the maximum CPU time the process may use per period.
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.PP
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A real-time process can give up the CPU before its deadline is reached
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or its allocation is exhausted.
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It does this by calling
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.IR sleep (0).
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If
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.I yieldonblock
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is specified, it also does it by executing any blocking system call.
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.I Yieldonblock
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is assumed for
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.I sporadic
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processes.
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.PP
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Of the released processes,
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the one with the earliest deadline has the highest priority.
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Care should be taken using spin locks (see
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.IR lock (2))
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because a real-time process spinning on a lock will not give up the processor until
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its CPU allocation is exhausted; this is unlikely to be the desired behavior.
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.PP
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When a real-time process reaches its deadline or exhausts its CPU allocation, it remains
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schedulable, but at a very low priority.
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.PP
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The priority is interpreted by Plan 9's multilevel process scheduler.
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Priorities run from 0 to 19, with higher
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numbers representing higher priorities.
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A process has a base priority and
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a running priority which is less than or equal to the base priority.
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As a process uses up more of its allocated time, its priority is lowered.
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Unless
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explicitly set, user processes have base priority 10, kernel processes
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13.
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Children inherit the parent's base priority.
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.SH FILES
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.nf
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.B /sys/src/9/*/mem.h
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.B /sys/src/9/*/dat.h
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.B /sys/include/trace.h
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.fi
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.SH SEE ALSO
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.IR trace (1),
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.IR debugger (2),
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.IR mach (2),
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.IR cons (3)
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.SH SOURCE
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.B /sys/src/9/port/devproc.c
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