3 proc \- running processes
31 device serves a two-level directory structure.
32 The first level contains the
34 file (see below) and numbered directories
35 corresponding to pids of live processes;
36 each such directory contains a set of files
37 representing the corresponding process.
41 file contains the current memory image of the process.
42 A read or write at offset
44 which must be a valid virtual address,
45 accesses bytes from address
47 up to the end of the memory segment containing
49 Kernel virtual memory, including the kernel stack for the process and
50 saved user registers (whose addresses are machine-dependent),
51 can be accessed through
53 Writes are permitted only while the process is in the
55 state and only to user addresses or registers.
59 file contains the kernel per-process
61 Its main use is to recover the kernel stack and program counter
69 hold representations of the user-level registers, floating-point registers,
70 and kernel registers in machine-dependent form.
77 file lists the open file descriptors of the process.
78 The first line of the file is its current directory; subsequent lines list, one per line,
79 the open files, giving the decimal file descriptor number; whether the file is open for read
85 the type, device number, and qid of the file; its I/O unit (the amount of data
86 that may be transferred on the file as a contiguous piece; see
88 its I/O offset; and its name at the time it was opened.
92 file contains a textual representation of the process's file name space, in the format of
98 The last line of the file identifies the current working directory of the process, in the form of a
103 The information in this file is based on the names files had when the name space was assembled,
104 so the names it contains may be inaccessible if the files have been subsequently renamed or rearranged.
108 file contains a textual display of the memory segments
109 attached to the process. Each line has multiple fields:
110 the type of segment (\c
115 etc.); one-letter flags such as
117 for read-only, if any;
118 starting virtual address, in hexadecimal;
119 ending virtual address, and reference count.
123 file contains a string with twelve fields, each followed by a space.
126 the process name and user name, each 27 characters left justified
128 the process state, 11 characters left justified (see
131 the six 11-character numbers also held in the process's
135 the amount of memory used by the process in units of 1024 bytes
137 the base and current scheduling priority, each 11 character numbers
141 file contains the arguments of the program when it was created by
145 file will overwrite its contents.
146 If the program was not created by
153 The format of the file is a list of quoted strings suitable for
160 file is a pseudonym for the file
161 from which the process was executed;
162 its main use is to recover the symbol table of the process.
166 file may be read to recover
167 records from the exiting children of the process in the format of
171 If the process has no extant children, living or exited,
175 It is an error for a process to attempt to read its own
177 file when it has no children.
181 the process will draw an error
184 system call; similarly, if a process is in an
188 file cannot be read by any process.
192 file contains the instruction frequency count information used for multiprocess profiling; see
196 The information is gleaned by sampling the program's user-level program counter
199 Strings written to the
201 file will be posted as a note to the process
204 The note should be less than
207 the last character is reserved for a terminating NUL character.
210 characters will retrieve the oldest note posted to the
211 process and prevent its delivery to the process.
214 file is similar, but the note will be delivered to all the
215 processes in the target process's
219 However, if the process doing the write is in the group,
220 it will not receive the note.
227 file may be read to recover an integer identifying the note group of the process
232 The file may be written to cause the process to change to another note group,
233 provided the group exists and is owned by the same user.
237 can be opened once and read to see trace events from processes that have
243 Each event produces, in native machine format, the
250 .B /sys/include/trace.h
252 .BR /sys/src/cmd/trace.c ).
255 Textual messages written to the
257 file control the execution of the process.
258 Some require that the process is in a particular state
259 and return an error if it is not.
262 Suspend execution of the process, putting it in the
267 Resume execution of a
272 Do not affect the process directly but, like all other messages ending with
274 block the process writing the
276 file until the target process is in the
282 if the target process would receive a note while the message is pending,
283 it is instead stopped and the debugging process is resumed.
288 process to resume, and then do a
293 Set a bit in the process so that,
296 system call, it will enter the
298 state before returning to user mode.
299 This bit is inherited across
308 Make it impossible to read the process's user memory.
309 This property is inherited on
313 and is not otherwise resettable.
316 Don't allow this process to be swapped out. This should
317 be used carefully and sparingly or the system could run
318 out of memory. It is meant for processes that can't be
319 swapped, like the local fileserver implementing the swap
320 device and for processes containing sensitive data.
321 This property is inherited on
325 and is not otherwise resettable.
328 Kill the process the next time it crosses the user/kernel boundary.
331 Close file descriptor
336 Close all open file descriptors in the process.
339 Set the base priority for the process to the integer
343 Wire the process to processor
347 Without an argument, toggle trace event generation for this process into
350 With a zero argument, tracing for the proc is turned off, with a non-zero numeric
351 argument, it is turned on.
354 Interrupt a blocking system call. If no blocking call was in progress,
355 the interrupt will be pending and the next attempt to block will be interrupted.
356 This is similar to posting a note but, unlike notes, a pending interrupt is not
357 cleared when crossing the user/kernel boundary.
360 Clear a pending interrupt.
363 Set the real-time scheduling period of the process to
367 is an optionally signed number containing an optional decimal point and
376 empty. The time is interpreted, respectively, as
382 or, in the case of an absent units specifier, as
384 If the time specifier is signed, it is interpreted as an increment or decrement
385 from a previously set value. See also the
390 Set the real-time deadline interval of the process to
396 are interpreted as for
401 Set the real-time cost (maximum CPU time per period) of the process to
407 are interpreted as for
412 Use sporadic scheduling for the real-time process. The description of the
414 command below contains further details.
417 Make the real-time process yield on blocking I/O.
418 The description of the
420 command below contains further details.
434 perform a schedulability test and start scheduling the process as a real-time
435 process if the test succeeds. If the test fails, the
437 will fail with error set to the reason for failure.
440 Add a user event to the
445 .SS Real-time scheduling
447 processes are periodically
449 giving them a higher priority than non-real-time processes until they either
450 give up the processor voluntarily, they exhaust their CPU allocation, or they reach their
452 The moment of release is dictated by the
454 and whether the process is
457 Non-sporadic processes are called
459 and they are released precisely at intervals of their period (but periods can be skipped
460 if the process blocks on I/O).
461 Sporadic processes are released whenever they become
462 runnable (after being blocked by
464 or I/O), but always at least an interval of
466 after the previous release.
470 of a real-time process specifies that the process must complete within the first
474 The dealine must be less than or equal to the period.
475 If it is not specified, it is set to the period.
479 of a real-time process describes the maximum CPU time the process may use per period.
481 A real-time process can give up the CPU before its deadline is reached
482 or its allocation is exhausted.
483 It does this by calling
487 is specified, it also does it by executing any blocking system call.
493 Of the released processes,
494 the one with the earliest deadline has the highest priority.
495 Care should be taken using spin locks (see
497 because a real-time process spinning on a lock will not give up the processor until
498 its CPU allocation is exhausted; this is unlikely to be the desired behavior.
500 When a real-time process reaches its deadline or exhausts its CPU allocation, it remains
501 schedulable, but at a very low priority.
503 The priority is interpreted by Plan 9's multilevel process scheduler.
504 Priorities run from 0 to 19, with higher
505 numbers representing higher priorities.
506 A process has a base priority and
507 a running priority which is less than or equal to the base priority.
508 As a process uses up more of its allocated time, its priority is lowered.
510 explicitly set, user processes have base priority 10, kernel processes
512 Children inherit the parent's base priority.
515 .B /sys/src/9/*/mem.h
516 .B /sys/src/9/*/dat.h
517 .B /sys/include/trace.h
525 .B /sys/src/9/port/devproc.c