|9srv Manual Collection/plan9/proc(3)||9srv Manual Collection/plan9/proc(3)|
The mem file contains the current memory image of the process. A read or write at offset o, which must be a valid virtual address, accesses bytes from address o up to the end of the memory segment containing o. Kernel virtual memory, including the kernel stack for the process and saved user registers (whose addresses are machine-dependent), can be accessed through mem. Writes are permitted only while the process is in the Stopped state and only to user addresses or registers.
The read-only proc file contains the kernel per-process structure. Its main use is to recover the kernel stack and program counter for kernel debugging.
The files regs, fpregs, and kregs hold representations of the user-level registers, floating-point registers, and kernel registers in machine-dependent form. The kregs file is read-only.
The read-only fd file lists the open file descriptors of the process. The first line of the file is its current directory; subsequent lines list, one per line, the open files, giving the decimal file descriptor number; whether the file is open for read (r), write, (w), or both (rw); the type, device number, and qid of the file; its I/O unit (the amount of data that may be transferred on the file as a contiguous piece; see iounit(2)), its I/O offset; and its name at the time it was opened.
The read-only ns file contains a textual representation of the process's file name space, in the format of namespace(6) accepted by newns (see auth(2)). The last line of the file identifies the current working directory of the process, in the form of a cd command (see rc(1)). The information in this file is based on the names files had when the name space was assembled, so the names it contains may be inaccessible if the files have been subsequently renamed or rearranged.
The read-only segment file contains a textual display of the memory segments attached to the process. Each line has multiple fields: the type of segment (Stack, Text, Data, Bss, etc.); one-letter flags such as R for read-only, if any; starting virtual address, in hexadecimal; ending virtual address, and reference count.
The read-only status file contains a string with twelve fields, each followed by a space. The fields are:
The read-only args file contains the arguments of the program when it was created by exec(2). If the program was not created by exec, such as by fork(2), its args file will be empty. The format of the file is a list of quoted strings suitable for tokenize; see getfields(2).
The text file is a pseudonym for the file from which the process was executed; its main use is to recover the symbol table of the process.
The wait file may be read to recover records from the exiting children of the process in the format of await (see wait(2)). If the process has no extant children, living or exited, a read of wait will block. If the file's length is non-zero (see stat(2)), there is at least one wait record to read. It is an error for a process to attempt to read its own wait file when it has no children. When a process's wait file is being read, the process will draw an error if it attempts an await system call; similarly, if a process is in an await system call, its wait file cannot be read by any process.
The read-only profile file contains the instruction frequency count information used for multiprocess profiling; see tprof in prof(1). The information is gleaned by sampling the program's user-level program counter at interrupt time.
Strings written to the note file will be posted as a note to the process (see notify(2)). The note should be less than ERRLEN-1 characters long; the last character is reserved for a terminating NUL character. A read of at least ERRLEN characters will retrieve the oldest note posted to the process and prevent its delivery to the process. The notepg file is similar, but the note will be delivered to all the processes in the target process's note group (see fork(2)). However, if the process doing the write is in the group, it will not receive the note. The notepg file is write-only.
The textual noteid file may be read to recover an integer identifying the note group of the process (see RFNOTEG in fork(2)). The file may be written to cause the process to change to another note group, provided the group exists and is owned by the same user.
The file /proc/trace can be opened once and read to see trace events from processes that have had the string trace written to their ctl file. Each event produces, in native machine format, the pid, a type, and a time stamp (see /sys/include/trace.h and /sys/src/cmd/trace.c).
The deadline of a real-time process specifies that the process must complete within the first deadline seconds of its period. The dealine must be less than or equal to the period. If it is not specified, it is set to the period.
The cost of a real-time process describes the maximum CPU time the process may use per period.
A real-time process can give up the CPU before its deadline is reached or its allocation is exhausted. It does this by calling sleep(0). If yieldonblock is specified, it also does it by executing any blocking system call. Yieldonblock is assumed for sporadic processes.
Of the released processes, the one with the earliest deadline has the highest priority. Care should be taken using spin locks (see lock(2)) because a real-time process spinning on a lock will not give up the processor until its CPU allocation is exhausted; this is unlikely to be the desired behavior.
When a real-time process reaches its deadline or exhausts its CPU allocation, it remains schedulable, but at a very low priority.
The priority is interpreted by Plan 9's multilevel process scheduler. Priorities run from 0 to 19, with higher numbers representing higher priorities. A process has a base priority and a running priority which is less than or equal to the base priority. As a process uses up more of its allocated time, its priority is lowered. Unless explicitly set, user processes have base priority 10, kernel processes 13. Children inherit the parent's base priority.
|9srv Manual Collection/plan9/proc(3)||Rev: Fri Jun 14 19:02:28 BST 2013|