a909f6e917
procps automake defines restrict which means the binaries for procps binaries compile. However external programs may not of defined restrict which means they will not complie if they include files found in /usr/include/proc. Includes from libc6 use __restrict and if is good enough for them, its good enough for us.
284 lines
13 KiB
C
284 lines
13 KiB
C
#ifndef PROCPS_PROC_READPROC_H
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#define PROCPS_PROC_READPROC_H
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// New Interface to Process Table -- PROCTAB Stream (a la Directory streams)
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// Copyright 1996 Charles L. Blake.
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// Copyright 1998 Michael K. Johnson
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// Copyright 1998-2003 Albert Cahalan
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// May be distributed under the terms of the
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// GNU Library General Public License, a copy of which is provided
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// in the file COPYING
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#include "procps.h"
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#include "pwcache.h"
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#define SIGNAL_STRING
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#define QUICK_THREADS /* copy (vs. read) some thread info from parent proc_t */
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EXTERN_C_BEGIN
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// ld cutime, cstime, priority, nice, timeout, alarm, rss,
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// c state,
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// d ppid, pgrp, session, tty, tpgid,
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// s signal, blocked, sigignore, sigcatch,
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// lu flags, min_flt, cmin_flt, maj_flt, cmaj_flt, utime, stime,
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// lu rss_rlim, start_code, end_code, start_stack, kstk_esp, kstk_eip,
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// lu start_time, vsize, wchan,
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// This is to help document a transition from pid to tgid/tid caused
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// by the introduction of thread support. It is used in cases where
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// neither tgid nor tid seemed correct. (in other words, FIXME)
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#define XXXID tid
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// Basic data structure which holds all information we can get about a process.
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// (unless otherwise specified, fields are read from /proc/#/stat)
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//
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// Most of it comes from task_struct in linux/sched.h
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//
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typedef struct proc_t {
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// 1st 16 bytes
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int
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tid, // (special) task id, the POSIX thread ID (see also: tgid)
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ppid; // stat,status pid of parent process
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unsigned
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pcpu; // stat (special) %CPU usage (is not filled in by readproc!!!)
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char
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state, // stat,status single-char code for process state (S=sleeping)
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#ifdef QUICK_THREADS
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pad_1, // n/a padding (psst, also used if multi-threaded)
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#else
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pad_1, // n/a padding
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#endif
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pad_2, // n/a padding
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pad_3; // n/a padding
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// 2nd 16 bytes
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unsigned long long
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utime, // stat user-mode CPU time accumulated by process
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stime, // stat kernel-mode CPU time accumulated by process
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// and so on...
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cutime, // stat cumulative utime of process and reaped children
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cstime, // stat cumulative stime of process and reaped children
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start_time; // stat start time of process -- seconds since 1-1-70
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#ifdef SIGNAL_STRING
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char
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// Linux 2.1.7x and up have 64 signals. Allow 64, plus '\0' and padding.
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signal[18], // status mask of pending signals, per-task for readtask() but per-proc for readproc()
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blocked[18], // status mask of blocked signals
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sigignore[18], // status mask of ignored signals
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sigcatch[18], // status mask of caught signals
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_sigpnd[18]; // status mask of PER TASK pending signals
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#else
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long long
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// Linux 2.1.7x and up have 64 signals.
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signal, // status mask of pending signals, per-task for readtask() but per-proc for readproc()
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blocked, // status mask of blocked signals
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sigignore, // status mask of ignored signals
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sigcatch, // status mask of caught signals
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_sigpnd; // status mask of PER TASK pending signals
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#endif
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unsigned KLONG
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start_code, // stat address of beginning of code segment
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end_code, // stat address of end of code segment
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start_stack, // stat address of the bottom of stack for the process
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kstk_esp, // stat kernel stack pointer
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kstk_eip, // stat kernel instruction pointer
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wchan; // stat (special) address of kernel wait channel proc is sleeping in
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long
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priority, // stat kernel scheduling priority
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nice, // stat standard unix nice level of process
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rss, // stat identical to 'resident'
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alarm, // stat ?
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// the next 7 members come from /proc/#/statm
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size, // statm total virtual memory (as # pages)
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resident, // statm resident non-swapped memory (as # pages)
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share, // statm shared (mmap'd) memory (as # pages)
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trs, // statm text (exe) resident set (as # pages)
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lrs, // statm library resident set (always 0 w/ 2.6)
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drs, // statm data+stack resident set (as # pages)
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dt; // statm dirty pages (always 0 w/ 2.6)
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unsigned long
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vm_size, // status equals 'size' (as kb)
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vm_lock, // status locked pages (as kb)
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vm_rss, // status equals 'rss' and/or 'resident' (as kb)
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vm_data, // status data only size (as kb)
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vm_stack, // status stack only size (as kb)
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vm_swap, // status based on linux-2.6.34 "swap ents" (as kb)
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vm_exe, // status equals 'trs' (as kb)
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vm_lib, // status total, not just used, library pages (as kb)
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rtprio, // stat real-time priority
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sched, // stat scheduling class
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vsize, // stat number of pages of virtual memory ...
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rss_rlim, // stat resident set size limit?
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flags, // stat kernel flags for the process
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min_flt, // stat number of minor page faults since process start
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maj_flt, // stat number of major page faults since process start
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cmin_flt, // stat cumulative min_flt of process and child processes
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cmaj_flt; // stat cumulative maj_flt of process and child processes
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char
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**environ, // (special) environment string vector (/proc/#/environ)
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**cmdline, // (special) command line string vector (/proc/#/cmdline)
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**cgroup, // (special) cgroup string vector (/proc/#/cgroup)
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*supgid, // status supplementary gids as comma delimited str
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*supgrp; // supp grp names as comma delimited str, derived from supgid
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char
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// Be compatible: Digital allows 16 and NT allows 14 ???
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euser[P_G_SZ], // stat(),status effective user name
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ruser[P_G_SZ], // status real user name
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suser[P_G_SZ], // status saved user name
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fuser[P_G_SZ], // status filesystem user name
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rgroup[P_G_SZ], // status real group name
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egroup[P_G_SZ], // status effective group name
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sgroup[P_G_SZ], // status saved group name
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fgroup[P_G_SZ], // status filesystem group name
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cmd[16]; // stat,status basename of executable file in call to exec(2)
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struct proc_t
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*ring, // n/a thread group ring
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*next; // n/a various library uses
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int
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pgrp, // stat process group id
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session, // stat session id
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nlwp, // stat,status number of threads, or 0 if no clue
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tgid, // (special) thread group ID, the POSIX PID (see also: tid)
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tty, // stat full device number of controlling terminal
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/* FIXME: int uids & gids should be uid_t or gid_t from pwd.h */
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euid, egid, // stat(),status effective
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ruid, rgid, // status real
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suid, sgid, // status saved
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fuid, fgid, // status fs (used for file access only)
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tpgid, // stat terminal process group id
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exit_signal, // stat might not be SIGCHLD
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processor; // stat current (or most recent?) CPU
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#ifdef OOMEM_ENABLE
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int
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oom_score, // oom_score (badness for OOM killer)
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oom_adj; // oom_adj (adjustment to OOM score)
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#endif
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} proc_t;
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// PROCTAB: data structure holding the persistent information readproc needs
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// from openproc(). The setup is intentionally similar to the dirent interface
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// and other system table interfaces (utmp+wtmp come to mind).
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#include <sys/types.h>
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#include <dirent.h>
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#include <unistd.h>
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#define PROCPATHLEN 64 // must hold /proc/2000222000/task/2000222000/cmdline
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typedef struct PROCTAB {
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DIR* procfs;
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// char deBug0[64];
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DIR* taskdir; // for threads
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// char deBug1[64];
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pid_t taskdir_user; // for threads
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int did_fake; // used when taskdir is missing
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int(*finder)(struct PROCTAB *__restrict const, proc_t *__restrict const);
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proc_t*(*reader)(struct PROCTAB *__restrict const, proc_t *__restrict const);
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int(*taskfinder)(struct PROCTAB *__restrict const, const proc_t *__restrict const, proc_t *__restrict const, char *__restrict const);
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proc_t*(*taskreader)(struct PROCTAB *__restrict const, const proc_t *__restrict const, proc_t *__restrict const, char *__restrict const);
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pid_t* pids; // pids of the procs
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uid_t* uids; // uids of procs
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int nuid; // cannot really sentinel-terminate unsigned short[]
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int i; // generic
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unsigned flags;
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unsigned u; // generic
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void * vp; // generic
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char path[PROCPATHLEN]; // must hold /proc/2000222000/task/2000222000/cmdline
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unsigned pathlen; // length of string in the above (w/o '\0')
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} PROCTAB;
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// Initialize a PROCTAB structure holding needed call-to-call persistent data
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extern PROCTAB* openproc(int flags, ... /* pid_t*|uid_t*|dev_t*|char* [, int n] */ );
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typedef struct proc_data_t { // valued by: (else zero)
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proc_t **tab; // readproctab2, readproctab3
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proc_t **proc; // readproctab2
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proc_t **task; // * readproctab2
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int n; // readproctab2, readproctab3
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int nproc; // readproctab2
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int ntask; // * readproctab2
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} proc_data_t; // * when PROC_LOOSE_TASKS set
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extern proc_data_t *readproctab2(int(*want_proc)(proc_t *buf), int(*want_task)(proc_t *buf), PROCTAB *__restrict const PT);
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extern proc_data_t *readproctab3(int(*want_task)(proc_t *buf), PROCTAB *__restrict const PT);
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// Convenient wrapper around openproc and readproc to slurp in the whole process
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// table subset satisfying the constraints of flags and the optional PID list.
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// Free allocated memory with exit(). Access via tab[N]->member. The pointer
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// list is NULL terminated.
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extern proc_t** readproctab(int flags, ... /* same as openproc */ );
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// Clean-up open files, etc from the openproc()
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extern void closeproc(PROCTAB* PT);
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// Retrieve the next process or task matching the criteria set by the openproc().
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//
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// Note: When NULL is used as the readproc 'p', readtask 't' or readeither 'x'
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// parameter, the library will allocate the necessary proc_t storage.
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//
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// Alternatively, you may provide your own reuseable buffer address
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// in which case that buffer *MUST* be initialized to zero one time
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// only before first use. Thereafter, the library will manage such
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// a passed proc_t, freeing any additional acquired memory associated
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// with the previous process or thread.
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extern proc_t* readproc(PROCTAB *__restrict const PT, proc_t *__restrict p);
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extern proc_t* readtask(PROCTAB *__restrict const PT, const proc_t *__restrict const p, proc_t *__restrict t);
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extern proc_t* readeither(PROCTAB *__restrict const PT, proc_t *__restrict x);
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// warning: interface may change
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extern int read_cmdline(char *__restrict const dst, unsigned sz, unsigned pid);
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extern void look_up_our_self(proc_t *p);
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// Deallocate space allocated by readproc
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extern void freeproc(proc_t* p);
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// Fill out a proc_t for a single task
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extern proc_t * get_proc_stats(pid_t pid, proc_t *p);
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// openproc/readproctab:
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//
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// Return PROCTAB* / *proc_t[] or NULL on error ((probably) "/proc" cannot be
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// opened.) By default readproc will consider all processes as valid to parse
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// and return, but not actually fill in the cmdline, environ, and /proc/#/statm
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// derived memory fields.
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//
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// `flags' (a bitwise-or of PROC_* below) modifies the default behavior. The
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// "fill" options will cause more of the proc_t to be filled in. The "filter"
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// options all use the second argument as the pointer to a list of objects:
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// process status', process id's, user id's. The third
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// argument is the length of the list (currently only used for lists of user
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// id's since uid_t supports no convenient termination sentinel.)
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#define PROC_FILLMEM 0x0001 // read statm
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#define PROC_FILLCOM 0x0002 // alloc and fill in `cmdline'
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#define PROC_FILLENV 0x0004 // alloc and fill in `environ'
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#define PROC_FILLUSR 0x0008 // resolve user id number -> user name
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#define PROC_FILLGRP 0x0010 // resolve group id number -> group name
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#define PROC_FILLSTATUS 0x0020 // read status
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#define PROC_FILLSTAT 0x0040 // read stat
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#define PROC_FILLWCHAN 0x0080 // look up WCHAN name
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#define PROC_FILLARG 0x0100 // alloc and fill in `cmdline'
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#define PROC_FILLCGROUP 0x0200 // alloc and fill in `cgroup`
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#define PROC_FILLSUPGRP 0x0400 // resolve supplementary group id -> group name
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#define PROC_FILLOOM 0x0800 // fill in proc_t oom_score and oom_adj
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#define PROC_LOOSE_TASKS 0x2000 // treat threads as if they were processes
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// Obsolete, consider only processes with one of the passed:
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#define PROC_PID 0x1000 // process id numbers ( 0 terminated)
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#define PROC_UID 0x4000 // user id numbers ( length needed )
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#define PROC_EDITCGRPCVT 0x10000 // edit `cgroup' as single vector
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#define PROC_EDITCMDLCVT 0x20000 // edit `cmdline' as single vector
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// it helps to give app code a few spare bits
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#define PROC_SPARE_1 0x01000000
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#define PROC_SPARE_2 0x02000000
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#define PROC_SPARE_3 0x04000000
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#define PROC_SPARE_4 0x08000000
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EXTERN_C_END
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#endif
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