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photoproc.h
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photoproc.h
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/*
** ATOP - System & Process Monitor
**
** The program 'atop' offers the possibility to view the activity of
** the system on system-level as well as process-level.
**
** Include-file describing process-level counters maintained and functions
** to access the process-database.
** ================================================================
** Author: Gerlof Langeveld
** E-mail: [email protected]
** Date: November 1996
** LINUX-port: June 2000
**
** This program is free software; you can redistribute it and/or modify it
** under the terms of the GNU General Public License as published by the
** Free Software Foundation; either version 2, or (at your option) any
** later version.
**
** This program is distributed in the hope that it will be useful, but
** WITHOUT ANY WARRANTY; without even the implied warranty of
** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
** See the GNU General Public License for more details.
*/
#define PNAMLEN 15
#define CMDLEN 255
/*
** structure containing only relevant process-info extracted
** from kernel's process-administration
*/
struct tstat {
/* GENERAL TASK INFO */
struct gen {
int tgid; /* threadgroup identification */
int pid; /* process identification */
int ppid; /* parent process identification*/
int ruid; /* real user identification */
int euid; /* eff. user identification */
int suid; /* saved user identification */
int fsuid; /* fs user identification */
int rgid; /* real group identification */
int egid; /* eff. group identification */
int sgid; /* saved group identification */
int fsgid; /* fs group identification */
int nthr; /* number of threads in tgroup */
char name[PNAMLEN+1];/* process name string */
char isproc; /* boolean: process level? */
char state; /* process state ('E' = exited) */
int excode; /* process exit status */
time_t btime; /* process start time (epoch) */
time_t elaps; /* process elaps time (hertz) */
char cmdline[CMDLEN+1];/* command-line string */
int nthrslpi; /* # threads in state 'S' */
int nthrslpu; /* # threads in state 'D' */
int nthrrun; /* # threads in state 'R' */
int ctid; /* OpenVZ container ID */
int vpid; /* OpenVZ virtual PID */
int wasinactive; /* boolean: task inactive */
char container[16]; /* Docker container id (12 pos) */
} gen;
/* CPU STATISTICS */
struct cpu {
count_t utime; /* time user text (ticks) */
count_t stime; /* time system text (ticks) */
int nice; /* nice value */
int prio; /* priority */
int rtprio; /* realtime priority */
int policy; /* scheduling policy */
int curcpu; /* current processor */
int sleepavg; /* sleep average percentage */
int ifuture[4]; /* reserved for future use */
count_t cfuture[4]; /* reserved for future use */
} cpu;
/* DISK STATISTICS */
struct dsk {
count_t rio; /* number of read requests */
count_t rsz; /* cumulative # sectors read */
count_t wio; /* number of write requests */
count_t wsz; /* cumulative # sectors written */
count_t cwsz; /* cumulative # written sectors */
/* being cancelled */
count_t cfuture[4]; /* reserved for future use */
} dsk;
/* MEMORY STATISTICS */
struct mem {
count_t minflt; /* number of page-reclaims */
count_t majflt; /* number of page-faults */
count_t vexec; /* virtmem execfile (Kb) */
count_t vmem; /* virtual memory (Kb) */
count_t rmem; /* resident memory (Kb) */
count_t pmem; /* resident memory (Kb) */
count_t vgrow; /* virtual growth (Kb) */
count_t rgrow; /* resident growth (Kb) */
count_t vdata; /* virtmem data (Kb) */
count_t vstack; /* virtmem stack (Kb) */
count_t vlibs; /* virtmem libexec (Kb) */
count_t vswap; /* swap space used (Kb) */
count_t cfuture[4]; /* reserved for future use */
} mem;
/* NETWORK STATISTICS */
struct net {
count_t tcpsnd; /* number of TCP-packets sent */
count_t tcpssz; /* cumulative size packets sent */
count_t tcprcv; /* number of TCP-packets recved */
count_t tcprsz; /* cumulative size packets rcvd */
count_t udpsnd; /* number of UDP-packets sent */
count_t udpssz; /* cumulative size packets sent */
count_t udprcv; /* number of UDP-packets recved */
count_t udprsz; /* cumulative size packets sent */
count_t avail1; /* */
count_t avail2; /* */
count_t cfuture[4]; /* reserved for future use */
} net;
};
struct pinfo {
struct pinfo *phnext; /* next process in hash chain */
struct pinfo *prnext; /* next process in residue chain */
struct pinfo *prprev; /* prev process in residue chain */
struct tstat tstat; /* per-process statistics */
};
/*
** structure to maintains all deviation info related to one sample
*/
struct devtstat {
struct tstat *taskall;
struct tstat **procall;
struct tstat **procactive;
unsigned long ntaskall;
unsigned long ntaskactive;
unsigned long nprocall;
unsigned long nprocactive;
unsigned long totrun, totslpi, totslpu, totzombie;
};
/*
** prototypes of process-database functions
*/
int pdb_gettask(int, char, time_t, struct pinfo **);
void pdb_addtask(int, struct pinfo *);
int pdb_deltask(int, char);
int pdb_makeresidue(void);
int pdb_cleanresidue(void);
int pdb_srchresidue(struct tstat *, struct pinfo **);
/*
** prototypes for raw process-statistics functions
*/
struct netpertask;
void deviattask(struct tstat *, unsigned long,
struct tstat *, unsigned long,
struct devtstat *, struct sstat *);
unsigned long photoproc(struct tstat *, int);
unsigned long countprocs(void);