top update
- it works with the new TSC based time accounting
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1b56fdb33c
commit
b5e7af96c9
1 changed files with 73 additions and 30 deletions
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@ -32,6 +32,8 @@
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#include <minix/type.h>
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#include <minix/const.h>
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#include <minix/u64.h>
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#include "../../kernel/arch/i386/include/archtypes.h"
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#include "../../servers/pm/mproc.h"
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#include "../../kernel/const.h"
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@ -101,15 +103,22 @@ int print_proc_summary(struct proc *proc)
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static struct tp {
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struct proc *p;
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int ticks;
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u64_t ticks;
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} tick_procs[PROCS];
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int cmp_ticks(const void *v1, const void *v2)
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{
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struct tp *p1 = (struct tp *) v1, *p2 = (struct tp *) v2;
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if(p1->ticks < p2->ticks)
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if (p1->ticks.hi == p2->ticks.hi) {
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if(p1->ticks.lo < p2->ticks.lo)
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return 1;
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if(p1->ticks.lo > p2->ticks.lo)
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return -1;
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}
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if(p1->ticks.hi < p2->ticks.hi)
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return 1;
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if(p1->ticks > p2->ticks)
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if(p1->ticks.hi > p2->ticks.hi)
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return -1;
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if(p1->p->p_nr < p2->p->p_nr)
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return -1;
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@ -118,14 +127,27 @@ int cmp_ticks(const void *v1, const void *v2)
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return 0;
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}
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/*
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* since we don't have true div64(u64_t, u64_t) we scale the 64 bit counters to
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* 32. Since the samplig happens every ~1s and the counters count CPU cycles
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* during this period, unless we have extremely fast CPU, shifting the counters
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* by 12 make them 32bit counters which we can use for normal integer
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* arithmetics
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*/
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#define SCALE (1 << 12)
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void print_procs(int maxlines,
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struct proc *proc1, struct proc *proc2, int dt,
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struct proc *proc1, struct proc *proc2,
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struct mproc *mproc)
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{
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int p, nprocs, tot=0;
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int idleticks = 0, kernelticks = 0, systemticks = 0;
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if(dt < 1) return;
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u64_t idleticks = cvu64(0);
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u64_t kernelticks = cvu64(0);
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u64_t systemticks = cvu64(0);
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u64_t userticks = cvu64(0);
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u64_t total_ticks = cvu64(0);
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unsigned long tcyc;
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unsigned long tmp;
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for(p = nprocs = 0; p < PROCS; p++) {
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if(isemptyp(&proc2[p]))
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@ -133,31 +155,47 @@ void print_procs(int maxlines,
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tick_procs[nprocs].p = proc2 + p;
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if(proc1[p].p_endpoint == proc2[p].p_endpoint) {
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tick_procs[nprocs].ticks =
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proc2[p].p_user_time-proc1[p].p_user_time;
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sub64(proc2[p].p_cycles, proc1[p].p_cycles);
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} else {
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tick_procs[nprocs].ticks =
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proc2[p].p_user_time;
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proc2[p].p_cycles;
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}
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total_ticks = add64(total_ticks, tick_procs[nprocs].ticks);
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if(p-NR_TASKS == IDLE) {
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idleticks = tick_procs[nprocs].ticks;
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continue;
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}
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if(p-NR_TASKS == KERNEL) {
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kernelticks = tick_procs[nprocs].ticks;
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continue;
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}
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if(mproc[proc2[p].p_nr].mp_procgrp == 0)
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systemticks = add64(systemticks, tick_procs[nprocs].ticks);
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else if (p > NR_TASKS)
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userticks = add64(userticks, tick_procs[nprocs].ticks);
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/* Kernel task time, not counting IDLE */
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if(proc2[p].p_nr < 0)
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kernelticks += tick_procs[nprocs].ticks;
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else if(mproc[proc2[p].p_nr].mp_procgrp == 0)
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systemticks += tick_procs[nprocs].ticks;
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nprocs++;
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}
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if (!cmp64u(total_ticks, 0))
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return;
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qsort(tick_procs, nprocs, sizeof(tick_procs[0]), cmp_ticks);
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printf("CPU states: %6.2f%% user, %6.2f%% system, %6.2f%% kernel, %6.2f%% idle",
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100.0*(dt-systemticks-kernelticks-idleticks)/dt,
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100.0*systemticks/dt,
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100.0*kernelticks/dt,
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100.0*idleticks/dt);
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tcyc = div64u(total_ticks, SCALE);
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tmp = div64u(userticks, SCALE);
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printf("CPU states: %6.2f%% user, ", 100.0*(tmp)/tcyc);
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tmp = div64u(systemticks, SCALE);
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printf("%6.2f%% system, ", 100.0*tmp/tcyc);
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tmp = div64u(kernelticks, SCALE);
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printf("%6.2f%% kernel, ", 100.0*tmp/tcyc);
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tmp = div64u(idleticks, SCALE);
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printf("%6.2f%% idle", 100.0*tmp/tcyc);
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printf("\n\n");
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maxlines -= 2;
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@ -171,6 +209,8 @@ void print_procs(int maxlines,
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static struct passwd *who = NULL;
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static int last_who = -1;
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unsigned long pcyc;
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if(maxlines-- <= 0) break;
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pnr = tick_procs[p].p->p_nr;
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@ -180,10 +220,9 @@ void print_procs(int maxlines,
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printf("%5d ", mproc[pnr].mp_pid);
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euid = mproc[pnr].mp_effuid;
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name = mproc[pnr].mp_name;
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} else {
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printf("[%3d] ", pnr);
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name = pr->p_name;
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}
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} else
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/* skip old kernel tasks as they don't run anymore */
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continue;
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if(last_who != euid || !who) {
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who = getpwuid(euid);
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last_who = euid;
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@ -203,8 +242,10 @@ void print_procs(int maxlines,
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printf("%6s", pr->p_rts_flags ? "" : "RUN");
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printf(" %3d:%02d ", (ticks/system_hz/60), (ticks/system_hz)%60);
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pcyc = div64u(tick_procs[p].ticks, SCALE);
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printf("%6.2f%% %s\n",
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100.0*tick_procs[p].ticks/dt, name);
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100.0*pcyc/tcyc, name);
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}
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}
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@ -214,17 +255,14 @@ void showtop(int r)
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double loads[NLOADS];
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int nloads, i, p, lines = 0;
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static struct proc prev_proc[PROCS], proc[PROCS];
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static int preheated = 0;
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struct winsize winsize;
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/*
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static struct pm_mem_info pmi;
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*/
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static int prev_uptime, uptime;
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static struct mproc mproc[NR_PROCS];
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struct tms tms;
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int mem = 0;
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uptime = times(&tms);
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if(ioctl(STDIN_FILENO, TIOCGWINSZ, &winsize) != 0) {
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perror("TIOCGWINSZ");
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fprintf(stderr, "TIOCGWINSZ failed\n");
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@ -239,10 +277,16 @@ void showtop(int r)
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} else mem = 1;
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#endif
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retry:
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if(getsysinfo(PM_PROC_NR, SI_KPROC_TAB, proc) < 0) {
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fprintf(stderr, "getsysinfo() for SI_KPROC_TAB failed.\n");
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exit(1);
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}
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if (!preheated) {
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preheated = 1;
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memcpy(prev_proc, proc, sizeof(prev_proc));
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goto retry;;
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}
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if(getsysinfo(PM_PROC_NR, SI_PROC_TAB, mproc) < 0) {
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fprintf(stderr, "getsysinfo() for SI_PROC_TAB failed.\n");
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@ -266,10 +310,9 @@ void showtop(int r)
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if(winsize.ws_row > 0) r = winsize.ws_row;
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print_procs(r - lines - 2, prev_proc,
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proc, uptime-prev_uptime, mproc);
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proc, mproc);
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memcpy(prev_proc, proc, sizeof(prev_proc));
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prev_uptime = uptime;
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}
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void init(int *rows)
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