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|
/***
log.c - This file is part of systemd-bootchart
Copyright (C) 2009-2013 Intel Coproration
Authors:
Auke Kok <auke-jan.h.kok@intel.com>
systemd is free software; you can redistribute it and/or modify it
under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation; either version 2.1 of the License, or
(at your option) any later version.
systemd 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
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
along with systemd; If not, see <http://www.gnu.org/licenses/>.
***/
#define _GNU_SOURCE 1
#include <unistd.h>
#include <stdlib.h>
#include <limits.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <stdio.h>
#include <string.h>
#include <dirent.h>
#include <fcntl.h>
#include <time.h>
#include "bootchart.h"
#include "util.h"
/*
* Alloc a static 4k buffer for stdio - primarily used to increase
* PSS buffering from the default 1k stdin buffer to reduce
* read() overhead.
*/
static char smaps_buf[4096];
DIR *proc;
int procfd=-1;
double gettime_ns(void)
{
struct timespec n;
clock_gettime(CLOCK_MONOTONIC, &n);
return (n.tv_sec + (n.tv_nsec / 1000000000.0));
}
void log_uptime(void)
{
FILE *f;
char str[32];
double uptime;
f = fopen("/proc/uptime", "r");
if (!f)
return;
if (!fscanf(f, "%s %*s", str)) {
fclose(f);
return;
}
fclose(f);
uptime = strtod(str, NULL);
log_start = gettime_ns();
/* start graph at kernel boot time */
if (relative)
graph_start = log_start;
else
graph_start = log_start - uptime;
}
static char *bufgetline(char *buf)
{
char *c;
if (!buf)
return NULL;
c = strchr(buf, '\n');
if (c)
c++;
return c;
}
void log_sample(int sample)
{
static int vmstat;
static int schedstat;
FILE *st;
char buf[4095];
char key[256];
char val[256];
char rt[256];
char wt[256];
char *m;
int c;
int p;
int mod;
static int e_fd;
ssize_t s;
ssize_t n;
struct dirent *ent;
int fd;
/* all the per-process stuff goes here */
if (!proc) {
/* find all processes */
proc = opendir("/proc");
if (!proc)
return;
procfd = dirfd(proc);
} else {
rewinddir(proc);
}
if (!vmstat) {
/* block stuff */
vmstat = openat(procfd, "vmstat", O_RDONLY);
if (vmstat == -1) {
perror("open /proc/vmstat");
exit (EXIT_FAILURE);
}
}
n = pread(vmstat, buf, sizeof(buf) - 1, 0);
if (n <= 0) {
close(vmstat);
return;
}
buf[n] = '\0';
m = buf;
while (m) {
if (sscanf(m, "%s %s", key, val) < 2)
goto vmstat_next;
if (streq(key, "pgpgin"))
blockstat[sample].bi = atoi(val);
if (streq(key, "pgpgout")) {
blockstat[sample].bo = atoi(val);
break;
}
vmstat_next:
m = bufgetline(m);
if (!m)
break;
}
if (!schedstat) {
/* overall CPU utilization */
schedstat = openat(procfd, "schedstat", O_RDONLY);
if (schedstat == -1) {
perror("open /proc/schedstat");
exit (EXIT_FAILURE);
}
}
n = pread(schedstat, buf, sizeof(buf) - 1, 0);
if (n <= 0) {
close(schedstat);
return;
}
buf[n] = '\0';
m = buf;
while (m) {
if (sscanf(m, "%s %*s %*s %*s %*s %*s %*s %s %s", key, rt, wt) < 3)
goto schedstat_next;
if (strstr(key, "cpu")) {
c = atoi((const char*)(key+3));
if (c > MAXCPUS)
/* Oops, we only have room for MAXCPUS data */
break;
cpustat[c].sample[sample].runtime = atoll(rt);
cpustat[c].sample[sample].waittime = atoll(wt);
if (c == cpus)
cpus = c + 1;
}
schedstat_next:
m = bufgetline(m);
if (!m)
break;
}
if (entropy) {
if (!e_fd) {
e_fd = openat(procfd, "sys/kernel/random/entropy_avail", O_RDONLY);
}
if (e_fd) {
n = pread(e_fd, buf, sizeof(buf) - 1, 0);
if (n > 0) {
buf[n] = '\0';
entropy_avail[sample] = atoi(buf);
}
}
}
while ((ent = readdir(proc)) != NULL) {
char filename[PATH_MAX];
int pid;
struct ps_struct *ps;
if ((ent->d_name[0] < '0') || (ent->d_name[0] > '9'))
continue;
pid = atoi(ent->d_name);
if (pid >= MAXPIDS)
continue;
ps = ps_first;
while (ps->next_ps) {
ps = ps->next_ps;
if (ps->pid == pid)
break;
}
/* end of our LL? then append a new record */
if (ps->pid != pid) {
char t[32];
struct ps_struct *parent;
ps->next_ps = calloc(1, sizeof(struct ps_struct));
if (!ps->next_ps) {
perror("calloc(ps_struct)");
exit (EXIT_FAILURE);
}
ps = ps->next_ps;
ps->pid = pid;
ps->sample = calloc(len + 1, sizeof(struct ps_sched_struct));
if (!ps->sample) {
perror("calloc(ps_struct)");
exit (EXIT_FAILURE);
}
pscount++;
/* mark our first sample */
ps->first = sample;
/* get name, start time */
if (!ps->sched) {
sprintf(filename, "%d/sched", pid);
ps->sched = openat(procfd, filename, O_RDONLY);
if (ps->sched == -1)
continue;
}
s = pread(ps->sched, buf, sizeof(buf) - 1, 0);
if (s <= 0) {
close(ps->sched);
continue;
}
buf[s] = '\0';
if (!sscanf(buf, "%s %*s %*s", key))
continue;
strncpy(ps->name, key, 16);
/* discard line 2 */
m = bufgetline(buf);
if (!m)
continue;
m = bufgetline(m);
if (!m)
continue;
if (!sscanf(m, "%*s %*s %s", t))
continue;
ps->starttime = strtod(t, NULL) / 1000.0;
/* ppid */
sprintf(filename, "%d/stat", pid);
fd = openat(procfd, filename, O_RDONLY);
st = fdopen(fd, "r");
if (!st)
continue;
if (!fscanf(st, "%*s %*s %*s %i", &p)) {
fclose(st);
continue;
}
fclose(st);
ps->ppid = p;
/*
* setup child pointers
*
* these are used to paint the tree coherently later
* each parent has a LL of children, and a LL of siblings
*/
if (pid == 1)
continue; /* nothing to do for init atm */
/* kthreadd has ppid=0, which breaks our tree ordering */
if (ps->ppid == 0)
ps->ppid = 1;
parent = ps_first;
while ((parent->next_ps && parent->pid != ps->ppid))
parent = parent->next_ps;
if ((!parent) || (parent->pid != ps->ppid)) {
/* orphan */
ps->ppid = 1;
parent = ps_first->next_ps;
}
ps->parent = parent;
if (!parent->children) {
/* it's the first child */
parent->children = ps;
} else {
/* walk all children and append */
struct ps_struct *children;
children = parent->children;
while (children->next)
children = children->next;
children->next = ps;
}
}
/* else -> found pid, append data in ps */
/* below here is all continuous logging parts - we get here on every
* iteration */
/* rt, wt */
if (!ps->schedstat) {
sprintf(filename, "%d/schedstat", pid);
ps->schedstat = openat(procfd, filename, O_RDONLY);
if (ps->schedstat == -1)
continue;
}
s = pread(ps->schedstat, buf, sizeof(buf) - 1, 0);
if (s <= 0) {
/* clean up our file descriptors - assume that the process exited */
close(ps->schedstat);
if (ps->sched)
close(ps->sched);
//if (ps->smaps)
// fclose(ps->smaps);
continue;
}
buf[s] = '\0';
if (!sscanf(buf, "%s %s %*s", rt, wt))
continue;
ps->last = sample;
ps->sample[sample].runtime = atoll(rt);
ps->sample[sample].waittime = atoll(wt);
ps->total = (ps->sample[ps->last].runtime
- ps->sample[ps->first].runtime)
/ 1000000000.0;
if (!pss)
goto catch_rename;
/* Pss */
if (!ps->smaps) {
sprintf(filename, "%d/smaps", pid);
fd = openat(procfd, filename, O_RDONLY);
ps->smaps = fdopen(fd, "r");
if (!ps->smaps)
continue;
setvbuf(ps->smaps, smaps_buf, _IOFBF, sizeof(smaps_buf));
} else {
rewind(ps->smaps);
}
while (1) {
int pss_kb;
/* skip one line, this contains the object mapped */
if (fgets(buf, sizeof(buf), ps->smaps) == NULL)
break;
/* then there's a 28 char 14 line block */
if (fread(buf, 1, 28 * 14, ps->smaps) != 28 * 14)
break;
pss_kb = atoi(&buf[61]);
ps->sample[sample].pss += pss_kb;
}
if (ps->sample[sample].pss > ps->pss_max)
ps->pss_max = ps->sample[sample].pss;
catch_rename:
/* catch process rename, try to randomize time */
mod = (hz < 4.0) ? 4.0 : (hz / 4.0);
if (((samples - ps->first) + pid) % (int)(mod) == 0) {
/* re-fetch name */
/* get name, start time */
if (!ps->sched) {
sprintf(filename, "%d/sched", pid);
ps->sched = openat(procfd, filename, O_RDONLY);
if (ps->sched == -1)
continue;
}
s = pread(ps->sched, buf, sizeof(buf) - 1, 0);
if (s <= 0) {
/* clean up file descriptors */
close(ps->sched);
if (ps->schedstat)
close(ps->schedstat);
//if (ps->smaps)
// fclose(ps->smaps);
continue;
}
buf[s] = '\0';
if (!sscanf(buf, "%s %*s %*s", key))
continue;
strncpy(ps->name, key, 16);
}
}
}
|