serval-dna/performance_timing.c
2013-10-07 05:54:46 +10:30

263 lines
7.1 KiB
C

/*
Serval Distributed Numbering Architecture (DNA)
Copyright (C) 2012 Serval Project, Inc.
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
of the License, 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.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
#include "serval.h"
#include "conf.h"
struct profile_total *stats_head=NULL;
struct call_stats *current_call=NULL;
void fd_clearstat(struct profile_total *s){
s->max_time = 0;
s->total_time = 0;
s->child_time = 0;
s->calls = 0;
}
int fd_tallystats(struct profile_total *total,struct profile_total *a)
{
total->total_time+=a->total_time;
total->calls+=a->calls;
if (a->max_time>total->max_time) total->max_time=a->max_time;
return 0;
}
int fd_showstat(struct profile_total *total, struct profile_total *a)
{
INFOF("%"PRId64"ms (%2.1f%%) in %d calls (max %"PRId64"ms, avg %.1fms, +child avg %.1fms) : %s",
(int64_t) a->total_time,
a->total_time*100.0/total->total_time,
a->calls,
(int64_t) a->max_time,
a->total_time*1.00/a->calls,
(a->total_time+a->child_time)*1.00/a->calls,
a->name);
return 0;
}
// sort the list of call times
struct profile_total *sort(struct profile_total *list){
struct profile_total *first = list;
// the left hand list will contain all items that took longer than the first item
struct profile_total *left_head = NULL;
struct profile_total *left_tail = NULL;
// the right hand list will contain all items that took less time than the first item
struct profile_total *right_head = NULL;
struct profile_total *right_tail = NULL;
// most of the cpu time is likely to be the same offenders
// don't sort a list that's already sorted
int left_already_sorted = 1;
int right_already_sorted = 1;
if (!list)
return NULL;
list = list->_next;
first->_next = NULL;
// split the list into two sub-lists based on the time of the first entry
while(list){
if (list->total_time > first->total_time){
if (left_tail){
left_tail->_next = list;
if (list->total_time > left_tail->total_time)
left_already_sorted = 0;
}else
left_head=list;
left_tail=list;
}else{
if (right_tail){
right_tail->_next = list;
if (list->total_time > right_tail->total_time)
right_already_sorted = 0;
}else
right_head=list;
right_tail=list;
}
list = list->_next;
}
// sort the left sub-list
if (left_tail){
left_tail->_next=NULL;
if (!left_already_sorted){
left_head = sort(left_head);
// find the tail again
left_tail = left_head;
while(left_tail->_next)
left_tail = left_tail->_next;
}
// add the first item after the left list
left_tail->_next = first;
}else
left_head = first;
left_tail = first;
// sort the right sub-list
if (right_tail){
right_tail->_next=NULL;
if (!right_already_sorted)
right_head = sort(right_head);
left_tail->_next = right_head;
}
return left_head;
}
int fd_clearstats()
{
struct profile_total *stats = stats_head;
while(stats!=NULL){
fd_clearstat(stats);
stats = stats->_next;
}
return 0;
}
int fd_showstats()
{
struct profile_total total={NULL, 0, "Total", 0,0,0};
stats_head = sort(stats_head);
struct profile_total *stats = stats_head;
while(stats!=NULL){
/* Get total time spent doing everything */
fd_tallystats(&total,stats);
stats = stats->_next;
}
// Show periodic rhizome transfer information, but only
// if there are some active rhizome transfers.
if (rhizome_active_fetch_count()!=0)
INFOF("Rhizome transfer progress: %d,%d,%d,%d,%d,%d (remaining %d)",
rhizome_active_fetch_bytes_received(0),
rhizome_active_fetch_bytes_received(1),
rhizome_active_fetch_bytes_received(2),
rhizome_active_fetch_bytes_received(3),
rhizome_active_fetch_bytes_received(4),
rhizome_active_fetch_bytes_received(5),
rhizome_fetch_queue_bytes());
// Report any functions that take too much time
if (!config.debug.timing)
{
stats = stats_head;
while(stats!=NULL){
/* If a function spends more than 1 second in any
notionally 3 second period, then dob on it */
if (stats->total_time>1000
&&strcmp(stats->name,"Idle (in poll)"))
fd_showstat(&total,stats);
stats = stats->_next;
}
}
else {
INFOF("servald time usage stats:");
stats = stats_head;
while(stats!=NULL){
/* Get total time spent doing everything */
if (stats->calls)
fd_showstat(&total,stats);
stats = stats->_next;
}
fd_showstat(&total,&total);
}
return 0;
}
void fd_periodicstats(struct sched_ent *alarm)
{
fd_showstats();
fd_clearstats();
alarm->alarm = gettime_ms()+3000;
alarm->deadline = alarm->alarm+1000;
schedule(alarm);
}
void dump_stack(int log_level)
{
struct call_stats *call = current_call;
while(call){
if (call->totals)
LOGF(log_level, "%s",call->totals->name);
call=call->prev;
}
}
int fd_func_enter(struct __sourceloc __whence, struct call_stats *this_call)
{
if (config.debug.profiling)
DEBUGF("%s called from %s() %s:%d",
__FUNCTION__,__whence.function,__whence.file,__whence.line);
this_call->enter_time=gettime_ms();
this_call->child_time=0;
this_call->prev = current_call;
current_call = this_call;
return 0;
}
int fd_func_exit(struct __sourceloc __whence, struct call_stats *this_call)
{
// If current_call does not match this_call, then all bets are off as to where it points. It
// probably points to somewhere on the stack (see the IN() macro) that has since been overwritten,
// so no sense in trying to print its contents in a diagnostic message; that would just cause
// a SEGV.
if (config.debug.profiling)
DEBUGF("%s called from %s() %s:%d",
__FUNCTION__,__whence.function,__whence.file,__whence.line);
if (current_call != this_call)
FATAL("performance timing stack trace corrupted");
time_ms_t now = gettime_ms();
time_ms_t elapsed = now - this_call->enter_time;
current_call = this_call->prev;
if (this_call->totals && !this_call->totals->_initialised){
this_call->totals->_initialised=1;
this_call->totals->_next = stats_head;
fd_clearstat(this_call->totals);
stats_head = this_call->totals;
}
if (current_call)
current_call->child_time+=elapsed;
elapsed-=this_call->child_time;
if (this_call->totals){
this_call->totals->total_time+=elapsed;
this_call->totals->child_time+=this_call->child_time;
this_call->totals->calls++;
if (elapsed>this_call->totals->max_time) this_call->totals->max_time=elapsed;
}
return 0;
}