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#include <u.h>
#include <libc.h>
#include <tos.h>
extern long _callpc(void**);
extern long _savearg(void);
static ulong khz;
static ulong perr;
static int havecycles;
typedef struct Plink Plink;
struct Plink
{
Plink *old;
Plink *down;
Plink *link;
long pc;
long count;
vlong time;
};
#pragma profile off
ulong
_profin(void)
{
void *dummy;
long pc;
Plink *pp, *p;
ulong arg;
vlong t;
arg = _savearg();
pc = _callpc(&dummy);
pp = _tos->prof.pp;
if(pp == 0 || (_tos->prof.pid && _tos->pid != _tos->prof.pid))
return arg;
for(p=pp->down; p; p=p->link)
if(p->pc == pc)
goto out;
p = _tos->prof.next + 1;
if(p >= _tos->prof.last) {
_tos->prof.pp = 0;
perr++;
return arg;
}
_tos->prof.next = p;
p->link = pp->down;
pp->down = p;
p->pc = pc;
p->old = pp;
p->down = 0;
p->count = 0;
p->time = 0LL;
out:
_tos->prof.pp = p;
p->count++;
switch(_tos->prof.what){
case Profkernel:
p->time = p->time - _tos->pcycles;
goto proftime;
case Profuser:
/* Add kernel cycles on proc entry */
p->time = p->time + _tos->kcycles;
/* fall through */
case Proftime:
proftime: /* Subtract cycle counter on proc entry */
cycles((uvlong*)&t);
p->time = p->time - t;
break;
case Profsample:
p->time = p->time - _tos->clock;
break;
}
return arg; /* disgusting linkage */
}
ulong
_profout(void)
{
Plink *p;
ulong arg;
vlong t;
arg = _savearg();
p = _tos->prof.pp;
if (p == nil || (_tos->prof.pid != 0 && _tos->pid != _tos->prof.pid))
return arg; /* Not our process */
switch(_tos->prof.what){
case Profkernel: /* Add proc cycles on proc entry */
p->time = p->time + _tos->pcycles;
goto proftime;
case Profuser: /* Subtract kernel cycles on proc entry */
p->time = p->time - _tos->kcycles;
/* fall through */
case Proftime:
proftime: /* Add cycle counter on proc entry */
cycles((uvlong*)&t);
p->time = p->time + t;
break;
case Profsample:
p->time = p->time + _tos->clock;
break;
}
_tos->prof.pp = p->old;
return arg;
}
void
_profdump(void)
{
int f;
long n;
Plink *p;
char *vp;
char filename[64];
if (_tos->prof.what == 0)
return; /* No profiling */
if (_tos->prof.pid != 0 && _tos->pid != _tos->prof.pid)
return; /* Not our process */
if(perr)
fprint(2, "%lud Prof errors\n", perr);
_tos->prof.pp = nil;
if (_tos->prof.pid)
snprint(filename, sizeof filename - 1, "prof.%ld", _tos->prof.pid);
else
snprint(filename, sizeof filename - 1, "prof.out");
f = create(filename, 1, 0666);
if(f < 0) {
perror("create prof.out");
return;
}
_tos->prof.pid = ~0; /* make sure data gets dumped once */
switch(_tos->prof.what){
case Profkernel:
cycles((uvlong*)&_tos->prof.first->time);
_tos->prof.first->time = _tos->prof.first->time + _tos->pcycles;
break;
case Profuser:
cycles((uvlong*)&_tos->prof.first->time);
_tos->prof.first->time = _tos->prof.first->time - _tos->kcycles;
break;
case Proftime:
cycles((uvlong*)&_tos->prof.first->time);
break;
case Profsample:
_tos->prof.first->time = _tos->clock;
break;
}
vp = (char*)_tos->prof.first;
for(p = _tos->prof.first; p <= _tos->prof.next; p++) {
/*
* short down
*/
n = 0xffff;
if(p->down)
n = p->down - _tos->prof.first;
vp[0] = n>>8;
vp[1] = n;
/*
* short right
*/
n = 0xffff;
if(p->link)
n = p->link - _tos->prof.first;
vp[2] = n>>8;
vp[3] = n;
vp += 4;
/*
* long pc
*/
n = p->pc;
vp[0] = n>>24;
vp[1] = n>>16;
vp[2] = n>>8;
vp[3] = n;
vp += 4;
/*
* long count
*/
n = p->count;
vp[0] = n>>24;
vp[1] = n>>16;
vp[2] = n>>8;
vp[3] = n;
vp += 4;
/*
* vlong time
*/
if (havecycles){
n = (vlong)(p->time / (vlong)khz);
}else
n = p->time;
vp[0] = n>>24;
vp[1] = n>>16;
vp[2] = n>>8;
vp[3] = n;
vp += 4;
}
write(f, (char*)_tos->prof.first, vp - (char*)_tos->prof.first);
close(f);
}
void
_profinit(int entries, int what)
{
if (_tos->prof.what == 0)
return; /* Profiling not linked in */
_tos->prof.pp = nil;
_tos->prof.first = mallocz(entries*sizeof(Plink),1);
_tos->prof.last = _tos->prof.first + entries;
_tos->prof.next = _tos->prof.first;
_tos->prof.pid = _tos->pid;
_tos->prof.what = what;
_tos->clock = 1;
}
void
_profmain(void)
{
char ename[50];
int n, f;
n = 2000;
if (_tos->cyclefreq != 0LL){
khz = _tos->cyclefreq / 1000; /* Report times in milliseconds */
havecycles = 1;
}
f = open("/env/profsize", OREAD);
if(f >= 0) {
memset(ename, 0, sizeof(ename));
read(f, ename, sizeof(ename)-1);
close(f);
n = atol(ename);
}
_tos->prof.what = Profuser;
f = open("/env/proftype", OREAD);
if(f >= 0) {
memset(ename, 0, sizeof(ename));
read(f, ename, sizeof(ename)-1);
close(f);
if (strcmp(ename, "user") == 0)
_tos->prof.what = Profuser;
else if (strcmp(ename, "kernel") == 0)
_tos->prof.what = Profkernel;
else if (strcmp(ename, "elapsed") == 0 || strcmp(ename, "time") == 0)
_tos->prof.what = Proftime;
else if (strcmp(ename, "sample") == 0)
_tos->prof.what = Profsample;
}
_tos->prof.first = sbrk(n*sizeof(Plink));
_tos->prof.last = sbrk(0);
_tos->prof.next = _tos->prof.first;
_tos->prof.pp = nil;
_tos->prof.pid = _tos->pid;
atexit(_profdump);
_tos->clock = 1;
}
void
prof(void (*fn)(void*), void *arg, int entries, int what)
{
_profinit(entries, what);
_tos->prof.pp = _tos->prof.next;
fn(arg);
_profdump();
}
#pragma profile on