urbit/noun/trace.c

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/* g/t.c -
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**
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** This file is in the public domain.
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*/
#include "all.h"
#include "vere/vere.h"
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#include <pthread.h>
#include <time.h>
#include <sys/stat.h>
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static c3_o _ct_lop_o;
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/* u3t_push(): push on trace stack.
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*/
void
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u3t_push(u3_noun mon)
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{
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u3R->bug.tax = u3nc(mon, u3R->bug.tax);
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}
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/* u3t_mean(): push `[%mean roc]` on trace stack.
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*/
void
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u3t_mean(u3_noun roc)
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{
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u3R->bug.tax = u3nc(u3nc(c3__mean, roc), u3R->bug.tax);
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}
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/* u3t_drop(): drop from meaning stack.
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*/
void
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u3t_drop(void)
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{
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c3_assert(_(u3du(u3R->bug.tax)));
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{
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u3_noun tax = u3R->bug.tax;
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u3R->bug.tax = u3k(u3t(tax));
u3z(tax);
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}
}
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extern void
u3_lo_tank(c3_l tab_l, u3_noun tac);
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/* u3t_slog(): print directly.
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*/
void
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u3t_slog(u3_noun hod)
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{
#ifdef U3_EVENT_TIME_DEBUG
static int old;
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static struct timeval b4, f2, d0;
c3_w ms_w;
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if ( old ) {
gettimeofday(&f2, 0);
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timersub(&f2, &b4, &d0);
ms_w = (d0.tv_sec * 1000) + (d0.tv_usec / 1000);
if (ms_w > 10) {
printf("%6d.%02dms ", ms_w, (int) (d0.tv_usec % 1000) / 10);
gettimeofday(&b4, 0);
}
else {
printf(" ");
}
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}
else gettimeofday(&b4, 0);
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old = 1;
#endif
if ( (0 != u3A->roc) && (c3y == u3du(hod)) ) {
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u3_noun pri = u3h(hod);
switch ( pri ) {
case 3: printf(">>> "); break;
case 2: printf(">> "); break;
case 1: printf("> "); break;
}
u3_lo_tank(0, u3k(u3t(hod)));
}
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u3z(hod);
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}
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/* u3t_heck(): profile point.
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*/
void
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u3t_heck(u3_atom cog)
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{
#if 0
u3R->pro.cel_d++;
#else
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c3_w len_w = u3r_met(3, cog);
c3_c* str_c = alloca(1 + len_w);
u3r_bytes(0, len_w, (c3_y *)str_c, cog);
str_c[len_w] = 0;
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// Profile sampling, because it allocates on the home road,
// only works on when we're not at home.
//
if ( &(u3H->rod_u) != u3R ) {
u3a_road* rod_u;
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rod_u = u3R;
u3R = &(u3H->rod_u);
{
if ( 0 == u3R->pro.day ) {
u3R->pro.day = u3v_do("doss", 0);
}
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u3R->pro.day = u3dc("pi-heck", u3i_string(str_c), u3R->pro.day);
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}
u3R = rod_u;
}
#endif
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}
#if 0
static void
_ct_sane(u3_noun lab)
{
if ( u3_nul != lab ) {
c3_assert(c3y == u3du(lab));
c3_assert(c3y == u3ud(u3h(lab)));
_ct_sane(u3t(lab));
}
}
#endif
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#if 1
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/* _t_samp_process(): process raw sample data from live road.
*/
static u3_noun
_t_samp_process(u3_road* rod_u)
{
u3_noun pef = u3_nul; // (list (pair path (map path ,@ud)))
u3_noun muf = u3_nul; // (map path ,@ud)
c3_w len_w = 0;
// Accumulate a label/map stack which collapses recursive segments.
//
while ( rod_u ) {
u3_noun don = rod_u->pro.don;
while ( u3_nul != don ) {
// Get surface allocated label
//
// u3_noun lab = u3nc(u3i_string("foobar"), 0);
u3_noun laj = u3h(don),
lab = u3a_take(laj);
u3a_wash(laj);
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// Add the label to the traced label stack, trimming recursion.
//
{
u3_noun old;
if ( u3_none == (old = u3kdb_get(u3k(muf), u3k(lab))) ) {
muf = u3kdb_put(muf, u3k(lab), len_w);
pef = u3nc(u3nc(lab, u3k(muf)), pef);
len_w += 1;
}
else {
u3_assure(u3a_is_cat(old));
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u3z(muf);
while ( len_w > (old + 1) ) {
u3_noun t_pef = u3k(u3t(pef));
len_w -= 1;
u3z(pef);
pef = t_pef;
}
muf = u3k(u3t(u3h(pef)));
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u3z(lab);
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}
}
don = u3t(don);
}
rod_u = u3tn(u3_road, rod_u->par_p);
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}
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u3z(muf);
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// Lose the maps and save a pure label stack in original order.
//
{
u3_noun pal = u3_nul;
while ( u3_nul != pef ) {
u3_noun h_pef = u3h(pef);
u3_noun t_pef = u3k(u3t(pef));
pal = u3nc(u3k(u3h(h_pef)), pal);
u3z(pef);
pef = t_pef;
}
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// fprintf(stderr, "sample: stack length %d\r\n", u3kb_lent(u3k(pal)));
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return pal;
}
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}
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#endif
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/* u3t_samp(): sample.
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*/
void
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u3t_samp(void)
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{
if ( c3y == _ct_lop_o ) {
// _ct_lop_o here is a mutex for modifying pro.don. we
// do not want to sample in the middle of doing that, as
// it can cause memory errors.
return;
}
c3_w old_wag = u3C.wag_w;
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u3C.wag_w &= ~u3o_debug_cpu;
u3C.wag_w &= ~u3o_trace;
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static int home = 0;
static int away = 0;
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// Profile sampling, because it allocates on the home road,
// only works on when we're not at home.
//
if ( &(u3H->rod_u) != u3R ) {
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home++;
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c3_l mot_l;
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u3a_road* rod_u;
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if ( _(u3T.mal_o) ) {
mot_l = c3_s3('m','a','l');
}
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else if ( _(u3T.coy_o) ) {
mot_l = c3_s3('c','o','y');
}
else if ( _(u3T.euq_o) ) {
mot_l = c3_s3('e','u','q');
}
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else if ( _(u3T.far_o) ) {
mot_l = c3_s3('f','a','r');
}
else if ( _(u3T.noc_o) ) {
c3_assert(!_(u3T.glu_o));
mot_l = c3_s3('n','o','c');
}
else if ( _(u3T.glu_o) ) {
mot_l = c3_s3('g','l','u');
}
else {
mot_l = c3_s3('f','u','n');
}
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rod_u = u3R;
u3R = &(u3H->rod_u);
{
u3_noun lab = _t_samp_process(rod_u);
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c3_assert(u3R == &u3H->rod_u);
if ( 0 == u3R->pro.day ) {
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/* bunt a +doss
*/
u3R->pro.day = u3nt(u3nq(0, 0, 0, u3nq(0, 0, 0, 0)), 0, 0);
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}
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u3R->pro.day = u3dt("pi-noon", mot_l, lab, u3R->pro.day);
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}
u3R = rod_u;
}
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else {
away++;
// fprintf(stderr,"home: %06d away: %06d\r\n", home, away);
}
u3C.wag_w = old_wag;
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}
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/* u3t_come(): push on profile stack; return yes if active push. RETAIN.
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*/
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c3_o
u3t_come(u3_noun lab)
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{
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if ( (u3_nul == u3R->pro.don) || !_(u3r_sing(lab, u3h(u3R->pro.don))) ) {
u3a_gain(lab);
_ct_lop_o = c3y;
u3R->pro.don = u3nc(lab, u3R->pro.don);
_ct_lop_o = c3n;
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return c3y;
}
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else return c3n;
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}
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/* u3t_flee(): pop off profile stack.
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*/
void
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u3t_flee(void)
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{
_ct_lop_o = c3y;
u3_noun don = u3R->pro.don;
u3R->pro.don = u3k(u3t(don));
_ct_lop_o = c3n;
u3z(don);
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}
/* u3t_trace_open(): opens a trace file and writes the preamble.
*/
void
u3t_trace_open()
{
c3_c fil_c[2048];
snprintf(fil_c, 2048, "%s/.urb/put/trace", u3_Host.dir_c);
struct stat st;
if ( -1 == stat(fil_c, &st) ) {
mkdir(fil_c, 0700);
}
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c3_c * wen_c = u3r_string(u3A->wen);
c3_c lif_c[2048];
snprintf(lif_c, 2048, "%s/%s.json", fil_c, wen_c);
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free(wen_c);
u3_Host.tra_u.fil_u = fopen(lif_c, "w");
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u3_Host.tra_u.nid_w = (int)getpid();
fprintf(u3_Host.tra_u.fil_u, "[ ");
// We have two "threads", the event processing and the nock stuff.
// tid 1 = event processing
// tid 2 = nock processing
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fprintf(u3_Host.tra_u.fil_u,
"{\"name\": \"process_name\", \"ph\": \"M\", \"pid\": %d, \"args\": "
"{\"name\": \"urbit\"}},\n",
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u3_Host.tra_u.nid_w);
fprintf(u3_Host.tra_u.fil_u,
"{\"name\": \"thread_name\", \"ph\": \"M\", \"pid\": %d, \"tid\": 1, "
"\"args\": {\"name\": \"Event Processing\"}},\n",
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u3_Host.tra_u.nid_w);
fprintf(u3_Host.tra_u.fil_u,
"{\"name\": \"thread_sort_index\", \"ph\": \"M\", \"pid\": %d, "
"\"tid\": 1, \"args\": {\"sort_index\": 1}},\n",
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u3_Host.tra_u.nid_w);
fprintf(u3_Host.tra_u.fil_u,
"{\"name\": \"thread_name\", \"ph\": \"M\", \"pid\": %d, \"tid\": 2, "
"\"args\": {\"name\": \"Nock\"}},\n",
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u3_Host.tra_u.nid_w);
fprintf(u3_Host.tra_u.fil_u,
"{\"name\": \"thread_sort_index\", \"ph\": \"M\", \"pid\": %d, "
"\"tid\": 2, \"args\": {\"sort_index\": 2}},\n",
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u3_Host.tra_u.nid_w);
u3_Host.tra_u.con_w = 5;
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}
/* u3t_trace_close(): closes a trace file. optional.
*/
void
u3t_trace_close()
{
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if (!u3_Host.tra_u.fil_u)
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return;
// We don't terminate the JSON because of the file format.
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fclose(u3_Host.tra_u.fil_u);
u3_Host.tra_u.con_w = 0;
}
/* u3t_trace_time(): microsecond clock
*/
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c3_d u3t_trace_time()
{
struct timeval tim_tv;
gettimeofday(&tim_tv, 0);
return 1000000ULL * tim_tv.tv_sec + tim_tv.tv_usec;
}
/* u3t_nock_trace_push(): push a trace onto the trace stack; returns yes if pushed.
*
* The trace stack is a stack of [path time-entered].
*/
c3_o
u3t_nock_trace_push(u3_noun lab)
{
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if (!u3_Host.tra_u.fil_u)
return c3n;
if ( (u3_nul == u3R->pro.trace) ||
!_(u3r_sing(lab, u3h(u3h(u3R->pro.trace)))) ) {
u3a_gain(lab);
c3_d time = u3t_trace_time();
u3R->pro.trace = u3nc(u3nc(lab, u3i_chubs(1, &time)), u3R->pro.trace);
return c3y;
}
else {
return c3n;
}
}
/* _in_trace_pretty: measure/cut prettyprint.
*
* Modeled after _cm_in_pretty(), the backend to u3m_p(), but with the
* assumption that we're always displaying a path.
*/
static c3_w
_in_trace_pretty(u3_noun som, c3_c* str_c)
{
if ( _(u3du(som)) ) {
c3_w sel_w, one_w, two_w;
if ( str_c ) {
*(str_c++) = '/';
}
sel_w = 1;
one_w = _in_trace_pretty(u3h(som), str_c);
if ( str_c ) {
str_c += one_w;
}
two_w = _in_trace_pretty(u3t(som), str_c);
if ( str_c ) {
str_c += two_w;
}
return sel_w + one_w + two_w;
}
else {
c3_w len_w = u3r_met(3, som);
if ( str_c && len_w ) {
u3r_bytes(0, len_w, (c3_y *)str_c, som);
str_c += len_w;
}
return len_w;
}
}
static c3_c*
trace_pretty(u3_noun som)
{
c3_w len_w = _in_trace_pretty(som, NULL);
c3_c* pre_c = malloc(len_w + 1);
_in_trace_pretty(som, pre_c);
pre_c[len_w] = 0;
return pre_c;
}
/* u3t_nock_trace_pop(): pops a trace from the trace stack.
*
* When we remove the trace from the stack, we check to see if the sample is
* large enough to process, as we'll otherwise keep track of individual +add
* calls. If it is, we write it out to the tracefile.
*/
void
u3t_nock_trace_pop()
{
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if (!u3_Host.tra_u.fil_u)
return;
u3_noun trace = u3R->pro.trace;
u3R->pro.trace = u3k(u3t(trace));
u3_noun item = u3h(trace);
u3_noun lab = u3h(item);
c3_d start_time = u3r_chub(0, u3t(item));
// 33microseconds (a 30th of a millisecond).
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c3_d duration = u3t_trace_time() - start_time;
if (duration > 33) {
c3_c* name = trace_pretty(lab);
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fprintf(u3_Host.tra_u.fil_u,
"{\"cat\": \"nock\", \"name\": \"%s\", \"ph\":\"%c\", \"pid\": %d, "
"\"tid\": 2, \"ts\": %" PRIu64 ", \"dur\": %" PRIu64 "}, \n",
name,
'X',
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u3_Host.tra_u.nid_w,
start_time,
duration);
free(name);
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u3_Host.tra_u.con_w++;
}
u3z(trace);
}
/* u3t_event_trace(): dumps a simple event from outside nock.
*/
void
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u3t_event_trace(const c3_c* name, c3_c type)
{
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if (!u3_Host.tra_u.fil_u)
return;
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fprintf(u3_Host.tra_u.fil_u,
"{\"cat\": \"event\", \"name\": \"%s\", \"ph\":\"%c\", \"pid\": %d, "
"\"tid\": 1, \"ts\": %" PRIu64 ", \"id\": \"0x100\"}, \n",
name,
type,
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u3_Host.tra_u.nid_w,
u3t_trace_time());
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u3_Host.tra_u.con_w++;
}
extern FILE*
u3_term_io_hija(void);
extern void
u3_term_io_loja(int x);
extern void
u3_term_tape(u3_noun tep);
extern void
u3_term_wall(u3_noun wol);
/* u3t_print_steps: print step counter.
*/
void
u3t_print_steps(c3_c* cap_c, c3_d sep_d)
{
FILE* fil_f = u3_term_io_hija();
c3_w gib_w = (sep_d / 1000000000ULL);
c3_w mib_w = (sep_d % 1000000000ULL) / 1000000ULL;
c3_w kib_w = (sep_d % 1000000ULL) / 1000ULL;
c3_w bib_w = (sep_d % 1000ULL);
if ( sep_d ) {
if ( gib_w ) {
fprintf(fil_f, "%s: G/%d.%03d.%03d.%03d\r\n",
cap_c, gib_w, mib_w, kib_w, bib_w);
}
else if ( mib_w ) {
fprintf(fil_f, "%s: M/%d.%03d.%03d\r\n", cap_c, mib_w, kib_w, bib_w);
}
else if ( kib_w ) {
fprintf(fil_f, "%s: K/%d.%03d\r\n", cap_c, kib_w, bib_w);
}
else if ( bib_w ) {
fprintf(fil_f, "%s: %d\r\n", cap_c, bib_w);
}
}
u3_term_io_loja(0);
}
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/* u3t_damp(): print and clear profile data.
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*/
void
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u3t_damp(void)
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{
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if ( 0 != u3R->pro.day ) {
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u3_noun wol = u3do("pi-tell", u3R->pro.day);
fprintf(stderr, "\r\n");
u3_term_wall(wol);
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/* bunt a +doss
*/
u3R->pro.day = u3nt(u3nq(0, 0, 0, u3nq(0, 0, 0, 0)), 0, 0);
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}
u3t_print_steps("nocks", u3R->pro.nox_d);
u3t_print_steps("cells", u3R->pro.cel_d);
u3R->pro.nox_d = 0;
u3R->pro.cel_d = 0;
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}
/* _ct_sigaction(): profile sigaction callback.
*/
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void _ct_sigaction(c3_i x_i)
{
// fprintf(stderr, "itimer!\r\n"); abort();
u3t_samp();
}
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/* u3t_init(): initialize tracing layer.
*/
void
u3t_init(void)
{
u3T.noc_o = c3n;
u3T.glu_o = c3n;
u3T.mal_o = c3n;
u3T.far_o = c3n;
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u3T.coy_o = c3n;
u3T.euq_o = c3n;
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}
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/* u3t_boot(): turn sampling on.
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*/
void
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u3t_boot(void)
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{
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if ( u3C.wag_w & u3o_debug_cpu ) {
_ct_lop_o = c3n;
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#if defined(U3_OS_osx) || defined(U3_OS_linux)
// skip profiling if we don't yet have an arvo kernel
//
if ( 0 == u3A->roc ) {
return;
}
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// Register _ct_sigaction to be called on `SIGPROF`.
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{
struct sigaction sig_s = {{0}};
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sig_s.sa_handler = _ct_sigaction;
sigemptyset(&(sig_s.sa_mask));
sigaction(SIGPROF, &sig_s, 0);
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}
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// Unblock `SIGPROF` for this thread (we will block it again when `u3t_boff` is called).
{
sigset_t set;
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sigemptyset(&set);
sigaddset(&set, SIGPROF);
if ( 0 != pthread_sigmask(SIG_UNBLOCK, &set, NULL) ) {
perror("pthread_sigmask");
}
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}
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// Ask for SIGPROF to be sent every 10ms.
{
struct itimerval itm_v = {{0}};
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itm_v.it_interval.tv_usec = 10000;
itm_v.it_value = itm_v.it_interval;
setitimer(ITIMER_PROF, &itm_v, 0);
}
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#elif defined(U3_OS_bsd)
// XX "Profiling isn't yet supported on BSD"
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#else
# error "port: profiling"
#endif
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}
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}
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/* u3t_boff(): turn profile sampling off.
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*/
void
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u3t_boff(void)
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{
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if ( u3C.wag_w & u3o_debug_cpu ) {
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#if defined(U3_OS_osx) || defined(U3_OS_linux)
// Mask SIGPROF signals in this thread (and this is the only
// thread that unblocked them).
{
sigset_t set;
sigemptyset(&set);
sigaddset(&set, SIGPROF);
if ( 0 != pthread_sigmask(SIG_BLOCK, &set, NULL) ) {
perror("pthread_sigmask");
}
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}
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// Disable the SIGPROF timer.
{
struct itimerval itm_v = {{0}};
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setitimer(ITIMER_PROF, &itm_v, 0);
}
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// Ignore SIGPROF signals.
{
struct sigaction sig_s = {{0}};
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sigemptyset(&(sig_s.sa_mask));
sig_s.sa_handler = SIG_IGN;
sigaction(SIGPROF, &sig_s, 0);
}
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#elif defined(U3_OS_bsd)
// XX "Profiling isn't yet supported on BSD"
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#else
# error "port: profiling"
#endif
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}
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}