cleanup / reimplement some of the statistics calculations. dial back periodically_force

git-svn-id: svn+ssh://svn.corp.yahoo.com/yahoo/yrl/labs/pnuts/code/logstore@821 8dad8b1f-cf64-0410-95b6-bcf113ffbcfe
This commit is contained in:
sears 2010-05-28 21:20:26 +00:00
parent dca4fbe594
commit fcf0dcca99
3 changed files with 45 additions and 32 deletions

View file

@ -38,7 +38,7 @@ void mergeManager::new_merge(mergeStats * s) {
// target_size was set during startup
} else if(s->merge_level == 1) {
assert(c0->target_size);
c1->target_size = (pageid_t)(*ltable->R() * (double)c0->target_size); //c1_queueSize > s->bytes_out ? c1_queueSize : s->bytes_out;
c1->target_size = (pageid_t)(*ltable->R() * (double)c0->target_size);
assert(c1->target_size);
} else if(s->merge_level == 2) {
// target_size is infinity...
@ -71,6 +71,7 @@ void mergeManager::set_c0_size(int64_t size) {
* bytes_consumed_by_merger = sum(bytes_in_small_delta)
*/
void mergeManager::tick(mergeStats * s, bool block) {
#define PRINT_SKIP 0 //10000
pageid_t tick_length_bytes = 10*1024;
if(true || s->bytes_in_small_delta > tick_length_bytes) {
@ -81,7 +82,6 @@ void mergeManager::tick(mergeStats * s, bool block) {
while(sleeping[s->merge_level]) {
rwlc_cond_wait(&throttle_wokeup_cond, ltable->header_mut);
}
// pthread_mutex_lock(&mut);
struct timeval now;
gettimeofday(&now, 0);
double elapsed_delta = tv_to_double(&now) - ts_to_double(&s->last_tick);
@ -99,41 +99,57 @@ void mergeManager::tick(mergeStats * s, bool block) {
int64_t overshoot = 0;
int64_t raw_overshoot = 0;
int64_t overshoot_fudge = (int64_t)((((double)s->current_size / (double)(s->target_size)) - 0.1) * 5.0*1024.0*1024.0); // XXX set based on avg / max tuple size?
int64_t overshoot_fudge = (int64_t)(((((double)s->current_size) / (double)(s->target_size)) - 0.5) * 2.0*1024.0*1024.0); // XXX set based on avg / max tuple size?
int spin = 0;
double total_sleep = 0.0;
do{
overshoot = 0;
raw_overshoot = 0;
double c0_c1_progress = ((double)(c1->bytes_in_large + c1->bytes_in_small)) / (double)(c0->mergeable_size + c1->base_size);
double c1_c2_progress = ((double)(c2->bytes_in_large + c2->bytes_in_small)) / (double)(c1->mergeable_size + c2->base_size);
double c0_out_progress, c0_c1_out_progress;
if(c0->mergeable_size) {
c0_out_progress = ((double)c0->current_size) / (double)c0->target_size;
} else {
c0_out_progress = 0; // don't throttle if our consumer is blocked on us.
}
if(c1->mergeable_size) {
c0_c1_out_progress = ((double)c1->current_size) / (double)c1->target_size;
} else {
c0_c1_out_progress = 0;
}
double c0_c1_in_progress, c1_c2_in_progress;
if(c1->active) {
c0_c1_in_progress = ((double)(c1->bytes_in_large + c1->bytes_in_small)) / (double)(c0->mergeable_size + c1->base_size);
} else {
c0_c1_in_progress = 0; // if our consumer is not active, it hasn't made any progress on our most recent output
}
if(c2->active) {
c1_c2_in_progress = ((double)(c2->bytes_in_large + c2->bytes_in_small)) / (double)(c1->mergeable_size + c2->base_size);
} else {
c1_c2_in_progress = 0;
}
double c0_c1_bps = c1->window_consumed / c1->window_elapsed;
double c1_c2_bps = c2->window_consumed / c2->window_elapsed;
if(s->merge_level == 0) {
pageid_t c0_c1_bytes_remaining = (pageid_t)((1.0-c0_c1_progress) * (double)c0->mergeable_size);
pageid_t c0_bytes_left = c0->target_size - c0->current_size;
raw_overshoot = c0_c1_bytes_remaining - c0_bytes_left;
if(!(c1->active && c0->mergeable_size)) { overshoot_fudge = 0; }
raw_overshoot = (int64_t)(((double)c0->target_size) * (c0_out_progress - c0_c1_in_progress));
overshoot = raw_overshoot + overshoot_fudge;
bps = c0_c1_bps;
if(!c0->mergeable_size) { overshoot = raw_overshoot = -1; }
if(c0->mergeable_size && ! c1->active) { raw_overshoot = c0->current_size; overshoot = raw_overshoot + overshoot_fudge; }
} else if (s->merge_level == 1) {
pageid_t c1_c2_bytes_remaining = (pageid_t)((1.0-c1_c2_progress) * (double)c1->mergeable_size);
pageid_t c1_bytes_left = c1->target_size - c1->current_size;
raw_overshoot = c1_c2_bytes_remaining - c1_bytes_left;
if(!(c2->active && c1->mergeable_size)) { overshoot_fudge = 0; }
raw_overshoot = (int64_t)(((double)c1->target_size) * (c0_c1_out_progress - c1_c2_in_progress));
overshoot = raw_overshoot + overshoot_fudge;
if(!c1->mergeable_size) { overshoot = -1; }
if(c1->mergeable_size && ! c2->active) { raw_overshoot = c1->current_size; overshoot = raw_overshoot + overshoot_fudge; }
bps = c1_c2_bps;
}
//#define PP_THREAD_INFO
//#define PP_THREAD_INFO
#ifdef PP_THREAD_INFO
printf("#%d mbps %6.1f overshoot %9lld current_size = %9lld ",s->merge_level, bps / (1024.0*1024.0), overshoot, s->current_size);
printf("\nMerge thread %d %6f %6f Overshoot: raw=%lld, d=%lld eff=%lld Throttle min(1, %6f) spin %d, total_sleep %6.3f\n", s->merge_level, c0_out_progress, c0_c1_in_progress, raw_overshoot, overshoot_fudge, overshoot, -1.0, spin, total_sleep);
#endif
if(print_skipped == 10000) {
if(print_skipped == PRINT_SKIP) {
pretty_print(stdout);
print_skipped = 0;
} else {
@ -144,7 +160,6 @@ void mergeManager::tick(mergeStats * s, bool block) {
// it took "elapsed" seconds to process "tick_length_bytes" mb
double sleeptime = 2.0 * (double)overshoot / bps;
struct timespec sleep_until;
double max_c0_sleep = 0.1;
@ -157,9 +172,7 @@ void mergeManager::tick(mergeStats * s, bool block) {
total_sleep += sleeptime;
if((spin > 20) || (total_sleep > (max_sleep * 10))) {
if(bps > 1) {
printf("\nMerge thread %d Overshoot: raw=%lld, d=%lld eff=%lld Throttle min(1, %6f) spin %d, total_sleep %6.3f\n", s->merge_level, raw_overshoot, overshoot_fudge, overshoot, sleeptime, spin, total_sleep);
}
printf("\nMerge thread %d Overshoot: raw=%lld, d=%lld eff=%lld Throttle min(1, %6f) spin %d, total_sleep %6.3f\n", s->merge_level, raw_overshoot, overshoot_fudge, overshoot, sleeptime, spin, total_sleep);
}
double_to_ts(&sleep_until, sleeptime + tv_to_double(&now));
@ -171,7 +184,7 @@ void mergeManager::tick(mergeStats * s, bool block) {
}
} while((overshoot > 0) && (raw_overshoot > 0));
} else {
if(print_skipped == 10000) {
if(print_skipped == PRINT_SKIP) {
pretty_print(stdout);
print_skipped = 0;
} else {
@ -184,9 +197,9 @@ void mergeManager::tick(mergeStats * s, bool block) {
mergeManager::mergeManager(logtable<datatuple> *ltable):
ltable(ltable),
c0(new mergeStats(this, 0)),
c1(new mergeStats(this, 1)),
c2(new mergeStats(this, 2)) {
c0(new mergeStats(this, 0, ltable->max_c0_size)),
c1(new mergeStats(this, 1, (int64_t)(((double)ltable->max_c0_size) * *ltable->R()))),
c2(new mergeStats(this, 2, 0)) {
pthread_mutex_init(&mut, 0);
pthread_mutex_init(&throttle_mut, 0);
pthread_mutex_init(&dummy_throttle_mut, 0);
@ -222,9 +235,9 @@ void mergeManager::pretty_print(FILE * out) {
}
double c0_out_progress = 100.0 * c0->current_size / c0->target_size;
double c0_c1_in_progress = 100.0 * (c1->bytes_in_large + c1->bytes_in_small) / (c0->mergeable_size + c1->base_size); // c1->bytes_in_small / c0->mergeable_size;
double c0_c1_in_progress = 100.0 * (c1->bytes_in_large + c1->bytes_in_small) / (c0->mergeable_size + c1->base_size);
double c0_c1_out_progress = 100.0 * c1->current_size / c1->target_size;
double c1_c2_progress = 100.0 * (c2->bytes_in_large + c2->bytes_in_small) / (c1->mergeable_size + c2->base_size); //c2->bytes_in_small / c1->mergeable_size;
double c1_c2_progress = 100.0 * (c2->bytes_in_large + c2->bytes_in_small) / (c1->mergeable_size + c2->base_size);
assert((!c1->active) || (c0_c1_in_progress >= -1 && c0_c1_in_progress < 102));
assert((!c2->active) || (c1_c2_progress >= -1 && c1_c2_progress < 102));

View file

@ -20,12 +20,12 @@
class mergeStats {
public:
mergeStats(mergeManager* merge_mgr, int merge_level) :
mergeStats(mergeManager* merge_mgr, int merge_level, int64_t target_size) :
merge_mgr(merge_mgr),
merge_level(merge_level),
merge_count(0),
base_size(0),
target_size(0),
target_size(target_size),
current_size(0),
mergeable_size(0),
bytes_out_with_overhead(0),

View file

@ -390,10 +390,10 @@ void *diskMergeThread(void*arg)
return 0;
}
#define FORCE_INTERVAL 1000000 // XXX do not hardcode FORCE_INTERVAL
#define FORCE_INTERVAL (2 * 1024 * 1024) // XXX do not hardcode FORCE_INTERVAL
static void periodically_force(int xid, int *i, diskTreeComponent * forceMe, stasis_log_t * log) {
if(*i > FORCE_INTERVAL) {
if(0 && *i > FORCE_INTERVAL) {
if(forceMe) forceMe->force(xid);
log->force_tail(log, LOG_FORCE_WAL);
*i = 0;