2017-03-22 03:17:42 +08:00
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/* loadavg.cc: load average support.
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This file is part of Cygwin.
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This software is a copyrighted work licensed under the terms of the
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Cygwin license. Please consult the file "CYGWIN_LICENSE" for
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details. */
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/*
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Emulate load average
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There's a fair amount of approximation done here, so don't try to use this to
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actually measure anything, but it should be good enough for programs to
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throttle their activity based on load.
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A global load average estimate is maintained in shared memory. Access to that
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is guarded by a mutex. This estimate is only updated at most every 5 seconds.
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We attempt to count running and runnable processes, but unlike linux we don't
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count processes in uninterruptible sleep (blocked on I/O).
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The number of running processes is estimated as (NumberOfProcessors) * (%
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Processor Time). The number of runnable processes is estimated as
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ProcessorQueueLength.
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Note that PDH will only return data for '% Processor Time' afer the second
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call to PdhCollectQueryData(), as it's computed over an interval, so the first
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attempt to estimate load will fail and 0.0 will be returned.
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We also assume that '% Processor Time' averaged over the interval since the
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last time getloadavg() was called is a good approximation of the instantaneous
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'% Processor Time'.
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*/
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#include "winsup.h"
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#include "shared_info.h"
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#include "loadavg.h"
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#include <math.h>
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#include <time.h>
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#include <sys/strace.h>
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#include <pdh.h>
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static PDH_HQUERY query;
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static PDH_HCOUNTER counter1;
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static PDH_HCOUNTER counter2;
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static HANDLE mutex;
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static bool load_init (void)
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{
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static NO_COPY bool tried = false;
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static NO_COPY bool initialized = false;
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if (!tried) {
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tried = true;
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2019-03-13 00:09:42 +08:00
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PDH_STATUS status;
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status = PdhOpenQueryW (NULL, 0, &query);
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if (status != STATUS_SUCCESS)
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{
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debug_printf ("PdhOpenQueryW, status %y", status);
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return false;
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}
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status = PdhAddEnglishCounterW (query,
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L"\\Processor(_Total)\\% Processor Time",
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0, &counter1);
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if (status != STATUS_SUCCESS)
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{
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debug_printf ("PdhAddEnglishCounterW(time), status %y", status);
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return false;
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}
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status = PdhAddEnglishCounterW (query,
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L"\\System\\Processor Queue Length",
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0, &counter2);
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if (status != STATUS_SUCCESS)
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{
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debug_printf ("PdhAddEnglishCounterW(queue length), status %y", status);
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return false;
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}
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2017-03-22 03:17:42 +08:00
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mutex = CreateMutex(&sec_all_nih, FALSE, "cyg.loadavg.mutex");
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if (!mutex) {
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debug_printf("opening loadavg mutexfailed\n");
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return false;
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}
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initialized = true;
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}
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return initialized;
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}
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/* estimate the current load */
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static bool get_load (double *load)
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{
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*load = 0.0;
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PDH_STATUS ret = PdhCollectQueryData (query);
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if (ret != ERROR_SUCCESS)
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return false;
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/* Estimate the number of running processes as (NumberOfProcessors) * (%
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Processor Time) */
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PDH_FMT_COUNTERVALUE fmtvalue1;
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ret = PdhGetFormattedCounterValue (counter1, PDH_FMT_DOUBLE, NULL, &fmtvalue1);
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if (ret != ERROR_SUCCESS)
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return false;
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2018-04-11 17:59:35 +08:00
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double running = fmtvalue1.doubleValue * wincap.cpu_count () / 100;
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2017-03-22 03:17:42 +08:00
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/* Estimate the number of runnable processes using ProcessorQueueLength */
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PDH_FMT_COUNTERVALUE fmtvalue2;
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ret = PdhGetFormattedCounterValue (counter2, PDH_FMT_LONG, NULL, &fmtvalue2);
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if (ret != ERROR_SUCCESS)
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return false;
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LONG rql = fmtvalue2.longValue;
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*load = rql + running;
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return true;
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}
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/*
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loadavginfo shared-memory object
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*/
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void loadavginfo::initialize ()
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{
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for (int i = 0; i < 3; i++)
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loadavg[i] = 0.0;
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last_time = 0;
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}
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void loadavginfo::calc_load (int index, int delta_time, int decay_time, double n)
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{
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double df = 1.0 / exp ((double)delta_time/decay_time);
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loadavg[index] = (loadavg[index] * df) + (n * (1.0 - df));
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}
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void loadavginfo::update_loadavg ()
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{
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double active_tasks;
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if (!get_load (&active_tasks))
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return;
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/* Don't recalculate the load average if less than 5 seconds has elapsed since
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the last time it was calculated */
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time_t curr_time = time (NULL);
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int delta_time = curr_time - last_time;
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if (delta_time < 5) {
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return;
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}
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if (last_time == 0) {
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/* Initialize the load average to the current load */
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for (int i = 0; i < 3; i++) {
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loadavg[i] = active_tasks;
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}
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} else {
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/* Compute the exponentially weighted moving average over ... */
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calc_load (0, delta_time, 60, active_tasks); /* ... 1 min */
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calc_load (1, delta_time, 300, active_tasks); /* ... 5 min */
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calc_load (2, delta_time, 900, active_tasks); /* ... 15 min */
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}
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last_time = curr_time;
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}
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int loadavginfo::fetch (double _loadavg[], int nelem)
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{
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if (!load_init ())
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return 0;
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WaitForSingleObject(mutex, INFINITE);
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update_loadavg ();
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memcpy (_loadavg, loadavg, nelem * sizeof(double));
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ReleaseMutex(mutex);
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return nelem;
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}
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/* getloadavg: BSD */
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extern "C" int
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getloadavg (double loadavg[], int nelem)
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{
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/* The maximum number of samples is 3 */
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if (nelem > 3)
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nelem = 3;
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/* Return the samples and number of samples retrieved */
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return cygwin_shared->loadavg.fetch(loadavg, nelem);
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}
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