2014-11-27 18:27:34 +00:00
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/*
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2014-11-27 21:33:37 +00:00
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htop - freebsd/Platform.c
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2014-11-27 18:27:34 +00:00
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(C) 2014 Hisham H. Muhammad
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Released under the GNU GPL, see the COPYING file
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in the source distribution for its full text.
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*/
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#include "Platform.h"
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2014-11-27 21:33:37 +00:00
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#include "Meter.h"
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#include "CPUMeter.h"
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#include "MemoryMeter.h"
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#include "SwapMeter.h"
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#include "TasksMeter.h"
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#include "LoadAverageMeter.h"
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#include "UptimeMeter.h"
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#include "ClockMeter.h"
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#include "HostnameMeter.h"
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2019-07-06 04:27:49 +00:00
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#include "zfs/ZfsArcMeter.h"
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2019-09-03 18:26:02 +00:00
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#include "zfs/ZfsCompressedArcMeter.h"
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2015-03-16 06:13:42 +00:00
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#include "FreeBSDProcess.h"
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2015-12-12 23:21:02 +00:00
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#include "FreeBSDProcessList.h"
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2014-11-27 18:27:34 +00:00
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2014-11-27 21:44:20 +00:00
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#include <sys/types.h>
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#include <sys/sysctl.h>
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#include <sys/time.h>
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2014-11-27 22:03:29 +00:00
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#include <sys/resource.h>
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#include <vm/vm_param.h>
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2014-11-27 21:44:20 +00:00
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#include <time.h>
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2016-02-12 13:37:24 +00:00
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#include <math.h>
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2014-11-27 21:44:20 +00:00
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2014-11-27 18:27:34 +00:00
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Introduce CLAMP macro. Unify all MIN(MAX(a,b),c) uses.
With the CLAMP macro replacing the combination of MIN and MAX, we will
have at least two advantages:
1. It's more obvious semantically.
2. There are no more mixes of confusing uses like MIN(MAX(a,b),c) and
MAX(MIN(a,b),c) and MIN(a,MAX(b,c)) appearing everywhere. We unify
the 'clamping' with a single macro.
Note that the behavior of this CLAMP macro is different from
the combination `MAX(low,MIN(x,high))`.
* This CLAMP macro expands to two comparisons instead of three from
MAX and MIN combination. In theory, this makes the code slightly
smaller, in case that (low) or (high) or both are computed at
runtime, so that compilers cannot optimize them. (The third
comparison will matter if (low)>(high); see below.)
* CLAMP has a side effect, that if (low)>(high) it will produce weird
results. Unlike MIN & MAX which will force either (low) or (high) to
win. No assertion of ((low)<=(high)) is done in this macro, for now.
This CLAMP macro is implemented like described in glib
<http://developer.gnome.org/glib/stable/glib-Standard-Macros.html>
and does not handle weird uses like CLAMP(a++, low++, high--) .
2016-01-15 12:26:01 +00:00
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#ifndef CLAMP
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#define CLAMP(x,low,high) (((x)>(high))?(high):(((x)<(low))?(low):(x)))
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#endif
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2015-03-16 06:13:42 +00:00
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ProcessField Platform_defaultFields[] = { PID, USER, PRIORITY, NICE, M_SIZE, M_RESIDENT, STATE, PERCENT_CPU, PERCENT_MEM, TIME, COMM, 0 };
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int Platform_numberOfFields = LAST_PROCESSFIELD;
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2016-08-30 12:41:17 +00:00
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const SignalItem Platform_signals[] = {
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2015-10-06 06:02:49 +00:00
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{ .name = " 0 Cancel", .number = 0 },
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{ .name = " 1 SIGHUP", .number = 1 },
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{ .name = " 2 SIGINT", .number = 2 },
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{ .name = " 3 SIGQUIT", .number = 3 },
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{ .name = " 4 SIGILL", .number = 4 },
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{ .name = " 5 SIGTRAP", .number = 5 },
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{ .name = " 6 SIGABRT", .number = 6 },
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{ .name = " 7 SIGEMT", .number = 7 },
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{ .name = " 8 SIGFPE", .number = 8 },
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{ .name = " 9 SIGKILL", .number = 9 },
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{ .name = "10 SIGBUS", .number = 10 },
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{ .name = "11 SIGSEGV", .number = 11 },
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{ .name = "12 SIGSYS", .number = 12 },
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{ .name = "13 SIGPIPE", .number = 13 },
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{ .name = "14 SIGALRM", .number = 14 },
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{ .name = "15 SIGTERM", .number = 15 },
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{ .name = "16 SIGURG", .number = 16 },
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{ .name = "17 SIGSTOP", .number = 17 },
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{ .name = "18 SIGTSTP", .number = 18 },
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{ .name = "19 SIGCONT", .number = 19 },
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{ .name = "20 SIGCHLD", .number = 20 },
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{ .name = "21 SIGTTIN", .number = 21 },
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{ .name = "22 SIGTTOU", .number = 22 },
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{ .name = "23 SIGIO", .number = 23 },
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{ .name = "24 SIGXCPU", .number = 24 },
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{ .name = "25 SIGXFSZ", .number = 25 },
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{ .name = "26 SIGVTALRM", .number = 26 },
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{ .name = "27 SIGPROF", .number = 27 },
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{ .name = "28 SIGWINCH", .number = 28 },
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{ .name = "29 SIGINFO", .number = 29 },
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{ .name = "30 SIGUSR1", .number = 30 },
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{ .name = "31 SIGUSR2", .number = 31 },
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{ .name = "32 SIGTHR", .number = 32 },
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{ .name = "33 SIGLIBRT", .number = 33 },
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};
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2016-08-30 12:41:17 +00:00
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const unsigned int Platform_numberOfSignals = sizeof(Platform_signals)/sizeof(SignalItem);
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2015-10-06 06:02:49 +00:00
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2014-11-27 18:27:34 +00:00
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void Platform_setBindings(Htop_Action* keys) {
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(void) keys;
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}
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2014-11-27 21:33:37 +00:00
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MeterClass* Platform_meterTypes[] = {
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&CPUMeter_class,
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&ClockMeter_class,
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&LoadAverageMeter_class,
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&LoadMeter_class,
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&MemoryMeter_class,
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&SwapMeter_class,
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&TasksMeter_class,
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&UptimeMeter_class,
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&BatteryMeter_class,
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&HostnameMeter_class,
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&AllCPUsMeter_class,
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&AllCPUs2Meter_class,
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&LeftCPUsMeter_class,
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&RightCPUsMeter_class,
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&LeftCPUs2Meter_class,
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&RightCPUs2Meter_class,
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&BlankMeter_class,
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2019-07-06 04:27:49 +00:00
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&ZfsArcMeter_class,
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2019-09-03 18:26:02 +00:00
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&ZfsCompressedArcMeter_class,
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2014-11-27 21:33:37 +00:00
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NULL
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};
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2014-11-27 21:44:20 +00:00
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int Platform_getUptime() {
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struct timeval bootTime, currTime;
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int mib[2] = { CTL_KERN, KERN_BOOTTIME };
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size_t size = sizeof(bootTime);
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2015-12-12 23:21:02 +00:00
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2014-11-27 21:44:20 +00:00
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int err = sysctl(mib, 2, &bootTime, &size, NULL, 0);
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if (err) {
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return -1;
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}
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gettimeofday(&currTime, NULL);
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return (int) difftime(currTime.tv_sec, bootTime.tv_sec);
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}
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2014-11-27 22:03:29 +00:00
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void Platform_getLoadAverage(double* one, double* five, double* fifteen) {
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struct loadavg loadAverage;
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int mib[2] = { CTL_VM, VM_LOADAVG };
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size_t size = sizeof(loadAverage);
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2015-12-12 23:21:02 +00:00
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2014-11-27 22:03:29 +00:00
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int err = sysctl(mib, 2, &loadAverage, &size, NULL, 0);
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if (err) {
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*one = 0;
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*five = 0;
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*fifteen = 0;
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return;
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}
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*one = (double) loadAverage.ldavg[0] / loadAverage.fscale;
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*five = (double) loadAverage.ldavg[1] / loadAverage.fscale;
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*fifteen = (double) loadAverage.ldavg[2] / loadAverage.fscale;
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}
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2014-11-27 22:18:01 +00:00
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int Platform_getMaxPid() {
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int maxPid;
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size_t size = sizeof(maxPid);
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int err = sysctlbyname("kern.pid_max", &maxPid, &size, NULL, 0);
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if (err) {
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return 99999;
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}
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return maxPid;
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}
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2014-11-27 23:07:42 +00:00
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2015-03-16 06:13:42 +00:00
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double Platform_setCPUValues(Meter* this, int cpu) {
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2015-12-12 23:21:02 +00:00
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FreeBSDProcessList* fpl = (FreeBSDProcessList*) this->pl;
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int cpus = this->pl->cpuCount;
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CPUData* cpuData;
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if (cpus == 1) {
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// single CPU box has everything in fpl->cpus[0]
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cpuData = &(fpl->cpus[0]);
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} else {
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cpuData = &(fpl->cpus[cpu]);
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}
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double percent;
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double* v = this->values;
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2016-04-28 19:42:18 +00:00
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v[CPU_METER_NICE] = cpuData->nicePercent;
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v[CPU_METER_NORMAL] = cpuData->userPercent;
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2015-12-12 23:21:02 +00:00
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if (this->pl->settings->detailedCPUTime) {
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2016-04-28 19:42:18 +00:00
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v[CPU_METER_KERNEL] = cpuData->systemPercent;
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v[CPU_METER_IRQ] = cpuData->irqPercent;
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2015-12-12 23:21:02 +00:00
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Meter_setItems(this, 4);
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percent = v[0]+v[1]+v[2]+v[3];
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} else {
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2016-04-28 19:42:18 +00:00
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v[2] = cpuData->systemAllPercent;
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2015-12-12 23:21:02 +00:00
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Meter_setItems(this, 3);
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percent = v[0]+v[1]+v[2];
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}
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Introduce CLAMP macro. Unify all MIN(MAX(a,b),c) uses.
With the CLAMP macro replacing the combination of MIN and MAX, we will
have at least two advantages:
1. It's more obvious semantically.
2. There are no more mixes of confusing uses like MIN(MAX(a,b),c) and
MAX(MIN(a,b),c) and MIN(a,MAX(b,c)) appearing everywhere. We unify
the 'clamping' with a single macro.
Note that the behavior of this CLAMP macro is different from
the combination `MAX(low,MIN(x,high))`.
* This CLAMP macro expands to two comparisons instead of three from
MAX and MIN combination. In theory, this makes the code slightly
smaller, in case that (low) or (high) or both are computed at
runtime, so that compilers cannot optimize them. (The third
comparison will matter if (low)>(high); see below.)
* CLAMP has a side effect, that if (low)>(high) it will produce weird
results. Unlike MIN & MAX which will force either (low) or (high) to
win. No assertion of ((low)<=(high)) is done in this macro, for now.
This CLAMP macro is implemented like described in glib
<http://developer.gnome.org/glib/stable/glib-Standard-Macros.html>
and does not handle weird uses like CLAMP(a++, low++, high--) .
2016-01-15 12:26:01 +00:00
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percent = CLAMP(percent, 0.0, 100.0);
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2015-12-12 23:21:02 +00:00
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if (isnan(percent)) percent = 0.0;
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2019-08-11 00:17:45 +00:00
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v[CPU_METER_FREQUENCY] = -1;
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2015-12-12 23:21:02 +00:00
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return percent;
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2015-03-16 06:13:42 +00:00
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}
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void Platform_setMemoryValues(Meter* this) {
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// TODO
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2015-12-13 03:11:35 +00:00
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ProcessList* pl = (ProcessList*) this->pl;
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this->total = pl->totalMem;
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this->values[0] = pl->usedMem;
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this->values[1] = pl->buffersMem;
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this->values[2] = pl->cachedMem;
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2015-03-16 06:13:42 +00:00
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}
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void Platform_setSwapValues(Meter* this) {
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2015-12-13 03:16:06 +00:00
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ProcessList* pl = (ProcessList*) this->pl;
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this->total = pl->totalSwap;
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this->values[0] = pl->usedSwap;
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2014-11-27 23:07:42 +00:00
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}
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2019-07-06 04:27:49 +00:00
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void Platform_setZfsArcValues(Meter* this) {
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FreeBSDProcessList* fpl = (FreeBSDProcessList*) this->pl;
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2019-09-03 18:21:33 +00:00
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ZfsArcMeter_readStats(this, &(fpl->zfs));
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2019-07-06 04:27:49 +00:00
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}
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2019-09-03 18:26:02 +00:00
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void Platform_setZfsCompressedArcValues(Meter* this) {
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FreeBSDProcessList* fpl = (FreeBSDProcessList*) this->pl;
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ZfsCompressedArcMeter_readStats(this, &(fpl->zfs));
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}
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2015-03-16 06:13:42 +00:00
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void Platform_setTasksValues(Meter* this) {
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// TODO
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}
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2015-12-03 21:16:10 +00:00
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char* Platform_getProcessEnv(pid_t pid) {
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// TODO
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return NULL;
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}
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