From 69f439eff387a6ecb52734e400b297a3c85f2285 Mon Sep 17 00:00:00 2001
From: Daniel Lange <DLange@git.local>
Date: Tue, 21 Sep 2021 08:35:19 +0200
Subject: New upstream version 3.1.0

---
 pcp/PCPProcessList.c | 706 +++++++++++++++++++++++++++++++++++++++++++++++++++
 1 file changed, 706 insertions(+)
 create mode 100644 pcp/PCPProcessList.c

(limited to 'pcp/PCPProcessList.c')

diff --git a/pcp/PCPProcessList.c b/pcp/PCPProcessList.c
new file mode 100644
index 0000000..b55b5a4
--- /dev/null
+++ b/pcp/PCPProcessList.c
@@ -0,0 +1,706 @@
+/*
+htop - PCPProcessList.c
+(C) 2014 Hisham H. Muhammad
+(C) 2020-2021 htop dev team
+(C) 2020-2021 Red Hat, Inc.
+Released under the GNU GPLv2, see the COPYING file
+in the source distribution for its full text.
+*/
+
+#include "config.h" // IWYU pragma: keep
+
+#include "pcp/PCPProcessList.h"
+
+#include <assert.h>
+#include <limits.h>
+#include <math.h>
+#include <stdlib.h>
+#include <string.h>
+#include <sys/time.h>
+
+#include "Macros.h"
+#include "Object.h"
+#include "Platform.h"
+#include "Process.h"
+#include "Settings.h"
+#include "XUtils.h"
+
+#include "pcp/PCPMetric.h"
+#include "pcp/PCPProcess.h"
+
+
+static void PCPProcessList_updateCPUcount(PCPProcessList* this) {
+   ProcessList* pl = &(this->super);
+   pl->activeCPUs = PCPMetric_instanceCount(PCP_PERCPU_SYSTEM);
+   unsigned int cpus = Platform_getMaxCPU();
+   if (cpus == pl->existingCPUs)
+      return;
+   if (cpus == 0)
+      cpus = pl->activeCPUs;
+   if (cpus <= 1)
+      cpus = pl->activeCPUs = 1;
+   pl->existingCPUs = cpus;
+
+   free(this->percpu);
+   free(this->values);
+
+   this->percpu = xCalloc(cpus, sizeof(pmAtomValue *));
+   for (unsigned int i = 0; i < cpus; i++)
+      this->percpu[i] = xCalloc(CPU_METRIC_COUNT, sizeof(pmAtomValue));
+   this->values = xCalloc(cpus, sizeof(pmAtomValue));
+}
+
+static char* setUser(UsersTable* this, unsigned int uid, int pid, int offset) {
+   char* name = Hashtable_get(this->users, uid);
+   if (name)
+      return name;
+
+   pmAtomValue value;
+   if (PCPMetric_instance(PCP_PROC_ID_USER, pid, offset, &value, PM_TYPE_STRING)) {
+      Hashtable_put(this->users, uid, value.cp);
+      name = value.cp;
+   }
+   return name;
+}
+
+ProcessList* ProcessList_new(UsersTable* usersTable, Hashtable* dynamicMeters, Hashtable* dynamicColumns, Hashtable* pidMatchList, uid_t userId) {
+   PCPProcessList* this = xCalloc(1, sizeof(PCPProcessList));
+   ProcessList* super = &(this->super);
+
+   ProcessList_init(super, Class(PCPProcess), usersTable, dynamicMeters, dynamicColumns, pidMatchList, userId);
+
+   struct timeval timestamp;
+   gettimeofday(&timestamp, NULL);
+   this->timestamp = pmtimevalToReal(&timestamp);
+
+   this->cpu = xCalloc(CPU_METRIC_COUNT, sizeof(pmAtomValue));
+   PCPProcessList_updateCPUcount(this);
+
+   return super;
+}
+
+void ProcessList_delete(ProcessList* pl) {
+   PCPProcessList* this = (PCPProcessList*) pl;
+   ProcessList_done(pl);
+   free(this->values);
+   for (unsigned int i = 0; i < pl->existingCPUs; i++)
+      free(this->percpu[i]);
+   free(this->percpu);
+   free(this->cpu);
+   free(this);
+}
+
+static inline long Metric_instance_s32(int metric, int pid, int offset, long fallback) {
+   pmAtomValue value;
+   if (PCPMetric_instance(metric, pid, offset, &value, PM_TYPE_32))
+      return value.l;
+   return fallback;
+}
+
+static inline long long Metric_instance_s64(int metric, int pid, int offset, long long fallback) {
+   pmAtomValue value;
+   if (PCPMetric_instance(metric, pid, offset, &value, PM_TYPE_64))
+      return value.l;
+   return fallback;
+}
+
+static inline unsigned long Metric_instance_u32(int metric, int pid, int offset, unsigned long fallback) {
+   pmAtomValue value;
+   if (PCPMetric_instance(metric, pid, offset, &value, PM_TYPE_U32))
+      return value.ul;
+   return fallback;
+}
+
+static inline unsigned long long Metric_instance_u64(int metric, int pid, int offset, unsigned long long fallback) {
+   pmAtomValue value;
+   if (PCPMetric_instance(metric, pid, offset, &value, PM_TYPE_U64))
+      return value.ull;
+   return fallback;
+}
+
+static inline unsigned long long Metric_instance_time(int metric, int pid, int offset) {
+   pmAtomValue value;
+   if (PCPMetric_instance(metric, pid, offset, &value, PM_TYPE_U64))
+      return value.ull / 10;
+   return 0;
+}
+
+static inline unsigned long long Metric_instance_ONE_K(int metric, int pid, int offset) {
+   pmAtomValue value;
+   if (PCPMetric_instance(metric, pid, offset, &value, PM_TYPE_U64))
+      return value.ull / ONE_K;
+   return ULLONG_MAX;
+}
+
+static inline char Metric_instance_char(int metric, int pid, int offset, char fallback) {
+   pmAtomValue value;
+   if (PCPMetric_instance(metric, pid, offset, &value, PM_TYPE_STRING)) {
+      char uchar = value.cp[0];
+      free(value.cp);
+      return uchar;
+   }
+   return fallback;
+}
+
+static void PCPProcessList_updateID(Process* process, int pid, int offset) {
+   process->tgid = Metric_instance_u32(PCP_PROC_TGID, pid, offset, 1);
+   process->ppid = Metric_instance_u32(PCP_PROC_PPID, pid, offset, 1);
+   process->state = Metric_instance_char(PCP_PROC_STATE, pid, offset, '?');
+}
+
+static void PCPProcessList_updateInfo(Process* process, int pid, int offset, char* command, size_t commLen) {
+   PCPProcess* pp = (PCPProcess*) process;
+   pmAtomValue value;
+
+   if (!PCPMetric_instance(PCP_PROC_CMD, pid, offset, &value, PM_TYPE_STRING))
+      value.cp = xStrdup("<unknown>");
+   String_safeStrncpy(command, value.cp, commLen);
+   free(value.cp);
+
+   process->pgrp = Metric_instance_u32(PCP_PROC_PGRP, pid, offset, 0);
+   process->session = Metric_instance_u32(PCP_PROC_SESSION, pid, offset, 0);
+   process->tty_nr = Metric_instance_u32(PCP_PROC_TTY, pid, offset, 0);
+   process->tpgid = Metric_instance_u32(PCP_PROC_TTYPGRP, pid, offset, 0);
+   process->minflt = Metric_instance_u32(PCP_PROC_MINFLT, pid, offset, 0);
+   pp->cminflt = Metric_instance_u32(PCP_PROC_CMINFLT, pid, offset, 0);
+   process->majflt = Metric_instance_u32(PCP_PROC_MAJFLT, pid, offset, 0);
+   pp->cmajflt = Metric_instance_u32(PCP_PROC_CMAJFLT, pid, offset, 0);
+   pp->utime = Metric_instance_time(PCP_PROC_UTIME, pid, offset);
+   pp->stime = Metric_instance_time(PCP_PROC_STIME, pid, offset);
+   pp->cutime = Metric_instance_time(PCP_PROC_CUTIME, pid, offset);
+   pp->cstime = Metric_instance_time(PCP_PROC_CSTIME, pid, offset);
+   process->priority = Metric_instance_u32(PCP_PROC_PRIORITY, pid, offset, 0);
+   process->nice = Metric_instance_s32(PCP_PROC_NICE, pid, offset, 0);
+   process->nlwp = Metric_instance_u32(PCP_PROC_THREADS, pid, offset, 0);
+   process->starttime_ctime = Metric_instance_time(PCP_PROC_STARTTIME, pid, offset);
+   process->processor = Metric_instance_u32(PCP_PROC_PROCESSOR, pid, offset, 0);
+
+   process->time = pp->utime + pp->stime;
+}
+
+static void PCPProcessList_updateIO(PCPProcess* pp, int pid, int offset, unsigned long long now) {
+   pmAtomValue value;
+
+   pp->io_rchar = Metric_instance_ONE_K(PCP_PROC_IO_RCHAR, pid, offset);
+   pp->io_wchar = Metric_instance_ONE_K(PCP_PROC_IO_WCHAR, pid, offset);
+   pp->io_syscr = Metric_instance_u64(PCP_PROC_IO_SYSCR, pid, offset, ULLONG_MAX);
+   pp->io_syscw = Metric_instance_u64(PCP_PROC_IO_SYSCW, pid, offset, ULLONG_MAX);
+   pp->io_cancelled_write_bytes = Metric_instance_ONE_K(PCP_PROC_IO_CANCELLED, pid, offset);
+
+   if (PCPMetric_instance(PCP_PROC_IO_READB, pid, offset, &value, PM_TYPE_U64)) {
+      unsigned long long last_read = pp->io_read_bytes;
+      pp->io_read_bytes = value.ull / ONE_K;
+      pp->io_rate_read_bps = ONE_K * (pp->io_read_bytes - last_read) /
+                                     (now - pp->io_last_scan_time);
+   } else {
+      pp->io_read_bytes = ULLONG_MAX;
+      pp->io_rate_read_bps = NAN;
+   }
+
+   if (PCPMetric_instance(PCP_PROC_IO_WRITEB, pid, offset, &value, PM_TYPE_U64)) {
+      unsigned long long last_write = pp->io_write_bytes;
+      pp->io_write_bytes = value.ull;
+      pp->io_rate_write_bps = ONE_K * (pp->io_write_bytes - last_write) /
+                                      (now - pp->io_last_scan_time);
+   } else {
+      pp->io_write_bytes = ULLONG_MAX;
+      pp->io_rate_write_bps = NAN;
+   }
+
+   pp->io_last_scan_time = now;
+}
+
+static void PCPProcessList_updateMemory(PCPProcess* pp, int pid, int offset) {
+   pp->super.m_virt = Metric_instance_u32(PCP_PROC_MEM_SIZE, pid, offset, 0);
+   pp->super.m_resident = Metric_instance_u32(PCP_PROC_MEM_RSS, pid, offset, 0);
+   pp->m_share = Metric_instance_u32(PCP_PROC_MEM_SHARE, pid, offset, 0);
+   pp->m_trs = Metric_instance_u32(PCP_PROC_MEM_TEXTRS, pid, offset, 0);
+   pp->m_lrs = Metric_instance_u32(PCP_PROC_MEM_LIBRS, pid, offset, 0);
+   pp->m_drs = Metric_instance_u32(PCP_PROC_MEM_DATRS, pid, offset, 0);
+   pp->m_dt = Metric_instance_u32(PCP_PROC_MEM_DIRTY, pid, offset, 0);
+}
+
+static void PCPProcessList_updateSmaps(PCPProcess* pp, pid_t pid, int offset) {
+   pp->m_pss = Metric_instance_u64(PCP_PROC_SMAPS_PSS, pid, offset, 0);
+   pp->m_swap = Metric_instance_u64(PCP_PROC_SMAPS_SWAP, pid, offset, 0);
+   pp->m_psswp = Metric_instance_u64(PCP_PROC_SMAPS_SWAPPSS, pid, offset, 0);
+}
+
+static void PCPProcessList_readOomData(PCPProcess* pp, int pid, int offset) {
+   pp->oom = Metric_instance_u32(PCP_PROC_OOMSCORE, pid, offset, 0);
+}
+
+static void PCPProcessList_readAutogroup(PCPProcess* pp, int pid, int offset) {
+   pp->autogroup_id = Metric_instance_s64(PCP_PROC_AUTOGROUP_ID, pid, offset, -1);
+   pp->autogroup_nice = Metric_instance_s32(PCP_PROC_AUTOGROUP_NICE, pid, offset, 0);
+}
+
+static void PCPProcessList_readCtxtData(PCPProcess* pp, int pid, int offset) {
+   pmAtomValue value;
+   unsigned long ctxt = 0;
+
+   if (PCPMetric_instance(PCP_PROC_VCTXSW, pid, offset, &value, PM_TYPE_U32))
+      ctxt += value.ul;
+   if (PCPMetric_instance(PCP_PROC_NVCTXSW, pid, offset, &value, PM_TYPE_U32))
+      ctxt += value.ul;
+
+   pp->ctxt_diff = ctxt > pp->ctxt_total ? ctxt - pp->ctxt_total : 0;
+   pp->ctxt_total = ctxt;
+}
+
+static char* setString(PCPMetric metric, int pid, int offset, char* string) {
+   if (string)
+      free(string);
+   pmAtomValue value;
+   if (PCPMetric_instance(metric, pid, offset, &value, PM_TYPE_STRING))
+      string = value.cp;
+   else
+      string = NULL;
+   return string;
+}
+
+static void PCPProcessList_updateTTY(Process* process, int pid, int offset) {
+   process->tty_name = setString(PCP_PROC_TTYNAME, pid, offset, process->tty_name);
+}
+
+static void PCPProcessList_readCGroups(PCPProcess* pp, int pid, int offset) {
+   pp->cgroup = setString(PCP_PROC_CGROUPS, pid, offset, pp->cgroup);
+}
+
+static void PCPProcessList_readSecattrData(PCPProcess* pp, int pid, int offset) {
+   pp->secattr = setString(PCP_PROC_LABELS, pid, offset, pp->secattr);
+}
+
+static void PCPProcessList_readCwd(PCPProcess* pp, int pid, int offset) {
+   pp->super.procCwd = setString(PCP_PROC_CWD, pid, offset, pp->super.procCwd);
+}
+
+static void PCPProcessList_updateUsername(Process* process, int pid, int offset, UsersTable* users) {
+   process->st_uid = Metric_instance_u32(PCP_PROC_ID_UID, pid, offset, 0);
+   process->user = setUser(users, process->st_uid, pid, offset);
+}
+
+static void PCPProcessList_updateCmdline(Process* process, int pid, int offset, const char* comm) {
+   pmAtomValue value;
+   if (!PCPMetric_instance(PCP_PROC_PSARGS, pid, offset, &value, PM_TYPE_STRING)) {
+      if (process->state != 'Z')
+         process->isKernelThread = true;
+      Process_updateCmdline(process, NULL, 0, 0);
+      return;
+   }
+
+   char* command = value.cp;
+   int length = strlen(command);
+   if (command[0] != '(') {
+      process->isKernelThread = false;
+   } else {
+      ++command;
+      --length;
+      if (command[length - 1] == ')')
+         command[--length] = '\0';
+      process->isKernelThread = true;
+   }
+
+   int tokenStart = 0;
+   for (int i = 0; i < length; i++) {
+      /* htop considers the next character after the last / that is before
+       * basenameOffset, as the start of the basename in cmdline - see
+       * Process_writeCommand */
+      if (command[i] == '/')
+         tokenStart = i + 1;
+   }
+   int tokenEnd = length;
+
+   Process_updateCmdline(process, command, tokenStart, tokenEnd);
+   free(value.cp);
+
+   Process_updateComm(process, comm);
+
+   if (PCPMetric_instance(PCP_PROC_EXE, pid, offset, &value, PM_TYPE_STRING)) {
+      Process_updateExe(process, value.cp[0] ? value.cp : NULL);
+      free(value.cp);
+   }
+}
+
+static bool PCPProcessList_updateProcesses(PCPProcessList* this, double period, struct timeval* tv) {
+   ProcessList* pl = (ProcessList*) this;
+   const Settings* settings = pl->settings;
+
+   bool hideKernelThreads = settings->hideKernelThreads;
+   bool hideUserlandThreads = settings->hideUserlandThreads;
+
+   unsigned long long now = tv->tv_sec * 1000LL + tv->tv_usec / 1000LL;
+   int pid = -1, offset = -1;
+
+   /* for every process ... */
+   while (PCPMetric_iterate(PCP_PROC_PID, &pid, &offset)) {
+
+      bool preExisting;
+      Process* proc = ProcessList_getProcess(pl, pid, &preExisting, PCPProcess_new);
+      PCPProcess* pp = (PCPProcess*) proc;
+      PCPProcessList_updateID(proc, pid, offset);
+      proc->isUserlandThread = proc->pid != proc->tgid;
+      pp->offset = offset >= 0 ? offset : 0;
+
+      /*
+       * These conditions will not trigger on first occurrence, cause we need to
+       * add the process to the ProcessList and do all one time scans
+       * (e.g. parsing the cmdline to detect a kernel thread)
+       * But it will short-circuit subsequent scans.
+       */
+      if (preExisting && hideKernelThreads && Process_isKernelThread(proc)) {
+         proc->updated = true;
+         proc->show = false;
+         if (proc->state == 'R')
+            pl->runningTasks++;
+         pl->kernelThreads++;
+         pl->totalTasks++;
+         continue;
+      }
+      if (preExisting && hideUserlandThreads && Process_isUserlandThread(proc)) {
+         proc->updated = true;
+         proc->show = false;
+         if (proc->state == 'R')
+            pl->runningTasks++;
+         pl->userlandThreads++;
+         pl->totalTasks++;
+         continue;
+      }
+
+      if (settings->flags & PROCESS_FLAG_IO)
+         PCPProcessList_updateIO(pp, pid, offset, now);
+
+      PCPProcessList_updateMemory(pp, pid, offset);
+
+      if ((settings->flags & PROCESS_FLAG_LINUX_SMAPS) &&
+          (Process_isKernelThread(proc) == false)) {
+         if (PCPMetric_enabled(PCP_PROC_SMAPS_PSS))
+            PCPProcessList_updateSmaps(pp, pid, offset);
+      }
+
+      char command[MAX_NAME + 1];
+      unsigned int tty_nr = proc->tty_nr;
+      unsigned long long int lasttimes = pp->utime + pp->stime;
+
+      PCPProcessList_updateInfo(proc, pid, offset, command, sizeof(command));
+      proc->starttime_ctime += Platform_getBootTime();
+      if (tty_nr != proc->tty_nr)
+         PCPProcessList_updateTTY(proc, pid, offset);
+
+      float percent_cpu = (pp->utime + pp->stime - lasttimes) / period * 100.0;
+      proc->percent_cpu = isnan(percent_cpu) ?
+                          0.0 : CLAMP(percent_cpu, 0.0, pl->activeCPUs * 100.0);
+      proc->percent_mem = proc->m_resident / (double)pl->totalMem * 100.0;
+
+      PCPProcessList_updateUsername(proc, pid, offset, pl->usersTable);
+
+      if (!preExisting) {
+         PCPProcessList_updateCmdline(proc, pid, offset, command);
+         Process_fillStarttimeBuffer(proc);
+         ProcessList_add(pl, proc);
+      } else if (settings->updateProcessNames && proc->state != 'Z') {
+         PCPProcessList_updateCmdline(proc, pid, offset, command);
+      }
+
+      if (settings->flags & PROCESS_FLAG_LINUX_CGROUP)
+         PCPProcessList_readCGroups(pp, pid, offset);
+
+      if (settings->flags & PROCESS_FLAG_LINUX_OOM)
+         PCPProcessList_readOomData(pp, pid, offset);
+
+      if (settings->flags & PROCESS_FLAG_LINUX_CTXT)
+         PCPProcessList_readCtxtData(pp, pid, offset);
+
+      if (settings->flags & PROCESS_FLAG_LINUX_SECATTR)
+         PCPProcessList_readSecattrData(pp, pid, offset);
+
+      if (settings->flags & PROCESS_FLAG_CWD)
+         PCPProcessList_readCwd(pp, pid, offset);
+
+      if (settings->flags & PROCESS_FLAG_LINUX_AUTOGROUP)
+         PCPProcessList_readAutogroup(pp, pid, offset);
+
+      if (proc->state == 'Z' && !proc->cmdline && command[0]) {
+         Process_updateCmdline(proc, command, 0, strlen(command));
+      } else if (Process_isThread(proc)) {
+         if ((settings->showThreadNames || Process_isKernelThread(proc)) && command[0]) {
+            Process_updateCmdline(proc, command, 0, strlen(command));
+         }
+
+         if (Process_isKernelThread(proc)) {
+            pl->kernelThreads++;
+         } else {
+            pl->userlandThreads++;
+         }
+      }
+
+      /* Set at the end when we know if a new entry is a thread */
+      proc->show = ! ((hideKernelThreads && Process_isKernelThread(proc)) ||
+                      (hideUserlandThreads && Process_isUserlandThread(proc)));
+
+      pl->totalTasks++;
+      if (proc->state == 'R')
+         pl->runningTasks++;
+      proc->updated = true;
+   }
+   return true;
+}
+
+static void PCPProcessList_updateMemoryInfo(ProcessList* super) {
+   unsigned long long int freeMem = 0;
+   unsigned long long int swapFreeMem = 0;
+   unsigned long long int sreclaimableMem = 0;
+   super->totalMem = super->usedMem = super->cachedMem = 0;
+   super->usedSwap = super->totalSwap = super->sharedMem = 0;
+
+   pmAtomValue value;
+   if (PCPMetric_values(PCP_MEM_TOTAL, &value, 1, PM_TYPE_U64) != NULL)
+      super->totalMem = value.ull;
+   if (PCPMetric_values(PCP_MEM_FREE, &value, 1, PM_TYPE_U64) != NULL)
+      freeMem = value.ull;
+   if (PCPMetric_values(PCP_MEM_BUFFERS, &value, 1, PM_TYPE_U64) != NULL)
+      super->buffersMem = value.ull;
+   if (PCPMetric_values(PCP_MEM_SRECLAIM, &value, 1, PM_TYPE_U64) != NULL)
+      sreclaimableMem = value.ull;
+   if (PCPMetric_values(PCP_MEM_SHARED, &value, 1, PM_TYPE_U64) != NULL)
+      super->sharedMem = value.ull;
+   if (PCPMetric_values(PCP_MEM_CACHED, &value, 1, PM_TYPE_U64) != NULL)
+      super->cachedMem = value.ull + sreclaimableMem - super->sharedMem;
+   const memory_t usedDiff = freeMem + super->cachedMem + sreclaimableMem + super->buffersMem;
+   super->usedMem = (super->totalMem >= usedDiff) ?
+           super->totalMem - usedDiff : super->totalMem - freeMem;
+   if (PCPMetric_values(PCP_MEM_AVAILABLE, &value, 1, PM_TYPE_U64) != NULL)
+      super->availableMem = MINIMUM(value.ull, super->totalMem);
+   else
+      super->availableMem = freeMem;
+   if (PCPMetric_values(PCP_MEM_SWAPFREE, &value, 1, PM_TYPE_U64) != NULL)
+      swapFreeMem = value.ull;
+   if (PCPMetric_values(PCP_MEM_SWAPTOTAL, &value, 1, PM_TYPE_U64) != NULL)
+      super->totalSwap = value.ull;
+   if (PCPMetric_values(PCP_MEM_SWAPCACHED, &value, 1, PM_TYPE_U64) != NULL)
+      super->cachedSwap = value.ull;
+   super->usedSwap = super->totalSwap - swapFreeMem - super->cachedSwap;
+}
+
+/* make copies of previously sampled values to avoid overwrite */
+static inline void PCPProcessList_backupCPUTime(pmAtomValue* values) {
+   /* the PERIOD fields (must) mirror the TIME fields */
+   for (int metric = CPU_TOTAL_TIME; metric < CPU_TOTAL_PERIOD; metric++) {
+      values[metric + CPU_TOTAL_PERIOD] = values[metric];
+   }
+}
+
+static inline void PCPProcessList_saveCPUTimePeriod(pmAtomValue* values, CPUMetric previous, pmAtomValue* latest) {
+   pmAtomValue* value;
+
+   /* new value for period */
+   value = &values[previous];
+   if (latest->ull > value->ull)
+      value->ull = latest->ull - value->ull;
+   else
+      value->ull = 0;
+
+   /* new value for time */
+   value = &values[previous - CPU_TOTAL_PERIOD];
+   value->ull = latest->ull;
+}
+
+/* using copied sampled values and new values, calculate derivations */
+static void PCPProcessList_deriveCPUTime(pmAtomValue* values) {
+
+   pmAtomValue* usertime = &values[CPU_USER_TIME];
+   pmAtomValue* guesttime = &values[CPU_GUEST_TIME];
+   usertime->ull -= guesttime->ull;
+
+   pmAtomValue* nicetime = &values[CPU_NICE_TIME];
+   pmAtomValue* guestnicetime = &values[CPU_GUESTNICE_TIME];
+   nicetime->ull -= guestnicetime->ull;
+
+   pmAtomValue* idletime = &values[CPU_IDLE_TIME];
+   pmAtomValue* iowaittime = &values[CPU_IOWAIT_TIME];
+   pmAtomValue* idlealltime = &values[CPU_IDLE_ALL_TIME];
+   idlealltime->ull = idletime->ull + iowaittime->ull;
+
+   pmAtomValue* systemtime = &values[CPU_SYSTEM_TIME];
+   pmAtomValue* irqtime = &values[CPU_IRQ_TIME];
+   pmAtomValue* softirqtime = &values[CPU_SOFTIRQ_TIME];
+   pmAtomValue* systalltime = &values[CPU_SYSTEM_ALL_TIME];
+   systalltime->ull = systemtime->ull + irqtime->ull + softirqtime->ull;
+
+   pmAtomValue* virtalltime = &values[CPU_GUEST_TIME];
+   virtalltime->ull = guesttime->ull + guestnicetime->ull;
+
+   pmAtomValue* stealtime = &values[CPU_STEAL_TIME];
+   pmAtomValue* totaltime = &values[CPU_TOTAL_TIME];
+   totaltime->ull = usertime->ull + nicetime->ull + systalltime->ull +
+                    idlealltime->ull + stealtime->ull + virtalltime->ull;
+
+   PCPProcessList_saveCPUTimePeriod(values, CPU_USER_PERIOD, usertime);
+   PCPProcessList_saveCPUTimePeriod(values, CPU_NICE_PERIOD, nicetime);
+   PCPProcessList_saveCPUTimePeriod(values, CPU_SYSTEM_PERIOD, systemtime);
+   PCPProcessList_saveCPUTimePeriod(values, CPU_SYSTEM_ALL_PERIOD, systalltime);
+   PCPProcessList_saveCPUTimePeriod(values, CPU_IDLE_ALL_PERIOD, idlealltime);
+   PCPProcessList_saveCPUTimePeriod(values, CPU_IDLE_PERIOD, idletime);
+   PCPProcessList_saveCPUTimePeriod(values, CPU_IOWAIT_PERIOD, iowaittime);
+   PCPProcessList_saveCPUTimePeriod(values, CPU_IRQ_PERIOD, irqtime);
+   PCPProcessList_saveCPUTimePeriod(values, CPU_SOFTIRQ_PERIOD, softirqtime);
+   PCPProcessList_saveCPUTimePeriod(values, CPU_STEAL_PERIOD, stealtime);
+   PCPProcessList_saveCPUTimePeriod(values, CPU_GUEST_PERIOD, virtalltime);
+   PCPProcessList_saveCPUTimePeriod(values, CPU_TOTAL_PERIOD, totaltime);
+}
+
+static void PCPProcessList_updateAllCPUTime(PCPProcessList* this, PCPMetric metric, CPUMetric cpumetric)
+{
+   pmAtomValue* value = &this->cpu[cpumetric];
+   if (PCPMetric_values(metric, value, 1, PM_TYPE_U64) == NULL)
+      memset(&value, 0, sizeof(pmAtomValue));
+}
+
+static void PCPProcessList_updatePerCPUTime(PCPProcessList* this, PCPMetric metric, CPUMetric cpumetric)
+{
+   int cpus = this->super.existingCPUs;
+   if (PCPMetric_values(metric, this->values, cpus, PM_TYPE_U64) == NULL)
+      memset(this->values, 0, cpus * sizeof(pmAtomValue));
+   for (int i = 0; i < cpus; i++)
+      this->percpu[i][cpumetric].ull = this->values[i].ull;
+}
+
+static void PCPProcessList_updatePerCPUReal(PCPProcessList* this, PCPMetric metric, CPUMetric cpumetric)
+{
+   int cpus = this->super.existingCPUs;
+   if (PCPMetric_values(metric, this->values, cpus, PM_TYPE_DOUBLE) == NULL)
+      memset(this->values, 0, cpus * sizeof(pmAtomValue));
+   for (int i = 0; i < cpus; i++)
+      this->percpu[i][cpumetric].d = this->values[i].d;
+}
+
+static inline void PCPProcessList_scanZfsArcstats(PCPProcessList* this) {
+   unsigned long long int dbufSize = 0;
+   unsigned long long int dnodeSize = 0;
+   unsigned long long int bonusSize = 0;
+   pmAtomValue value;
+
+   memset(&this->zfs, 0, sizeof(ZfsArcStats));
+   if (PCPMetric_values(PCP_ZFS_ARC_ANON_SIZE, &value, 1, PM_TYPE_U64))
+      this->zfs.anon = value.ull / ONE_K;
+   if (PCPMetric_values(PCP_ZFS_ARC_C_MAX, &value, 1, PM_TYPE_U64))
+      this->zfs.max = value.ull / ONE_K;
+   if (PCPMetric_values(PCP_ZFS_ARC_BONUS_SIZE, &value, 1, PM_TYPE_U64))
+      bonusSize = value.ull / ONE_K;
+   if (PCPMetric_values(PCP_ZFS_ARC_DBUF_SIZE, &value, 1, PM_TYPE_U64))
+      dbufSize = value.ull / ONE_K;
+   if (PCPMetric_values(PCP_ZFS_ARC_DNODE_SIZE, &value, 1, PM_TYPE_U64))
+      dnodeSize = value.ull / ONE_K;
+   if (PCPMetric_values(PCP_ZFS_ARC_COMPRESSED_SIZE, &value, 1, PM_TYPE_U64))
+      this->zfs.compressed = value.ull / ONE_K;
+   if (PCPMetric_values(PCP_ZFS_ARC_UNCOMPRESSED_SIZE, &value, 1, PM_TYPE_U64))
+      this->zfs.uncompressed = value.ull / ONE_K;
+   if (PCPMetric_values(PCP_ZFS_ARC_HDR_SIZE, &value, 1, PM_TYPE_U64))
+      this->zfs.header = value.ull / ONE_K;
+   if (PCPMetric_values(PCP_ZFS_ARC_MFU_SIZE, &value, 1, PM_TYPE_U64))
+      this->zfs.MFU = value.ull / ONE_K;
+   if (PCPMetric_values(PCP_ZFS_ARC_MRU_SIZE, &value, 1, PM_TYPE_U64))
+      this->zfs.MRU = value.ull / ONE_K;
+   if (PCPMetric_values(PCP_ZFS_ARC_SIZE, &value, 1, PM_TYPE_U64))
+      this->zfs.size = value.ull / ONE_K;
+
+   this->zfs.other = (dbufSize + dnodeSize + bonusSize) / ONE_K;
+   this->zfs.enabled = (this->zfs.size > 0);
+   this->zfs.isCompressed = (this->zfs.compressed > 0);
+}
+
+static void PCPProcessList_updateHeader(ProcessList* super, const Settings* settings) {
+   PCPProcessList_updateMemoryInfo(super);
+
+   PCPProcessList* this = (PCPProcessList*) super;
+   PCPProcessList_updateCPUcount(this);
+
+   PCPProcessList_backupCPUTime(this->cpu);
+   PCPProcessList_updateAllCPUTime(this, PCP_CPU_USER, CPU_USER_TIME);
+   PCPProcessList_updateAllCPUTime(this, PCP_CPU_NICE, CPU_NICE_TIME);
+   PCPProcessList_updateAllCPUTime(this, PCP_CPU_SYSTEM, CPU_SYSTEM_TIME);
+   PCPProcessList_updateAllCPUTime(this, PCP_CPU_IDLE, CPU_IDLE_TIME);
+   PCPProcessList_updateAllCPUTime(this, PCP_CPU_IOWAIT, CPU_IOWAIT_TIME);
+   PCPProcessList_updateAllCPUTime(this, PCP_CPU_IRQ, CPU_IRQ_TIME);
+   PCPProcessList_updateAllCPUTime(this, PCP_CPU_SOFTIRQ, CPU_SOFTIRQ_TIME);
+   PCPProcessList_updateAllCPUTime(this, PCP_CPU_STEAL, CPU_STEAL_TIME);
+   PCPProcessList_updateAllCPUTime(this, PCP_CPU_GUEST, CPU_GUEST_TIME);
+   PCPProcessList_deriveCPUTime(this->cpu);
+
+   for (unsigned int i = 0; i < super->existingCPUs; i++)
+      PCPProcessList_backupCPUTime(this->percpu[i]);
+   PCPProcessList_updatePerCPUTime(this, PCP_PERCPU_USER, CPU_USER_TIME);
+   PCPProcessList_updatePerCPUTime(this, PCP_PERCPU_NICE, CPU_NICE_TIME);
+   PCPProcessList_updatePerCPUTime(this, PCP_PERCPU_SYSTEM, CPU_SYSTEM_TIME);
+   PCPProcessList_updatePerCPUTime(this, PCP_PERCPU_IDLE, CPU_IDLE_TIME);
+   PCPProcessList_updatePerCPUTime(this, PCP_PERCPU_IOWAIT, CPU_IOWAIT_TIME);
+   PCPProcessList_updatePerCPUTime(this, PCP_PERCPU_IRQ, CPU_IRQ_TIME);
+   PCPProcessList_updatePerCPUTime(this, PCP_PERCPU_SOFTIRQ, CPU_SOFTIRQ_TIME);
+   PCPProcessList_updatePerCPUTime(this, PCP_PERCPU_STEAL, CPU_STEAL_TIME);
+   PCPProcessList_updatePerCPUTime(this, PCP_PERCPU_GUEST, CPU_GUEST_TIME);
+   for (unsigned int i = 0; i < super->existingCPUs; i++)
+      PCPProcessList_deriveCPUTime(this->percpu[i]);
+
+   if (settings->showCPUFrequency)
+      PCPProcessList_updatePerCPUReal(this, PCP_HINV_CPUCLOCK, CPU_FREQUENCY);
+
+   PCPProcessList_scanZfsArcstats(this);
+}
+
+void ProcessList_goThroughEntries(ProcessList* super, bool pauseProcessUpdate) {
+   PCPProcessList* this = (PCPProcessList*) super;
+   const Settings* settings = super->settings;
+   bool enabled = !pauseProcessUpdate;
+
+   bool flagged = settings->showCPUFrequency;
+   PCPMetric_enable(PCP_HINV_CPUCLOCK, flagged);
+
+   /* In pause mode do not sample per-process metric values at all */
+   for (int metric = PCP_PROC_PID; metric < PCP_METRIC_COUNT; metric++)
+      PCPMetric_enable(metric, enabled);
+
+   flagged = settings->flags & PROCESS_FLAG_LINUX_CGROUP;
+   PCPMetric_enable(PCP_PROC_CGROUPS, flagged && enabled);
+   flagged = settings->flags & PROCESS_FLAG_LINUX_OOM;
+   PCPMetric_enable(PCP_PROC_OOMSCORE, flagged && enabled);
+   flagged = settings->flags & PROCESS_FLAG_LINUX_CTXT;
+   PCPMetric_enable(PCP_PROC_VCTXSW, flagged && enabled);
+   PCPMetric_enable(PCP_PROC_NVCTXSW, flagged && enabled);
+   flagged = settings->flags & PROCESS_FLAG_LINUX_SECATTR;
+   PCPMetric_enable(PCP_PROC_LABELS, flagged && enabled);
+   flagged = settings->flags & PROCESS_FLAG_LINUX_AUTOGROUP;
+   PCPMetric_enable(PCP_PROC_AUTOGROUP_ID, flagged && enabled);
+   PCPMetric_enable(PCP_PROC_AUTOGROUP_NICE, flagged && enabled);
+
+   /* Sample smaps metrics on every second pass to improve performance */
+   static int smaps_flag;
+   smaps_flag = !!smaps_flag;
+   PCPMetric_enable(PCP_PROC_SMAPS_PSS, smaps_flag && enabled);
+   PCPMetric_enable(PCP_PROC_SMAPS_SWAP, smaps_flag && enabled);
+   PCPMetric_enable(PCP_PROC_SMAPS_SWAPPSS, smaps_flag && enabled);
+
+   struct timeval timestamp;
+   PCPMetric_fetch(&timestamp);
+
+   double sample = this->timestamp;
+   this->timestamp = pmtimevalToReal(&timestamp);
+
+   PCPProcessList_updateHeader(super, settings);
+
+   /* In pause mode only update global data for meters (CPU, memory, etc) */
+   if (pauseProcessUpdate)
+      return;
+
+   double period = (this->timestamp - sample) * 100;
+   PCPProcessList_updateProcesses(this, period, &timestamp);
+}
+
+bool ProcessList_isCPUonline(const ProcessList* super, unsigned int id) {
+   assert(id < super->existingCPUs);
+   (void) super;
+
+   pmAtomValue value;
+   if (PCPMetric_instance(PCP_PERCPU_SYSTEM, id, id, &value, PM_TYPE_U32))
+      return true;
+   return false;
+}
-- 
cgit v1.2.3