mirror of https://github.com/xzeldon/htop.git
561 lines
19 KiB
C
561 lines
19 KiB
C
/*
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htop - Process.c
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(C) 2004-2015 Hisham H. Muhammad
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(C) 2020 Red Hat, Inc. All Rights Reserved.
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Released under the GNU GPLv2, 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 "config.h" // IWYU pragma: keep
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#include "Process.h"
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#include <assert.h>
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#include <limits.h>
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#include <math.h>
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#include <signal.h>
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#include <stdbool.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <time.h>
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#include <unistd.h>
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#include <sys/resource.h>
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#include "CRT.h"
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#include "Macros.h"
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#include "Platform.h"
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#include "ProcessList.h"
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#include "RichString.h"
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#include "Settings.h"
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#include "XUtils.h"
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#if defined(MAJOR_IN_MKDEV)
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#include <sys/mkdev.h>
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#elif defined(MAJOR_IN_SYSMACROS)
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#include <sys/sysmacros.h>
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#endif
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static uid_t Process_getuid = (uid_t)-1;
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char Process_pidFormat[20] = "%7d ";
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static char Process_titleBuffer[20][20];
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void Process_setupColumnWidths() {
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int maxPid = Platform_getMaxPid();
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if (maxPid == -1)
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return;
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int digits = ceil(log10(maxPid));
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assert(digits < 20);
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for (int i = 0; Process_pidColumns[i].label; i++) {
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assert(i < 20);
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xSnprintf(Process_titleBuffer[i], 20, "%*s ", digits, Process_pidColumns[i].label);
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Process_fields[Process_pidColumns[i].id].title = Process_titleBuffer[i];
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}
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xSnprintf(Process_pidFormat, sizeof(Process_pidFormat), "%%%dd ", digits);
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}
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void Process_humanNumber(RichString* str, unsigned long long number, bool coloring) {
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char buffer[10];
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int len;
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int largeNumberColor = CRT_colors[LARGE_NUMBER];
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int processMegabytesColor = CRT_colors[PROCESS_MEGABYTES];
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int processGigabytesColor = CRT_colors[PROCESS_GIGABYTES];
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int processColor = CRT_colors[PROCESS];
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if (!coloring) {
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largeNumberColor = CRT_colors[PROCESS];
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processMegabytesColor = CRT_colors[PROCESS];
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processGigabytesColor = CRT_colors[PROCESS];
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}
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if (number < 1000) {
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//Plain number, no markings
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len = xSnprintf(buffer, sizeof(buffer), "%5llu ", number);
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RichString_appendn(str, processColor, buffer, len);
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} else if (number < 100000) {
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//2 digit MB, 3 digit KB
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len = xSnprintf(buffer, sizeof(buffer), "%2llu", number/1000);
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RichString_appendn(str, processMegabytesColor, buffer, len);
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number %= 1000;
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len = xSnprintf(buffer, sizeof(buffer), "%03llu ", number);
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RichString_appendn(str, processColor, buffer, len);
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} else if (number < 1000 * ONE_K) {
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//3 digit MB
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number /= ONE_K;
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len = xSnprintf(buffer, sizeof(buffer), "%4lluM ", number);
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RichString_appendn(str, processMegabytesColor, buffer, len);
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} else if (number < 10000 * ONE_K) {
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//1 digit GB, 3 digit MB
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number /= ONE_K;
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len = xSnprintf(buffer, sizeof(buffer), "%1llu", number/1000);
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RichString_appendn(str, processGigabytesColor, buffer, len);
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number %= 1000;
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len = xSnprintf(buffer, sizeof(buffer), "%03lluM ", number);
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RichString_appendn(str, processMegabytesColor, buffer, len);
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} else if (number < 100000 * ONE_K) {
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//2 digit GB, 1 digit MB
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number /= 100 * ONE_K;
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len = xSnprintf(buffer, sizeof(buffer), "%2llu", number/10);
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RichString_appendn(str, processGigabytesColor, buffer, len);
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number %= 10;
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len = xSnprintf(buffer, sizeof(buffer), ".%1llu", number);
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RichString_appendn(str, processMegabytesColor, buffer, len);
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RichString_append(str, processGigabytesColor, "G ");
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} else if (number < 1000 * ONE_M) {
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//3 digit GB
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number /= ONE_M;
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len = xSnprintf(buffer, sizeof(buffer), "%4lluG ", number);
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RichString_appendn(str, processGigabytesColor, buffer, len);
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} else if (number < 10000ULL * ONE_M) {
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//1 digit TB, 3 digit GB
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number /= ONE_M;
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len = xSnprintf(buffer, sizeof(buffer), "%1llu", number/1000);
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RichString_appendn(str, largeNumberColor, buffer, len);
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number %= 1000;
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len = xSnprintf(buffer, sizeof(buffer), "%03lluG ", number);
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RichString_appendn(str, processGigabytesColor, buffer, len);
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} else {
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//2 digit TB and above
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len = xSnprintf(buffer, sizeof(buffer), "%4.1lfT ", (double)number/ONE_G);
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RichString_appendn(str, largeNumberColor, buffer, len);
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}
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}
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void Process_colorNumber(RichString* str, unsigned long long number, bool coloring) {
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char buffer[13];
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int largeNumberColor = CRT_colors[LARGE_NUMBER];
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int processMegabytesColor = CRT_colors[PROCESS_MEGABYTES];
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int processColor = CRT_colors[PROCESS];
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int processShadowColor = CRT_colors[PROCESS_SHADOW];
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if (!coloring) {
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largeNumberColor = CRT_colors[PROCESS];
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processMegabytesColor = CRT_colors[PROCESS];
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processShadowColor = CRT_colors[PROCESS];
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}
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if (number == ULLONG_MAX) {
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int len = xSnprintf(buffer, sizeof(buffer), " N/A ");
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RichString_appendn(str, CRT_colors[PROCESS_SHADOW], buffer, len);
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} else if (number >= 100000LL * ONE_DECIMAL_T) {
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xSnprintf(buffer, sizeof(buffer), "%11llu ", number / ONE_DECIMAL_G);
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RichString_appendn(str, largeNumberColor, buffer, 12);
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} else if (number >= 100LL * ONE_DECIMAL_T) {
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xSnprintf(buffer, sizeof(buffer), "%11llu ", number / ONE_DECIMAL_M);
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RichString_appendn(str, largeNumberColor, buffer, 8);
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RichString_appendn(str, processMegabytesColor, buffer+8, 4);
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} else if (number >= 10LL * ONE_DECIMAL_G) {
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xSnprintf(buffer, sizeof(buffer), "%11llu ", number / ONE_DECIMAL_K);
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RichString_appendn(str, largeNumberColor, buffer, 5);
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RichString_appendn(str, processMegabytesColor, buffer+5, 3);
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RichString_appendn(str, processColor, buffer+8, 4);
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} else {
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xSnprintf(buffer, sizeof(buffer), "%11llu ", number);
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RichString_appendn(str, largeNumberColor, buffer, 2);
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RichString_appendn(str, processMegabytesColor, buffer+2, 3);
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RichString_appendn(str, processColor, buffer+5, 3);
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RichString_appendn(str, processShadowColor, buffer+8, 4);
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}
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}
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void Process_printTime(RichString* str, unsigned long long totalHundredths) {
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unsigned long long totalSeconds = totalHundredths / 100;
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unsigned long long hours = totalSeconds / 3600;
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int minutes = (totalSeconds / 60) % 60;
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int seconds = totalSeconds % 60;
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int hundredths = totalHundredths - (totalSeconds * 100);
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char buffer[10];
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if (hours >= 100) {
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xSnprintf(buffer, sizeof(buffer), "%7lluh ", hours);
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RichString_append(str, CRT_colors[LARGE_NUMBER], buffer);
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} else {
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if (hours) {
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xSnprintf(buffer, sizeof(buffer), "%2lluh", hours);
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RichString_append(str, CRT_colors[LARGE_NUMBER], buffer);
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xSnprintf(buffer, sizeof(buffer), "%02d:%02d ", minutes, seconds);
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} else {
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xSnprintf(buffer, sizeof(buffer), "%2d:%02d.%02d ", minutes, seconds, hundredths);
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}
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RichString_append(str, CRT_colors[DEFAULT_COLOR], buffer);
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}
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}
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void Process_fillStarttimeBuffer(Process* this) {
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struct tm date;
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(void) localtime_r(&this->starttime_ctime, &date);
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strftime(this->starttime_show, sizeof(this->starttime_show) - 1, (this->starttime_ctime > (time(NULL) - 86400)) ? "%R " : "%b%d ", &date);
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}
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static inline void Process_writeCommand(const Process* this, int attr, int baseattr, RichString* str) {
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int start = RichString_size(str), finish = 0;
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const char* comm = this->comm;
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if (this->settings->highlightBaseName || !this->settings->showProgramPath) {
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int i, basename = 0;
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for (i = 0; i < this->basenameOffset; i++) {
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if (comm[i] == '/') {
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basename = i + 1;
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} else if (comm[i] == ':') {
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finish = i + 1;
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break;
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}
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}
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if (!finish) {
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if (this->settings->showProgramPath) {
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start += basename;
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} else {
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comm += basename;
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}
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finish = this->basenameOffset - basename;
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}
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finish += start - 1;
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}
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RichString_append(str, attr, comm);
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if (this->settings->highlightBaseName) {
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RichString_setAttrn(str, baseattr, start, finish);
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}
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}
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void Process_outputRate(RichString* str, char* buffer, size_t n, double rate, int coloring) {
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int largeNumberColor = CRT_colors[LARGE_NUMBER];
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int processMegabytesColor = CRT_colors[PROCESS_MEGABYTES];
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int processColor = CRT_colors[PROCESS];
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if (!coloring) {
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largeNumberColor = CRT_colors[PROCESS];
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processMegabytesColor = CRT_colors[PROCESS];
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}
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if (isnan(rate)) {
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int len = xSnprintf(buffer, n, " N/A ");
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RichString_appendn(str, CRT_colors[PROCESS_SHADOW], buffer, len);
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} else if (rate < ONE_K) {
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int len = snprintf(buffer, n, "%7.2f B/s ", rate);
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RichString_appendn(str, processColor, buffer, len);
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} else if (rate < ONE_M) {
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int len = snprintf(buffer, n, "%7.2f K/s ", rate / ONE_K);
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RichString_appendn(str, processColor, buffer, len);
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} else if (rate < ONE_G) {
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int len = snprintf(buffer, n, "%7.2f M/s ", rate / ONE_M);
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RichString_appendn(str, processMegabytesColor, buffer, len);
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} else if (rate < ONE_T) {
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int len = snprintf(buffer, n, "%7.2f G/s ", rate / ONE_G);
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RichString_appendn(str, largeNumberColor, buffer, len);
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} else {
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int len = snprintf(buffer, n, "%7.2f T/s ", rate / ONE_T);
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RichString_appendn(str, largeNumberColor, buffer, len);
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}
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}
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void Process_writeField(const Process* this, RichString* str, ProcessField field) {
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char buffer[256]; buffer[255] = '\0';
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int attr = CRT_colors[DEFAULT_COLOR];
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int baseattr = CRT_colors[PROCESS_BASENAME];
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size_t n = sizeof(buffer) - 1;
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bool coloring = this->settings->highlightMegabytes;
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switch (field) {
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case PERCENT_CPU:
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case PERCENT_NORM_CPU: {
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float cpuPercentage = this->percent_cpu;
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if (field == PERCENT_NORM_CPU) {
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cpuPercentage /= this->processList->cpuCount;
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}
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if (cpuPercentage > 999.9) {
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xSnprintf(buffer, n, "%4u ", (unsigned int)cpuPercentage);
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} else if (cpuPercentage > 99.9) {
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xSnprintf(buffer, n, "%3u. ", (unsigned int)cpuPercentage);
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} else {
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xSnprintf(buffer, n, "%4.1f ", cpuPercentage);
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}
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break;
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}
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case PERCENT_MEM: {
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if (this->percent_mem > 99.9) {
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xSnprintf(buffer, n, "100. ");
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} else {
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xSnprintf(buffer, n, "%4.1f ", this->percent_mem);
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}
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break;
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}
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case COMM: {
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if (this->settings->highlightThreads && Process_isThread(this)) {
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attr = CRT_colors[PROCESS_THREAD];
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baseattr = CRT_colors[PROCESS_THREAD_BASENAME];
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}
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if (!this->settings->treeView || this->indent == 0) {
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Process_writeCommand(this, attr, baseattr, str);
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return;
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} else {
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char* buf = buffer;
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int maxIndent = 0;
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bool lastItem = (this->indent < 0);
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int indent = (this->indent < 0 ? -this->indent : this->indent);
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for (int i = 0; i < 32; i++) {
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if (indent & (1U << i)) {
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maxIndent = i+1;
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}
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}
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for (int i = 0; i < maxIndent - 1; i++) {
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int written, ret;
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if (indent & (1 << i)) {
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ret = snprintf(buf, n, "%s ", CRT_treeStr[TREE_STR_VERT]);
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} else {
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ret = snprintf(buf, n, " ");
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}
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if (ret < 0 || (size_t)ret >= n) {
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written = n;
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} else {
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written = ret;
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}
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buf += written;
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n -= written;
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}
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const char* draw = CRT_treeStr[lastItem ? (this->settings->direction == 1 ? TREE_STR_BEND : TREE_STR_TEND) : TREE_STR_RTEE];
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xSnprintf(buf, n, "%s%s ", draw, this->showChildren ? CRT_treeStr[TREE_STR_SHUT] : CRT_treeStr[TREE_STR_OPEN] );
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RichString_append(str, CRT_colors[PROCESS_TREE], buffer);
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Process_writeCommand(this, attr, baseattr, str);
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return;
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}
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}
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case MAJFLT: Process_colorNumber(str, this->majflt, coloring); return;
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case MINFLT: Process_colorNumber(str, this->minflt, coloring); return;
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case M_RESIDENT: Process_humanNumber(str, this->m_resident * CRT_pageSizeKB, coloring); return;
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case M_VIRT: Process_humanNumber(str, this->m_virt * CRT_pageSizeKB, coloring); return;
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case NICE: {
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xSnprintf(buffer, n, "%3ld ", this->nice);
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attr = this->nice < 0 ? CRT_colors[PROCESS_HIGH_PRIORITY]
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: this->nice > 0 ? CRT_colors[PROCESS_LOW_PRIORITY]
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: attr;
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break;
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}
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case NLWP: xSnprintf(buffer, n, "%4ld ", this->nlwp); break;
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case PGRP: xSnprintf(buffer, n, Process_pidFormat, this->pgrp); break;
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case PID: xSnprintf(buffer, n, Process_pidFormat, this->pid); break;
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case PPID: xSnprintf(buffer, n, Process_pidFormat, this->ppid); break;
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case PRIORITY: {
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if(this->priority <= -100)
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xSnprintf(buffer, n, " RT ");
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else
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xSnprintf(buffer, n, "%3ld ", this->priority);
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break;
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}
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case PROCESSOR: xSnprintf(buffer, n, "%3d ", Settings_cpuId(this->settings, this->processor)); break;
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case SESSION: xSnprintf(buffer, n, Process_pidFormat, this->session); break;
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case STARTTIME: xSnprintf(buffer, n, "%s", this->starttime_show); break;
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case STATE: {
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xSnprintf(buffer, n, "%c ", this->state);
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switch(this->state) {
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case 'R':
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attr = CRT_colors[PROCESS_R_STATE];
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break;
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case 'D':
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attr = CRT_colors[PROCESS_D_STATE];
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break;
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}
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break;
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}
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case ST_UID: xSnprintf(buffer, n, "%5d ", this->st_uid); break;
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case TIME: Process_printTime(str, this->time); return;
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case TGID: xSnprintf(buffer, n, Process_pidFormat, this->tgid); break;
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case TPGID: xSnprintf(buffer, n, Process_pidFormat, this->tpgid); break;
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case TTY_NR: xSnprintf(buffer, n, "%3u:%3u ", major(this->tty_nr), minor(this->tty_nr)); break;
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case USER: {
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if (Process_getuid != this->st_uid)
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attr = CRT_colors[PROCESS_SHADOW];
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if (this->user) {
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xSnprintf(buffer, n, "%-9s ", this->user);
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} else {
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xSnprintf(buffer, n, "%-9d ", this->st_uid);
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}
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if (buffer[9] != '\0') {
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buffer[9] = ' ';
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buffer[10] = '\0';
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}
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break;
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}
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default:
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xSnprintf(buffer, n, "- ");
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}
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RichString_append(str, attr, buffer);
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}
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void Process_display(const Object* cast, RichString* out) {
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const Process* this = (const Process*) cast;
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const ProcessField* fields = this->settings->fields;
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RichString_prune(out);
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for (int i = 0; fields[i]; i++)
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As_Process(this)->writeField(this, out, fields[i]);
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if (this->settings->shadowOtherUsers && this->st_uid != Process_getuid) {
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RichString_setAttr(out, CRT_colors[PROCESS_SHADOW]);
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}
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if (this->tag == true) {
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RichString_setAttr(out, CRT_colors[PROCESS_TAG]);
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}
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if (this->settings->highlightChanges) {
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if (Process_isTomb(this)) {
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out->highlightAttr = CRT_colors[PROCESS_TOMB];
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} else if (Process_isNew(this)) {
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out->highlightAttr = CRT_colors[PROCESS_NEW];
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}
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}
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assert(out->chlen > 0);
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}
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void Process_done(Process* this) {
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assert (this != NULL);
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free(this->comm);
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}
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static const char* Process_getCommandStr(const Process* p) {
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return p->comm ? p->comm : "";
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}
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const ProcessClass Process_class = {
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.super = {
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.extends = Class(Object),
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.display = Process_display,
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.delete = Process_delete,
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.compare = Process_compare
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},
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.writeField = Process_writeField,
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.getCommandStr = Process_getCommandStr,
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};
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void Process_init(Process* this, const struct Settings_* settings) {
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this->settings = settings;
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this->tag = false;
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this->showChildren = true;
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this->show = true;
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this->updated = false;
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this->basenameOffset = -1;
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if (Process_getuid == (uid_t)-1) {
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Process_getuid = getuid();
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}
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}
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void Process_toggleTag(Process* this) {
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this->tag = this->tag == true ? false : true;
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}
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|
bool Process_isNew(const Process* this) {
|
|
assert(this->processList);
|
|
if (this->processList->scanTs >= this->seenTs) {
|
|
return this->processList->scanTs - this->seenTs <= this->processList->settings->highlightDelaySecs;
|
|
}
|
|
return false;
|
|
}
|
|
|
|
bool Process_isTomb(const Process* this) {
|
|
return this->tombTs > 0;
|
|
}
|
|
|
|
bool Process_setPriority(Process* this, int priority) {
|
|
CRT_dropPrivileges();
|
|
int old_prio = getpriority(PRIO_PROCESS, this->pid);
|
|
int err = setpriority(PRIO_PROCESS, this->pid, priority);
|
|
CRT_restorePrivileges();
|
|
if (err == 0 && old_prio != getpriority(PRIO_PROCESS, this->pid)) {
|
|
this->nice = priority;
|
|
}
|
|
return (err == 0);
|
|
}
|
|
|
|
bool Process_changePriorityBy(Process* this, Arg delta) {
|
|
return Process_setPriority(this, this->nice + delta.i);
|
|
}
|
|
|
|
bool Process_sendSignal(Process* this, Arg sgn) {
|
|
CRT_dropPrivileges();
|
|
bool ok = (kill(this->pid, sgn.i) == 0);
|
|
CRT_restorePrivileges();
|
|
return ok;
|
|
}
|
|
|
|
long Process_pidCompare(const void* v1, const void* v2) {
|
|
const Process* p1 = (const Process*)v1;
|
|
const Process* p2 = (const Process*)v2;
|
|
return (p1->pid - p2->pid);
|
|
}
|
|
|
|
long Process_compare(const void* v1, const void* v2) {
|
|
const Process *p1, *p2;
|
|
const Settings *settings = ((const Process*)v1)->settings;
|
|
int r;
|
|
|
|
if (settings->direction == 1) {
|
|
p1 = (const Process*)v1;
|
|
p2 = (const Process*)v2;
|
|
} else {
|
|
p2 = (const Process*)v1;
|
|
p1 = (const Process*)v2;
|
|
}
|
|
|
|
switch (settings->sortKey) {
|
|
case PERCENT_CPU:
|
|
case PERCENT_NORM_CPU:
|
|
return SPACESHIP_NUMBER(p2->percent_cpu, p1->percent_cpu);
|
|
case PERCENT_MEM:
|
|
return SPACESHIP_NUMBER(p2->m_resident, p1->m_resident);
|
|
case COMM:
|
|
return SPACESHIP_NULLSTR(Process_getCommand(p1), Process_getCommand(p2));
|
|
case MAJFLT:
|
|
return SPACESHIP_NUMBER(p2->majflt, p1->majflt);
|
|
case MINFLT:
|
|
return SPACESHIP_NUMBER(p2->minflt, p1->minflt);
|
|
case M_RESIDENT:
|
|
return SPACESHIP_NUMBER(p2->m_resident, p1->m_resident);
|
|
case M_VIRT:
|
|
return SPACESHIP_NUMBER(p2->m_virt, p1->m_virt);
|
|
case NICE:
|
|
return SPACESHIP_NUMBER(p1->nice, p2->nice);
|
|
case NLWP:
|
|
return SPACESHIP_NUMBER(p1->nlwp, p2->nlwp);
|
|
case PGRP:
|
|
return SPACESHIP_NUMBER(p1->pgrp, p2->pgrp);
|
|
case PID:
|
|
return SPACESHIP_NUMBER(p1->pid, p2->pid);
|
|
case PPID:
|
|
return SPACESHIP_NUMBER(p1->ppid, p2->ppid);
|
|
case PRIORITY:
|
|
return SPACESHIP_NUMBER(p1->priority, p2->priority);
|
|
case PROCESSOR:
|
|
return SPACESHIP_NUMBER(p1->processor, p2->processor);
|
|
case SESSION:
|
|
return SPACESHIP_NUMBER(p1->session, p2->session);
|
|
case STARTTIME:
|
|
r = SPACESHIP_NUMBER(p1->starttime_ctime, p2->starttime_ctime);
|
|
return r != 0 ? r : SPACESHIP_NUMBER(p1->pid, p2->pid);
|
|
case STATE:
|
|
return SPACESHIP_NUMBER(Process_sortState(p1->state), Process_sortState(p2->state));
|
|
case ST_UID:
|
|
return SPACESHIP_NUMBER(p1->st_uid, p2->st_uid);
|
|
case TIME:
|
|
return SPACESHIP_NUMBER(p2->time, p1->time);
|
|
case TGID:
|
|
return SPACESHIP_NUMBER(p1->tgid, p2->tgid);
|
|
case TPGID:
|
|
return SPACESHIP_NUMBER(p1->tpgid, p2->tpgid);
|
|
case TTY_NR:
|
|
return SPACESHIP_NUMBER(p1->tty_nr, p2->tty_nr);
|
|
case USER:
|
|
return SPACESHIP_NULLSTR(p1->user, p2->user);
|
|
default:
|
|
return SPACESHIP_NUMBER(p1->pid, p2->pid);
|
|
}
|
|
}
|