toaruos/apps/top.c

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/**
* @brief Show processes sorted by resource usage.
*
* @copyright
* This file is part of ToaruOS and is released under the terms
* of the NCSA / University of Illinois License - see LICENSE.md
* Copyright (C) 2021 K. Lange
*/
#include <fcntl.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <dirent.h>
#include <pwd.h>
#include <termios.h>
#include <poll.h>
#include <time.h>
#include <sys/stat.h>
#include <sys/ioctl.h>
#include <sys/time.h>
#include <sys/sysfunc.h>
#include <toaru/list.h>
#include <toaru/hashmap.h>
#define LINE_LEN 4096
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enum header_columns {
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COLUMN_NONE,
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COLUMN_PID,
COLUMN_TID,
COLUMN_USER,
COLUMN_VSZ,
COLUMN_SHM,
COLUMN_MEM,
COLUMN_CPUA,
COLUMN_CPU
};
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static hashmap_t * process_ents = NULL;
static int cpu_count = 1;
static int sort_column = COLUMN_CPU;
static int show_help = 0;
static const char * help_text[] = {
"q: quit",
"w: switch sort column",
"h: show this help text",
};
enum {
FORMATTER_DECIMAL,
FORMATTER_PERCENT,
FORMATTER_STRING
};
enum {
SORT_ASC,
SORT_DEC
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};
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struct process {
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int uid, pid, tid, mem, vsz, shm, cpu, cpua;
char * user;
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char * process;
char * command_line;
};
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struct columns {
const char * title;
intptr_t member;
int formatter;
int width;
int sort_order;
} ColumnDescriptions[] = {
[COLUMN_NONE] = {"", 0, 0, 0, 0},
[COLUMN_PID] = {"PID", offsetof(struct process, pid), FORMATTER_DECIMAL, 0, SORT_ASC},
[COLUMN_TID] = {"TID", offsetof(struct process, tid), FORMATTER_DECIMAL, 0, SORT_ASC},
[COLUMN_VSZ] = {"VSZ", offsetof(struct process, vsz), FORMATTER_DECIMAL, 0, SORT_DEC},
[COLUMN_SHM] = {"SHM", offsetof(struct process, shm), FORMATTER_DECIMAL, 0, SORT_DEC},
[COLUMN_MEM] = {"%MEM", offsetof(struct process, mem), FORMATTER_PERCENT, 0, SORT_DEC},
[COLUMN_CPU] = {"%CPU", offsetof(struct process, cpu), FORMATTER_PERCENT, 0, SORT_DEC},
[COLUMN_CPUA] = {"CPUA", offsetof(struct process, cpua), FORMATTER_PERCENT, 0, SORT_DEC},
[COLUMN_USER] = {"USER", offsetof(struct process, user), FORMATTER_STRING, 0, SORT_ASC},
};
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static int columns[] = { COLUMN_PID, COLUMN_USER, COLUMN_VSZ, COLUMN_SHM, COLUMN_CPU, COLUMN_CPUA, COLUMN_MEM, COLUMN_NONE };
/**
* @brief Print a single column to stdout with the appropriate formatter.
*/
static int print_column(struct process * proc, int column_id) {
struct columns * column = &ColumnDescriptions[column_id];
switch (column->formatter) {
case FORMATTER_DECIMAL: {
int value = *(int*)((char *)proc + column->member);
return printf("%*d ", column->width, value);
}
case FORMATTER_PERCENT: {
int value = *(int*)((char *)proc + column->member);
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if (value >= 1000) {
return printf("%*d ", column->width, value / 10);
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} else {
return printf("%*d.%01d ", column->width - 2, value / 10, value % 10);
}
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}
case FORMATTER_STRING: {
char * value = *(char**)((char *)proc + column->member);
return printf("%-*s ", column->width, value);
}
default: return 0;
}
}
/**
* @brief Calculate the size of a formatted column.
*/
static int size_column(struct process * proc, int column_id) {
char garbage[100];
struct columns * column = &ColumnDescriptions[column_id];
switch (column->formatter) {
case FORMATTER_DECIMAL: {
int value = *(int*)((char *)proc + column->member);
return snprintf(garbage, 100, "%d", value);
}
case FORMATTER_PERCENT: {
int value = *(int*)((char *)proc + column->member);
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if (value >= 1000) {
return 3;
} else {
return snprintf(garbage, 100, "%d.%01d", value / 10, value % 10);
}
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}
case FORMATTER_STRING: {
char * value = *(char**)((char *)proc + column->member);
return strlen(value);
}
default: return 0;
}
}
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/**
* @brief Print the column headings.
*/
void print_header(void) {
printf("\033[44;30m");
for (int * c = columns; *c; ++c) {
if (*c == sort_column) printf("\033[97m");
printf("%*s ", ColumnDescriptions[*c].width, ColumnDescriptions[*c].title);
if (*c == sort_column) printf("\033[30m");
}
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if (sort_column == COLUMN_NONE) {
printf("\033[1;97mCMD\033[30m");
} else {
printf("CMD");
}
printf("\033[K\033[0m\n");
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}
/**
* @brief Reset column widths to the minimum required to fit their headings.
*/
void reset_column_widths(void) {
for (size_t i = 0; i < sizeof(ColumnDescriptions) / sizeof(*ColumnDescriptions); ++i) {
ColumnDescriptions[i].width = strlen(ColumnDescriptions[i].title);
}
}
/**
* @brief Print one entry to stdout with the appropriate formatter.
*
* @p out Process entry to print.
* @p width Total available screen width.
*/
void print_entry(struct process * out, int width) {
int used = 0;
for (int * c = columns; *c; ++c) {
if (*c == sort_column) printf("\033[1m");
used += print_column(out, *c);
if (*c == sort_column) printf("\033[0m");
}
printf("%.*s\033[K\n", width - used, out->command_line ? out->command_line : out->process);
}
/**
* @brief Given a process, expand any columns that need to be bigger to fit it.
*/
void update_column_widths(struct process * out) {
int len;
for (int * c = columns; *c; ++c) {
if ((len = size_column(out, *c)) > ColumnDescriptions[*c].width) ColumnDescriptions[*c].width = len;
}
}
/**
* @brief Free resources used by a process entry.
*
* Frees any strings allocated for the process, as well
* as the process struct itself.
*/
void free_entry(struct process * out) {
if (out->command_line) free(out->command_line);
if (out->process) free(out->process);
if (out->user) free(out->user);
free(out);
}
/**
* @brief Given a UID, get the username.
*
* Always returns a string that must be freed. If the uid
* could not be found in the passwd database, the uid itself
* is formatted as a string for display.
*/
char * format_username(int uid) {
static char tmp[100];
struct passwd * p = getpwuid(uid);
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if (p) {
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snprintf(tmp, 100, "%-8s", p->pw_name);
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} else {
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snprintf(tmp, 100, "%-8d", uid);
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}
endpwent();
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return strdup(tmp);
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}
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/**
* @brief Find a process from its pid.
*
* Used for looking up the main thread's process entry when
* collecting information for non-main threads, so we can
* sum up CPU usage, which is reported in procfs per-thread.
*/
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struct process * process_from_pid(pid_t pid) {
return hashmap_get(process_ents, (void*)(uintptr_t)pid);
}
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/**
* @brief Collect information for a process from its procfs entry.
*
* @p dent Directory entry from calling readdir on /proc.
* @returns Process information that must be freed by the caller.
*/
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struct process * process_entry(struct dirent *dent) {
char tmp[300];
FILE * f;
char line[LINE_LEN];
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int pid = 0, uid = 0, tgid = 0, mem = 0, shm = 0, vsz = 0, cpu = 0, cpua = 0;
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char name[100];
sprintf(tmp, "/proc/%s/status", dent->d_name);
f = fopen(tmp, "r");
if (!f) {
return NULL;
}
line[0] = 0;
while (fgets(line, LINE_LEN, f) != NULL) {
char * n = strstr(line,"\n");
if (n) { *n = '\0'; }
char * tab = strstr(line,"\t");
if (tab) {
*tab = '\0';
tab++;
}
if (strstr(line, "Pid:") == line) {
pid = atoi(tab);
} else if (strstr(line, "Uid:") == line) {
uid = atoi(tab);
} else if (strstr(line, "Tgid:") == line) {
tgid = atoi(tab);
} else if (strstr(line, "Name:") == line) {
strcpy(name, tab);
} else if (strstr(line, "VmSize:") == line) {
vsz = atoi(tab);
} else if (strstr(line, "RssShmem:") == line) {
shm = atoi(tab);
} else if (strstr(line, "MemPermille:") == line) {
mem = atoi(tab);
} else if (strstr(line, "CpuPermille:") == line) {
cpu = strtoul(tab, &tab, 10);
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cpua = cpu;
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cpua += strtoul(tab, &tab, 10);
cpua += strtoul(tab, &tab, 10);
cpua += strtoul(tab, &tab, 10);
cpua /= 4;
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}
}
fclose(f);
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if (tgid != pid) {
/* Add this thread's CPU usage to the parent */
struct process * parent = process_from_pid(tgid);
if (parent) {
parent->cpu += cpu;
parent->cpua += cpua;
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}
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return NULL;
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}
struct process * out = malloc(sizeof(struct process));
out->uid = uid;
out->pid = tgid;
out->tid = pid;
out->mem = mem;
out->shm = shm;
out->vsz = vsz;
out->cpu = cpu;
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out->cpua = cpua;
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out->process = strdup(name);
out->command_line = NULL;
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out->user = format_username(out->uid);
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hashmap_set(process_ents, (void*)(uintptr_t)pid, out);
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sprintf(tmp, "/proc/%s/cmdline", dent->d_name);
f = fopen(tmp, "r");
char foo[1024];
int s = fread(foo, 1, 1024, f);
if (s > 0) {
out->command_line = malloc(s + 1);
memset(out->command_line, 0, s + 1);
memcpy(out->command_line, foo, s);
for (int i = 0; i < s; ++i) {
if (out->command_line[i] == 30) {
out->command_line[i] = ' ';
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}
}
}
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fclose(f);
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update_column_widths(out);
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return out;
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}
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/**
* @brief Sort an array of process struct pointers using the
* currently selected sort column.
*/
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static int sort_processes(const void * a, const void * b) {
struct process * left = *(struct process **)a;
struct process * right = *(struct process **)b;
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struct columns * column = &ColumnDescriptions[sort_column];
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if (sort_column == COLUMN_NONE) {
return strcmp(left->command_line, right->command_line);
}
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switch (column->formatter) {
case FORMATTER_DECIMAL:
case FORMATTER_PERCENT: {
int a = *(int*)((char *)left + column->member);
int b = *(int*)((char *)right + column->member);
return (column->sort_order == SORT_ASC) ? (a - b) : (b - a);
}
case FORMATTER_STRING: {
char * a = *(char **)((char *)left + column->member);
char * b = *(char **)((char *)right + column->member);
return (column->sort_order == SORT_ASC) ? strcmp(a,b) : strcmp(b,a);
}
default: return 0;
}
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}
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/**
* @brief Collect memory usage information from /proc/meminfo
*
* @p total (out) Total memory available in KiB
* @p used (out) In-use memory in KiB
*/
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static void get_mem_info(int * total, int * used) {
FILE * f = fopen("/proc/meminfo", "r");
if (!f) return;
int free;
char buf[1024] = {0};
fgets(buf, 1024, f);
char * a, * b;
a = strchr(buf, ' ');
a++;
b = strchr(a, '\n');
*b = '\0';
*total = atoi(a);
fgets(buf, 1024, f);
a = strchr(buf, ' ');
a++;
b = strchr(a, '\n');
*b = '\0';
free = atoi(a);
*used = *total - free;
fclose(f);
}
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/**
* @brief Collect CPU usage information from /proc/idle
*
* @p cpus (out) Array of CPU usage in permilles.
*/
static void get_cpu_info(int cpus[]) {
FILE * f = fopen("/proc/idle","r");
char buf[4096];
fread(buf, 4096, 1, f);
char * buffer = buf;
for (int i = 0; i < cpu_count; ++i) {
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char * b = strchr(buffer, ':');
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b++;
cpus[i] = 1000 - atoi(b);
if (cpus[i] < 0) cpus[i] = 0;
buffer = strchr(b, '\n');
}
fclose(f);
}
/**
* @brief Obtain information on how much system memory is
* being used for tmpfs blocks.
*/
static void get_tmpfs_info(size_t * size) {
FILE * f = fopen("/proc/tmpfs", "r");
if (!f) return;
char buf[1024] = {0};
fread(buf,1,1024,f);
fclose(f);
/* Should probably be looking for UsedBlocks: and advancing from there... */
char *b = strstr(buf, ":");
if (!b) return;
b += 2;
*size = strtoul(b,NULL,10) * 4; /* Expressed in pages, so * 4 for kilobytes */
}
static int fill_colors[] = {
1, 3, 4, 5, 6
};
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/**
* @brief Display a progress-bar-style usage meter.
*
* @p title Label to apply to the meter, shown on left.
* @p label Label to show inside of the meter, show on the right.
* @p width Available width to display the meter in, including title and frame.
* @p count Number of values to display.
* @p filled Values to stack in the meter.
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* @p maximum Maximum value of the meter.
*/
static void print_meter(const char * title, const char * label, int width, int count, int filled[], int maximum) {
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int available = width - strlen(title) - 4;
int remaining = available;
int fillSlots = 0;
/* Count total fill slots */
for (int i = 0; i < count; ++i) {
filled[i] = filled[i] * available / maximum;
if (filled[i] < 0) filled[i] = 0;
if (filled[i] > remaining) filled[i] = remaining;
fillSlots += filled[i];
remaining = available - fillSlots;
}
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int emptSlots = available - fillSlots;
printf("\033[1m%s [", title);
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char * fill = malloc(available + 1);
size_t j = 0;
for (int i = 0; i < fillSlots; ++i, j++) fill[j] = '|';
for (int i = 0; i < emptSlots; ++i, j++) fill[j] = ' ';
size_t l = strlen(label);
if (available > (int)l) {
sprintf(fill + available - l, "%s", label);
}
j = 0;
for (int c = 0; c < count; ++c) {
printf("\033[0;9%dm", fill_colors[c % (sizeof(fill_colors) / sizeof(int))]);
for (int i = 0; i < filled[c]; ++i, j++) printf("%c",fill[j]);
}
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printf("\033[90m");
for (int i = 0; i < emptSlots; ++i, j++) printf("%c",fill[j]);
printf("\033[0;1m]\033[0m ");
free(fill);
}
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/**
* @brief Switch sorting to the next column.
*/
static void next_sort_order(void) {
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size_t column_count = sizeof(columns)/sizeof(*columns);
for (size_t i = 0; i < column_count; ++i) {
if (columns[i] == sort_column) {
sort_column = columns[(i + 1) % column_count];
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return;
}
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}
}
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/**
* @brief Gather and display one round of data.
*/
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static int do_once(void) {
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/* Set minimum column widths to titles */
reset_column_widths();
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/* Read the entries in the directory */
list_t * ents_list = list_create();
process_ents = hashmap_create_int(10);
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/* Scan /proc entries */
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DIR * dirp = opendir("/proc");
struct dirent * dent = readdir(dirp);
while (dent != NULL) {
if (dent->d_name[0] >= '0' && dent->d_name[0] <= '9') {
struct process * p = process_entry(dent);
if (p) {
list_insert(ents_list, (void *)p);
}
}
dent = readdir(dirp);
}
closedir(dirp);
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/* Turn list into an array */
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size_t count = ents_list->length;
struct process ** processList = malloc(sizeof(struct process*) * count);
size_t ent = 0;
while (ents_list->length) {
node_t * node = list_pop(ents_list);
processList[ent] = node->value;
free(node);
ent++;
}
free(ents_list);
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/* Sort processes with the current sort column */
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qsort(processList, count, sizeof(struct process*), sort_processes);
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/* Gather total memory usage /proc/meminfo */
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int mem_total = 0, mem_used = 0;
get_mem_info(&mem_total, &mem_used);
size_t mem_tmpfs = 0;
get_tmpfs_info(&mem_tmpfs);
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/* Gather per-CPU usage from /proc/idle */
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int cpus[32];
get_cpu_info(cpus);
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/* Gather screen size */
struct winsize w;
ioctl(STDERR_FILENO, TIOCGWINSZ, &w);
/* Figure out how we're going to lay out widgets */
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int top_rows = 1 + cpu_count;
int meter_width = w.ws_col / 2;
int current_row = 0;
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int left_side = 1;
/* Generate info rows */
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int info_width = w.ws_col - meter_width;
char info_row[5][100] = {0};
int info_rows = 0;
if (info_width <= 30) {
meter_width = w.ws_col;
info_width = 0;
} else {
#define T_T "\033[94m"
#define T_C "\033[0;1m"
#define T_E "\033[0m"
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if (top_rows >= 1) {
info_rows = 1;
char tmp[256] = {0};
gethostname(tmp, 255);
snprintf(info_row[0], 99, T_T "Hostname: " T_C "%.*s" T_E, info_width - 10, tmp);
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}
if (top_rows >= 2) {
info_rows = 2;
char tmp[256] = {0};
char * format = "%a %b %d %T %Y %Z";
struct tm * timeinfo;
struct timeval now;
gettimeofday(&now, NULL);
timeinfo = localtime((time_t *)&now.tv_sec);
strftime(tmp,255,format,timeinfo);
snprintf(info_row[1], 99, T_T "Time: " T_C "%.*s" T_E, info_width - 6, tmp);
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}
if (top_rows >= 3) {
info_rows = 3;
snprintf(info_row[2], 99, T_T "Tasks: " T_C "%lu" T_E, count);
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}
}
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/* Reset cursor to upper left */
printf("\033[H");
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/* Display CPU usage widgets */
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for (int cpu = 0; cpu < cpu_count; ++cpu) {
char name[20], usage[30];
sprintf(name, "%3d", cpu + 1);
sprintf(usage, "%d.%01d%%", cpus[cpu] / 10, cpus[cpu] % 10);
print_meter(name, usage, left_side ? meter_width : info_width, 1, (int[]){cpus[cpu]}, 1000);
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if (current_row < info_rows) {
printf("%s\033[K\n", info_row[current_row]);
current_row++;
} else if (info_rows) {
if (left_side) {
left_side = 0;
} else {
left_side = 1;
current_row++;
}
} else {
current_row++;
}
}
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/* Display memory usage widget */
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char memUsed[30];
sprintf(memUsed, "%dM/%dM", mem_used / 1024, mem_total / 1024);
print_meter("Mem", memUsed, left_side ? meter_width : info_width, 2, (int[]){mem_used-mem_tmpfs,mem_tmpfs}, mem_total);
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if (left_side && current_row < info_rows) {
printf("%s", info_row[current_row]);
}
current_row++;
printf("\033[K\n");
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/* Show column headers */
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print_header();
int i = 0;
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/* Print entries, or help text lines */
if (show_help) {
for (ent = 0; ent < sizeof(help_text) / sizeof(*help_text); ++i, ++ent) {
if (i >= w.ws_row - current_row - 2) break;
printf("%*s\033[K\n", (int)w.ws_col, help_text[ent]);
}
} else {
for (ent = 0; ent < count; ++i, ++ent) {
if (i >= w.ws_row - current_row - 2) break;
print_entry(processList[ent], w.ws_col);
}
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}
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/* Clear remaining screen lines */
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for (; i < w.ws_row - current_row - 2; ++i) {
printf("\033[K\n");
}
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/* Clean up process data from this round */
for (ent = 0; ent < count; ++ent) {
free_entry(processList[ent]);
}
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free(processList);
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hashmap_free(process_ents);
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free(process_ents);
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/* Wait for command or 2 seconds for next refresh... */
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struct pollfd fds[1];
fds[0].fd = STDIN_FILENO;
fds[0].events = POLLIN;
int ret = poll(fds,1,2000);
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if (ret > 0 && fds[0].revents & POLLIN) {
int c = fgetc(stdin);
if (c == 'q') return 0;
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if (c == 'w') next_sort_order();
if (c == 'h') show_help = !show_help;
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}
return 1;
}
struct termios old;
void get_initial_termios(void) {
tcgetattr(STDOUT_FILENO, &old);
}
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/**
* @brief Switch to alt screen, turn on raw input.
*/
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void set_unbuffered(void) {
struct termios new = old;
new.c_iflag &= (~ICRNL) & (~IXON);
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new.c_lflag &= (~ICANON) & (~ECHO);
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tcsetattr(STDOUT_FILENO, TCSAFLUSH, &new);
printf("\033[?1049h\033[?25l\033[H\033[2J");
}
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/**
* @brief Switch to main screen, re-enable buffering.
*/
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void set_buffered(void) {
printf("\033[H\033[2J\033[?25h\033[?1049l");
tcsetattr(STDOUT_FILENO, TCSAFLUSH, &old);
}
int main (int argc, char * argv[]) {
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/* Assume CPU count doesn't change... */
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cpu_count = sysfunc(TOARU_SYS_FUNC_NPROC, NULL);
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/* Initialize terminal for alt screen */
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get_initial_termios();
set_unbuffered();
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/* Loop */
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while (do_once());
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/* Reset terminal */
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set_buffered();
return 0;
}