sysmon: upload a new app System Monitor v0.8 beta

git-svn-id: svn://kolibrios.org@7361 a494cfbc-eb01-0410-851d-a64ba20cac60
This commit is contained in:
Kirill Lipatov (Leency) 2018-09-14 18:07:55 +00:00
parent 48ae125675
commit 23c0258077
4 changed files with 292 additions and 0 deletions

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//Leency, Veliant, Punk_Joker, PavelYakov & KolibriOS Team 2008-2018
//GNU GPL licence.
// 70.5 - get volume info and label
#ifndef AUTOBUILD
#include "lang.h--"
#endif

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if tup.getconfig("NO_CMM") ~= "" then return end
if tup.getconfig("LANG") == "ru"
then C_LANG = "LANG_RUS"
else C_LANG = "LANG_ENG" -- this includes default case without config
end
tup.rule("sysmon.c", "c-- /D=AUTOBUILD /D=$(C_LANG) %f" .. tup.getconfig("KPACK_CMD"), "sysmon.com")

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@del sysmon.kex
@c-- sysmon.c
@rename *.com *.kex
@del warning.txt
@kpack sysmon.kex
@pause

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/*
* System Monitor
* version 0.7
* Author: Leency
*/
#define MEMSIZE 4096*10
#include "../lib/io.h"
#include "../lib/gui.h"
#include "../lib/obj/libio.h"
#include "../lib/obj/libimg.h"
#include "../lib/obj/libini.h"
//===================================================//
// //
// SENSOR //
// //
//===================================================//
#define MIN_PB_BLOCK_W 19
#define LOAD_BG 0xFFFfff
#define LOAD_ACTIVE 0x4C52FF
struct sensor {
int x,y,w,h;
void set_size();
void draw_wrapper();
void draw_progress();
};
void sensor::set_size(dword _x, _y, _w, _h)
{
x=_x+2;
y=_y;
w=_w;
h=_h;
}
void sensor::draw_wrapper()
{
DrawRectangle(x-1, y-1, w+1, h+1, system.color.work_graph);
DrawRectangle3D(x-2, y-2, w+3, h+3, system.color.work_dark, system.color.work_light);
}
void sensor::draw_progress(dword progress_w, active_value, bg_value, mesure)
{
if (progress_w < MIN_PB_BLOCK_W) progress_w = MIN_PB_BLOCK_W;
if (progress_w > w-MIN_PB_BLOCK_W) progress_w = w-MIN_PB_BLOCK_W;
DrawBar(x, y, w-progress_w, h, LOAD_ACTIVE);
sprintf(#param, "%i%s", active_value, mesure);
WriteText(w-progress_w- calc(strlen(#param)*8) /2 + x, h/2-7+y, 0x90, LOAD_BG, #param);
DrawBar(x+w-progress_w, y, progress_w, h, LOAD_BG);
sprintf(#param, "%i%s", bg_value, mesure);
WriteText(-progress_w - calc(strlen(#param)*8)/2 + w+x, h/2-7+y, 0x90, LOAD_ACTIVE, #param);
}
//===================================================//
// //
// GetSizeDir //
// //
//===================================================//
BDVK file_info_dirsize;
dword dir_count;
dword file_count;
dword size_dir;
void GetDirSizeAndCountFiles(dword way)
{
dir_count=0;
file_count=0;
size_dir=0;
GetDirSizeAndCountFiles_loop(way);
}
void GetDirSizeAndCountFiles_loop(dword way)
{
dword dirbuf, fcount, i, filename;
dword cur_file;
if (dir_exists(way))
{
cur_file = malloc(4096);
// In the process of recursive descent, memory must be allocated dynamically,
// because the static memory -> was a bug !!! But unfortunately pass away to sacrifice speed.
GetDir(#dirbuf, #fcount, way, DIRS_ONLYREAL);
for (i=0; i<fcount; i++)
{
filename = i*304+dirbuf+72;
sprintf(cur_file,"%s/%s",way,filename);
if (TestBit(ESDWORD[filename-40], 4) )
{
dir_count++;
GetDirSizeAndCountFiles_loop(cur_file);
}
else
{
GetFileInfo(cur_file, #file_info_dirsize);
size_dir += file_info_dirsize.sizelo;
file_count++;
}
}
free(cur_file);
}
}
//===================================================//
// //
// DATA //
// //
//===================================================//
#define CPU_STACK 440
dword cpu_stack[CPU_STACK];
sensor cpu;
sensor ram;
sensor rd;
sensor tmp[10];
//===================================================//
// //
// CODE //
// //
//===================================================//
void main()
{
proc_info Form;
dword cpu_frequency = GetCpuFrequency()/1000;
int id;
incn y;
load_dll(libio, #libio_init,1);
load_dll(libimg, #libimg_init,1);
load_dll(libini, #lib_init,1);
loop()
{
WaitEventTimeout(25);
switch(EAX & 0xFF)
{
case evButton:
if (GetButtonID()) ExitProcess();
break;
case evKey:
GetKeys();
if (key_scancode == SCAN_CODE_ESC) ExitProcess();
break;
case evReDraw:
#define LEFT 25
#define ICONGAP 45
system.color.get();
DefineAndDrawWindow(150, 100, CPU_STACK+LEFT+LEFT+4+9, 480 + skin_height + 4, 0x34, system.color.work, "System Monitor",0);
GetProcessInfo(#Form, SelfInfo);
y.n = 0;
WriteTextB(LEFT+ICONGAP, y.inc(20), 0x90, system.color.work_text, "CPU load");
DrawIcon32(LEFT, y.n, system.color.work, 37);
if (cpu_frequency < 1000) sprintf(#param, "CPU frequency: %i Hz", cpu_frequency);
else sprintf(#param, "CPU frequency: %i MHz", cpu_frequency/1000);
WriteText(LEFT+ICONGAP, y.inc(20), 0x90, system.color.work_text, #param);
cpu.set_size(LEFT, y.inc(25), CPU_STACK, 100);
cpu.draw_wrapper();
WriteTextB(LEFT+ICONGAP, y.inc(cpu.h + 25), 0x90, system.color.work_text, "RAM usage");
DrawIcon32(LEFT, y.n, system.color.work, 36);
sprintf(#param, "Total RAM: %i MiB", GetTotalRAM()/1024);
WriteText(LEFT+ICONGAP, y.inc(20), 0x90, system.color.work_text, #param);
ram.set_size(LEFT, y.inc(25), CPU_STACK, 25);
ram.draw_wrapper();
WriteTextB(LEFT+ICONGAP, y.inc(ram.h + 25), 0x90, system.color.work_text, "System RAM Disk usage");
DrawIcon32(LEFT, y.n, system.color.work, 3);
WriteText(LEFT+ICONGAP, y.inc(20), 0x90, system.color.work_text, "Fixed size: 1.44 MiB");
rd.set_size(LEFT, y.inc(25), CPU_STACK, 25);
rd.draw_wrapper();
WriteTextB(LEFT+ICONGAP, y.inc(ram.h + 25), 0x90, system.color.work_text, "Virtual drive usage");
DrawIcon32(LEFT, y.n, system.color.work, 50);
WriteText(LEFT+ICONGAP, y.inc(20), 0x90, system.color.work_text, "TMP Disk 0 size: 49 MiB");
tmp[0].set_size(LEFT, y.inc(25), CPU_STACK, 25);
tmp[0].draw_wrapper();
default:
MonitorCpu();
ram.draw_progress(
GetFreeRAM()*ram.w/GetTotalRAM(),
GetTotalRAM()-GetFreeRAM()/1024,
GetFreeRAM()/1024,
"M"
);
GetDirSizeAndCountFiles("/rd/1");
size_dir += 32*512; //add FAT table size
size_dir += file_count*512/2; //add MAGIC NUMBER
size_dir /= 1024; //convert to KiB
size_dir= 1440 - size_dir;
rd.draw_progress(
size_dir*rd.w/1440,
1440-size_dir,
size_dir,
"K"
);
GetDirSizeAndCountFiles("/tmp0/1");
size_dir += 32*512; //add FAT table size
size_dir += file_count*512/2; //add MAGIC NUMBER
size_dir /= 1024*1024; //convert to MiB
size_dir= 49 - size_dir;
tmp[0].draw_progress(
size_dir*tmp[0].w/49,
49-size_dir,
size_dir,
"M"
);
}
}
}
dword GetCpuLoad(dword max_h)
{
dword idle;
dword CPU_SEC = GetCpuFrequency() >> 20 + 1;
dword IDLE_SEC = GetCpuIdleCount() >> 20 * max_h;
EAX = IDLE_SEC;
EBX = CPU_SEC;
$cdq
$div ebx
idle = EAX;
return max_h - idle;
}
//===================================================//
// //
// MONITORS //
// //
//===================================================//
int pos=0;
void MonitorCpu()
{
int i;
if (!cpu.w) return;
cpu_stack[pos] = GetCpuLoad(cpu.h);
if (cpu_stack[pos]<=2) || (cpu_stack[pos]>cpu.h) cpu_stack[pos]=2;
DrawBar(cpu.x+cpu.w-30, cpu.y-25, 30, 20, system.color.work);
sprintf(#param, "%i%%", cpu_stack[pos]);
WriteText(cpu.x+cpu.w-calc(strlen(#param)*8), cpu.y-25, 0x90, system.color.work_text, #param);
for (i=0; i<CPU_STACK; i+=2) {
DrawBar(i+cpu.x, cpu.y, 1, cpu.h-cpu_stack[i], LOAD_BG);
DrawBar(i+cpu.x, cpu.h-cpu_stack[i]+cpu.y, 1, cpu_stack[i], LOAD_ACTIVE);
DrawBar(i+1+cpu.x, cpu.y, 1, cpu.h, LOAD_BG);
}
pos++;
if (pos>=CPU_STACK) {
pos = CPU_STACK-1;
for (i=0; i<pos; i++) {
cpu_stack[i] = cpu_stack[i+1];
}
}
}