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/* $Id: processor.c,v 1.3 2000/04/01 16:22:38 reinelt Exp $
*
* main data processing
*
* Copyright 1999, 2000 by Michael Reinelt (reinelt@eunet.at)
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2, or (at your option)
* any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*
*
* $Log: processor.c,v $
* Revision 1.3 2000/04/01 16:22:38 reinelt
*
* bug that caused a segfault in processor.c fixed (thanks to herp)
*
* Revision 1.2 2000/03/23 07:24:48 reinelt
*
* PPM driver up and running (but slow!)
*
* Revision 1.1 2000/03/22 07:33:50 reinelt
*
* FAQ added
* new modules 'processor.c' contains all data processing
*
*/
/*
* exported functions:
*
* void process_init (void);
* does all necessary initializations
*
* void process (int smooth);
* processes a whole screen
* bars will always be processed
* texts only if smooth=0
*
*/
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include "cfg.h"
#include "system.h"
#include "isdn.h"
#include "parser.h"
#include "display.h"
#include "processor.h"
#define ROWS 16
char *row[ROWS];
int rows, cols, xres, yres, supported_bars;
int token_usage[256]={0,};
struct { int total, used, free, shared, buffer, cache, avail; } ram;
struct { double load1, load2, load3, overload; } load;
struct { double user, nice, system, idle; } busy;
struct { int read, write, total, max, peak; } disk;
struct { int rx, tx, total, max, peak; } net;
struct { int usage, in, out, total, max, peak; } isdn;
struct { double val, min, max; } sensor[SENSORS];
static double query (int token)
{
switch (token) {
case T_MEM_TOTAL:
return ram.total;
case T_MEM_USED:
return ram.used;
case T_MEM_FREE:
return ram.free;
case T_MEM_SHARED:
return ram.shared;
case T_MEM_BUFFER:
return ram.buffer;
case T_MEM_CACHE:
return ram.cache;
case T_MEM_AVAIL:
return ram.avail;
case T_LOAD_1:
return load.load1;
case T_LOAD_2:
return load.load2;
case T_LOAD_3:
return load.load3;
case T_CPU_USER:
return busy.user;
case T_CPU_NICE:
return busy.nice;
case T_CPU_SYSTEM:
return busy.system;
case T_CPU_BUSY:
return 1.0-busy.idle;
case T_CPU_IDLE:
return busy.idle;
case T_DISK_READ:
return disk.read;
case T_DISK_WRITE:
return disk.write;
case T_DISK_TOTAL:
return disk.total;
case T_DISK_MAX:
return disk.max;
case T_NET_RX:
return net.rx;
case T_NET_TX:
return net.tx;
case T_NET_TOTAL:
return net.total;
case T_NET_MAX:
return net.max;
case T_ISDN_IN:
return isdn.in;
case T_ISDN_OUT:
return isdn.out;
case T_ISDN_TOTAL:
return isdn.total;
case T_ISDN_MAX:
return isdn.max;
case T_SENSOR_1:
case T_SENSOR_2:
case T_SENSOR_3:
case T_SENSOR_4:
case T_SENSOR_5:
case T_SENSOR_6:
case T_SENSOR_7:
case T_SENSOR_8:
case T_SENSOR_9:
return sensor[token-T_SENSOR_1+1].val;
}
return 0.0;
}
static double query_bar (int token)
{
int i;
double value=query(token);
switch (token) {
case T_MEM_TOTAL:
case T_MEM_USED:
case T_MEM_FREE:
case T_MEM_SHARED:
case T_MEM_BUFFER:
case T_MEM_CACHE:
case T_MEM_AVAIL:
return value/ram.total;
case T_LOAD_1:
case T_LOAD_2:
case T_LOAD_3:
return value/load.overload;
case T_DISK_READ:
case T_DISK_WRITE:
case T_DISK_MAX:
return value/disk.peak;
case T_DISK_TOTAL:
return value/disk.peak/2.0;
case T_NET_RX:
case T_NET_TX:
case T_NET_MAX:
return value/net.peak;
case T_NET_TOTAL:
return value/net.peak/2.0;
case T_ISDN_IN:
case T_ISDN_OUT:
case T_ISDN_MAX:
return value/isdn.peak;
case T_ISDN_TOTAL:
return value/isdn.peak/2.0;
case T_SENSOR_1:
case T_SENSOR_2:
case T_SENSOR_3:
case T_SENSOR_4:
case T_SENSOR_5:
case T_SENSOR_6:
case T_SENSOR_7:
case T_SENSOR_8:
case T_SENSOR_9:
i=token-T_SENSOR_1+1;
return (value-sensor[i].min)/(sensor[i].max-sensor[i].min);
}
return value;
}
static void print_token (int token, char **p)
{
double val;
switch (token) {
case T_PERCENT:
*(*p)++='%';
break;
case T_DOLLAR:
*(*p)++='$';
break;
case T_OS:
*p+=sprintf (*p, "%s", System());
break;
case T_RELEASE:
*p+=sprintf (*p, "%s", Release());
break;
case T_CPU:
*p+=sprintf (*p, "%s", Processor());
break;
case T_RAM:
*p+=sprintf (*p, "%d", Memory());
break;
case T_OVERLOAD:
*(*p)++=load.load1>load.overload?'!':' ';
break;
case T_MEM_TOTAL:
case T_MEM_USED:
case T_MEM_FREE:
case T_MEM_SHARED:
case T_MEM_BUFFER:
case T_MEM_CACHE:
case T_MEM_AVAIL:
*p+=sprintf (*p, "%6.0f", query(token));
break;
case T_LOAD_1:
case T_LOAD_2:
case T_LOAD_3:
case T_SENSOR_1:
case T_SENSOR_2:
case T_SENSOR_3:
case T_SENSOR_4:
case T_SENSOR_5:
case T_SENSOR_6:
case T_SENSOR_7:
case T_SENSOR_8:
case T_SENSOR_9:
val=query(token);
if (val<10.0) {
*p+=sprintf (*p, "%4.2f", val);
} else if (val<100.0) {
*p+=sprintf (*p, "%4.1f", val);
} else {
*p+=sprintf (*p, "%4.0f", val);
}
break;
case T_CPU_USER:
case T_CPU_NICE:
case T_CPU_SYSTEM:
case T_CPU_BUSY:
case T_CPU_IDLE:
*p+=sprintf (*p, "%3.0f", 100.0*query(token));
break;
case T_ISDN_IN:
case T_ISDN_OUT:
case T_ISDN_MAX:
case T_ISDN_TOTAL:
if (isdn.usage)
*p+=sprintf (*p, "%4.0f", query(token));
else
*p+=sprintf (*p, "----");
break;
default:
*p+=sprintf (*p, "%4.0f", query(token));
}
}
static void collect_data (void)
{
int i;
if (token_usage[C_MEM]) {
Ram (&ram.total, &ram.free, &ram.shared, &ram.buffer, &ram.cache);
ram.used=ram.total-ram.free;
ram.avail=ram.free+ram.buffer+ram.cache;
}
if (token_usage[C_LOAD]) {
Load (&load.load1, &load.load2, &load.load3);
}
if (token_usage[C_CPU]) {
Busy (&busy.user, &busy.nice, &busy.system, &busy.idle);
}
if (token_usage[C_DISK]) {
Disk (&disk.read, &disk.write);
disk.total=disk.read+disk.write;
disk.max=disk.read>disk.write?disk.read:disk.write;
if (disk.max>disk.peak) disk.peak=disk.max;
}
if (token_usage[C_NET]) {
Net (&net.rx, &net.tx);
net.total=net.rx+net.tx;
net.max=net.rx>net.tx?net.rx:net.tx;
if (net.max>net.peak) net.peak=net.max;
}
if (token_usage[C_ISDN]) {
Isdn (&isdn.in, &isdn.out, &isdn.usage);
isdn.total=isdn.in+isdn.out;
isdn.max=isdn.in>isdn.out?isdn.in:isdn.out;
if (isdn.max>isdn.peak) isdn.peak=isdn.max;
}
for (i=1; i<SENSORS; i++) {
if (token_usage[T_SENSOR_1+i-1]) {
Sensor (i, &sensor[i].val, &sensor[i].min, &sensor[i].max);
}
}
}
static char *process_row (int r)
{
static char buffer[256];
char *s=row[r];
char *p=buffer;
do {
if (*s=='%') {
print_token (*(unsigned char*)++s, &p);
} else if (*s=='$') {
int i;
int type=*++s;
int len=*++s;
double val1=query_bar(*(unsigned char*)++s);
double val2=val1;
if (type & (BAR_H2 | BAR_V2))
val2=query_bar(*(unsigned char*)++s);
if (type & BAR_H)
lcd_bar (type, r, p-buffer+1, len*xres, val1*len*xres, val2*len*xres);
else
lcd_bar (type, r, p-buffer+1, len*yres, val1*len*yres, val2*len*yres);
if (type & BAR_H) {
for (i=0; i<len && p-buffer<cols; i++)
*p++='\t';
} else {
*p++='\t';
}
} else {
*p++=*s;
}
} while (*s++);
return buffer;
}
void process_init (void)
{
int i;
char buffer[8];
load.overload=atof(cfg_get("overload")?:"2.0");
lcd_query (&rows, &cols, &xres, &yres, &supported_bars);
for (i=1; i<=rows; i++) {
snprintf (buffer, sizeof(buffer), "row%d", i);
row[i]=strdup(parse(cfg_get(buffer)?:"", supported_bars, token_usage));
}
}
void process (int smooth)
{
int i;
char *txt;
collect_data();
for (i=1; i<=rows; i++) {
txt=process_row (i);
if (smooth==0)
lcd_put (i, 1, txt);
}
lcd_flush();
}
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