lcd4linux.git - lcd4linux Debian packaging

Age	Commit message (Expand)	Author	Files	Lines
2000-07-31	[lcd4linux @ 2000-07-31 10:43:44 by reinelt]	reinelt	1	-15/+92
2000-04-10	[lcd4linux @ 2000-04-10 04:40:53 by reinelt]	reinelt	1	-1/+1
2000-04-05	[lcd4linux @ 2000-04-05 05:58:36 by reinelt]	reinelt	1	-13/+46
2000-04-01	[lcd4linux @ 2000-04-01 16:22:38 by reinelt]	reinelt	1	-1/+1
2000-03-30	[lcd4linux @ 2000-03-30 16:46:57 by reinelt]	reinelt	1	-47/+1061
2000-03-28	[lcd4linux @ 2000-03-28 07:22:15 by reinelt]	reinelt	1	-1/+1
2000-03-22	[lcd4linux @ 2000-03-22 07:33:50 by reinelt]	reinelt	1	-1/+1
2000-03-18	[lcd4linux @ 2000-03-18 10:31:06 by reinelt]	reinelt	1	-32/+36
2000-03-17	[lcd4linux @ 2000-03-17 09:21:42 by reinelt]	reinelt	1	-1/+1
2000-03-13	[lcd4linux @ 2000-03-13 15:58:24 by reinelt]	reinelt	1	-1/+1
2000-03-10	[lcd4linux @ 2000-03-10 17:36:02 by reinelt]	reinelt	1	-0/+1677

/* $Id: processor.c,v 1.15 2001/03/02 10:18:03 ltoetsch 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 1.15 2001/03/02 10:18:03 ltoetsch * added /proc/apm battery stat * * Revision 1.14 2001/02/19 00:15:46 reinelt * * integrated mail and seti client * major rewrite of parser and tokenizer to support double-byte tokens * * Revision 1.13 2001/02/16 14:15:11 reinelt * * fixed type in processor.c * GPO documentation update from Carsten * * Revision 1.12 2001/02/16 08:23:09 reinelt * * new token 'ic' (ISDN connected) by Carsten Nau <info@cnau.de> * * Revision 1.11 2001/02/14 07:40:16 reinelt * * first (incomplete) GPO implementation * * Revision 1.10 2001/02/13 09:00:13 reinelt * * prepared framework for GPO's (general purpose outputs) * * Revision 1.9 2001/02/11 23:34:07 reinelt * * fixed a small bug where the throughput of an offline ISDN connection * is displayed as '----', but the online value is 5 chars long. * corrected to ' ----'. Thanks to Carsten Nau <info@cnau.de> * * Revision 1.8 2000/08/10 09:44:09 reinelt * * new debugging scheme: error(), info(), debug() * uses syslog if in daemon mode * * Revision 1.7 2000/07/31 10:43:44 reinelt * * some changes to support kernel-2.4 (different layout of various files in /proc) * * Revision 1.6 2000/05/21 06:20:35 reinelt * * added ppp throughput * token is '%t[iomt]' at the moment, but this will change in the near future * * Revision 1.5 2000/04/15 11:56:35 reinelt * * more debug messages * * Revision 1.4 2000/04/15 11:13:54 reinelt * * added '-d' (debugging) switch * added several debugging messages * removed config entry 'Delay' for HD44780 driver * delay loop for HD44780 will be calibrated automatically * * 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 "debug.h" #include "cfg.h" #include "system.h" #include "isdn.h" #include "parser.h" #include "display.h" #include "processor.h" #include "mail.h" #include "battery.h" #include "seti.h" #define ROWS 16 #define GPOS 16 char *row[ROWS]; char gpo[GPOS]; int rows, cols, xres, yres, supported_bars, gpos; 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, bytes; } net; struct { int usage, in, out, total, max, peak; } isdn; struct { int rx, tx, total, max, peak; } ppp; struct { int perc, stat; double dur; } batt; struct { double perc, cput; } seti; struct { int num; } mail[MAILBOXES]; struct { double val, min, max; } sensor[SENSORS]; static double query (int token) { switch (token&255) { 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_ETH_RX: return net.rx; case T_ETH_TX: return net.tx; case T_ETH_TOTAL: return net.total; case T_ETH_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_ISDN_USED: return isdn.usage; case T_PPP_RX: return ppp.rx; case T_PPP_TX: return ppp.tx; case T_PPP_TOTAL: return ppp.total; case T_PPP_MAX: return ppp.max; case T_SETI_PRC: return seti.perc; case T_SETI_CPU: return seti.cput; case T_BATT_PERC: return batt.perc; case T_BATT_STAT: return batt.stat; case T_BATT_DUR: return batt.dur; case T_MAIL: return mail[(token>>8)-'0'].num; case T_SENSOR: return sensor[(token>>8)-'0'].val; } return 0.0; } /* return a value 0..1 */ 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_ETH_RX: case T_ETH_TX: case T_ETH_MAX: return value/net.peak; case T_ETH_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_PPP_RX: case T_PPP_TX: case T_PPP_MAX: return value/ppp.peak; case T_PPP_TOTAL: return value/ppp.peak/2.0; case T_SETI_PRC: return value; case T_BATT_PERC: { static int alarm; alarm=(++alarm % 3); if(value < atoi(cfg_get("battwarning")?:"10") && !alarm) /* flash bar */ value = 0; return value/100; } case T_SENSOR: i=(token>>8)-'0'; 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: val=query(token); if (val<10.0) *p+=sprintf (*p, "%5.2f", val); else if (val<100.0) *p+=sprintf (*p, "%5.1f", val); else *p+=sprintf (*p, "%5.0f", 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_ETH_RX: case T_ETH_TX: case T_ETH_MAX: case T_ETH_TOTAL: val=query(token); if (net.bytes) val/=1024.0; *p+=sprintf (*p, "%5.0f", val); break; case T_ISDN_IN: case T_ISDN_OUT: case T_ISDN_MAX: case T_ISDN_TOTAL: if (isdn.usage) *p+=sprintf (*p, "%5.0f", query(token)); else *p+=sprintf (*p, " ----"); break; case T_ISDN_USED: if (isdn.usage) *p+=sprintf (*p, "*"); else *p+=sprintf (*p, " "); break; case T_SETI_PRC: val=100.0*query(token); if (val<100.0) *p+=sprintf (*p, "%4.1f", val); else *p+=sprintf (*p, " 100"); break; case T_SETI_CPU: val=query(token); *p+=sprintf (*p, "%2d.%2.2d:%2.2d", (int)val/86400, (int)((int)val%86400)/3600, (int)(((int)val%86400)%3600)/60 ); break; case T_BATT_PERC: *p+=sprintf(*p, "%3.0f", query(token)); break; case T_BATT_STAT: { int ival = (int) query(token); switch (ival) { case 0: **p = '='; break; case 1: **p = '+'; break; case 2: **p = '-'; break; default: **p = '?'; break; } } (*p)++; break; case T_BATT_DUR: { char eh = 's'; val = query(token); if (val > 99) { val /= 60; eh = 'm'; } if (val > 99) { val /= 60; eh = 'h'; } if (val > 99) { val /= 24; eh = 'd'; } *p+=sprintf(*p, "%2.0f%c", val, eh); } break; case T_MAIL: val=query(token); *p+=sprintf (*p, "%3.0f", val); break; default: *p+=sprintf (*p, "%5.0f", 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_ETH]) { Net (&net.rx, &net.tx, &net.bytes); 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; } if (token_usage[C_PPP]) { PPP (0, &ppp.rx, &ppp.tx); ppp.total=ppp.rx+ppp.tx; ppp.max=ppp.rx>ppp.tx?ppp.rx:ppp.tx; if (ppp.max>ppp.peak) ppp.peak=ppp.max; } if (token_usage[C_SETI]) { Seti (&seti.perc, &seti.cput); } if (token_usage[C_BATT]) { Battery (&batt.perc, &batt.stat, &batt.dur); } for (i=1; i<=MAILBOXES; i++) { if (token_usage[T_MAIL]&(1<<i)) { Mail (i, &mail[i].num); } } for (i=1; i<SENSORS; i++) { if (token_usage[T_SENSOR]&(1<<i)) { 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; int token; do { if (*s=='%') { token = *(unsigned char*)++s; if (token>T_EXTENDED) token += (*(unsigned char*)++s)<<8; print_token (token, &p); } else if (*s=='$') { double val1, val2; int i, type, len; type=*++s; len=*++s; token = *(unsigned char*)++s; if (token>T_EXTENDED) token += (*(unsigned char*)++s)<<8; val1=query_bar(token); val2=val1; if (type & (BAR_H2 | BAR_V2)) { token = *(unsigned char*)++s; if (token>T_EXTENDED) token += (*(unsigned char*)++s)<<8; val2=query_bar(token); } 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; } static int process_gpo (int r) { int token; double val; token=gpo[r]; val=query(token); return (val > 0.0); } void process_init (void) { int i; load.overload=atof(cfg_get("overload")?:"2.0"); lcd_query (&rows, &cols, &xres, &yres, &supported_bars, &gpos); if (rows>ROWS) { error ("%d rows exceeds limit, reducing to %d rows", rows, ROWS); rows=ROWS; } if (gpos>GPOS) { error ("%d gpos exceeds limit, reducing to %d gpos", gpos, GPOS); gpos=GPOS; } debug ("%d rows, %d columns, %dx%d pixels, %d GPOs", rows, cols, xres, yres, gpos); for (i=1; i<=rows; i++) { char buffer[8], *p; snprintf (buffer, sizeof(buffer), "Row%d", i); p=cfg_get(buffer)?:""; debug ("%s: %s", buffer, p); row[i]=strdup(parse_row(p, supported_bars, token_usage)); } for (i=1; i<=gpos; i++) { char buffer[8], *p; snprintf (buffer, sizeof(buffer), "GPO%d", i); p=cfg_get(buffer)?:""; debug ("%s: %s", buffer, p); gpo[i]=parse_gpo(p, token_usage); } } void process (int smooth) { int i, val; char *txt; collect_data(); for (i=1; i<=rows; i++) { txt=process_row (i); if (smooth==0) lcd_put (i, 1, txt); } for (i=1; i<=gpos; i++) { val=process_gpo (i); lcd_gpo (i, val); } lcd_flush(); }