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dockapps/wmhdplop/wmhdplop.c

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37 KiB
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/*
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 of the License, 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307,
USA.
*/
#include "config.h"
#include <string.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <dirent.h>
#include <fcntl.h>
#include <limits.h>
#include <unistd.h>
#include <time.h>
#include <math.h>
#include <ctype.h>
#include <errno.h>
#include <getopt.h>
#ifdef ENABLE_HDDTEMP_QUERY
#include <sys/socket.h>
#include <sys/wait.h>
#include <netinet/in.h>
#include <netdb.h>
#endif
#define GLOBALS_HERE
#include "global.h"
#include "wmhdplop.h"
uid_t euid, uid;
void update_swap_matrix(App *app) {
SwapMatrix *sm = &app->sm;
unsigned i;
int col,row;
unsigned sw_in = ceil(get_swapin_throughput()*4), sw_out = ceil(get_swapout_throughput()*4);
for (i=0; i < sw_in+sw_out; i++) {
col = rand() % sm->ncol;
row = rand() % sm->nrow;
if (sm->intensity[row][col] == 0) {
sm->pre_cnt[row][col] = rand() % 10; //(app->update_stats_mult);
}
sm->intensity[row][col] = app->swap_matrix_lighting * ((i < sw_in) ? -1 : +1);
}
}
void update_io_matrix_rw(App *app, float mbs, int op) {
IOMatrix *io = &app->iom;
IO_op_lst *l;
if (mbs > 10000) mbs = 10000; /* very quick and ugly fix for the strange bug which only occurs in gkhdplop */
int bsz = MAX(SQR(16*64./(app->dock->w + app->dock->h)),2); /* 1024 for a 64x64 applet */
while (mbs>1e-5) {
float v = MIN(mbs, bsz); /* a throughput > 1MB/s will create more than one spot */
mbs -= v;
l = calloc(1,sizeof(*l)); assert(l);
l->next = io->ops;
l->n = (int)(log2f(1+v*1024)/10.);
l->op = op;
l->i = rand() % io->h;
l->j = rand() % io->w;
io->ops = l;
}
}
void update_io_matrix(App *app) {
update_io_matrix_rw(app, get_read_throughput(), OP_READ);
update_io_matrix_rw(app, get_write_throughput(), OP_WRITE);
}
#define IOSCAL 32768
void evolve_io_matrix(App *app, DATA32 * __restrict buff) {
IOMatrix *io = &app->iom;
int i,j;
int * __restrict pl, * __restrict tmp;
IO_op_lst *o = io->ops, *po = NULL, *no;
while (o) {
io->v[o->i+1][o->j+1] = ((o->op == OP_READ) ? +50000000 : -50000000);
no = o->next;
if (--o->n <= 0) {
if (po) { po->next = no; }
else { io->ops = no; }
free(o);
} else po = po->next;
o = no;
}
/* brain-dead diffusion */
pl = io->v[io->h+2];
int * __restrict l = io->v[io->h+3];
for (j=1; j < io->w+1; ++j) pl[j] = 0;
for (i=1; i < io->h+1; ++i) {
/*
for (j=1; j < io->w+1; ++j) {
l[j] = io->v[i][j]*0.99 + (io->v[i][j-1] + io->v[i][j+1] + pl[j] + io->v[i+1][j] - 4*io->v[i][j])/5.;
}
*/
/*
float *__restrict nl = io->v[i+1]+1;
float *__restrict cl = io->v[i];
for (j=1; j < io->w+1; ++j, ++cl) {
l[j] = (cl[1])*0.99 + (cl[0] + cl[2] + pl[j] + *nl++ - 4*cl[1])/5.;
}
*/
int *__restrict dest;
int *__restrict pn = io->v[i+1]+1;
int *__restrict pc = io->v[i]+1;
int *__restrict pp = pl+1;
int pj,cj=0,nj=*pc++;
for (j=0, dest=l+1, pj = 0.; j < io->w; ++j) {
pj = cj; cj = nj; nj = *pc++;
*dest = (cj * 37)/200 + (pj + nj + *pp++ + *pn++)/5;
/* *dest = 99*(cj + (pj + nj + *pp++ + *pn++)/(4))/200; */
//} for (j=0, dest=l+1; j < io->w; ++j) {
int v = (int)(*dest++ >> 10);
if (v == 0) { *buff++ = io->cm.p[CMAPSZ/2]; continue; }
if (v > CMAPSZ/4) { /* cheaper than a log(vv) ... */
v = MIN(CMAPSZ/4 + (v-CMAPSZ/4)/16,CMAPSZ/2-1);
} else if (v < -CMAPSZ/4) {
v = MAX(-CMAPSZ/4 + (v+CMAPSZ/4)/16,-CMAPSZ/2);
}
*buff++ = io->cm.p[v+CMAPSZ/2];
}
tmp = pl; pl = io->v[i]; io->v[i] = l; l = tmp;
io->v[io->h+2] = pl; io->v[io->h+3] = l;
}
}
#if 0
static void draw_io_matrix(App *app, DATA32 * __restrict buff) {
IOMatrix *io = &app->iom;
int i,j;
for (i=0; i < io->h; ++i) {
for (j=0; j < io->w; ++j) {
float vv = io->v[i+1][j+1];
int v = (int)(vv * 32768); //((int)ldexpf(vv,15)); /* (int)v*(2^15) */
//if (v == 0) continue;
//if (v < 0) v*=3; /* write op are rare, so they are brighter .. */
if (v > CMAPSZ/4) { /* cheaper than a log(vv) ... */
v = MIN(CMAPSZ/4 + (v-CMAPSZ/4)/16,CMAPSZ/2-1);
} else if (v < -CMAPSZ/4) {
v = MAX(-CMAPSZ/4 + (v+CMAPSZ/4)/16,-CMAPSZ/2);
}
//assert(v+CMAPSZ/2>=0);
//assert(v+CMAPSZ/2 < sizeof io->cm.p);
*buff++ /*[j+i*io->w]*/ = io->cm.p[v+CMAPSZ/2];
}
}
}
#endif
void draw_swap_matrix(App *app) {
SwapMatrix *sm = &app->sm;
int rcnt[sm->nrow+1], ccnt[sm->ncol+1];
int row, col;
int isswapping = 0;
static int darkcnt = 0;
memset(rcnt, 0, sizeof rcnt); memset(ccnt, 0, sizeof ccnt);
for (row = 0; row < sm->nrow; row++) {
for (col = 0; col < sm->ncol; col++) {
if (sm->pre_cnt[row][col]>0) { isswapping = 1; sm->pre_cnt[row][col]--; }
}
}
if (isswapping) darkcnt = MIN(darkcnt+1,7);
else darkcnt = MAX(darkcnt-1, 0);
/* darken everything */
if (darkcnt) {
imlib_context_set_color(0, 0, 0, (darkcnt+1)*16);
imlib_image_fill_rectangle(0, 0, app->dock->w, app->dock->h);
}
/* draw squares */
for (row = 0; row < sm->nrow; row++) {
for (col = 0; col < sm->ncol; col++) {
if (sm->intensity[row][col] && sm->pre_cnt[row][col]==0) {
int v = sm->intensity[row][col];
v = (v * app->swap_matrix_luminosity)/(int)app->swap_matrix_lighting;
rcnt[row ] = MAX(rcnt[row ],abs(v)); ccnt[col ] = MAX(ccnt[col ],abs(v));
rcnt[row+1] = MAX(rcnt[row+1],abs(v)); ccnt[col+1] = MAX(ccnt[col+1],abs(v));
//v = (v*155)/255;
/*if (v > 0) imlib_context_set_color(100+v, 155-v, 155-v, 250);
else imlib_context_set_color(0, 100-v, 0, 250);*/
if (v > 0) imlib_context_set_color(255, 50, 50, MIN(v+80,255));
else imlib_context_set_color(50, 255, 50, MIN(v+80,255));
imlib_image_fill_rectangle(row*sm->w+1,col*sm->w+1,sm->w-1,sm->w-1);
if (sm->intensity[row][col] > 0) {
sm->intensity[row][col]--;
} else if (sm->intensity[row][col] < 0) {
sm->intensity[row][col]++;
}
}
}
}
/* draw lines */
for (row = 0; row < sm->nrow+1; row++) {
if (rcnt[row]) {
imlib_context_set_color(255, 255, 255, MIN(rcnt[row]*2/3, 255));
imlib_image_draw_line(row*sm->w,0,row*sm->w,app->dock->w,0);
}
}
for (col = 0; col < sm->ncol+1; col++) {
if (ccnt[col]) {
imlib_context_set_color(255, 255, 255, MIN(ccnt[col]*2/3, 255));
imlib_image_draw_line(0,col*sm->w,app->dock->h,col*sm->w,0);
}
}
}
float f2celsius(float Tf) {
return (5./9.)*(Tf-32.);
}
float celsius2f(float Tc) {
return (9./5.)*Tc+32.;
}
static void query_hddtemp(App *app) {
int fd;
struct hostent *h;
struct sockaddr_in addr;
char buff[1024];
SET_VEC(app->disk_temperature, -1, 0, app->nb_hd);
if ((h = gethostbyname("127.0.0.1")) == NULL) {
fprintf(stderr, "gethostbyname(localhost) failed : %s\n", strerror(errno)); return;
}
if ((fd = socket(h->h_addrtype, SOCK_STREAM,0)) == -1) {
fprintf(stderr, "can't create socket : %s\n", strerror(errno)); return;
}
memset(&addr,0,sizeof(struct sockaddr_in));
addr.sin_family = AF_INET;
addr.sin_port = htons(Prefs.hddtemp_port);
addr.sin_addr.s_addr = ((struct in_addr*)(h->h_addr))->s_addr;
if (connect(fd, (struct sockaddr *)&addr, sizeof addr) < 0) {
close(fd);
fprintf(stderr,"can't connect to 127.0.0.1:%d : %s\n", Prefs.hddtemp_port, strerror(errno));
#ifdef GKRELLM
Prefs.enable_hddtemp = 0;
#endif
return;
}
int n = 0;
do {
int nn=read(fd,buff+n,MAX((int)(sizeof buff) - n,0));
if (nn <= 0) { if (nn < 0) n=nn; break; }
n+=nn;
} while (n != sizeof buff);
BLAHBLAH(2,printf("n=%d, err=%s\n",n, strerror(errno)));
if (n != -1) {
char *s;
DiskList *dl;
int cnt;
buff[MIN(n,(int)sizeof buff - 1)] = 0;
for (dl = first_hd_in_list(), cnt = 0; dl; dl = next_hd_in_list(dl), cnt++) {
if (dl->enable_hddtemp) {
int found = 0;
if ((s=strstr(buff, dl->dev_path))) { found = 1; s+= strlen(dl->name); }
if (found) {
s=strchr(s,'|');
if (s && ((s=strchr(s+1,'|')))) {
int unit = 'C';
char *p = strchr(++s,'|'), oldv=0;
if (p) {
oldv = *p;
if (*p && toupper(p[1]) == 'F') unit = 'F';
*p = 0;
}
BLAHBLAH(1,printf("temperature of '%s' : %s %c\n", dl->name, s, unit));
if (strcmp(s,"SLP") == 0) app->disk_temperature[cnt] = -2;
else {
int temp = atoi(s);
if (unit == 'C' && Prefs.temperatures_unit == 'F') {
temp = (int)(floor(celsius2f(temp)+.5));
} else if (unit == 'F' && Prefs.temperatures_unit == 'C') {
temp = (int)(floor(f2celsius(temp)+.5));
}
app->disk_temperature[cnt] = temp;
}
if (p) *p = oldv; /* or bug... */
}
} else {
ONLY_NTIMES(4,fprintf(stderr, "could not find device '%s' in the output of hddtemp: '%s'\n", dl->name, buff));
}
}
}
} else { fprintf(stderr, "error with hddtemp: %s\n", strerror(errno)); }
close(fd);
}
const char *power_mode_str(int m) {
switch (m) {
case HD_ACTIVE: return "active/idle";
case HD_STANDBY: return "standby";
case HD_SLEEP: return "sleep";
case HD_UNKNOWN:
default:
return "unknown/error";
}
}
void sethw(App *app, int lw, int lh, int pos, int *px, int *py, int *pw, int *ph) {
*px = *py = 0; *pw = lw; *ph = lh;
if (!(pos & (AL_RIGHT | AL_LEFT | AL_HCENTER))) *pw = app->dock->w;
if (pos & AL_RIGHT) *px = app->dock->w - lw;
else if (pos & AL_HCENTER) *px = (app->dock->w - lw)/2;
else if (pos & AL_LEFT) *px = 0;
else { *px = 0; *pw = app->dock->w; }
if (pos & AL_BOTTOM) *py = app->dock->h - lh;
else if (pos & AL_VCENTER) *py = (app->dock->h - lh)/2;
else if (pos & AL_TOP) *py = 0;
else { *py = 0; *ph = app->dock->h; }
}
static void my_imlib_text_draw(int x, int y, const char *s) {
char s2[100]; snprintf(s2,100,"%s ",s); /* my imlib2 often forgets half of the last character... */
imlib_text_draw(x,y,s2);
}
int is_displayed(int hd_id, int part_id) {
return (((hd_id == app->filter_hd) || (app->filter_hd == -1)) &&
((part_id == app->filter_part) || (app->filter_part == -1)));
}
void change_displayed_hd(int dir) {
DiskList *dl = find_id(app->filter_hd, app->filter_part);
if (dl == NULL) {
app->filter_hd = -1; app->filter_part = -1;
dl = find_id(app->filter_hd, app->filter_part); assert(dl);
}
else if (dir > 0) {
if (app->filter_hd == -1 && app->filter_part == -1) {
app->filter_hd = -1; app->filter_part = 0;
} else if (app->filter_hd == -1 && app->filter_part == 0) {
app->filter_hd = first_dev_in_list()->hd_id;
app->filter_part = -1;
} else if (app->filter_hd != -1 && app->filter_part != -1) {
DiskList *dl2 = dl->next;
if (dl2) {
if (dl2->hd_id == app->filter_hd)
app->filter_part = dl2->part_id;
else {
app->filter_hd = dl2->hd_id;
app->filter_part = -1;
}
} else {
app->filter_hd = -1;
app->filter_part = -1;
}
} else if (app->filter_hd != -1) {
app->filter_part = dl->part_id;
} else {
app->filter_hd = dl->hd_id;
}
} else if (dir < 0) { /* very very bourin */
int ph, pph, pp, ppp;
ph = app->filter_hd; pp = app->filter_part;
do {
pph = app->filter_hd; ppp = app->filter_part;
change_displayed_hd(+1);
} while (!(app->filter_hd == ph && app->filter_part == pp));
app->filter_hd = pph; app->filter_part = ppp;
}
app->displayed_hd_changed = 1;
}
void next_displayed_hd() {
BLAHBLAH(1,printf("next_displayed_hd() : filter_hd=%d, filter_part=%d\n", app->filter_hd, app->filter_part));
change_displayed_hd(-1);
init_stats(app->update_display_delay_ms*1e-3*app->update_stats_mult);
}
void prev_displayed_hd() {
BLAHBLAH(1,printf("prev_displayed_hd() : filter_hd=%d, filter_part=%d\n", app->filter_hd, app->filter_part));
change_displayed_hd(+1);
init_stats(app->update_display_delay_ms*1e-3*app->update_stats_mult);
}
const char *shorten_name(DiskList *dl) {
static char s[8];
if (dl->name && strlen(dl->name)) {
const char *p = dl->name;
if (strchr(p,'/')) p = strrchr(p,'/')+1;
if (strlen(p) == 0) p = dl->name;
snprintf(s, sizeof s, "%s%s", dl->part_id ? " " : "", p);
} else strncpy(s, dl->name, sizeof s);
return s;
}
static void draw_hdlist(App *app) {
if (Prefs.hdlist_pos == AL_NONE) return;
DiskList *dl;
int dev_cnt, hd_cnt, w;
static int lw = -1, lh = -1, lx = -1, ly = -1, h = -1,
reshape_cnt = 0;
if (!app->smallfont) return;
if (app->displayed_hd_changed) { lx = -1; app->displayed_hd_changed = 0; }
imlib_context_set_font(app->smallfont);
/* get dimensions */
if (lx == -1 || reshape_cnt != app->reshape_cnt) {
int wtemp = 1;
lw = 0; lh = 0;
//printf("update : first displayed(%d) = %p\n", cnt, dl);
for (dl = first_dev_in_list(), dev_cnt=hd_cnt=-1; dl; dl = dl->next) {
if (dl->part_id == 0) ++hd_cnt; if (!is_displayed(dl->hd_id, dl->part_id)) continue; ++dev_cnt;
imlib_get_text_size(shorten_name(dl),&w,&h);
lw = MAX(w,lw);
lh += h;
}
if (!Prefs.disable_hd_leds) { lw += 5; }
if (Prefs.enable_hddtemp) imlib_get_text_size(" 000",&wtemp,&h);
if (lw + wtemp > (int)(app->dock->w*2/3)) { lw = app->dock->w; }
else lw += wtemp;
sethw(app,lw,lh,Prefs.hdlist_pos,&lx,&ly,&lw,&lh);
reshape_cnt = app->reshape_cnt;
}
imlib_context_set_color(100, 100, 100, 150);
imlib_image_fill_rectangle(lx,ly,lw,lh);
imlib_context_set_color(100, 100, 100, 200);
imlib_image_draw_rectangle(lx-1,ly-1,lw+2,lh+2);
for (dl = first_dev_in_list(), dev_cnt=hd_cnt=-1; dl; dl = dl->next) {
if (dl->part_id==0) ++hd_cnt; if (!is_displayed(dl->hd_id, dl->part_id)) continue; ++dev_cnt;
int x = lx, y = ly + lh - dev_cnt * h;
if (!Prefs.disable_hd_leds) {
if (dl->touched_r) {
imlib_context_set_color(50, 255, 50, 25*dl->touched_r--);
imlib_image_fill_rectangle(lx+1,y-5,3,3);
}
if (dl->touched_w) {
imlib_context_set_color(255,100-10*dl->touched_w,100-10*dl->touched_w, 25*dl->touched_w - 1);
dl->touched_w--;
imlib_image_fill_rectangle(lx+1,y-9,3,3);
}
x += 5;
}
imlib_context_set_color(200, 255, 255, 200);
my_imlib_text_draw(x,y-h,shorten_name(dl));
if (dl->part_id==0 && app->disk_temperature[hd_cnt] != -1) {
char s[200];
if (app->disk_temperature[hd_cnt] != -2) {
snprintf(s,200,"%d",app->disk_temperature[hd_cnt]);
} else {
strcpy(s,"SLP");
}
imlib_get_text_size(s,&w,&h);
x = lx + lw - w + ((app->disk_temperature[hd_cnt] != -2) ? -7 : -3);
imlib_context_set_color(255, 250, 100, 255);
my_imlib_text_draw(x, y-h, s);
imlib_context_set_color(255, 255, 255, 200);
/* below is a quick fix for the degree sign which is not drawn
properly by recent release of imlib -- many thanks to
Krzysztof Kotlenga for the patch */
//if (app->disk_temperature[hd_cnt] != -2) imlib_image_draw_ellipse(x+w+3, y - h + 2, 1, 1);
//if (app->disk_temperature[hd_cnt] != -2) imlib_image_draw_ellipse(x+w+3, y - h + 2, 1, 1);
/* imlib2 >= 1.1.1 workaround - imlib_image_draw_ellipse() can't properly draw circle with radius = 1 */
if (app->disk_temperature[hd_cnt] != -2) {
/*ImlibPolygon poly;
poly = imlib_polygon_new();
imlib_polygon_add_point(poly, x+w+3, y-h+3);
imlib_polygon_add_point(poly, x+w+2, y-h+2);
imlib_polygon_add_point(poly, x+w+3, y-h+1);
imlib_polygon_add_point(poly, x+w+4, y-h+2);
imlib_image_draw_polygon(poly, 1);*/
/*imlib_image_draw_pixel(x+w+3, y-h+3, 0);
imlib_image_draw_pixel(x+w+2, y-h+2, 0);
imlib_image_draw_pixel(x+w+3, y-h+1, 0);
imlib_image_draw_pixel(x+w+4, y-h+2, 0);*/
int i=x+w+2, j=y-h;
imlib_image_draw_pixel(i+1,j,0);
imlib_image_draw_pixel(i+2,j,0);
imlib_image_draw_pixel(i+3,j+1,0);
imlib_image_draw_pixel(i+3,j+2,0);
imlib_image_draw_pixel(i+1,j+3,0);
imlib_image_draw_pixel(i+2,j+3,0);
imlib_image_draw_pixel(i,j+1,0);
imlib_image_draw_pixel(i,j+2,0);
}
}
}
}
static void draw_throughput(App *app) {
static int tpstep = 0, tpw, tph;
static char tpmsg[20];
static int lw = -1, lh = -1, lx = -1, ly = -1;
static int reshape_cnt = 0;
if (Prefs.popup_throughput_pos == AL_NONE) return;
if (!app->bigfont) return;
imlib_context_set_font(app->bigfont);
/* get dimensions (only once) */
if (lx == -1 || app->reshape_cnt != reshape_cnt) {
imlib_get_text_size("00.0M/s",&lw,&lh);
if (lw > (int)(app->dock->w*3/4)) { lw = app->dock->w; }
sethw(app,lw,lh,Prefs.popup_throughput_pos,&lx,&ly,&lw,&lh);
reshape_cnt = app->reshape_cnt;
}
if (get_read_mean_throughput() + get_write_mean_throughput() > Prefs.popup_throughput_threshold) {
tpstep = MIN(tpstep+1,4);
snprintf(tpmsg,sizeof tpmsg, "%.1fM/s",get_read_mean_throughput() + get_write_mean_throughput());
imlib_get_text_size(tpmsg,&tpw,&tph);
if (tpw > lw) {
snprintf(tpmsg,sizeof tpmsg, "%.1fM",get_read_mean_throughput() + get_write_mean_throughput());
imlib_get_text_size(tpmsg,&tpw,&tph);
}
} else if (tpstep) tpstep--;
if (tpstep) {
imlib_context_set_color(128, 128, 128, tpstep*30);
imlib_image_draw_rectangle(lx-1,ly-1,lw+2,lh+2);
imlib_context_set_color(128, 128, 128, 10+tpstep*25);
imlib_image_fill_rectangle(lx,ly,lw,lh);
imlib_context_set_color(255, 255, 255, 50+tpstep*50);
my_imlib_text_draw(lx + (lw - tpw)/2, ly, tpmsg);
}
}
static void draw(App *app) {
DATA32 *buff = imlib_image_get_data();
if (!Prefs.disable_io_matrix) {
evolve_io_matrix(app,buff);
//draw_io_matrix(app,buff);
} else memset(buff, 0, sizeof(DATA32)*app->dock->w*app->dock->h);
imlib_image_put_back_data(buff);
draw_hdlist(app);
if (!Prefs.disable_swap_matrix) draw_swap_matrix(app);
draw_throughput(app);
}
void reshape(int w, int h) {
DockImlib2 *dock = app->dock;
static int isinit = 0;
dock->w = w; dock->h = h;
dock->win_width = dock->w + dock->x0;
dock->win_height = dock->h + dock->y0;
app->reshape_cnt++;
app->sm.w = 6;
app->sm.nrow = (dock->w-1) / app->sm.w;
app->sm.ncol = (dock->h-1) / app->sm.w;
if (isinit) FREE_ARR(app->sm.pre_cnt);
ALLOC_ARR(app->sm.pre_cnt, app->sm.nrow, app->sm.ncol);
if (isinit) FREE_ARR(app->sm.intensity)
ALLOC_ARR(app->sm.intensity, app->sm.nrow, app->sm.ncol);
app->iom.w = dock->w; app->iom.h = dock->h;
if (isinit) FREE_ARR((void*)app->iom.v);
ALLOC_ARR(app->iom.v,app->iom.h+4, app->iom.w+2);
if (isinit) { dockimlib2_reset_imlib(dock); }
isinit = 1;
}
#ifndef GKRELLM
static void event_loop(App *app) {
int tic_cnt = 0;
while (1) {
XEvent ev;
tic_cnt++;
if (tic_cnt % 5 == 0) {
XWindowAttributes attr;
if (app->dock->normalwin) {
XGetWindowAttributes(app->dock->display, app->dock->normalwin, &attr);
app->dock->normalwin_mapped = (attr.map_state == IsViewable);
}
if (app->dock->iconwin) {
XGetWindowAttributes(app->dock->display, app->dock->iconwin, &attr);
app->dock->iconwin_mapped = (attr.map_state == IsViewable);
}
}
while (XPending(app->dock->display)) {
XNextEvent(app->dock->display, &ev);
switch (ev.type) {
case ClientMessage:
if (ev.xclient.message_type == app->dock->atom_WM_PROTOCOLS
&& ev.xclient.format == 32
&& (Atom)ev.xclient.data.l[0] == app->dock->atom_WM_DELETE_WINDOW) {
exit(0);
}
break;
case ButtonRelease:
//exit(0);
if (ev.xbutton.button == Button4) prev_displayed_hd(-1);
else if (ev.xbutton.button == Button5 || ev.xbutton.button == Button1) next_displayed_hd(+1);
break;
case ConfigureNotify: {
if (app->dock->iconwin == None &&
(ev.xconfigure.width != (int)app->dock->win_width ||
ev.xconfigure.height != (int)app->dock->win_height)) {
app->dock->w = app->dock->win_width = ev.xconfigure.width;
app->dock->h = app->dock->win_height = ev.xconfigure.height;
reshape(ev.xconfigure.width, ev.xconfigure.height); //app->dock->w, app->dock->h, None);
/*printf("ConfigureNotify : %dx%d %dx%d\n",
ev.xconfigure.width, ev.xconfigure.height,
app->sm.nrow, app->sm.ncol);*/
}
} break;
}
}
if (tic_cnt % app->update_stats_mult == 0) {
update_stats();
if (!Prefs.disable_io_matrix) update_io_matrix(app);
if (!Prefs.disable_swap_matrix) update_swap_matrix(app);
}
if (tic_cnt % 100 == 5) {
# ifdef ENABLE_HDDTEMP_QUERY
if (Prefs.enable_hddtemp) {
query_hddtemp(app);
}
# endif
# ifdef ENABLE_POWER_QUERY
if (Prefs.enable_power_status) {
DiskList *dl; int cnt;
for (cnt = 0, dl = first_hd_in_list(); dl; dl = next_hd_in_list(dl), ++cnt) {
if (dl->enable_power_status && !dl->is_scsi) {
char devname[512]; snprintf(devname, 512, "/dev/%s", dl->name);
app->disk_power_mode[cnt] = query_power_mode(devname);
}
}
}
# endif
}
//if (tic_cnt > 500) exit(1);
usleep(app->update_display_delay_ms * 1000);
draw(app);
dockimlib2_render(app->dock);
}
}
#endif /* ndef GKRELLM */
void setup_cmap(cmap *m) {
struct {
float x0;
DATA32 c;
} colors0[] = {{-128, 0xff8080},
{- 70, 0xF00000},
{ -60, 0xDf0080},
{ -20, 0x800000},
{ 0, 0x000000},
{ 10, 0x008000},
{ 60, 0xf09000},
{ 90, 0xffa000},
{ 116, 0xffd000},
{ 127, 0xffff00}},
colors1[] = {{-128, 0xff0000},
{- 64, 0x808080},
{ 0, 0x404040},
//{ , 0x000000},
//{ 0 , 0x000000},
{ 1, 0x208020},
{ 64, 0x509050},
{+ 90, 0x60C060},
{+127, 0x008000}},
colors2[] = {{-128, 0x400000},
{ -60, 0xA00000},
{ -34, 0xff0000},
{ -16, 0x400000},
{ 0, 0x000000},
{ 16, 0x000040},
{ 34, 0x0000ff},
{ 60, 0x0000A0},
{+128, 0x000040}},
colors3[] = {{-128, 0x500060},
{ -60, 0x500050},
{ -34, 0x000000},
{ 0, 0x000000},
{ 34, 0x000000},
{ 60, 0x206020},
{+128, 0x205020}},
colors4[] = {{-128, 0x5000F0},
{ -70, 0x0000C0},
{ -50, 0x0000A0},
{ -40, 0x707090},
{ -30, 0x000080},
{ -20, 0x505070},
{ -10, 0x000060},
{ 0, 0x000000},
{ 10, 0x006000},
{ 20, 0x707070},
{ 30, 0x008000},
{ 40, 0x909090},
{ 50, 0x00A000},
{ 70, 0x00C000},
{+128, 0x20D020}},
*cdef = NULL;
#define SELMAP(n) \
if (Prefs.iomatrix_colormap == n) { sz = sizeof(colors##n)/sizeof(*colors0); cdef = colors##n; }
unsigned i, sz=0;
SELMAP(0); SELMAP(1); SELMAP(2); SELMAP(3); SELMAP(4);
float x0 = cdef[0].x0, x1 = cdef[sz-1].x0;
for (i = 0; i < sz - 1; ++i) {
int i0 = (int)((cdef[i].x0-x0)*CMAPSZ/(x1-x0));
int i1 = (int)((cdef[i+1].x0-x0)*CMAPSZ/(x1-x0));
int r1 = cdef[i].c>>16 & 0xff, r2 = cdef[i+1].c>>16 & 0xff;
int g1 = cdef[i].c>> 8 & 0xff, g2 = cdef[i+1].c>> 8 & 0xff;
int b1 = cdef[i].c & 0xff, b2 = cdef[i+1].c & 0xff;
int j;
for (j=i0; j <= MIN(i1,CMAPSZ-1); ++j) {
float alpha = (j-i0+.5)/(float)(i1-i0);
m->p[j] =
(MIN((int)(r1*(1-alpha) + alpha*r2),255)<<16) +
(MIN((int)(g1*(1-alpha) + alpha*g2),255)<<8) +
(MIN((int)(b1*(1-alpha) + alpha*b2),255));
//printf("cmap[%d] = 0x%06x\n", j, m->p[j]);
}
}
}
unsigned getpos(const char *pp) {
char p[2];
unsigned v = AL_NONE, i;
if (!pp || !pp[0]) return AL_NONE;
if (strlen(pp) > 2) { fprintf(stderr, "invalid position specification: '%s'\n", pp); exit(1); }
strncpy(p,pp,2);
if (p[0] == 'c') { char tmp = p[0]; p[0] = p[1]; p[1] = tmp; }
for (i=0; i < 2 && p[i]; ++i) {
if (p[i] == 'r') { v |= AL_RIGHT; }
else if (p[i] == 'l') { v |= AL_LEFT; }
else if (p[i] == 't') { v |= AL_TOP; }
else if (p[i] == 'b') { v |= AL_BOTTOM; }
else if (p[i] == 'c') {
if (v & (AL_LEFT | AL_RIGHT | AL_HCENTER)) v |= AL_VCENTER; else v |= AL_HCENTER;
} else {
fprintf(stderr, "unknown position specifier: '%c'\n", p[i]); exit(1);
}
}
return v;
}
void init_prefs(int argc, char **argv) {
#ifndef GKRELLM
/* Prefs already read from the gkrellm config file: */
Prefs.disable_swap_matrix = 0;
Prefs.disable_io_matrix = 0;
Prefs.disable_hd_leds = 0;
Prefs.iomatrix_colormap = 0;
Prefs.popup_throughput_threshold = 0.5; /* MB/s */
Prefs.hdlist_pos = AL_BOTTOM + AL_LEFT;
Prefs.enable_hddtemp = 0;
Prefs.bigfontname = Prefs.smallfontname = NULL;
#endif
Prefs.xprefs.dockapp_size = 64;
Prefs.verbosity = 0;
Prefs.hddtemp_port = 7634;
Prefs.enable_power_status = 0;
Prefs.debug_swapio = 0; Prefs.debug_disk_wr = Prefs.debug_disk_rd = 0;
Prefs.popup_throughput_pos = AL_TOP;
Prefs.xprefs.argc = argc; Prefs.xprefs.argv = argv;
Prefs.xprefs.flags = 0;
Prefs.temperatures_unit = 'C';
}
#ifndef GKRELLM
void parse_options(int argc, char **argv) {
int d_opt_used = 0;
enum { OPT_DISPLAY=1, OPT_SMALLFONT, OPT_BIGFONT, OPT_FONTPATH,
OPT_NOSWAP, OPT_NOIO, OPT_NOLEDS, OPT_HDLIST, OPT_THROUGHPUT, OPT_32, OPT_56, OPT_48 };
static struct option long_options[] = {
{"help",0,0,'h'},
{"verbose",0,0,'v'},
{"version",0,0,'V'},
{"hddtemp",0,0,'t'},
{"farenheit",0,0,'F'},
{"display",1,0,OPT_DISPLAY},
{"geometry",2,0,'g'},
{"smallfont",1,0,OPT_SMALLFONT},
{"bigfont",1,0,OPT_BIGFONT},
{"fontpath",1,0,OPT_FONTPATH},
{"colormap",1,0,'c'},
{"noswap",0,0,OPT_NOSWAP},
{"noio",0,0,OPT_NOIO},
{"noleds",0,0,OPT_NOLEDS},
{"hdlist",2,0,OPT_HDLIST},
{"throughput",2,0,OPT_THROUGHPUT},
{"32",0,0,OPT_32},
{"48",0,0,OPT_48},
{"56",0,0,OPT_56},
{NULL,0,0,0}
};
int long_options_index;
const char *help =
"wmhdplop " VERSION " - monitor hard-drive (or partition) activity\n"
"A recent kernel is required (>2.4.20)\n"
"Usage: wmhdplop [options]\n"
"Option list:\n"
" -h, --help print this.\n"
" -v, --verbose increase verbosity\n"
" -V, --version print version\n"
" -t[=port], --hddtemp[=port]\n"
" display hd temperatures, in Celsius degrees (requires hddtemp daemon running)\n"
" -F, --farenheit display hd temperatures in Farenheit degrees\n"
/* " -p : monitor harddrive power status (idle, standby or sleeping, as reported by hdparm -C)\n"
" note that this options requires that wmhd is suid..\n"*/ /* hddtemp already reports when a drive is asleep ... */
" --noswap disable the animation reflecting swap activity\n"
" --noio disable background animation reflecting disk activity\n"
" --noleds hide the small led indicating disk activity\n"
" --fontpath path add a new directory to the font search directory list\n"
" default: --fontpath=/usr/share/fonts/truetype (and subdirectories)\n"
" --fontpath=/usr/share/fonts/ttf (and subdirectories)\n"
" --fontpath=$HOME/.fonts (and subdirectories)\n"
" --smallfont fontname/size\n"
" --bigfont fontname/size\n"
" Set the 'small font' and the 'big font' name/size in pixel\n"
" (default: --smallfont=Vera/7 --bigfont=Arial_Black/10)\n"
" The font name are case-sensitive, and must correspound to the name\n"
" of a .ttf file which can be found in one of the fontpaths\n"
" By default, wmhdplop tries to load the following fonts:\n"
" * Arial_Black/10, FreeSansBold/11, VeraMoBd/9\n"
" * Vera/7, FreeSans/7, Trebuchet_MS/7\n"
" -c n, --colormap=n\n"
" select colormap number n\n"
" --hdlist[=pos] hide completely the list of drives with leds and temperatures (if no position given)\n"
" or change its location (default: 'B'). Possible positions are: 't','b','l','bl','bc','br',...\n"
" (t=top, b=bottom, l=left, r=right, c=centered, etc)\n"
" --throughput=mbs[,pos]\n"
" minimum io throughput (MB/s) that will be displayed in the popup display (default 0.5)\n"
" and position of the popup (same format than hdlist)\n"
" -g[=WxH+x+y], --geometry[=WxH+x+y]\n"
" start in window (i.e. undocked) mode with specified geometry (i.e -g 96x32 or -g 64x64+0+0)\n"
" --32, --48, --56\n"
" start in a reduced dockapp, for people whose dock is too small too contain 64x64 dockapps\n"
" -d device[:name] monitor activity on the specified hard-drive. This option can be\n"
" used many times. If you do not use it, all hard-drives will be monitored.\n"
" If an optional 'name' is given, it will be displayed instead of the /dev/hdx name\n"
" The device may also be a single partition.\n";
init_prefs(argc, argv);
while (1) {
int c;
c = getopt_long(argc, argv, "g::hvVt::Fc:LP:d:@:",long_options,&long_options_index); /* -g option is handled in dockapp_imlib2 */
if (c == -1)
break;
switch (c) {
case ':':
case '?':
exit(1);
case OPT_DISPLAY:
Prefs.xprefs.flags |= DOCKPREF_DISPLAY; Prefs.xprefs.display = strdup(optarg);
break;
case 'g':
Prefs.xprefs.flags |= DOCKPREF_GEOMETRY; if (optarg) Prefs.xprefs.geometry = strdup(optarg);
break;
case 'h':
puts(help); exit(0);
case 'v':
Prefs.verbosity++;
break;
case 'V':
printf("wmhdplop %s\n",VERSION); exit(0);
break;
case 't':
Prefs.enable_hddtemp = 1;
if (optarg) Prefs.hddtemp_port = atoi(optarg);
break;
/*case 'p':
Prefs.enable_power_status = 1;
break;*/
case 'F':
Prefs.enable_hddtemp = 1;
Prefs.temperatures_unit = 'F';
break;
case OPT_NOIO:
Prefs.disable_io_matrix = 1;
break;
case OPT_NOSWAP:
Prefs.disable_swap_matrix = 1;
break;
case OPT_NOLEDS:
Prefs.disable_hd_leds = 1;
break;
case OPT_FONTPATH:
printf("add font path: %s\n", optarg);
imlib_add_path_to_font_path(optarg);
break;
case OPT_SMALLFONT:
Prefs.smallfontname = strdup(optarg);
break;
case OPT_BIGFONT:
Prefs.bigfontname = strdup(optarg);
break;
case OPT_HDLIST:
Prefs.hdlist_pos = getpos(optarg);
break;
case 'c':
Prefs.iomatrix_colormap = atoi(optarg);
if (Prefs.iomatrix_colormap > 4) { fprintf(stderr,"invalid colormap number\n"); exit(1); }
break;
case OPT_THROUGHPUT:
if (optarg) {
Prefs.popup_throughput_threshold = atof(optarg);
if (strchr(optarg,',')) Prefs.popup_throughput_pos = getpos(strchr(optarg,',')+1);
} break;
case OPT_56:
Prefs.xprefs.dockapp_size = 56;
break;
case OPT_48:
Prefs.xprefs.dockapp_size = 48;
break;
case OPT_32:
Prefs.xprefs.dockapp_size = 32;
break;
case 'd':
if (optarg) {
char *p = strchr(optarg, ':');
assert(optarg);
if (p) *p++ = 0;
BLAHBLAH(1,printf("adding device %s to monitored disc list\n",optarg));
if (add_device_by_name(optarg, p) != 0)
fprintf(stderr, "Warning: device %s not found or not recognized -- try option -v to get additionnal information\n", optarg);
d_opt_used = 1;
} break;
case '@':
sscanf(optarg,"%d,%d,%d",&Prefs.debug_swapio,&Prefs.debug_disk_rd,&Prefs.debug_disk_wr);
break;
default:
assert(0);
}
}
if (optind != argc) {
fprintf(stderr, "unknown option: %s\n", argv[optind]); exit(1);
}
if (!d_opt_used) scan_all_hd(1);
}
#endif
char *xstrdup(const char *s) {
if (s) return strdup(s);
else return NULL;
}
void init_fonts(App *app) {
char *bigfontlist[] = {"Arial_Black/10", "luxisb/11", "VeraMoBd/9", "arialbd/12", "Vera/9", "Verdana_Bold/10", "VerdanaBd/10", "Verdana/10", "FreeSansBold/11", NULL};
char *smallfontlist[] = {"Vera/7","Trebuchet_MS/7", "luxisr/7", "Verdana/7","Arial/7","FreeSans/7", NULL};
if (app->bigfont) {
imlib_context_set_font(app->bigfont); imlib_free_font(); app->bigfont = NULL;
}
if (app->smallfont) {
imlib_context_set_font(app->smallfont); imlib_free_font(); app->smallfont = NULL;
}
app->bigfont = load_font(Prefs.bigfontname, bigfontlist);
if (app->bigfont)
app->current_bigfont_name = strdup(dockimlib2_last_loaded_font());
app->smallfont = load_font(Prefs.smallfontname, smallfontlist);
if (app->smallfont)
app->current_smallfont_name = strdup(dockimlib2_last_loaded_font());
}
#ifndef GKRELLM
int main(int argc, char**argv)
#else
int hdplop_main(int width, int height, GdkDrawable *gkdrawable)
#endif
{
int s;
euid = geteuid(); uid = getuid();
s = seteuid(uid);
if (s == -1)
fprintf(stderr, "seteuid(uid) failed : %s\n", strerror(errno));
ALLOC_OBJ(app);
srand(time(NULL));
/* Initialize options */
#ifndef GKRELLM
parse_options(argc,argv);
#else
init_prefs(0, NULL);
scan_all_hd(1);
#endif
/* Initialize imlib2 */
#ifndef GKRELLM
app->dock = dockimlib2_setup(2, 2, Prefs.xprefs.dockapp_size-5, Prefs.xprefs.dockapp_size-5, &Prefs.xprefs);
#else
app->dock = dockimlib2_gkrellm_setup(0, 0, width, height, &Prefs.xprefs, gkdrawable);
#endif
app->bigfont = app->smallfont = NULL;
app->current_bigfont_name = app->current_smallfont_name = NULL;
app->reshape_cnt = 0;
if (find_id(-1,0) == 0) {
app->filter_hd = -1; app->filter_part = -1; /* only partitions */
} else {
app->filter_hd = -1; app->filter_part = 0;
}
app->displayed_hd_changed = 1;
if (nb_dev_in_list() == 0) {
#ifndef GKRELLM
fprintf(stderr, "No common hard-drives found in /etc/mtab and /proc/partitions..\n"
"Please use option -d to add devices (i.e. %s -d /dev/hda -d /dev/hdb ...)\n", argv[0]);
exit(1);
#else
fprintf(stderr, "No hard drive found...\n");
/* Euh, on fait quoi maintenant ? exit ? */
#endif
}
init_fonts(app);
app->update_display_delay_ms = 50;
app->update_stats_mult = 2;
app->swap_matrix_lighting = (int)(300/app->update_display_delay_ms);
app->swap_matrix_luminosity = 255;
app->nb_hd = nb_hd_in_list();
app->nb_dev = nb_dev_in_list();
ALLOC_VEC(app->disk_power_mode, app->nb_hd); SET_VEC(app->disk_power_mode, HD_ACTIVE,0,app->nb_hd);
ALLOC_VEC(app->disk_temperature, app->nb_hd); SET_VEC(app->disk_temperature, -1, 0, app->nb_hd);
init_stats(app->update_display_delay_ms*1e-3*app->update_stats_mult);
BLAHBLAH(1, {
DiskList *dl = first_dev_in_list();
for ( ; dl; dl=dl->next) {
printf("Monitored: %s (%s) major=%d, minor=%d is_partition=%d\n",
dl->dev_path, dl->name, dl->major, dl->minor, is_partition(dl->major,dl->minor));
}
});
reshape(app->dock->w,app->dock->h);
app->iom.ops = NULL;
setup_cmap(&app->iom.cm);
#ifndef GKRELLM
event_loop(app);
#endif
return 0;
}
#ifdef GKRELLM
void gkrellm_hdplop_update(int update_options) {
static int tic_cnt = 0;
if (update_options) {
setup_cmap(&app->iom.cm);
if (!Prefs.enable_hddtemp)
SET_VEC(app->disk_temperature, -1, 0, app->nb_hd);
}
// update the data:
if (tic_cnt % app->update_stats_mult == 0) {
update_stats();
if (!Prefs.disable_io_matrix)
update_io_matrix(app);
if (!Prefs.disable_swap_matrix)
update_swap_matrix(app);
}
if (tic_cnt % 100 == 5 && Prefs.enable_hddtemp) {
query_hddtemp(app);
}
// draw the Imlib2 pixmap:
draw(app);
dockimlib2_render(app->dock);
++tic_cnt;
}
#endif
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