From: Milan Čermák Date: Fri, 7 Dec 2012 20:25:12 +0000 (+0100) Subject: wmSMPmon: Solaris support, load aggregation X-Git-Tag: wmix-3.2~52 X-Git-Url: https://repo.or.cz/w/dockapps.git/commitdiff_plain/c8eb4a3762823ea444ed8b42bae77309ba187060 wmSMPmon: Solaris support, load aggregation I wanted to use it on Solaris which has different way to obtain system statistics. I build a support file and changed Makefile to take the operating system into account. Then I moved to fixing the widget. The comments in the code said that it supports only 2 CPUs. I've added an aggregation so that it still shows two graphs but represents all CPUs. Lastly, I some programmatic flaws - like multiple loops for one task - cleaning up the code a bit. It should also speed up the widget a little. --- diff --git a/wmSMPmon/Changelog b/wmSMPmon/Changelog index bf1b1e5..99801da 100644 --- a/wmSMPmon/Changelog +++ b/wmSMPmon/Changelog @@ -1,3 +1,9 @@ +3.2 + +- Added Solaris support. +- Added CPU load aggreggation so that they fit into two columns. +- A bit of code clean-up to speed up things. + 3.1 - Fixed bug where wmSMPmon would crash if no swap is enabled/present diff --git a/wmSMPmon/wmSMPmon/Makefile b/wmSMPmon/wmSMPmon/Makefile index 338c665..1253b7f 100644 --- a/wmSMPmon/wmSMPmon/Makefile +++ b/wmSMPmon/wmSMPmon/Makefile @@ -5,7 +5,9 @@ BINDIR=/usr/local/bin/ MANDIR=/usr/local/share/man/ -SRC = general.c sysinfo-linux.c ../wmgeneral/wmgeneral.c wmSMPmon.c +OS := $(shell uname -s) + +SRC = general.c ../wmgeneral/wmgeneral.c wmSMPmon.c EXE = wmSMPmon MAN = wmSMPmon.1 OBJ = $(SRC:.c=.o) @@ -16,10 +18,18 @@ CC = gcc CFLAGS = -Wall -O2 -g LIB = -L/usr/X11R6/lib -lXpm -lXext -lX11 +ifeq ($(OS),Linux) +SRC += sysinfo-linux.c +endif +ifeq ($(OS),SunOS) +SRC += sysinfo-solaris.c +LIB += -lkstat +endif + all: $(OBJ) $(CC) -o $(EXE) $(OBJ) $(LIB) -$(OBJ): %.o : %.c +$(OBJ): %.o : %.c $(CC) $(CFLAGS) -c -o $@ $< clean: diff --git a/wmSMPmon/wmSMPmon/wmSMPmon.c b/wmSMPmon/wmSMPmon/wmSMPmon.c index 47cdc55..87ca832 100644 --- a/wmSMPmon/wmSMPmon/wmSMPmon.c +++ b/wmSMPmon/wmSMPmon/wmSMPmon.c @@ -23,7 +23,7 @@ CURRENT MAINTAINER: Thomas Ribbrock #include "standards.h" #include "sysinfo-linux.h" -#define VERSION "3.1" +#define VERSION "3.2" /*###### Dividers for redraw-loops ######################################*/ #define DIV1 6 @@ -44,8 +44,8 @@ int main(int argc, char **argv) unsigned int t0[TAILLE_T], /* history for CPU 0 -> Graph */ t1[TAILLE_T], /* history for CPU 1 -> Graph */ tm[TAILLE_T], /* history for CPU 0+1 -> Graph */ - c1 = 6, - c2 = 9, + c1 = DIV1, + c2 = DIV2, etat = 1, lecture = 1, delay = 250000, @@ -54,19 +54,19 @@ int main(int argc, char **argv) load0o = 0, load1o = 0, no_swap = FAUX, - draw_graph = FAUX, + draw_graph = VRAI, NumCPUs, /* number of CPUs */ i = 0, /* counter */ mem = 0, /* current memory/swap scaled to 0-100 */ prec_mem = 0, /* memory from previous round */ prec_swap = 0, /* swap from previous round */ load_width = 3; /* width of load bar: 3 for SMP, 8 for UP */ - + unsigned long load0t=0, load1t=0 ; - + unsigned int *CPU_Load; /* CPU load per CPU array */ + unsigned int t_idx = 0; /* Index to load history tables */ - /********** Initialisation **********/ NumCPUs = NumCpus_DoInit(); CPU_Load = alloc_c((NumCPUs) * sizeof(int)); @@ -79,11 +79,10 @@ int main(int argc, char **argv) { load_width = 3; } - + Myname = strrchr(argv[0], '/'); if (Myname) ++Myname; else Myname = argv[0]; - /* process command line args */ i = 1; /* skip program name (i=0) */ while(argc > i) @@ -120,7 +119,7 @@ int main(int argc, char **argv) { etat = atoi(argv[i]) ; } - + if(1 > etat || etat > 3) usage(NumCPUs, "Unknown graph style") ; i ++ ; @@ -151,7 +150,7 @@ int main(int argc, char **argv) wmSMPmon_mask_bits[i] = 0xDF; } } - + openXwindow(argc,argv,wmSMPmon_master_xpm,wmSMPmon_mask_bits,wmSMPmon_mask_width,wmSMPmon_mask_height) ; if(NumCPUs >= 2) @@ -159,15 +158,14 @@ int main(int argc, char **argv) /* we have two CPUs -> draw separator between CPU load bars */ copyXPMArea(12, 4, 2, HAUTEUR + 2, 7, 4) ; } - + delay = delay / 2 ; - for(i = 0 ; i < TAILLE_T ; i ++) + for(i = 0 ; i < TAILLE_T ; i ++) { t0[i] = 0 ; - for(i = 0 ; i < TAILLE_T ; i ++) t1[i] = 0 ; - for(i = 0 ; i < TAILLE_T ; i ++) tm[i] = 0 ; + } /* -no-swap option was given */ if(no_swap) @@ -180,22 +178,29 @@ int main(int argc, char **argv) { CPU_Load = Get_CPU_Load(CPU_Load, NumCPUs); - load = CPU_Load[0]; - load0t = load0t + load ; + load = CPU_Load[0]; + for (i = 1; i < NumCPUs >> 1; i++) { + load += CPU_Load[i]; + } + load = load / i; + load0t = load0t + load; if(load != load0o) { /* redraw only if cpu load changed */ delta = HAUTEUR - load ; - copyXPMArea(108, 0, load_width, HAUTEUR, 4, 5) ; - copyXPMArea(108, delta + 32, load_width, load, 4, 5 + delta) ; + copyXPMArea(108, 0, load_width, HAUTEUR, 4, 5) ; + copyXPMArea(108, delta + 32, load_width, load, 4, 5 + delta) ; load0o = load; } if(NumCPUs >= 2) { /* we have two CPUs -> do CPU 1 */ - /* FIXME: What about more CPUs? */ - load = CPU_Load[1]; + load = 0; + for (; i < NumCPUs; i++) { + load += CPU_Load[i]; + } + load = load / (NumCPUs >> 1); if(load != load1o) { @@ -211,7 +216,6 @@ int main(int argc, char **argv) graph below. With only one CPU, 'load' will still be CPU_Load[0], on a SMP system, it will be CPU_Load[1]. */ load1t = load1t + load ; - if(c1 > DIV1) { @@ -223,7 +227,7 @@ int main(int argc, char **argv) copyXPMArea(30, 63, 30, 8, 29, 39) ; copyXPMArea(0, 63, (mem * 30 / 100), 8, 29, 39) ; prec_mem = mem ; - } + } if(!no_swap) { @@ -248,50 +252,47 @@ int main(int argc, char **argv) } c1 = 0; } - - if(c2 > DIV2) + + if(c2 > DIV2) { + if((t0[t_idx] = load0t / c2) > HAUTEUR) + t0[t_idx] = HAUTEUR ; + t0[t_idx] /= 2; + if((t1[t_idx] = load1t / c2) > HAUTEUR) + t1[t_idx] = HAUTEUR ; + t1[t_idx] /= 2; + if((tm[t_idx] = (load0t + load1t) / (2 * c2)) > HAUTEUR) + tm[t_idx] = HAUTEUR ; + load0t = 0 ; + load1t = 0 ; + t_idx = (t_idx + 1) % TAILLE_T; draw_graph = VRAI ; + c2 = 0; + } if(draw_graph) { - for(i = 1 ; i < TAILLE_T ; i ++) - { - t0[i - 1] = t0[i] ; - t1[i - 1] = t1[i] ; - tm[i - 1] = tm[i] ; - } - if((t0[TAILLE_T - 1] = load0t / c2) > HAUTEUR) - t0[TAILLE_T - 1] = HAUTEUR ; - if((t1[TAILLE_T - 1] = load1t / c2) > HAUTEUR) - t1[TAILLE_T - 1] = HAUTEUR ; - if((tm[TAILLE_T - 1] = (load0t + load1t) / (2 * c2)) > HAUTEUR) - tm[TAILLE_T - 1] = HAUTEUR ; - load0t = 0 ; - load1t = 0 ; - /* draw graph */ switch(etat) { case 1 : copyXPMArea(64, 32, TAILLE_T, HAUTEUR, 15, 5) ; - for(i = 0 ; i < TAILLE_T ; i ++) - copyXPMArea(116, 0, 1, tm[i], 15 + i, HAUTEUR + 5 - tm[i]) ; + for(i = 0, load = t_idx ; i < TAILLE_T ; i ++, load++) + copyXPMArea(116, 0, 1, tm[load % TAILLE_T], 15 + i, HAUTEUR + 5 - tm[load % TAILLE_T]) ; break ; case 2 : copyXPMArea(64, 0, TAILLE_T, HAUTEUR, 15, 5) ; - for(i = 0 ; i < TAILLE_T ; i ++) - copyXPMArea(116, 0, 1, t0[i]/2, 15 + i, HAUTEUR/2 + 5 - t0[i]/2) ; - for(i = 0 ; i < TAILLE_T ; i ++) - copyXPMArea(116, 0, 1, t1[i]/2, 15 + i, HAUTEUR/2 + 21 - t1[i]/2) ; + for(i = 0, load = t_idx ; i < TAILLE_T ; i ++, load++) { + copyXPMArea(116, 0, 1, t0[load % TAILLE_T], 15 + i, HAUTEUR/2 + 5 - t0[load % TAILLE_T]) ; + copyXPMArea(116, 0, 1, t1[load % TAILLE_T], 15 + i, HAUTEUR/2 + 21 - t1[load % TAILLE_T]) ; + } break ; case 3 : copyXPMArea(64, 0, TAILLE_T, HAUTEUR, 15, 5) ; - for(i = 0 ; i < TAILLE_T ; i ++) - copyXPMArea(116, 0, 1, t0[i]/2, 15 + i, HAUTEUR/2 + 5 - t0[i]/2) ; - for(i = 0 ; i < TAILLE_T ; i ++) - copyXPMArea(117, (HAUTEUR - t1[i])/2, 1, t1[i]/2, 15 + i, HAUTEUR/2 + 6) ; + for(i = 0, load = t_idx ; i < TAILLE_T ; i ++, load++) { + copyXPMArea(116, 0, 1, t0[load % TAILLE_T], 15 + i, HAUTEUR/2 + 5 - t0[load % TAILLE_T]) ; + copyXPMArea(117, HAUTEUR/2 - t1[load % TAILLE_T], 1, t1[load % TAILLE_T], 15 + i, HAUTEUR/2 + 6) ; + } break ; } - c2 = 0 ; draw_graph = FAUX ; } c1 ++ ; @@ -307,10 +308,9 @@ int main(int argc, char **argv) if((etat ++) >= 3) etat = 1 ; draw_graph = VRAI ; - lecture = VRAI ; } } - usleep(delay); + usleep(delay); } }