#include "u.h" #include "lib.h" #include "dat.h" #include "fns.h" #include "mem.h" struct { Lock; ulong pid; } pidalloc; struct { Lock; User *arena; User *free; } procalloc; volatile struct { Lock; User *head; User *tail; } runq; char *statename[] = /* BUG: generate automatically */ { [Dead] "Dead", [Moribund] "Moribund", [Zombie] "Zombie", [Ready] "Ready", [Scheding] "Scheding", [Running] "Running", [Queueing] "Queueing", [Sending] "Sending", [Recving] "Recving", [MMUing] "MMUing", [Exiting] "Exiting", [Inwait] "Inwait", [Wakeme] "Wakeme", [Broken] "Broken", }; static void cmd_trace(int argc, char *argv[]) { int n; n = 0; if(argc > 1) n = number(argv[1], n, 10); dotrace(n); } static void cmd_cpu(int argc, char *argv[]) { int i, j; User *p; char *text; /* HACK */ if(argc == 1) for(i=0; iidle); p = procalloc.arena; for(i=0; itext; if(!text) continue; for(j=1; j 1) continue; found: print("%2d %.8s %9s%W\n", p->pid, text, statename[p->state], &p->time); prflush(); } } /* * Always splhi()'ed. */ void schedinit(void) /* never returns */ { User *p; setlabel(&m->sched); if(u) { m->proc = 0; p = u; u = 0; if(p->state == Running) ready(p); p->mach = 0; } sched(); } void sched(void) { User *p; if(u) { splhi(); if(setlabel(&u->sched)) { /* woke up */ if(u->mach) panic("mach non zero"); u->state = Running; u->mach = m; m->proc = u; spllo(); return; } gotolabel(&m->sched); } spllo(); p = runproc(); splhi(); u = p; gotolabel(&p->sched); } void ready(User *p) { int s; if(p->state == Ready){ print("ready Ready\n"); return; } s = splhi(); lock(&runq); p->rnext = 0; if(runq.tail) runq.tail->rnext = p; else runq.head = p; runq.tail = p; p->state = Ready; unlock(&runq); splx(s); } /* * Always called spllo */ User* runproc(void) { User *p; for (;;) { while(runq.head == 0) /* if nobody to run, */ idle(); /* idle with intrs enabled */ splhi(); lock(&runq); p = runq.head; if (p != nil && !p->mach) break; unlock(&runq); spllo(); } if(p->rnext == 0) runq.tail = 0; runq.head = p->rnext; if(p->state != Ready) print("runproc %d %s\n", p->pid, statename[p->state]); unlock(&runq); p->state = Scheding; spllo(); return p; } User* newproc(void) { User *p; loop: lock(&procalloc); if(p = procalloc.free) { /* assign = */ procalloc.free = p->qnext; p->state = Zombie; unlock(&procalloc); p->mach = 0; p->qnext = 0; p->exiting = 0; p->nlock = 0; p->delaysched = 0; lock(&pidalloc); p->pid = ++pidalloc.pid; unlock(&pidalloc); return p; } unlock(&procalloc); panic("no procs"); goto loop; } void procinit(void) { User *p; int i; procalloc.free = ialloc(conf.nproc*sizeof(User), 0); procalloc.arena = procalloc.free; p = procalloc.free; for(i=0; iqnext = p+1; wakeup(&p->tsleep); } p->qnext = 0; wakeup(&p->tsleep); cmd_install("cpu", "[proc] -- process cpu time", cmd_cpu); cmd_install("trace", "[number] -- stack trace/qlocks", cmd_trace); } void sleep(Rendez *r, int (*f)(void*), void *arg) { User *p; int s; if(u->nlock){ print("user %d sleeps with %lud at %#p\n", u->pid, u->nlock, getcallerpc(&r)); printlocks(u); } /* * spl is to allow lock to be called * at interrupt time. lock is mutual exclusion */ s = splhi(); lock(r); /* * if condition happened, never mind */ if(f(arg)) { unlock(r); splx(s); return; } /* * now we are committed to * change state and call scheduler */ p = r->p; if(p) print("double sleep pid %d/%#p\n", u->pid, getcallerpc(&r)); u->state = Wakeme; r->p = u; /* * sched does the unlock(u) when it is safe * it also allows to be called splhi. */ unlock(r); sched(); } int tfn(void *arg) { return Ticks - u->twhen >= 0 || (*u->tfn)(arg); } void tsleep(Rendez *r, int (*fn)(void*), void *arg, int ms) { Timet when; User *f, **l; when = MS2TK(ms)+Ticks; lock(&talarm); /* take out of list if checkalarm didn't */ if (u == nil) panic("tsleep: nil u"); if(u->trend) { l = &talarm.list; for(f = *l; f; f = f->tlink) { if(f == u) { *l = u->tlink; break; } l = &f->tlink; } } /* insert in increasing time order */ l = &talarm.list; for(f = *l; f; f = f->tlink) { if(f->twhen - when >= 0) break; l = &f->tlink; } u->trend = r; u->twhen = when; u->tfn = fn; u->tlink = *l; *l = u; unlock(&talarm); sleep(r, tfn, arg); u->twhen = 0; } void wakeup(Rendez *r) { User *p; int s; s = splhi(); lock(r); p = r->p; if(p) { r->p = 0; if(p->state != Wakeme) panic("wakeup: not Wakeme"); ready(p); } unlock(r); splx(s); } void dotrace(int n) { User *p; QLock *q; int i, j, f; p = procalloc.arena; for(i=0; ipid == n) dumpstack(p); continue; } if(q = p->has.want) { if(q->name) print("pid %d wants %.10s\n", p->pid, q->name); else print("pid %d wants %p\n", p->pid, q); } f = 0; for(j=0; jhas.q[j]) { if(f == 0) { if(p->has.want == 0) print("pid %d wants nothing\n", p->pid); print(" has"); f = 1; } if(q->name) print(" %.10s", q->name); else print(" %p", q); } } if(f) print("\n"); } }