ref: 41e27b2d10c6a60c49931332e8677438736a1e36
dir: /emu/NetBSD/os.c/
#include <sys/types.h> #include <time.h> #include <termios.h> #include <signal.h> #include <pwd.h> #include <sched.h> #include <sys/resource.h> #include <sys/wait.h> #include <sys/time.h> #include <errno.h> #include "dat.h" #include "fns.h" #include "error.h" /* For dynamic linking init/fini code that needs malloc */ void (*coherence)(void) = nofence; enum { DELETE = 0x7f, CTRLC = 'C'-'@', NSTACKSPERALLOC = 16, X11STACK= 256*1024 }; char *hosttype = "NetBSD"; static void *stackalloc(Proc *p, void **tos); static void stackfreeandexit(void *stack); void executeonnewstack(void *tos, void (*tramp)(void *arg), void *arg); void unlockandexit(ulong *key); extern int dflag; int gidnobody = -1; int uidnobody = -1; static struct termios tinit; void pexit(char *msg, int t) { Osenv *e; void *kstack; lock(&procs.l); if(up->prev) up->prev->next = up->next; else procs.head = up->next; if(up->next) up->next->prev = up->prev; else procs.tail = up->prev; unlock(&procs.l); if(0) print("pexit: %s: %s\n", up->text, msg); e = up->env; if(e != nil) { closefgrp(e->fgrp); closepgrp(e->pgrp); closeegrp(e->egrp); closesigs(e->sigs); } kstack = up->kstack; free(up->prog); free(up); if(kstack != nil) stackfreeandexit(kstack); } int tramp(void *arg) { Proc *p; p = arg; p->pid = p->sigid = getpid(); (*p->func)(p->arg); pexit("{Tramp}", 0); return 0; } void kproc(char *name, void (*func)(void*), void *arg, int flags) { int pid; Proc *p; Pgrp *pg; Fgrp *fg; Egrp *eg; void *tos; p = newproc(); if(0) print("start %s:%.8lx\n", name, p); if(p == nil) { print("kproc(%s): no memory", name); panic("kproc: no memory"); } if(flags & KPDUPPG) { pg = up->env->pgrp; incref(&pg->r); p->env->pgrp = pg; } if(flags & KPDUPFDG) { fg = up->env->fgrp; incref(&fg->r); p->env->fgrp = fg; } if(flags & KPDUPENVG) { eg = up->env->egrp; incref(&eg->r); p->env->egrp = eg; } p->env->uid = up->env->uid; p->env->gid = up->env->gid; kstrdup(&p->env->user, up->env->user); strcpy(p->text, name); p->func = func; p->arg = arg; if(flags & KPX11){ p->kstack = nil; /* never freed; also up not defined */ tos = (char*)mallocz(X11STACK, 0) + X11STACK - sizeof(void*); }else p->kstack = stackalloc(p, &tos); lock(&procs.l); if(procs.tail != nil) { p->prev = procs.tail; procs.tail->next = p; } else { procs.head = p; p->prev = nil; } procs.tail = p; unlock(&procs.l); if (__clone(tramp, tos, /*CLONE_PTRACE|*/CLONE_VM|CLONE_FS|CLONE_FILES|SIGCHLD, p) <= 0) { fprint(2, "emu: clone failed: %s\n", strerror(errno)); panic("kproc: clone failed"); } } /* * TO DO: * To get pc on trap, use sigaction instead of signal and * examine its siginfo structure */ /* static void diserr(char *s, int pc) { char buf[ERRMAX]; snprint(buf, sizeof(buf), "%s: pc=0x%lux", s, pc); disfault(nil, buf); } */ static void trapILL(int signo) { USED(signo); disfault(nil, "Illegal instruction"); } static void trapBUS(int signo) { USED(signo); disfault(nil, "Bus error"); } static void trapSEGV(int signo) { USED(signo); disfault(nil, "Segmentation violation"); } static void trapFPE(int signo) { char buf[64]; USED(signo); snprint(buf, sizeof(buf), "sys: fp: exception status=%.4lux", getfsr()); disfault(nil, buf); } static void trapUSR1(int signo) { int intwait; USED(signo); intwait = up->intwait; up->intwait = 0; /* clear it to let proc continue in osleave */ if(up->type != Interp) /* Used to unblock pending I/O */ return; if(intwait == 0) /* Not posted so it's a sync error */ disfault(nil, Eintr); /* Should never happen */ } /* called to wake up kproc blocked on a syscall */ void oshostintr(Proc *p) { kill(p->sigid, SIGUSR1); } static void trapUSR2(int signo) { USED(signo); /* we've done our work of interrupting sigsuspend */ } void osblock(void) { sigset_t mask; sigprocmask(SIG_SETMASK, NULL, &mask); sigdelset(&mask, SIGUSR2); sigsuspend(&mask); } void osready(Proc *p) { if(kill(p->sigid, SIGUSR2) < 0) fprint(2, "emu: osready failed: pid %d: %s\n", p->sigid, strerror(errno)); } void oslongjmp(void *regs, osjmpbuf env, int val) { USED(regs); siglongjmp(env, val); } static void termset(void) { struct termios t; tcgetattr(0, &t); tinit = t; t.c_lflag &= ~(ICANON|ECHO|ISIG); t.c_cc[VMIN] = 1; t.c_cc[VTIME] = 0; tcsetattr(0, TCSANOW, &t); } static void termrestore(void) { tcsetattr(0, TCSANOW, &tinit); } void cleanexit(int x) { USED(x); if(up->intwait) { up->intwait = 0; return; } if(dflag == 0) termrestore(); kill(0, SIGKILL); exit(0); } void osreboot(char *file, char **argv) { if(dflag == 0) termrestore(); execvp(file, argv); error("reboot failure"); } void libinit(char *imod) { struct termios t; struct sigaction act; sigset_t mask; struct passwd *pw; Proc *p; void *tos; char sys[64]; setsid(); gethostname(sys, sizeof(sys)); kstrdup(&ossysname, sys); pw = getpwnam("nobody"); if(pw != nil) { uidnobody = pw->pw_uid; gidnobody = pw->pw_gid; } if(dflag == 0) termset(); memset(&act, 0 , sizeof(act)); act.sa_handler = trapUSR1; sigaction(SIGUSR1, &act, nil); sigemptyset(&mask); sigaddset(&mask, SIGUSR2); sigprocmask(SIG_BLOCK, &mask, NULL); memset(&act, 0 , sizeof(act)); act.sa_handler = trapUSR2; sigaction(SIGUSR2, &act, nil); act.sa_handler = SIG_IGN; sigaction(SIGCHLD, &act, nil); /* * For the correct functioning of devcmd in the * face of exiting slaves */ signal(SIGPIPE, SIG_IGN); if(signal(SIGTERM, SIG_IGN) != SIG_IGN) signal(SIGTERM, cleanexit); if(signal(SIGINT, SIG_IGN) != SIG_IGN) signal(SIGINT, cleanexit); if(sflag == 0) { act.sa_handler = trapBUS; sigaction(SIGBUS, &act, nil); act.sa_handler = trapILL; sigaction(SIGILL, &act, nil); act.sa_handler = trapSEGV; sigaction(SIGSEGV, &act, nil); act.sa_handler = trapFPE; sigaction(SIGFPE, &act, nil); } p = newproc(); p->kstack = stackalloc(p, &tos); pw = getpwuid(getuid()); if(pw != nil) kstrdup(&eve, pw->pw_name); else print("cannot getpwuid\n"); p->env->uid = getuid(); p->env->gid = getgid(); executeonnewstack(tos, emuinit, imod); } int readkbd(void) { int n; char buf[1]; n = read(0, buf, sizeof(buf)); if(n < 0) print("keyboard close (n=%d, %s)\n", n, strerror(errno)); if(n <= 0) pexit("keyboard thread", 0); switch(buf[0]) { case '\r': buf[0] = '\n'; break; case DELETE: buf[0] = 'H' - '@'; break; case CTRLC: cleanexit(0); break; } return buf[0]; } /* * Return an abitrary millisecond clock time */ long osmillisec(void) { static long sec0 = 0, usec0; struct timeval t; if(gettimeofday(&t,(struct timezone*)0)<0) return 0; if(sec0 == 0) { sec0 = t.tv_sec; usec0 = t.tv_usec; } return (t.tv_sec-sec0)*1000+(t.tv_usec-usec0+500)/1000; } /* * Return the time since the epoch in nanoseconds and microseconds * The epoch is defined at 1 Jan 1970 */ vlong osnsec(void) { struct timeval t; gettimeofday(&t, nil); return (vlong)t.tv_sec*1000000000L + t.tv_usec*1000; } vlong osusectime(void) { struct timeval t; gettimeofday(&t, nil); return (vlong)t.tv_sec * 1000000 + t.tv_usec; } int osmillisleep(ulong milsec) { struct timespec time; time.tv_sec = milsec/1000; time.tv_nsec= (milsec%1000)*1000000; nanosleep(&time, NULL); return 0; } int limbosleep(ulong milsec) { return osmillisleep(milsec); } void osyield(void) { sched_yield(); } void ospause(void) { for(;;) pause(); } void oslopri(void) { setpriority(PRIO_PROCESS, 0, getpriority(PRIO_PROCESS,0)+4); } static struct { Lock l; void *free; } stacklist; static void _stackfree(void *stack) { *((void **)stack) = stacklist.free; stacklist.free = stack; } static void stackfreeandexit(void *stack) { lock(&stacklist.l); _stackfree(stack); unlockandexit(&stacklist.l.val); } static void * stackalloc(Proc *p, void **tos) { void *rv; lock(&stacklist.l); if (stacklist.free == 0) { int x; /* * obtain some more by using sbrk() */ void *more = sbrk(KSTACK * (NSTACKSPERALLOC + 1)); if (more == 0) panic("stackalloc: no more stacks"); /* * align to KSTACK */ more = (void *)((((unsigned long)more) + (KSTACK - 1)) & ~(KSTACK - 1)); /* * free all the new stacks onto the freelist */ for (x = 0; x < NSTACKSPERALLOC; x++) _stackfree((char *)more + KSTACK * x); } rv = stacklist.free; stacklist.free = *(void **)rv; unlock(&stacklist.l); *tos = rv + KSTACK - sizeof(void *); *(Proc **)rv = p; return rv; } int segflush(void *a, ulong n) { USED(a); USED(n); return 0; }