/* trap.c 1.4 86/01/09 */ #include "../tahoe/psl.h" #include "../tahoe/reg.h" #include "../tahoe/pte.h" #include "../tahoe/mtpr.h" #include "param.h" #include "systm.h" #include "dir.h" #include "user.h" #include "proc.h" #include "seg.h" #include "acct.h" #include "kernel.h" #define SYSCALLTRACE #ifdef SYSCALLTRACE #include "../sys/syscalls.c" #endif #include "../tahoe/trap.h" #define USER 040 /* user-mode flag added to type */ struct sysent sysent[]; int nsysent; char *trap_type[] = { "Reserved addressing mode", /* T_RESADFLT */ "Privileged instruction", /* T_PRIVINFLT */ "Reserved operand", /* T_RESOPFLT */ "Breakpoint", /* T_BPTFLT */ 0, "Kernel call", /* T_SYSCALL */ "Arithmetic trap", /* T_ARITHTRAP */ "System forced exception", /* T_ASTFLT */ "Segmentation fault", /* T_SEGFLT */ "Protection fault", /* T_PROTFLT */ "Trace trap", /* T_TRCTRAP */ 0, "Page fault", /* T_PAGEFLT */ "Page table fault", /* T_TABLEFLT */ "Alignment fault", /* T_ALIGNFLT */ "Kernel stack not valid", /* T_KSPNOTVAL */ "Bus error", /* T_BUSERR */ }; #define TRAP_TYPES (sizeof (trap_type) / sizeof (trap_type[0])) /* * Called from the trap handler when a processor trap occurs. */ /*ARGSUSED*/ trap(sp, type, hfs, accmst, acclst, dbl, code, pc, psl) unsigned type, code; { int r0, r1; /* must reserve space */ register int *locr0 = ((int *)&psl)-PS; register int i; register struct proc *p; struct timeval syst; #ifdef lint r0 = 0; r0 = r0; r1 = 0; r1 = r1; #endif syst = u.u_ru.ru_stime; if (USERMODE(locr0[PS])) { type |= USER; u.u_ar0 = locr0; } switch (type) { default: printf("trap type %d, code = %x, pc = %x\n", type, code, pc); type &= ~USER; if (type < TRAP_TYPES && trap_type[type]) panic(trap_type[type]); else panic("trap"); /*NOTREACHED*/ case T_PROTFLT + USER: /* protection fault */ i = SIGBUS; break; case T_PRIVINFLT + USER: /* privileged instruction fault */ case T_RESADFLT + USER: /* reserved addressing fault */ case T_RESOPFLT + USER: /* resereved operand fault */ case T_ALIGNFLT + USER: /* unaligned data fault */ u.u_code = type &~ USER; i = SIGILL; break; case T_ASTFLT + USER: /* Allow process switch */ case T_ASTFLT: astoff(); if ((u.u_procp->p_flag & SOWEUPC) && u.u_prof.pr_scale) { addupc(pc, &u.u_prof, 1); u.u_procp->p_flag &= ~SOWEUPC; } goto out; case T_ARITHTRAP + USER: u.u_code = code; i = SIGFPE; break; /* * If the user SP is above the stack segment, * grow the stack automatically. */ case T_SEGFLT + USER: if (grow((unsigned)locr0[SP]) || grow(code)) goto out; i = SIGSEGV; break; case T_TABLEFLT: /* allow page table faults in kernel */ case T_TABLEFLT + USER: /* page table fault */ panic("ptable fault"); case T_PAGEFLT: /* allow page faults in kernel mode */ case T_PAGEFLT + USER: /* page fault */ i = u.u_error; pagein(code, 0); u.u_error = i; if (type == T_PAGEFLT) return; goto out; case T_BPTFLT + USER: /* bpt instruction fault */ case T_TRCTRAP + USER: /* trace trap */ locr0[PS] &= ~PSL_T; i = SIGTRAP; break; /* * For T_KSPNOTVAL and T_BUSERR, can not allow spl to * drop to 0 as clock could go off and we would end up * doing an rei to the interrupt stack at ipl 0 (a * reserved operand fault). Instead, we allow psignal * to post an ast, then return to user mode where we * will reenter the kernel on the kernel's stack and * can then service the signal. */ case T_KSPNOTVAL: if (noproc) panic("ksp not valid"); /* fall thru... */ case T_KSPNOTVAL + USER: printf("pid %d: ksp not valid\n", u.u_procp->p_pid); /* must insure valid kernel stack pointer? */ psignal(u.u_procp, SIGKILL); return; case T_BUSERR + USER: u.u_code = code; psignal(u.u_procp, SIGBUS); return; } psignal(u.u_procp, i); out: p = u.u_procp; if (p->p_cursig || ISSIG(p)) psig(); p->p_pri = p->p_usrpri; if (runrun) { /* * Since we are u.u_procp, clock will normally just change * our priority without moving us from one queue to another * (since the running process is not on a queue.) * If that happened after we setrq ourselves but before we * swtch()'ed, we might not be on the queue indicated by * our priority. */ (void) spl8(); setrq(p); u.u_ru.ru_nivcsw++; swtch(); } if (u.u_prof.pr_scale) { int ticks; struct timeval *tv = &u.u_ru.ru_stime; ticks = ((tv->tv_sec - syst.tv_sec) * 1000 + (tv->tv_usec - syst.tv_usec) / 1000) / (tick / 1000); if (ticks) addupc(locr0[PC], &u.u_prof, ticks); } curpri = p->p_pri; } #ifdef SYSCALLTRACE int syscalltrace = 0; #endif /* * Called from locore when a system call occurs */ /*ARGSUSED*/ syscall(sp, type, hfs, accmst, acclst, dbl, code, pc, psl) unsigned code; { int r0, r1; /* must reserve space */ register int *locr0 = ((int *)&psl)-PS; register caddr_t params; register int i; register struct sysent *callp; register struct proc *p; struct timeval syst; int opc; #ifdef lint r0 = 0; r0 = r0; r1 = 0; r1 = r1; #endif syst = u.u_ru.ru_stime; if (!USERMODE(locr0[PS])) panic("syscall"); u.u_ar0 = locr0; if (code == 139) { /* 4.2 COMPATIBILTY XXX */ osigcleanup(); /* 4.2 COMPATIBILTY XXX */ goto done; /* 4.2 COMPATIBILTY XXX */ } params = (caddr_t)locr0[FP] + NBPW; u.u_error = 0; /* BEGIN GROT */ /* * Try to reconstruct pc, assuming code * is an immediate constant */ opc = pc - 2; /* short literal */ if (code > 0x3f) { opc--; /* byte immediate */ if (code > 0x7f) { opc--; /* word immediate */ if (code > 0x7fff) opc -= 2; /* long immediate */ } } /* END GROT */ callp = (code >= nsysent) ? &sysent[63] : &sysent[code]; if (callp == sysent) { i = fuword(params); params += NBPW; callp = (code >= nsysent) ? &sysent[63] : &sysent[code]; } if ((i = callp->sy_narg * sizeof (int)) && (u.u_error = copyin(params, (caddr_t)u.u_arg, (u_int)i)) != 0) { locr0[R0] = u.u_error; locr0[PS] |= PSL_C; /* carry bit */ goto done; } u.u_r.r_val1 = 0; u.u_r.r_val2 = locr0[R1]; if (setjmp(&u.u_qsave)) { if (u.u_error == 0 && u.u_eosys != RESTARTSYS) u.u_error = EINTR; } else { u.u_eosys = NORMALRETURN; #ifdef SYSCALLTRACE if (syscalltrace) { register int i; char *cp; if (code >= nsysent) printf("0x%x", code); else printf("%s", syscallnames[code]); cp = "("; for (i= 0; i < callp->sy_narg; i++) { printf("%s%x", cp, u.u_arg[i]); cp = ", "; } if (i) putchar(')', 0); putchar('\n', 0); } #endif (*callp->sy_call)(); } if (u.u_eosys == NORMALRETURN) { if (u.u_error) { locr0[R0] = u.u_error; locr0[PS] |= PSL_C; /* carry bit */ } else { locr0[PS] &= ~PSL_C; /* clear carry bit */ locr0[R0] = u.u_r.r_val1; locr0[R1] = u.u_r.r_val2; } } else if (u.u_eosys == RESTARTSYS) pc = opc; /* else if (u.u_eosys == JUSTRETURN) */ /* nothing to do */ done: p = u.u_procp; if (p->p_cursig || ISSIG(p)) psig(); p->p_pri = p->p_usrpri; if (runrun) { /* * Since we are u.u_procp, clock will normally just change * our priority without moving us from one queue to another * (since the running process is not on a queue.) * If that happened after we setrq ourselves but before we * swtch()'ed, we might not be on the queue indicated by * our priority. */ (void) spl8(); setrq(p); u.u_ru.ru_nivcsw++; swtch(); } if (u.u_prof.pr_scale) { int ticks; struct timeval *tv = &u.u_ru.ru_stime; ticks = ((tv->tv_sec - syst.tv_sec) * 1000 + (tv->tv_usec - syst.tv_usec) / 1000) / (tick / 1000); if (ticks) addupc(locr0[PC], &u.u_prof, ticks); } curpri = p->p_pri; } /* * nonexistent system call-- signal process (may want to handle it) * flag error if process won't see signal immediately * Q: should we do that all the time ?? */ nosys() { if (u.u_signal[SIGSYS] == SIG_IGN || u.u_signal[SIGSYS] == SIG_HOLD) u.u_error = EINVAL; psignal(u.u_procp, SIGSYS); } #ifdef notdef /* * Ignored system call */ nullsys() { } #endif