#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "../port/error.h" #include "/sys/src/libc/9syscall/sys.h" #include #include #include "amd64.h" #include "ureg.h" typedef struct { uintptr ip; Ureg* arg0; char* arg1; char msg[ERRMAX]; Ureg* old; Ureg ureg; } NFrame; /* * Return user to state before notify() */ static void noted(Ureg* cur, uintptr arg0) { NFrame *nf; Note note; Ureg *nur; qlock(&up->debug); if(arg0 != NRSTR && !up->notified){ qunlock(&up->debug); pprint("suicide: call to noted when not notified\n"); pexit("Suicide", 0); } up->notified = 0; fpunoted(); nf = up->ureg; /* sanity clause */ if(!okaddr(PTR2UINT(nf), sizeof(NFrame), 0)){ qunlock(&up->debug); pprint("suicide: bad ureg %#p in noted\n", nf); pexit("Suicide", 0); } /* * Check the segment selectors are all valid. */ nur = &nf->ureg; if(nur->cs != SSEL(SiUCS, SsRPL3) || nur->ss != SSEL(SiUDS, SsRPL3) || nur->ds != SSEL(SiUDS, SsRPL3) || nur->es != SSEL(SiUDS, SsRPL3) || nur->fs != SSEL(SiUDS, SsRPL3) || nur->gs != SSEL(SiUDS, SsRPL3)){ qunlock(&up->debug); pprint("suicide: bad segment selector in noted\n"); pexit("Suicide", 0); } /* don't let user change system flags */ nur->flags &= (Of|Df|Sf|Zf|Af|Pf|Cf); nur->flags |= cur->flags & ~(Of|Df|Sf|Zf|Af|Pf|Cf); memmove(cur, nur, sizeof(Ureg)); switch((int)arg0){ case NCONT: case NRSTR: if(!okaddr(nur->ip, BY2SE, 0) || !okaddr(nur->sp, BY2SE, 0)){ qunlock(&up->debug); pprint("suicide: trap in noted pc=%#p sp=%#p\n", nur->ip, nur->sp); pexit("Suicide", 0); } up->ureg = nf->old; qunlock(&up->debug); break; case NSAVE: if(!okaddr(nur->ip, BY2SE, 0) || !okaddr(nur->sp, BY2SE, 0)){ qunlock(&up->debug); pprint("suicide: trap in noted pc=%#p sp=%#p\n", nur->ip, nur->sp); pexit("Suicide", 0); } qunlock(&up->debug); splhi(); nf->arg1 = nf->msg; nf->arg0 = &nf->ureg; cur->bp = PTR2UINT(nf->arg0); nf->ip = 0; cur->sp = PTR2UINT(nf); break; default: memmove(¬e, &up->lastnote, sizeof(Note)); qunlock(&up->debug); pprint("suicide: bad arg %#p in noted: %s\n", arg0, note.msg); pexit(note.msg, 0); break; case NDFLT: memmove(¬e, &up->lastnote, sizeof(Note)); qunlock(&up->debug); if(note.flag == NDebug) pprint("suicide: %s\n", note.msg); pexit(note.msg, note.flag != NDebug); break; } } /* * Call user, if necessary, with note. * Pass user the Ureg struct and the note on his stack. */ int notify(Ureg* ureg) { int l; Mreg s; Note note; uintptr sp; NFrame *nf; if(up->procctl) procctl(up); if(up->nnote == 0) return 0; fpunotify(ureg); s = spllo(); qlock(&up->debug); up->notepending = 0; memmove(¬e, &up->note[0], sizeof(Note)); if(strncmp(note.msg, "sys:", 4) == 0){ l = strlen(note.msg); if(l > ERRMAX-sizeof(" pc=0x0123456789abcdef")) l = ERRMAX-sizeof(" pc=0x0123456789abcdef"); sprint(note.msg+l, " pc=%#p", ureg->ip); } if(note.flag != NUser && (up->notified || up->notify == nil)){ qunlock(&up->debug); if(note.flag == NDebug) pprint("suicide: %s\n", note.msg); pexit(note.msg, note.flag != NDebug); } if(up->notified){ qunlock(&up->debug); splhi(); return 0; } if(up->notify == nil){ qunlock(&up->debug); pexit(note.msg, note.flag != NDebug); } if(!okaddr(PTR2UINT(up->notify), sizeof(ureg->ip), 0)){ qunlock(&up->debug); pprint("suicide: bad function address %#p in notify\n", up->notify); pexit("Suicide", 0); } sp = ureg->sp - sizeof(NFrame); if(!okaddr(sp, sizeof(NFrame), 1)){ qunlock(&up->debug); pprint("suicide: bad stack address %#p in notify\n", sp); pexit("Suicide", 0); } nf = UINT2PTR(sp); memmove(&nf->ureg, ureg, sizeof(Ureg)); nf->old = up->ureg; up->ureg = nf; memmove(nf->msg, note.msg, ERRMAX); nf->arg1 = nf->msg; nf->arg0 = &nf->ureg; ureg->bp = PTR2UINT(nf->arg0); nf->ip = 0; ureg->sp = sp; ureg->ip = PTR2UINT(up->notify); up->notified = 1; up->nnote--; memmove(&up->lastnote, ¬e, sizeof(Note)); memmove(&up->note[0], &up->note[1], up->nnote*sizeof(Note)); qunlock(&up->debug); splx(s); return 1; } void syscall(int scallnr, Ureg* ureg) { char *e; uintptr sp; int i, s; Ar0 ar0; static Ar0 zar0; void (*pt)(Proc*, int, vlong, vlong); if(!userureg(ureg)) panic("syscall: cs %#llux\n", ureg->cs); cycles(&up->kentry); m->syscall++; up->insyscall = 1; up->pc = ureg->ip; up->dbgreg = ureg; if(up->trace && (pt = proctrace) != nil) pt(up, STrap, todget(nil), STrapSC|scallnr); if(up->procctl == Proc_tracesyscall){ up->procctl = Proc_stopme; procctl(up); } up->scallnr = scallnr; if(scallnr == RFORK) fpusysrfork(ureg); spllo(); sp = ureg->sp; up->nerrlab = 0; ar0 = zar0; if(up->dot == nil || up->dot->path == nil) panic("syscall: no dot"); if(!waserror()){ if(scallnr >= nsyscall || systab[scallnr].f == nil){ pprint("bad sys call number %d pc %#llux\n", scallnr, ureg->ip); postnote(up, 1, "sys: bad sys call", NDebug); error(Ebadarg); } if(sp < (USTKTOP-PGSZ) || sp > (USTKTOP-sizeof(up->arg)-BY2SE)) validaddr(UINT2PTR(sp), sizeof(up->arg)+BY2SE, 0); memmove(up->arg, UINT2PTR(sp+BY2SE), sizeof(up->arg)); up->psstate = systab[scallnr].n; systab[scallnr].f(&ar0, (va_list)up->arg); poperror(); } else{ /* failure: save the error buffer for errstr */ e = up->syserrstr; up->syserrstr = up->errstr; up->errstr = e; if(DBGFLG && up->pid == 1) iprint("%s: syscall %s error %s\n", up->text, systab[scallnr].n, up->syserrstr); ar0 = systab[scallnr].r; } if(up->nerrlab){ print("bad errstack [%d]: %d extra\n", scallnr, up->nerrlab); for(i = 0; i < NERR; i++) if(up->errlab[i].sp != 0 || up->errlab[i].pc != 0) print("sp=%#p pc=%#p\n", up->errlab[i].sp, up->errlab[i].pc); panic("error stack"); } /* * Put return value in frame. * Which element of Ar0 to use is based on specific * knowldge of the architecture. */ ureg->ax = ar0.p; if(up->procctl == Proc_tracesyscall){ up->procctl = Proc_stopme; s = splhi(); procctl(up); splx(s); } up->insyscall = 0; up->psstate = 0; if(scallnr == NOTED) noted(ureg, *(uintptr*)(sp+BY2SE)); splhi(); if(scallnr != RFORK && (up->procctl || up->nnote)) notify(ureg); /* if we delayed sched because we held a lock, sched now */ if(up->delaysched){ sched(); splhi(); } kexit(ureg); } uintptr sysexecstack(uintptr stack, int argc) { /* * Given a current bottom-of-stack and a count * of pointer arguments to be pushed onto it followed * by an integer argument count, return a suitably * aligned new bottom-of-stack which will satisfy any * hardware stack-alignment contraints. * Rounding the stack down to be aligned with the * natural size of a pointer variable usually suffices, * but some architectures impose further restrictions, * e.g. 32-bit SPARC, where the stack must be 8-byte * aligned although pointers and integers are 32-bits. */ USED(argc); return STACKALIGN(stack); } void* sysexecregs(uintptr entry, ulong ssize, ulong nargs) { uintptr *sp; Ureg *ureg; sp = (uintptr*)(USTKTOP - ssize); *--sp = nargs; ureg = up->dbgreg; ureg->sp = PTR2UINT(sp); ureg->ip = entry; ureg->type = 64; /* fiction for acid */ /* * return the address of kernel/user shared data * (e.g. clock stuff) */ return UINT2PTR(USTKTOP-sizeof(Tos)); } void sysprocsetup(Proc* p) { fpusysprocsetup(p); } void sysrforkchild(Proc* child, Proc* parent) { Ureg *cureg; /* * Add 3*BY2SE to the stack to account for * - the return PC * - trap's arguments (syscallnr, ureg) */ child->sched.sp = PTR2UINT(child->kstack+KSTACK-(sizeof(Ureg)+3*BY2SE)); child->sched.pc = PTR2UINT(sysrforkret); cureg = (Ureg*)(child->sched.sp+3*BY2SE); memmove(cureg, parent->dbgreg, sizeof(Ureg)); /* Things from bottom of syscall which were never executed */ child->psstate = 0; child->insyscall = 0; fpusysrforkchild(child, parent); }