/*--------------------------------------------------------------------*/ /*--- Signal-related libc stuff. m_libcsignal.c ---*/ /*--------------------------------------------------------------------*/ /* This file is part of Valgrind, a dynamic binary instrumentation framework. Copyright (C) 2000-2013 Julian Seward jseward@acm.org This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307, USA. The GNU General Public License is contained in the file COPYING. */ #include "pub_core_basics.h" #include "pub_core_debuglog.h" #include "pub_core_vki.h" #include "pub_core_vkiscnums.h" #include "pub_core_libcbase.h" #include "pub_core_libcassert.h" #include "pub_core_syscall.h" #include "pub_core_libcsignal.h" /* self */ /* IMPORTANT: on Darwin it is essential to use the _nocancel versions of syscalls rather than the vanilla version, if a _nocancel version is available. See docs/internals/Darwin-notes.txt for the reason why. */ /* sigemptyset, sigfullset, sigaddset and sigdelset return 0 on success and -1 on error. */ /* In the sigset routines below, be aware that _VKI_NSIG_BPW can be either 32 or 64, and hence the sig[] words can either be 32- or 64-bits. And which they are it doesn't necessarily follow from the host word size. */ Int VG_(sigfillset)( vki_sigset_t* set ) { Int i; if (set == NULL) return -1; for (i = 0; i < _VKI_NSIG_WORDS; i++) set->sig[i] = ~0; return 0; } Int VG_(sigemptyset)( vki_sigset_t* set ) { Int i; if (set == NULL) return -1; for (i = 0; i < _VKI_NSIG_WORDS; i++) set->sig[i] = 0; return 0; } Bool VG_(isemptysigset)( const vki_sigset_t* set ) { Int i; vg_assert(set != NULL); for (i = 0; i < _VKI_NSIG_WORDS; i++) if (set->sig[i] != 0) return False; return True; } Bool VG_(isfullsigset)( const vki_sigset_t* set ) { Int i; vg_assert(set != NULL); for (i = 0; i < _VKI_NSIG_WORDS; i++) if (set->sig[i] != ~0) return False; return True; } Bool VG_(iseqsigset)( const vki_sigset_t* set1, const vki_sigset_t* set2 ) { Int i; vg_assert(set1 != NULL && set2 != NULL); for (i = 0; i < _VKI_NSIG_WORDS; i++) if (set1->sig[i] != set2->sig[i]) return False; return True; } Int VG_(sigaddset)( vki_sigset_t* set, Int signum ) { if (set == NULL) return -1; if (signum < 1 || signum > _VKI_NSIG) return -1; signum--; set->sig[signum / _VKI_NSIG_BPW] |= (1ULL << (signum % _VKI_NSIG_BPW)); return 0; } Int VG_(sigdelset)( vki_sigset_t* set, Int signum ) { if (set == NULL) return -1; if (signum < 1 || signum > _VKI_NSIG) return -1; signum--; set->sig[signum / _VKI_NSIG_BPW] &= ~(1ULL << (signum % _VKI_NSIG_BPW)); return 0; } Int VG_(sigismember) ( const vki_sigset_t* set, Int signum ) { if (set == NULL) return 0; if (signum < 1 || signum > _VKI_NSIG) return 0; signum--; if (1 & ((set->sig[signum / _VKI_NSIG_BPW]) >> (signum % _VKI_NSIG_BPW))) return 1; else return 0; } /* Add all signals in src to dst. */ void VG_(sigaddset_from_set)( vki_sigset_t* dst, vki_sigset_t* src ) { Int i; vg_assert(dst != NULL && src != NULL); for (i = 0; i < _VKI_NSIG_WORDS; i++) dst->sig[i] |= src->sig[i]; } /* Remove all signals in src from dst. */ void VG_(sigdelset_from_set)( vki_sigset_t* dst, vki_sigset_t* src ) { Int i; vg_assert(dst != NULL && src != NULL); for (i = 0; i < _VKI_NSIG_WORDS; i++) dst->sig[i] &= ~(src->sig[i]); } /* dst = dst `intersect` src. */ void VG_(sigintersectset)( vki_sigset_t* dst, vki_sigset_t* src ) { Int i; vg_assert(dst != NULL && src != NULL); for (i = 0; i < _VKI_NSIG_WORDS; i++) dst->sig[i] &= src->sig[i]; } /* dst = ~src */ void VG_(sigcomplementset)( vki_sigset_t* dst, vki_sigset_t* src ) { Int i; vg_assert(dst != NULL && src != NULL); for (i = 0; i < _VKI_NSIG_WORDS; i++) dst->sig[i] = ~ src->sig[i]; } /* The functions sigaction, sigprocmask, sigpending and sigsuspend return 0 on success and -1 on error. */ Int VG_(sigprocmask)( Int how, const vki_sigset_t* set, vki_sigset_t* oldset) { # if defined(VGO_linux) # if defined(__NR_rt_sigprocmask) SysRes res = VG_(do_syscall4)(__NR_rt_sigprocmask, how, (UWord)set, (UWord)oldset, _VKI_NSIG_WORDS * sizeof(UWord)); # else SysRes res = VG_(do_syscall3)(__NR_sigprocmask, how, (UWord)set, (UWord)oldset); # endif # elif defined(VGO_darwin) /* On Darwin, __NR_sigprocmask appears to affect the entire process, not just this thread. Hence need to use __NR___pthread_sigmask instead. */ SysRes res = VG_(do_syscall3)(__NR___pthread_sigmask, how, (UWord)set, (UWord)oldset); # else # error "Unknown OS" # endif return sr_isError(res) ? -1 : 0; } #if defined(VGO_darwin) /* A helper function for sigaction on Darwin. */ static void darwin_signal_demux(void* a1, UWord a2, UWord a3, void* a4, void* a5) { VG_(debugLog)(2, "libcsignal", "PRE demux sig, a2 = %lu, signo = %lu\n", a2, a3); if (a2 == 1) ((void(*)(int))a1) (a3); else ((void(*)(int,void*,void*))a1) (a3,a4,a5); VG_(debugLog)(2, "libcsignal", "POST demux sig, a2 = %lu, signo = %lu\n", a2, a3); VG_(do_syscall2)(__NR_sigreturn, (UWord)a5, 0x1E); /* NOTREACHED */ __asm__ __volatile__("ud2"); } #endif Int VG_(sigaction) ( Int signum, const vki_sigaction_toK_t* act, vki_sigaction_fromK_t* oldact) { # if defined(VGO_linux) /* Normal case: vki_sigaction_toK_t and vki_sigaction_fromK_t are identical types. */ SysRes res = VG_(do_syscall4)(__NR_rt_sigaction, signum, (UWord)act, (UWord)oldact, _VKI_NSIG_WORDS * sizeof(UWord)); return sr_isError(res) ? -1 : 0; # elif defined(VGO_darwin) /* If we're passing a new action to the kernel, make a copy of the new action, install our own sa_tramp field in it, and ignore whatever we were provided with. This is OK because all the sigaction requests come from m_signals, and are not directly what the client program requested, so there is no chance that we will inadvertantly ignore the sa_tramp field requested by the client. (In fact m_signals does ignore it when building signal frames for the client, but that's a completely different matter). If we're receiving an old action from the kernel, be very paranoid and make sure the kernel doesn't trash bits of memory that we don't expect it to. */ SysRes res; vki_sigaction_toK_t actCopy; struct { ULong before[2]; vki_sigaction_fromK_t oa; ULong after[2]; } oldactCopy; vki_sigaction_toK_t* real_act; vki_sigaction_fromK_t* real_oldact; real_act = act ? &actCopy : NULL; real_oldact = oldact ? &oldactCopy.oa : NULL; VG_(memset)(&oldactCopy, 0x55, sizeof(oldactCopy)); if (real_act) { *real_act = *act; real_act->sa_tramp = (void*)&darwin_signal_demux; } res = VG_(do_syscall3)(__NR_sigaction, signum, (UWord)real_act, (UWord)real_oldact); if (real_oldact) { vg_assert(oldactCopy.before[0] == 0x5555555555555555ULL); vg_assert(oldactCopy.before[1] == 0x5555555555555555ULL); vg_assert(oldactCopy.after[0] == 0x5555555555555555ULL); vg_assert(oldactCopy.after[1] == 0x5555555555555555ULL); *oldact = *real_oldact; } return sr_isError(res) ? -1 : 0; # else # error "Unsupported OS" # endif } /* See explanation in pub_core_libcsignal.h. */ void VG_(convert_sigaction_fromK_to_toK)( vki_sigaction_fromK_t* fromK, /*OUT*/vki_sigaction_toK_t* toK ) { # if defined(VGO_linux) *toK = *fromK; # elif defined(VGO_darwin) toK->ksa_handler = fromK->ksa_handler; toK->sa_tramp = NULL; /* the cause of all the difficulty */ toK->sa_mask = fromK->sa_mask; toK->sa_flags = fromK->sa_flags; # else # error "Unsupported OS" # endif } Int VG_(kill)( Int pid, Int signo ) { # if defined(VGO_linux) SysRes res = VG_(do_syscall2)(__NR_kill, pid, signo); # elif defined(VGO_darwin) SysRes res = VG_(do_syscall3)(__NR_kill, pid, signo, 1/*posix-compliant*/); # else # error "Unsupported OS" # endif return sr_isError(res) ? -1 : 0; } Int VG_(tkill)( Int lwpid, Int signo ) { # if defined(__NR_tkill) SysRes res = VG_(mk_SysRes_Error)(VKI_ENOSYS); res = VG_(do_syscall2)(__NR_tkill, lwpid, signo); if (sr_isError(res) && sr_Err(res) == VKI_ENOSYS) res = VG_(do_syscall2)(__NR_kill, lwpid, signo); return sr_isError(res) ? -1 : 0; # elif defined(VGO_darwin) // Note that the __pthread_kill syscall takes a Mach thread, not a pthread. SysRes res; res = VG_(do_syscall2)(__NR___pthread_kill, lwpid, signo); return sr_isError(res) ? -1 : 0; # else # error "Unsupported plat" # endif } /* ---------------------- sigtimedwait_zero ----------------------- */ /* A cut-down version of POSIX sigtimedwait: poll for pending signals mentioned in the sigset_t, and if any are present, select one arbitrarily, return its number (which must be > 0), and put auxiliary info about it in the siginfo_t, and make it not-pending-any-more. If none are pending, return zero. The _zero refers to the fact that there is zero timeout, so if no signals are pending it returns immediately. Perhaps a better name would be 'sigpoll'. Returns -1 on error, 0 if no signals pending, and n > 0 if signal n was selected. The Linux implementation is trivial: do the corresponding syscall. The Darwin implementation is horrible and probably broken in a dozen obscure ways. I suspect it's only thread-safe because V forces single-threadedness. */ /* ---------- sigtimedwait_zero: Linux ----------- */ #if defined(VGO_linux) Int VG_(sigtimedwait_zero)( const vki_sigset_t *set, vki_siginfo_t *info ) { static const struct vki_timespec zero = { 0, 0 }; SysRes res = VG_(do_syscall4)(__NR_rt_sigtimedwait, (UWord)set, (UWord)info, (UWord)&zero, sizeof(*set)); return sr_isError(res) ? -1 : sr_Res(res); } /* ---------- sigtimedwait_zero: Darwin ----------- */ #elif defined(VGO_darwin) //static void show_set ( HChar* str, const vki_sigset_t* set ) { // Int i; // VG_(printf)("%s { ", str); // for (i = 1; i <= _VKI_NSIG; i++) { // if (VG_(sigismember)(set, i)) // VG_(printf)("%u ", i); // } // VG_(printf)("}\n"); //} /* The general idea is: - use sigpending to find out which signals are pending - choose one - temporarily set its handler to sigtimedwait_zero_handler - use sigsuspend atomically unblock it and wait for the signal. Upon return, sigsuspend restores the signal mask to what it was to start with. - Restore the handler for the signal to whatever it was before. */ /* A signal handler which does nothing (it doesn't need to). It does however check that it's not handing a sync signal for which returning is meaningless. */ static void sigtimedwait_zero_handler ( Int sig ) { /* XXX this is wrong -- get rid of these. We could get _any_ signal here */ vg_assert(sig != VKI_SIGILL); vg_assert(sig != VKI_SIGSEGV); vg_assert(sig != VKI_SIGBUS); vg_assert(sig != VKI_SIGTRAP); /* do nothing */ } Int VG_(sigtimedwait_zero)( const vki_sigset_t *set, vki_siginfo_t *info ) { const Bool debug = False; Int i, ir; SysRes sr; vki_sigset_t pending, blocked, allbutone; vki_sigaction_toK_t sa, saved_sa2; vki_sigaction_fromK_t saved_sa; //show_set("STWZ: looking for", set); /* Find out what's pending: Darwin sigpending */ sr = VG_(do_syscall1)(__NR_sigpending, (UWord)&pending); vg_assert(!sr_isError(sr)); /* don't try for signals not in 'set' */ /* pending = pending `intersect` set */ VG_(sigintersectset)(&pending, (vki_sigset_t*)set); /* don't try for signals not blocked at the moment */ ir = VG_(sigprocmask)(VKI_SIG_SETMASK, NULL, &blocked); vg_assert(ir == 0); /* pending = pending `intersect` blocked */ VG_(sigintersectset)(&pending, &blocked); /* decide which signal we're going to snarf */ for (i = 1; i < _VKI_NSIG; i++) if (VG_(sigismember)(&pending,i)) break; if (i == _VKI_NSIG) return 0; if (debug) VG_(debugLog)(0, "libcsignal", "sigtimedwait_zero: snarfing signal %d\n", i ); /* fetch signal i. pre: i is blocked and pending pre: we are the only thread running */ /* Set up alternative signal handler */ VG_(sigfillset)(&sa.sa_mask); sa.ksa_handler = &sigtimedwait_zero_handler; sa.sa_flags = 0; ir = VG_(sigaction)(i, &sa, &saved_sa); vg_assert(ir == 0); /* Switch signal masks and wait for the signal. This should happen immediately, since we've already established it is pending and blocked. */ VG_(sigfillset)(&allbutone); VG_(sigdelset)(&allbutone, i); /* Note: pass the sig mask by value here, not reference (!) */ vg_assert(_VKI_NSIG_WORDS == 1); sr = VG_(do_syscall3)(__NR_sigsuspend_nocancel, (UWord)allbutone.sig[0], 0,0); if (debug) VG_(debugLog)(0, "libcsignal", "sigtimedwait_zero: sigsuspend got " "res: %s %#lx\n", sr_isError(sr) ? "FAIL" : "SUCCESS", sr_isError(sr) ? sr_Err(sr) : sr_Res(sr)); vg_assert(sr_isError(sr)); vg_assert(sr_Err(sr) == VKI_EINTR); /* Restore signal's handler to whatever it was before */ VG_(convert_sigaction_fromK_to_toK)( &saved_sa, &saved_sa2 ); ir = VG_(sigaction)(i, &saved_sa2, NULL); vg_assert(ir == 0); /* This is bogus - we could get more info from the sighandler. */ VG_(memset)( info, 0, sizeof(*info) ); info->si_signo = i; return i; } #else # error "Unknown OS" #endif /*--------------------------------------------------------------------*/ /*--- end ---*/ /*--------------------------------------------------------------------*/