/* This file is part of drd, a thread error detector. Copyright (C) 2006-2020 Bart Van Assche . 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, see . The GNU General Public License is contained in the file COPYING. */ #include "drd_clientobj.h" /* struct mutex_info */ #include "drd_error.h" #include "drd_malloc_wrappers.h" #include "drd_mutex.h" #include "drd_suppression.h" /* drd_start_suppression() */ #include "pub_drd_bitmap.h" /* LHS_W, ... */ #include "pub_tool_vki.h" #include "pub_tool_basics.h" #include "pub_tool_libcassert.h" /* tl_assert() */ #include "pub_tool_libcbase.h" /* strlen() */ #include "pub_tool_libcprint.h" /* VG_(printf)() */ #include "pub_tool_machine.h" #include "pub_tool_mallocfree.h" /* VG_(malloc), VG_(free) */ #include "pub_tool_options.h" /* VG_(clo_xml) */ #include "pub_tool_threadstate.h" /* VG_(get_pthread_id)() */ #include "pub_tool_tooliface.h" /* VG_(needs_tool_errors)() */ /* Local function declarations. */ static const HChar* drd_get_error_name(const Error* e); /* Local variables. */ static Bool s_show_conflicting_segments = True; void DRD_(set_show_conflicting_segments)(const Bool scs) { s_show_conflicting_segments = scs; } void DRD_(trace_msg)(const HChar* format, ...) { va_list vargs; va_start(vargs, format); if (VG_(clo_xml)) { VG_(printf_xml)(" "); VG_(vprintf_xml)(format, vargs); VG_(printf_xml)("\n"); } else { VG_(vmessage)(Vg_UserMsg, format, vargs); VG_(message)(Vg_UserMsg, "\n"); } va_end(vargs); } void DRD_(trace_msg_w_bt)(const HChar* format, ...) { va_list vargs; va_start(vargs, format); if (VG_(clo_xml)) { VG_(printf_xml)(" "); VG_(vprintf_xml)(format, vargs); VG_(printf_xml)("\n"); } else { VG_(vmessage)(Vg_UserMsg, format, vargs); VG_(message)(Vg_UserMsg, "\n"); } VG_(get_and_pp_StackTrace)(VG_(get_running_tid)(), VG_(clo_backtrace_size)); va_end(vargs); if (VG_(clo_xml)) VG_(printf_xml)(" \n"); } /** * Emit error message detail in the format requested by the user. */ static void print_err_detail(const HChar* format, ...) PRINTF_CHECK(1, 2); static void print_err_detail(const HChar* format, ...) { va_list vargs; va_start(vargs, format); if (VG_(clo_xml)) VG_(vprintf_xml)(format, vargs); else VG_(vmessage)(Vg_UserMsg, format, vargs); va_end(vargs); } /** * Describe the client address a as good as possible, putting the result in ai. */ static void describe_malloced_addr(Addr const a, AddrInfo* const ai) { Addr heap_block_start; if (DRD_(heap_addrinfo)(a, &heap_block_start, &ai->size, &ai->lastchange)) { ai->akind = eMallocd; ai->rwoffset = a - heap_block_start; } else { ai->akind = eUnknown; } } /** * Report where a client synchronization object has been observed for the first * time. The printed call stack will either refer to a pthread_*_init() or a * pthread_*lock() call. */ static void first_observed(const Addr obj) { DrdClientobj* cl; cl = DRD_(clientobj_get_any)(obj); if (cl) { tl_assert(cl->any.first_observed_at); if (VG_(clo_xml)) { print_err_detail(" \n" " %pS\n" "
0x%lx
\n", DRD_(clientobj_type_name)(cl->any.type), obj); VG_(pp_ExeContext)(cl->any.first_observed_at); print_err_detail(" \n"); } else { print_err_detail("%s 0x%lx was first observed at:\n", DRD_(clientobj_type_name)(cl->any.type), obj); VG_(pp_ExeContext)(cl->any.first_observed_at); } } } static void drd_report_data_race(const Error* const err, const DataRaceErrInfo* const dri) { const Bool xml = VG_(clo_xml); const HChar* const what_prefix = xml ? " " : ""; const HChar* const what_suffix = xml ? "" : ""; const HChar* const auxwhat_prefix = xml ? " " : ""; const HChar* const auxwhat_suffix = xml ? "" : ""; const HChar* const indent = xml ? " " : ""; AddrInfo ai; VG_(memset)(&ai, 0, sizeof(ai)); ai.akind = eUnknown; // A safe initial value (?) DiEpoch cur_ep = VG_(current_DiEpoch)(); XArray* /* of HChar */ descr1 = VG_(newXA)( VG_(malloc), "drd.error.drdr2.1", VG_(free), sizeof(HChar) ); XArray* /* of HChar */ descr2 = VG_(newXA)( VG_(malloc), "drd.error.drdr2.2", VG_(free), sizeof(HChar) ); tl_assert(dri); tl_assert(dri->addr); tl_assert(dri->size > 0); (void) VG_(get_data_description)(descr1, descr2, cur_ep, dri->addr); /* If there's nothing in descr1/2, free them. Why is it safe to VG_(indexXA) at zero here? Because VG_(get_data_description) guarantees to zero terminate descr1/2 regardless of the outcome of the call. So there's always at least one element in each XA after the call. */ if (0 == VG_(strlen)( VG_(indexXA)( descr1, 0 ))) { VG_(deleteXA)( descr1 ); descr1 = NULL; } if (0 == VG_(strlen)( VG_(indexXA)( descr2, 0 ))) { VG_(deleteXA)( descr2 ); descr2 = NULL; } /* Assume (assert) that VG_(get_data_description) fills in descr1 before it fills in descr2 */ if (descr1 == NULL) tl_assert(descr2 == NULL); /* So anyway. Do we have something useful? */ if (descr1 == NULL) { /* No. Do Plan B. */ describe_malloced_addr(dri->addr, &ai); } print_err_detail("%sConflicting %s by thread %u at 0x%08lx size %lu%s\n", what_prefix, dri->access_type == eStore ? "store" : "load", dri->tid, dri->addr, dri->size, what_suffix); VG_(pp_ExeContext)(VG_(get_error_where)(err)); if (descr1 != NULL) { print_err_detail("%s%s\n", indent, (HChar*)VG_(indexXA)(descr1, 0)); if (descr2 != NULL) print_err_detail("%s%s\n", indent, (HChar*)VG_(indexXA)(descr2, 0)); } else if (ai.akind == eMallocd && ai.lastchange) { print_err_detail("%sAddress 0x%lx is at offset %ld from 0x%lx.%s%s", auxwhat_prefix, dri->addr, ai.rwoffset, dri->addr - ai.rwoffset, auxwhat_suffix, xml ? "\n" : ""); if (xml) print_err_detail(" \n"); else print_err_detail(" Allocation context:\n"); VG_(pp_ExeContext)(ai.lastchange); if (xml) print_err_detail(" \n"); } else { const HChar *sect_name; VgSectKind sect_kind; sect_kind = VG_(DebugInfo_sect_kind)(§_name, dri->addr); if (sect_kind != Vg_SectUnknown) { print_err_detail("%sAllocation context: %ps section of %ps%s\n", auxwhat_prefix, VG_(pp_SectKind)(sect_kind), sect_name, auxwhat_suffix); } else { print_err_detail("%sAllocation context: unknown.%s\n", auxwhat_prefix, auxwhat_suffix); } } if (s_show_conflicting_segments) { DRD_(thread_report_conflicting_segments)(dri->tid, dri->addr, dri->size, dri->access_type); } if (descr2) VG_(deleteXA)(descr2); if (descr1) VG_(deleteXA)(descr1); } /** * Compare two error contexts. The core function VG_(maybe_record_error)() * calls this function to compare error contexts such that errors that occur * repeatedly are only printed once. This function is only called by the core * if the error kind of e1 and e2 matches and if the ExeContext's of e1 and * e2 also match. */ static Bool drd_compare_error_contexts(VgRes res, const Error* e1, const Error* e2) { tl_assert(VG_(get_error_kind)(e1) == VG_(get_error_kind)(e2)); switch (VG_(get_error_kind)(e1)) { case DataRaceErr: { const DataRaceErrInfo* const dri1 = VG_(get_error_extra)(e1); const DataRaceErrInfo* const dri2 = VG_(get_error_extra)(e2); return dri1->access_type == dri2->access_type && dri1->size == dri2->size; } case MutexErr: { const MutexErrInfo* const mei1 = VG_(get_error_extra)(e1); const MutexErrInfo* const mei2 = VG_(get_error_extra)(e2); return mei1->mutex == mei2->mutex; } default: return True; } } /** * Called by the core just before an error message will be printed. Used by * DRD to print the thread number as a preamble. */ static void drd_tool_error_before_pp(const Error* const e) { static DrdThreadId s_last_tid_printed = 1; DrdThreadId* err_extra; err_extra = VG_(get_error_extra)(e); if (err_extra && *err_extra != s_last_tid_printed && !VG_(clo_xml)) { VG_(umsg)("%s:\n", DRD_(thread_get_name)(*err_extra)); s_last_tid_printed = *err_extra; } } /** Report an error to the user. */ static void drd_tool_error_pp(const Error* const e) { const Bool xml = VG_(clo_xml); const HChar* const what_prefix = xml ? " " : ""; const HChar* const what_suffix = xml ? "" : ""; if (xml) VG_(printf_xml)( " %pS\n", drd_get_error_name(e)); switch (VG_(get_error_kind)(e)) { case DataRaceErr: { drd_report_data_race(e, VG_(get_error_extra)(e)); break; } case MutexErr: { MutexErrInfo* p = (MutexErrInfo*)(VG_(get_error_extra)(e)); tl_assert(p); if (p->recursion_count >= 0) { print_err_detail("%s%s: mutex 0x%lx, recursion count %d, owner %u." "%s\n", what_prefix, VG_(get_error_string)(e), p->mutex, p->recursion_count, p->owner, what_suffix); } else { print_err_detail("%sThe object at address 0x%lx is not a mutex.%s\n", what_prefix, p->mutex, what_suffix); } VG_(pp_ExeContext)(VG_(get_error_where)(e)); first_observed(p->mutex); break; } case CondErr: { CondErrInfo* cdei =(CondErrInfo*)(VG_(get_error_extra)(e)); print_err_detail("%s%s: cond 0x%lx%s\n", what_prefix, VG_(get_error_string)(e), cdei->cond, what_suffix); VG_(pp_ExeContext)(VG_(get_error_where)(e)); first_observed(cdei->cond); break; } case CondDestrErr: { CondDestrErrInfo* cdi = (CondDestrErrInfo*)(VG_(get_error_extra)(e)); print_err_detail("%s%s: cond 0x%lx, mutex 0x%lx locked by thread %u%s\n", what_prefix, VG_(get_error_string)(e), cdi->cond, cdi->mutex, cdi->owner, what_suffix); VG_(pp_ExeContext)(VG_(get_error_where)(e)); first_observed(cdi->mutex); break; } case CondRaceErr: { CondRaceErrInfo* cei = (CondRaceErrInfo*)(VG_(get_error_extra)(e)); print_err_detail("%sProbably a race condition: condition variable 0x%lx" " has been signaled but the associated mutex 0x%lx is" " not locked by the signalling thread.%s\n", what_prefix, cei->cond, cei->mutex, what_suffix); VG_(pp_ExeContext)(VG_(get_error_where)(e)); first_observed(cei->cond); first_observed(cei->mutex); break; } case CondWaitErr: { CondWaitErrInfo* cwei = (CondWaitErrInfo*)(VG_(get_error_extra)(e)); print_err_detail("%s%s: condition variable 0x%lx, mutexes 0x%lx and" " 0x%lx%s\n", what_prefix, VG_(get_error_string)(e), cwei->cond, cwei->mutex1, cwei->mutex2, what_suffix); VG_(pp_ExeContext)(VG_(get_error_where)(e)); first_observed(cwei->cond); first_observed(cwei->mutex1); first_observed(cwei->mutex2); break; } case SemaphoreErr: { SemaphoreErrInfo* sei = (SemaphoreErrInfo*)(VG_(get_error_extra)(e)); tl_assert(sei); print_err_detail("%s%s: semaphore 0x%lx%s\n", what_prefix, VG_(get_error_string)(e), sei->semaphore, what_suffix); VG_(pp_ExeContext)(VG_(get_error_where)(e)); first_observed(sei->semaphore); break; } case BarrierErr: { BarrierErrInfo* bei = (BarrierErrInfo*)(VG_(get_error_extra)(e)); tl_assert(bei); print_err_detail("%s%s: barrier 0x%lx%s\n", what_prefix, VG_(get_error_string)(e), bei->barrier, what_suffix); VG_(pp_ExeContext)(VG_(get_error_where)(e)); if (bei->other_context) { if (xml) print_err_detail(" \n"); print_err_detail("%sConflicting wait call by thread %u:%s\n", what_prefix, bei->other_tid, what_suffix); VG_(pp_ExeContext)(bei->other_context); if (xml) print_err_detail(" \n"); } first_observed(bei->barrier); break; } case RwlockErr: { RwlockErrInfo* p = (RwlockErrInfo*)(VG_(get_error_extra)(e)); tl_assert(p); print_err_detail("%s%s: rwlock 0x%lx.%s\n", what_prefix, VG_(get_error_string)(e), p->rwlock, what_suffix); VG_(pp_ExeContext)(VG_(get_error_where)(e)); first_observed(p->rwlock); break; } case HoldtimeErr: { HoldtimeErrInfo* p =(HoldtimeErrInfo*)(VG_(get_error_extra)(e)); tl_assert(p); tl_assert(p->acquired_at); if (xml) print_err_detail(" \n"); else print_err_detail("Acquired at:\n"); VG_(pp_ExeContext)(p->acquired_at); if (xml) print_err_detail(" \n"); print_err_detail("%sLock on %s 0x%lx was held during %u ms" " (threshold: %u ms).%s\n", what_prefix, VG_(get_error_string)(e), p->synchronization_object, p->hold_time_ms, p->threshold_ms, what_suffix); VG_(pp_ExeContext)(VG_(get_error_where)(e)); first_observed(p->synchronization_object); break; } case GenericErr: { GenericErrInfo* gei = (GenericErrInfo*)(VG_(get_error_extra)(e)); print_err_detail("%s%s%s\n", what_prefix, VG_(get_error_string)(e), what_suffix); VG_(pp_ExeContext)(VG_(get_error_where)(e)); if (gei->addr) first_observed(gei->addr); break; } case InvalidThreadId: { InvalidThreadIdInfo* iti =(InvalidThreadIdInfo*)(VG_(get_error_extra)(e)); print_err_detail("%s%s 0x%llx%s\n", what_prefix, VG_(get_error_string)(e), iti->ptid, what_suffix); VG_(pp_ExeContext)(VG_(get_error_where)(e)); break; } case UnimpHgClReq: { UnimpClReqInfo* uicr =(UnimpClReqInfo*)(VG_(get_error_extra)(e)); print_err_detail("%sThe annotation macro %s has not yet been implemented" " in %ps%s\n", what_prefix, uicr->descr, "", what_suffix); VG_(pp_ExeContext)(VG_(get_error_where)(e)); break; } case UnimpDrdClReq: { UnimpClReqInfo* uicr =(UnimpClReqInfo*)(VG_(get_error_extra)(e)); print_err_detail("%sThe annotation macro %s has not yet been implemented" " in %ps%s\n", what_prefix, uicr->descr, "", what_suffix); VG_(pp_ExeContext)(VG_(get_error_where)(e)); break; } default: print_err_detail("%s%s%s\n", what_prefix, VG_(get_error_string)(e), what_suffix); VG_(pp_ExeContext)(VG_(get_error_where)(e)); break; } } static UInt drd_tool_error_update_extra(const Error* e) { switch (VG_(get_error_kind)(e)) { case DataRaceErr: return sizeof(DataRaceErrInfo); case MutexErr: return sizeof(MutexErrInfo); case CondErr: return sizeof(CondErrInfo); case CondDestrErr: return sizeof(CondDestrErrInfo); case CondRaceErr: return sizeof(CondRaceErrInfo); case CondWaitErr: return sizeof(CondWaitErrInfo); case SemaphoreErr: return sizeof(SemaphoreErrInfo); case BarrierErr: return sizeof(BarrierErrInfo); case RwlockErr: return sizeof(RwlockErrInfo); case HoldtimeErr: return sizeof(HoldtimeErrInfo); case GenericErr: return sizeof(GenericErrInfo); case InvalidThreadId: return sizeof(InvalidThreadIdInfo); case UnimpHgClReq: return sizeof(UnimpClReqInfo); case UnimpDrdClReq: return sizeof(UnimpClReqInfo); default: tl_assert(False); break; } } /** * Parse suppression name. * * The suppression types recognized by DRD are the same types as the error * types supported by DRD. So try to match the suppression name against the * names of DRD error types. */ static Bool drd_is_recognized_suppression(const HChar* const name, Supp* const supp) { DrdErrorKind skind = 0; if (VG_(strcmp)(name, STR_DataRaceErr) == 0) skind = DataRaceErr; else if (VG_(strcmp)(name, STR_MutexErr) == 0) skind = MutexErr; else if (VG_(strcmp)(name, STR_CondErr) == 0) skind = CondErr; else if (VG_(strcmp)(name, STR_CondDestrErr) == 0) skind = CondDestrErr; else if (VG_(strcmp)(name, STR_CondRaceErr) == 0) skind = CondRaceErr; else if (VG_(strcmp)(name, STR_CondWaitErr) == 0) skind = CondWaitErr; else if (VG_(strcmp)(name, STR_SemaphoreErr) == 0) skind = SemaphoreErr; else if (VG_(strcmp)(name, STR_BarrierErr) == 0) skind = BarrierErr; else if (VG_(strcmp)(name, STR_RwlockErr) == 0) skind = RwlockErr; else if (VG_(strcmp)(name, STR_HoldtimeErr) == 0) skind = HoldtimeErr; else if (VG_(strcmp)(name, STR_GenericErr) == 0) skind = GenericErr; else if (VG_(strcmp)(name, STR_InvalidThreadId) == 0) skind = InvalidThreadId; else if (VG_(strcmp)(name, STR_UnimpHgClReq) == 0) skind = UnimpHgClReq; else if (VG_(strcmp)(name, STR_UnimpDrdClReq) == 0) skind = UnimpDrdClReq; else return False; VG_(set_supp_kind)(supp, skind); return True; } /** * Read additional suppression information from the suppression file. * * None of the suppression patterns recognized by DRD has 'extra' lines * of information in the suppression file, so just return True to indicate * that reading the 'extra' lines succeeded. */ static Bool drd_read_extra_suppression_info(Int fd, HChar** bufpp, SizeT* nBufp, Int* lineno, Supp* supp) { return True; } /** * Determine whether or not the types of the given error message and the * given suppression match. */ static Bool drd_error_matches_suppression(const Error* const e, const Supp* const supp) { return VG_(get_supp_kind)(supp) == VG_(get_error_kind)(e); } static const HChar* drd_get_error_name(const Error* e) { switch (VG_(get_error_kind)(e)) { case DataRaceErr: return VGAPPEND(STR_, DataRaceErr); case MutexErr: return VGAPPEND(STR_, MutexErr); case CondErr: return VGAPPEND(STR_, CondErr); case CondDestrErr: return VGAPPEND(STR_, CondDestrErr); case CondRaceErr: return VGAPPEND(STR_, CondRaceErr); case CondWaitErr: return VGAPPEND(STR_, CondWaitErr); case SemaphoreErr: return VGAPPEND(STR_, SemaphoreErr); case BarrierErr: return VGAPPEND(STR_, BarrierErr); case RwlockErr: return VGAPPEND(STR_, RwlockErr); case HoldtimeErr: return VGAPPEND(STR_, HoldtimeErr); case GenericErr: return VGAPPEND(STR_, GenericErr); case InvalidThreadId: return VGAPPEND(STR_, InvalidThreadId); case UnimpHgClReq: return VGAPPEND(STR_, UnimpHgClReq); case UnimpDrdClReq: return VGAPPEND(STR_, UnimpDrdClReq); default: tl_assert(0); } return 0; } /** * Return extra suppression information. * * Invoked while printing a suppression pattern because the user * specified --gen-suppressions=yes or all on the command line. DRD does not * define any 'extra' suppression information. */ static SizeT drd_get_extra_suppression_info(const Error* e, /*OUT*/HChar* buf, Int nBuf) { tl_assert(nBuf >= 1); buf[0] = '\0'; return 0; } static SizeT drd_print_extra_suppression_use(const Supp* su, /*OUT*/HChar* buf, Int nBuf) { tl_assert(nBuf >= 1); buf[0] = '\0'; return 0; } static void drd_update_extra_suppresion_use(const Error* e, const Supp* supp) { return; } /** Tell the Valgrind core about DRD's error handlers. */ void DRD_(register_error_handlers)(void) { VG_(needs_tool_errors)(drd_compare_error_contexts, drd_tool_error_before_pp, drd_tool_error_pp, False, drd_tool_error_update_extra, drd_is_recognized_suppression, drd_read_extra_suppression_info, drd_error_matches_suppression, drd_get_error_name, drd_get_extra_suppression_info, drd_print_extra_suppression_use, drd_update_extra_suppresion_use); }