Mercurial > hg > release > icedtea7-forest-2.0 > hotspot
changeset 1654:0e35fa8ebccd
6973963: SEGV in ciBlock::start_bci() with EA
Summary: Added more checks into ResourceObj and growableArray to verify correctness of allocation type.
Reviewed-by: never, coleenp, dholmes
| author | kvn |
|---|---|
| date | Tue, 03 Aug 2010 15:55:03 -0700 |
| parents | 66c5dadb4d61 |
| children | 0e09207fc81b |
| files | src/share/vm/asm/codeBuffer.cpp src/share/vm/asm/codeBuffer.hpp src/share/vm/ci/ciInstanceKlass.cpp src/share/vm/ci/ciMethodBlocks.cpp src/share/vm/ci/ciTypeFlow.cpp src/share/vm/classfile/classFileParser.cpp src/share/vm/memory/allocation.cpp src/share/vm/memory/allocation.hpp src/share/vm/opto/block.cpp src/share/vm/opto/block.hpp src/share/vm/opto/c2_globals.hpp src/share/vm/opto/c2compiler.cpp src/share/vm/opto/chaitin.cpp src/share/vm/opto/compile.cpp src/share/vm/opto/gcm.cpp src/share/vm/opto/lcm.cpp src/share/vm/utilities/growableArray.hpp |
| diffstat | 17 files changed, 128 insertions(+), 43 deletions(-) [+] |
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--- a/src/share/vm/asm/codeBuffer.cpp Fri Jul 30 10:21:15 2010 -0700 +++ b/src/share/vm/asm/codeBuffer.cpp Tue Aug 03 15:55:03 2010 -0700 @@ -128,7 +128,11 @@ delete _overflow_arena; #ifdef ASSERT + // Save allocation type to execute assert in ~ResourceObj() + // which is called after this destructor. + ResourceObj::allocation_type at = _default_oop_recorder.get_allocation_type(); Copy::fill_to_bytes(this, sizeof(*this), badResourceValue); + ResourceObj::set_allocation_type((address)(&_default_oop_recorder), at); #endif }
--- a/src/share/vm/asm/codeBuffer.hpp Fri Jul 30 10:21:15 2010 -0700 +++ b/src/share/vm/asm/codeBuffer.hpp Tue Aug 03 15:55:03 2010 -0700 @@ -278,7 +278,7 @@ // special case during expansion which is handled internally. This // is done to guarantee proper cleanup of resources. void* operator new(size_t size) { return ResourceObj::operator new(size); } - void operator delete(void* p) { ResourceObj::operator delete(p); } + void operator delete(void* p) { ShouldNotCallThis(); } public: typedef int csize_t; // code size type; would be size_t except for history
--- a/src/share/vm/ci/ciInstanceKlass.cpp Fri Jul 30 10:21:15 2010 -0700 +++ b/src/share/vm/ci/ciInstanceKlass.cpp Tue Aug 03 15:55:03 2010 -0700 @@ -403,8 +403,9 @@ instanceKlass* ik = get_instanceKlass(); int max_n_fields = ik->fields()->length()/instanceKlass::next_offset; + Arena* arena = curEnv->arena(); _non_static_fields = - new (curEnv->arena()) GrowableArray<ciField*>(max_n_fields); + new (arena) GrowableArray<ciField*>(arena, max_n_fields, 0, NULL); NonStaticFieldFiller filler(curEnv, _non_static_fields); ik->do_nonstatic_fields(&filler); }
--- a/src/share/vm/ci/ciMethodBlocks.cpp Fri Jul 30 10:21:15 2010 -0700 +++ b/src/share/vm/ci/ciMethodBlocks.cpp Tue Aug 03 15:55:03 2010 -0700 @@ -252,7 +252,7 @@ _arena(arena), _num_blocks(0), _code_size(meth->code_size()) { int block_estimate = _code_size / 8; - _blocks = new(_arena) GrowableArray<ciBlock *>(block_estimate); + _blocks = new(_arena) GrowableArray<ciBlock *>(_arena, block_estimate, 0, NULL); int b2bsize = _code_size * sizeof(ciBlock **); _bci_to_block = (ciBlock **) arena->Amalloc(b2bsize); Copy::zero_to_words((HeapWord*) _bci_to_block, b2bsize / sizeof(HeapWord));
--- a/src/share/vm/ci/ciTypeFlow.cpp Fri Jul 30 10:21:15 2010 -0700 +++ b/src/share/vm/ci/ciTypeFlow.cpp Tue Aug 03 15:55:03 2010 -0700 @@ -2591,7 +2591,7 @@ StateVector* temp_vector, JsrSet* temp_set) { int dft_len = 100; - GrowableArray<Block*> stk(arena(), dft_len, 0, NULL); + GrowableArray<Block*> stk(dft_len); ciBlock* dummy = _methodBlocks->make_dummy_block(); JsrSet* root_set = new JsrSet(NULL, 0);
--- a/src/share/vm/classfile/classFileParser.cpp Fri Jul 30 10:21:15 2010 -0700 +++ b/src/share/vm/classfile/classFileParser.cpp Tue Aug 03 15:55:03 2010 -0700 @@ -62,6 +62,7 @@ ClassFileStream cfs1 = *cfs0; ClassFileStream* cfs = &cfs1; #ifdef ASSERT + assert(cfs->allocated_on_stack(),"should be local"); u1* old_current = cfs0->current(); #endif
--- a/src/share/vm/memory/allocation.cpp Fri Jul 30 10:21:15 2010 -0700 +++ b/src/share/vm/memory/allocation.cpp Tue Aug 03 15:55:03 2010 -0700 @@ -43,24 +43,68 @@ switch (type) { case C_HEAP: res = (address)AllocateHeap(size, "C_Heap: ResourceOBJ"); + DEBUG_ONLY(set_allocation_type(res, C_HEAP);) break; case RESOURCE_AREA: + // Will set allocation type in the resource object. res = (address)operator new(size); break; default: ShouldNotReachHere(); } - // Set allocation type in the resource object for assertion checks. - DEBUG_ONLY(((ResourceObj *)res)->_allocation = type;) return res; } void ResourceObj::operator delete(void* p) { assert(((ResourceObj *)p)->allocated_on_C_heap(), "delete only allowed for C_HEAP objects"); + DEBUG_ONLY(((ResourceObj *)p)->_allocation = badHeapOopVal;) FreeHeap(p); } +#ifdef ASSERT +void ResourceObj::set_allocation_type(address res, allocation_type type) { + // Set allocation type in the resource object + uintptr_t allocation = (uintptr_t)res; + assert((allocation & allocation_mask) == 0, "address should be aligned ot 4 bytes at least"); + assert(type <= allocation_mask, "incorrect allocation type"); + ((ResourceObj *)res)->_allocation = ~(allocation + type); +} + +ResourceObj::allocation_type ResourceObj::get_allocation_type() { + assert(~(_allocation | allocation_mask) == (uintptr_t)this, "lost resource object"); + return (allocation_type)((~_allocation) & allocation_mask); +} + +ResourceObj::ResourceObj() { // default construtor + if (~(_allocation | allocation_mask) != (uintptr_t)this) { + set_allocation_type((address)this, STACK_OR_EMBEDDED); + } else { + assert(allocated_on_res_area() || allocated_on_C_heap() || allocated_on_arena(), + "allocation_type should be set by operator new()"); + } +} + +ResourceObj::ResourceObj(const ResourceObj& r) { // default copy construtor + // Used in ClassFileParser::parse_constant_pool_entries() for ClassFileStream. + set_allocation_type((address)this, STACK_OR_EMBEDDED); +} + +ResourceObj& ResourceObj::operator=(const ResourceObj& r) { // default copy assignment + // Used in InlineTree::ok_to_inline() for WarmCallInfo. + assert(allocated_on_stack(), "copy only into local"); + // Keep current _allocation value; + return *this; +} + +ResourceObj::~ResourceObj() { + if (!allocated_on_C_heap()) { // operator delete() checks C_heap allocation_type. + _allocation = badHeapOopVal; + } +} +#endif // ASSERT + + void trace_heap_malloc(size_t size, const char* name, void* p) { // A lock is not needed here - tty uses a lock internally tty->print_cr("Heap malloc " INTPTR_FORMAT " %7d %s", p, size, name == NULL ? "" : name);
--- a/src/share/vm/memory/allocation.hpp Fri Jul 30 10:21:15 2010 -0700 +++ b/src/share/vm/memory/allocation.hpp Tue Aug 03 15:55:03 2010 -0700 @@ -316,32 +316,41 @@ // use delete to deallocate. class ResourceObj ALLOCATION_SUPER_CLASS_SPEC { public: - enum allocation_type { UNKNOWN = 0, C_HEAP, RESOURCE_AREA, ARENA }; + enum allocation_type { STACK_OR_EMBEDDED = 0, RESOURCE_AREA, C_HEAP, ARENA, allocation_mask = 0x3 }; #ifdef ASSERT private: - allocation_type _allocation; + // When this object is allocated on stack the new() operator is not + // called but garbage on stack may look like a valid allocation_type. + // Store negated 'this' pointer when new() is called to distinguish cases. + uintptr_t _allocation; public: - bool allocated_on_C_heap() { return _allocation == C_HEAP; } + static void set_allocation_type(address res, allocation_type type); + allocation_type get_allocation_type(); + bool allocated_on_stack() { return get_allocation_type() == STACK_OR_EMBEDDED; } + bool allocated_on_res_area() { return get_allocation_type() == RESOURCE_AREA; } + bool allocated_on_C_heap() { return get_allocation_type() == C_HEAP; } + bool allocated_on_arena() { return get_allocation_type() == ARENA; } + ResourceObj(); // default construtor + ResourceObj(const ResourceObj& r); // default copy construtor + ResourceObj& operator=(const ResourceObj& r); // default copy assignment + ~ResourceObj(); #endif // ASSERT public: void* operator new(size_t size, allocation_type type); void* operator new(size_t size, Arena *arena) { address res = (address)arena->Amalloc(size); - // Set allocation type in the resource object - DEBUG_ONLY(((ResourceObj *)res)->_allocation = ARENA;) + DEBUG_ONLY(set_allocation_type(res, ARENA);) return res; } void* operator new(size_t size) { address res = (address)resource_allocate_bytes(size); - // Set allocation type in the resource object - DEBUG_ONLY(((ResourceObj *)res)->_allocation = RESOURCE_AREA;) + DEBUG_ONLY(set_allocation_type(res, RESOURCE_AREA);) return res; } void* operator new(size_t size, void* where, allocation_type type) { - void* res = where; - // Set allocation type in the resource object - DEBUG_ONLY(((ResourceObj *)res)->_allocation = type;) + address res = (address)where; + DEBUG_ONLY(set_allocation_type(res, type);) return res; } void operator delete(void* p);
--- a/src/share/vm/opto/block.cpp Fri Jul 30 10:21:15 2010 -0700 +++ b/src/share/vm/opto/block.cpp Tue Aug 03 15:55:03 2010 -0700 @@ -353,7 +353,8 @@ PhaseCFG::PhaseCFG( Arena *a, RootNode *r, Matcher &m ) : Phase(CFG), _bbs(a), - _root(r) + _root(r), + _node_latency(NULL) #ifndef PRODUCT , _trace_opto_pipelining(TraceOptoPipelining || C->method_has_option("TraceOptoPipelining")) #endif
--- a/src/share/vm/opto/block.hpp Fri Jul 30 10:21:15 2010 -0700 +++ b/src/share/vm/opto/block.hpp Tue Aug 03 15:55:03 2010 -0700 @@ -374,7 +374,7 @@ float _outer_loop_freq; // Outmost loop frequency // Per node latency estimation, valid only during GCM - GrowableArray<uint> _node_latency; + GrowableArray<uint> *_node_latency; #ifndef PRODUCT bool _trace_opto_pipelining; // tracing flag
--- a/src/share/vm/opto/c2_globals.hpp Fri Jul 30 10:21:15 2010 -0700 +++ b/src/share/vm/opto/c2_globals.hpp Tue Aug 03 15:55:03 2010 -0700 @@ -281,6 +281,12 @@ product(bool, InsertMemBarAfterArraycopy, true, \ "Insert memory barrier after arraycopy call") \ \ + develop(bool, SubsumeLoads, true, \ + "Attempt to compile while subsuming loads into machine instructions.") \ + \ + develop(bool, StressRecompilation, false, \ + "Recompile each compiled method without subsuming loads or escape analysis.") \ + \ /* controls for tier 1 compilations */ \ \ develop(bool, Tier1CountInvocations, true, \
--- a/src/share/vm/opto/c2compiler.cpp Fri Jul 30 10:21:15 2010 -0700 +++ b/src/share/vm/opto/c2compiler.cpp Tue Aug 03 15:55:03 2010 -0700 @@ -103,13 +103,14 @@ if (!is_initialized()) { initialize(); } - bool subsume_loads = true; + bool subsume_loads = SubsumeLoads; bool do_escape_analysis = DoEscapeAnalysis && !env->jvmti_can_access_local_variables(); while (!env->failing()) { // Attempt to compile while subsuming loads into machine instructions. Compile C(env, this, target, entry_bci, subsume_loads, do_escape_analysis); + // Check result and retry if appropriate. if (C.failure_reason() != NULL) { if (C.failure_reason_is(retry_no_subsuming_loads())) { @@ -127,6 +128,16 @@ // on the ciEnv via env->record_method_not_compilable(). env->record_failure(C.failure_reason()); } + if (StressRecompilation) { + if (subsume_loads) { + subsume_loads = false; + continue; // retry + } + if (do_escape_analysis) { + do_escape_analysis = false; + continue; // retry + } + } // No retry; just break the loop. break;
--- a/src/share/vm/opto/chaitin.cpp Fri Jul 30 10:21:15 2010 -0700 +++ b/src/share/vm/opto/chaitin.cpp Tue Aug 03 15:55:03 2010 -0700 @@ -569,7 +569,7 @@ if (trace_spilling() && lrg._def != NULL) { // collect defs for MultiDef printing if (lrg._defs == NULL) { - lrg._defs = new (_ifg->_arena) GrowableArray<Node*>(); + lrg._defs = new (_ifg->_arena) GrowableArray<Node*>(_ifg->_arena, 2, 0, NULL); lrg._defs->append(lrg._def); } lrg._defs->append(n);
--- a/src/share/vm/opto/compile.cpp Fri Jul 30 10:21:15 2010 -0700 +++ b/src/share/vm/opto/compile.cpp Tue Aug 03 15:55:03 2010 -0700 @@ -904,8 +904,8 @@ probe_alias_cache(NULL)->_index = AliasIdxTop; _intrinsics = NULL; - _macro_nodes = new GrowableArray<Node*>(comp_arena(), 8, 0, NULL); - _predicate_opaqs = new GrowableArray<Node*>(comp_arena(), 8, 0, NULL); + _macro_nodes = new(comp_arena()) GrowableArray<Node*>(comp_arena(), 8, 0, NULL); + _predicate_opaqs = new(comp_arena()) GrowableArray<Node*>(comp_arena(), 8, 0, NULL); register_library_intrinsics(); }
--- a/src/share/vm/opto/gcm.cpp Fri Jul 30 10:21:15 2010 -0700 +++ b/src/share/vm/opto/gcm.cpp Tue Aug 03 15:55:03 2010 -0700 @@ -841,7 +841,7 @@ #ifndef PRODUCT if (trace_opto_pipelining()) { tty->print("# latency_to_inputs: node_latency[%d] = %d for node", - n->_idx, _node_latency.at_grow(n->_idx)); + n->_idx, _node_latency->at_grow(n->_idx)); dump(); } #endif @@ -853,7 +853,7 @@ return; uint nlen = n->len(); - uint use_latency = _node_latency.at_grow(n->_idx); + uint use_latency = _node_latency->at_grow(n->_idx); uint use_pre_order = _bbs[n->_idx]->_pre_order; for ( uint j=0; j<nlen; j++ ) { @@ -884,15 +884,15 @@ uint delta_latency = n->latency(j); uint current_latency = delta_latency + use_latency; - if (_node_latency.at_grow(def->_idx) < current_latency) { - _node_latency.at_put_grow(def->_idx, current_latency); + if (_node_latency->at_grow(def->_idx) < current_latency) { + _node_latency->at_put_grow(def->_idx, current_latency); } #ifndef PRODUCT if (trace_opto_pipelining()) { tty->print_cr("# %d + edge_latency(%d) == %d -> %d, node_latency[%d] = %d", use_latency, j, delta_latency, current_latency, def->_idx, - _node_latency.at_grow(def->_idx)); + _node_latency->at_grow(def->_idx)); } #endif } @@ -926,7 +926,7 @@ return 0; uint nlen = use->len(); - uint nl = _node_latency.at_grow(use->_idx); + uint nl = _node_latency->at_grow(use->_idx); for ( uint j=0; j<nlen; j++ ) { if (use->in(j) == n) { @@ -962,7 +962,7 @@ #ifndef PRODUCT if (trace_opto_pipelining()) { tty->print("# latency_from_outputs: node_latency[%d] = %d for node", - n->_idx, _node_latency.at_grow(n->_idx)); + n->_idx, _node_latency->at_grow(n->_idx)); dump(); } #endif @@ -975,7 +975,7 @@ if (latency < l) latency = l; } - _node_latency.at_put_grow(n->_idx, latency); + _node_latency->at_put_grow(n->_idx, latency); } //------------------------------hoist_to_cheaper_block------------------------- @@ -985,9 +985,9 @@ const double delta = 1+PROB_UNLIKELY_MAG(4); Block* least = LCA; double least_freq = least->_freq; - uint target = _node_latency.at_grow(self->_idx); - uint start_latency = _node_latency.at_grow(LCA->_nodes[0]->_idx); - uint end_latency = _node_latency.at_grow(LCA->_nodes[LCA->end_idx()]->_idx); + uint target = _node_latency->at_grow(self->_idx); + uint start_latency = _node_latency->at_grow(LCA->_nodes[0]->_idx); + uint end_latency = _node_latency->at_grow(LCA->_nodes[LCA->end_idx()]->_idx); bool in_latency = (target <= start_latency); const Block* root_block = _bbs[_root->_idx]; @@ -1005,7 +1005,7 @@ #ifndef PRODUCT if (trace_opto_pipelining()) { tty->print("# Find cheaper block for latency %d: ", - _node_latency.at_grow(self->_idx)); + _node_latency->at_grow(self->_idx)); self->dump(); tty->print_cr("# B%d: start latency for [%4d]=%d, end latency for [%4d]=%d, freq=%g", LCA->_pre_order, @@ -1032,9 +1032,9 @@ if (mach && LCA == root_block) break; - uint start_lat = _node_latency.at_grow(LCA->_nodes[0]->_idx); + uint start_lat = _node_latency->at_grow(LCA->_nodes[0]->_idx); uint end_idx = LCA->end_idx(); - uint end_lat = _node_latency.at_grow(LCA->_nodes[end_idx]->_idx); + uint end_lat = _node_latency->at_grow(LCA->_nodes[end_idx]->_idx); double LCA_freq = LCA->_freq; #ifndef PRODUCT if (trace_opto_pipelining()) { @@ -1073,7 +1073,7 @@ tty->print_cr("# Change latency for [%4d] from %d to %d", self->_idx, target, end_latency); } #endif - _node_latency.at_put_grow(self->_idx, end_latency); + _node_latency->at_put_grow(self->_idx, end_latency); partial_latency_of_defs(self); } @@ -1255,8 +1255,7 @@ // Compute the latency information (via backwards walk) for all the // instructions in the graph - GrowableArray<uint> node_latency; - _node_latency = node_latency; + _node_latency = new GrowableArray<uint>(); // resource_area allocation if( C->do_scheduling() ) ComputeLatenciesBackwards(visited, stack); @@ -1341,6 +1340,8 @@ } } #endif + // Dead. + _node_latency = (GrowableArray<uint> *)0xdeadbeef; }
--- a/src/share/vm/opto/lcm.cpp Fri Jul 30 10:21:15 2010 -0700 +++ b/src/share/vm/opto/lcm.cpp Tue Aug 03 15:55:03 2010 -0700 @@ -461,7 +461,7 @@ n_choice = 1; } - uint n_latency = cfg->_node_latency.at_grow(n->_idx); + uint n_latency = cfg->_node_latency->at_grow(n->_idx); uint n_score = n->req(); // Many inputs get high score to break ties // Keep best latency found @@ -738,7 +738,7 @@ Node *n = _nodes[j]; int idx = n->_idx; tty->print("# ready cnt:%3d ", ready_cnt[idx]); - tty->print("latency:%3d ", cfg->_node_latency.at_grow(idx)); + tty->print("latency:%3d ", cfg->_node_latency->at_grow(idx)); tty->print("%4d: %s\n", idx, n->Name()); } } @@ -765,7 +765,7 @@ #ifndef PRODUCT if (cfg->trace_opto_pipelining()) { tty->print("# select %d: %s", n->_idx, n->Name()); - tty->print(", latency:%d", cfg->_node_latency.at_grow(n->_idx)); + tty->print(", latency:%d", cfg->_node_latency->at_grow(n->_idx)); n->dump(); if (Verbose) { tty->print("# ready list:");
--- a/src/share/vm/utilities/growableArray.hpp Fri Jul 30 10:21:15 2010 -0700 +++ b/src/share/vm/utilities/growableArray.hpp Tue Aug 03 15:55:03 2010 -0700 @@ -97,7 +97,10 @@ assert(_len >= 0 && _len <= _max, "initial_len too big"); _arena = (c_heap ? (Arena*)1 : NULL); set_nesting(); - assert(!c_heap || allocated_on_C_heap(), "growable array must be on C heap if elements are"); + assert(!on_C_heap() || allocated_on_C_heap(), "growable array must be on C heap if elements are"); + assert(!on_stack() || + (allocated_on_res_area() || allocated_on_stack()), + "growable array must be on stack if elements are not on arena and not on C heap"); } // This GA will use the given arena for storage. @@ -108,6 +111,10 @@ assert(_len >= 0 && _len <= _max, "initial_len too big"); _arena = arena; assert(on_arena(), "arena has taken on reserved value 0 or 1"); + // Relax next assert to allow object allocation on resource area, + // on stack or embedded into an other object. + assert(allocated_on_arena() || allocated_on_stack(), + "growable array must be on arena or on stack if elements are on arena"); } void* raw_allocate(int elementSize);