提交 ddcb02c0 编写于 作者: K kvn

8014189: JVM crash with SEGV in ConnectionGraph::record_for_escape_analysis()

Summary: Add NULL checks and asserts for Type::make_ptr() returned value.
Reviewed-by: twisti
上级 9712ba15
...@@ -484,6 +484,9 @@ void ConnectionGraph::add_node_to_connection_graph(Node *n, Unique_Node_List *de ...@@ -484,6 +484,9 @@ void ConnectionGraph::add_node_to_connection_graph(Node *n, Unique_Node_List *de
Node* adr = n->in(MemNode::Address); Node* adr = n->in(MemNode::Address);
const Type *adr_type = igvn->type(adr); const Type *adr_type = igvn->type(adr);
adr_type = adr_type->make_ptr(); adr_type = adr_type->make_ptr();
if (adr_type == NULL) {
break; // skip dead nodes
}
if (adr_type->isa_oopptr() || if (adr_type->isa_oopptr() ||
(opcode == Op_StoreP || opcode == Op_StoreN || opcode == Op_StoreNKlass) && (opcode == Op_StoreP || opcode == Op_StoreN || opcode == Op_StoreNKlass) &&
(adr_type == TypeRawPtr::NOTNULL && (adr_type == TypeRawPtr::NOTNULL &&
...@@ -676,14 +679,18 @@ void ConnectionGraph::add_final_edges(Node *n) { ...@@ -676,14 +679,18 @@ void ConnectionGraph::add_final_edges(Node *n) {
case Op_GetAndSetP: case Op_GetAndSetP:
case Op_GetAndSetN: { case Op_GetAndSetN: {
Node* adr = n->in(MemNode::Address); Node* adr = n->in(MemNode::Address);
const Type *adr_type = _igvn->type(adr);
adr_type = adr_type->make_ptr();
#ifdef ASSERT
if (adr_type == NULL) {
n->dump(1);
assert(adr_type != NULL, "dead node should not be on list");
break;
}
#endif
if (opcode == Op_GetAndSetP || opcode == Op_GetAndSetN) { if (opcode == Op_GetAndSetP || opcode == Op_GetAndSetN) {
const Type* t = _igvn->type(n);
if (t->make_ptr() != NULL) {
add_local_var_and_edge(n, PointsToNode::NoEscape, adr, NULL); add_local_var_and_edge(n, PointsToNode::NoEscape, adr, NULL);
} }
}
const Type *adr_type = _igvn->type(adr);
adr_type = adr_type->make_ptr();
if (adr_type->isa_oopptr() || if (adr_type->isa_oopptr() ||
(opcode == Op_StoreP || opcode == Op_StoreN || opcode == Op_StoreNKlass) && (opcode == Op_StoreP || opcode == Op_StoreN || opcode == Op_StoreNKlass) &&
(adr_type == TypeRawPtr::NOTNULL && (adr_type == TypeRawPtr::NOTNULL &&
...@@ -1813,9 +1820,8 @@ Node* ConnectionGraph::optimize_ptr_compare(Node* n) { ...@@ -1813,9 +1820,8 @@ Node* ConnectionGraph::optimize_ptr_compare(Node* n) {
jobj2->ideal_node()->is_Con()) { jobj2->ideal_node()->is_Con()) {
// Klass or String constants compare. Need to be careful with // Klass or String constants compare. Need to be careful with
// compressed pointers - compare types of ConN and ConP instead of nodes. // compressed pointers - compare types of ConN and ConP instead of nodes.
const Type* t1 = jobj1->ideal_node()->bottom_type()->make_ptr(); const Type* t1 = jobj1->ideal_node()->get_ptr_type();
const Type* t2 = jobj2->ideal_node()->bottom_type()->make_ptr(); const Type* t2 = jobj2->ideal_node()->get_ptr_type();
assert(t1 != NULL && t2 != NULL, "sanity");
if (t1->make_ptr() == t2->make_ptr()) { if (t1->make_ptr() == t2->make_ptr()) {
return _pcmp_eq; return _pcmp_eq;
} else { } else {
......
...@@ -219,9 +219,10 @@ void Block::implicit_null_check(PhaseCFG *cfg, Node *proj, Node *val, int allowe ...@@ -219,9 +219,10 @@ void Block::implicit_null_check(PhaseCFG *cfg, Node *proj, Node *val, int allowe
// cannot reason about it; is probably not implicit null exception // cannot reason about it; is probably not implicit null exception
} else { } else {
const TypePtr* tptr; const TypePtr* tptr;
if (UseCompressedOops && Universe::narrow_oop_shift() == 0) { if (UseCompressedOops && (Universe::narrow_oop_shift() == 0 ||
Universe::narrow_klass_shift() == 0)) {
// 32-bits narrow oop can be the base of address expressions // 32-bits narrow oop can be the base of address expressions
tptr = base->bottom_type()->make_ptr(); tptr = base->get_ptr_type();
} else { } else {
// only regular oops are expected here // only regular oops are expected here
tptr = base->bottom_type()->is_ptr(); tptr = base->bottom_type()->is_ptr();
......
...@@ -2783,7 +2783,7 @@ bool LibraryCallKit::inline_unsafe_load_store(BasicType type, LoadStoreKind kind ...@@ -2783,7 +2783,7 @@ bool LibraryCallKit::inline_unsafe_load_store(BasicType type, LoadStoreKind kind
#ifdef _LP64 #ifdef _LP64
if (type == T_OBJECT && adr->bottom_type()->is_ptr_to_narrowoop() && kind == LS_xchg) { if (type == T_OBJECT && adr->bottom_type()->is_ptr_to_narrowoop() && kind == LS_xchg) {
load_store = _gvn.transform(new (C) DecodeNNode(load_store, load_store->bottom_type()->make_ptr())); load_store = _gvn.transform(new (C) DecodeNNode(load_store, load_store->get_ptr_type()));
} }
#endif #endif
......
...@@ -349,11 +349,11 @@ const class TypePtr *MachNode::adr_type() const { ...@@ -349,11 +349,11 @@ const class TypePtr *MachNode::adr_type() const {
if (base == NodeSentinel) return TypePtr::BOTTOM; if (base == NodeSentinel) return TypePtr::BOTTOM;
const Type* t = base->bottom_type(); const Type* t = base->bottom_type();
if (UseCompressedOops && Universe::narrow_oop_shift() == 0) { if (t->isa_narrowoop() && Universe::narrow_oop_shift() == 0) {
// 32-bit unscaled narrow oop can be the base of any address expression // 32-bit unscaled narrow oop can be the base of any address expression
t = t->make_ptr(); t = t->make_ptr();
} }
if (UseCompressedKlassPointers && Universe::narrow_klass_shift() == 0) { if (t->isa_narrowklass() && Universe::narrow_klass_shift() == 0) {
// 32-bit unscaled narrow oop can be the base of any address expression // 32-bit unscaled narrow oop can be the base of any address expression
t = t->make_ptr(); t = t->make_ptr();
} }
......
...@@ -834,7 +834,7 @@ bool PhaseMacroExpand::scalar_replacement(AllocateNode *alloc, GrowableArray <Sa ...@@ -834,7 +834,7 @@ bool PhaseMacroExpand::scalar_replacement(AllocateNode *alloc, GrowableArray <Sa
if (field_val->is_EncodeP()) { if (field_val->is_EncodeP()) {
field_val = field_val->in(1); field_val = field_val->in(1);
} else { } else {
field_val = transform_later(new (C) DecodeNNode(field_val, field_val->bottom_type()->make_ptr())); field_val = transform_later(new (C) DecodeNNode(field_val, field_val->get_ptr_type()));
} }
} }
sfpt->add_req(field_val); sfpt->add_req(field_val);
......
...@@ -1398,6 +1398,21 @@ const TypeLong* Node::find_long_type() const { ...@@ -1398,6 +1398,21 @@ const TypeLong* Node::find_long_type() const {
return NULL; return NULL;
} }
/**
* Return a ptr type for nodes which should have it.
*/
const TypePtr* Node::get_ptr_type() const {
const TypePtr* tp = this->bottom_type()->make_ptr();
#ifdef ASSERT
if (tp == NULL) {
this->dump(1);
assert((tp != NULL), "unexpected node type");
}
#endif
return tp;
}
// Get a double constant from a ConstNode. // Get a double constant from a ConstNode.
// Returns the constant if it is a double ConstNode // Returns the constant if it is a double ConstNode
jdouble Node::getd() const { jdouble Node::getd() const {
......
...@@ -965,6 +965,8 @@ public: ...@@ -965,6 +965,8 @@ public:
} }
const TypeLong* find_long_type() const; const TypeLong* find_long_type() const;
const TypePtr* get_ptr_type() const;
// These guys are called by code generated by ADLC: // These guys are called by code generated by ADLC:
intptr_t get_ptr() const; intptr_t get_ptr() const;
intptr_t get_narrowcon() const; intptr_t get_narrowcon() const;
......
...@@ -929,7 +929,7 @@ void Compile::Process_OopMap_Node(MachNode *mach, int current_offset) { ...@@ -929,7 +929,7 @@ void Compile::Process_OopMap_Node(MachNode *mach, int current_offset) {
scval = new_loc_value( _regalloc, obj_reg, Location::oop ); scval = new_loc_value( _regalloc, obj_reg, Location::oop );
} }
} else { } else {
const TypePtr *tp = obj_node->bottom_type()->make_ptr(); const TypePtr *tp = obj_node->get_ptr_type();
scval = new ConstantOopWriteValue(tp->is_oopptr()->const_oop()->constant_encoding()); scval = new ConstantOopWriteValue(tp->is_oopptr()->const_oop()->constant_encoding());
} }
......
...@@ -863,10 +863,11 @@ const Type *CmpNNode::sub( const Type *t1, const Type *t2 ) const { ...@@ -863,10 +863,11 @@ const Type *CmpNNode::sub( const Type *t1, const Type *t2 ) const {
const TypePtr *r1 = t2->make_ptr(); const TypePtr *r1 = t2->make_ptr();
// Undefined inputs makes for an undefined result // Undefined inputs makes for an undefined result
if( TypePtr::above_centerline(r0->_ptr) || if ((r0 == NULL) || (r1 == NULL) ||
TypePtr::above_centerline(r1->_ptr) ) TypePtr::above_centerline(r0->_ptr) ||
TypePtr::above_centerline(r1->_ptr)) {
return Type::TOP; return Type::TOP;
}
if (r0 == r1 && r0->singleton()) { if (r0 == r1 && r0->singleton()) {
// Equal pointer constants (klasses, nulls, etc.) // Equal pointer constants (klasses, nulls, etc.)
return TypeInt::CC_EQ; return TypeInt::CC_EQ;
......
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