7085860: JSR 292: implement CallSite.setTargetNormal and setTargetVolatile as native methods
Reviewed-by: jrose, never
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#ifndef SHARE_VM_CLASSFILE_STACKMAPFRAME_HPP
#define SHARE_VM_CLASSFILE_STACKMAPFRAME_HPP
#include "classfile/verificationType.hpp"
#include "classfile/verifier.hpp"
#include "oops/methodOop.hpp"
#include "runtime/handles.hpp"
#include "runtime/signature.hpp"
#include "utilities/exceptions.hpp"
// A StackMapFrame represents one frame in the stack map attribute.
enum {
FLAG_THIS_UNINIT = 0x01
};
class StackMapFrame : public ResourceObj {
private:
int32_t _offset;
// See comment in StackMapTable about _frame_count about why these
// fields are int32_t instead of u2.
int32_t _locals_size; // number of valid type elements in _locals
int32_t _stack_size; // number of valid type elements in _stack
int32_t _max_locals;
int32_t _max_stack;
u1 _flags;
VerificationType* _locals; // local variable type array
VerificationType* _stack; // operand stack type array
ClassVerifier* _verifier; // the verifier verifying this method
public:
// constructors
// This constructor is used by the type checker to allocate frames
// in type state, which have _max_locals and _max_stack array elements
// in _locals and _stack.
StackMapFrame(u2 max_locals, u2 max_stack, ClassVerifier* verifier);
// This constructor is used to initialize stackmap frames in stackmap table,
// which have _locals_size and _stack_size array elements in _locals and _stack.
StackMapFrame(int32_t offset,
u1 flags,
u2 locals_size,
u2 stack_size,
u2 max_locals,
u2 max_stack,
VerificationType* locals,
VerificationType* stack,
ClassVerifier* v) : _offset(offset), _flags(flags),
_locals_size(locals_size),
_stack_size(stack_size),
_max_locals(max_locals),
_max_stack(max_stack),
_locals(locals), _stack(stack),
_verifier(v) { }
inline void set_offset(int32_t offset) { _offset = offset; }
inline void set_verifier(ClassVerifier* v) { _verifier = v; }
inline void set_flags(u1 flags) { _flags = flags; }
inline void set_locals_size(u2 locals_size) { _locals_size = locals_size; }
inline void set_stack_size(u2 stack_size) { _stack_size = stack_size; }
inline void clear_stack() { _stack_size = 0; }
inline int32_t offset() const { return _offset; }
inline ClassVerifier* verifier() const { return _verifier; }
inline u1 flags() const { return _flags; }
inline int32_t locals_size() const { return _locals_size; }
inline VerificationType* locals() const { return _locals; }
inline int32_t stack_size() const { return _stack_size; }
inline VerificationType* stack() const { return _stack; }
inline int32_t max_locals() const { return _max_locals; }
inline int32_t max_stack() const { return _max_stack; }
inline bool flag_this_uninit() const { return _flags & FLAG_THIS_UNINIT; }
// Set locals and stack types to bogus
inline void reset() {
int32_t i;
for (i = 0; i < _max_locals; i++) {
_locals[i] = VerificationType::bogus_type();
}
for (i = 0; i < _max_stack; i++) {
_stack[i] = VerificationType::bogus_type();
}
}
// Return a StackMapFrame with the same local variable array and empty stack.
// Stack array is allocate with unused one element.
StackMapFrame* frame_in_exception_handler(u1 flags);
// Set local variable type array based on m's signature.
VerificationType set_locals_from_arg(
const methodHandle m, VerificationType thisKlass, TRAPS);
// Search local variable type array and stack type array.
// Return true if an uninitialized object is found.
bool has_new_object() const;
// Search local variable type array and stack type array.
// Set every element with type of old_object to new_object.
void initialize_object(
VerificationType old_object, VerificationType new_object);
// Copy local variable type array in src into this local variable type array.
void copy_locals(const StackMapFrame* src);
// Copy stack type array in src into this stack type array.
void copy_stack(const StackMapFrame* src);
// Return true if this stack map frame is assignable to target.
bool is_assignable_to(const StackMapFrame* target,
bool is_exception_handler, TRAPS) const;
// Push type into stack type array.
inline void push_stack(VerificationType type, TRAPS) {
assert(!type.is_check(), "Must be a real type");
if (_stack_size >= _max_stack) {
verifier()->verify_error(_offset, "Operand stack overflow");
return;
}
_stack[_stack_size++] = type;
}
inline void push_stack_2(
VerificationType type1, VerificationType type2, TRAPS) {
assert(type1.is_long() || type1.is_double(), "must be long/double");
assert(type2.is_long2() || type2.is_double2(), "must be long/double_2");
if (_stack_size >= _max_stack - 1) {
verifier()->verify_error(_offset, "Operand stack overflow");
return;
}
_stack[_stack_size++] = type1;
_stack[_stack_size++] = type2;
}
// Pop and return the top type on stack without verifying.
inline VerificationType pop_stack(TRAPS) {
if (_stack_size <= 0) {
verifier()->verify_error(_offset, "Operand stack underflow");
return VerificationType::bogus_type();
}
// Put bogus type to indicate it's no longer valid.
// Added to make it consistent with the other pop_stack method.
VerificationType top = _stack[--_stack_size];
NOT_PRODUCT( _stack[_stack_size] = VerificationType::bogus_type(); )
return top;
}
// Pop and return the top type on stack type array after verifying it
// is assignable to type.
inline VerificationType pop_stack(VerificationType type, TRAPS) {
if (_stack_size != 0) {
VerificationType top = _stack[_stack_size - 1];
bool subtype = type.is_assignable_from(
top, verifier(), CHECK_(VerificationType::bogus_type()));
if (subtype) {
_stack_size --;
NOT_PRODUCT( _stack[_stack_size] = VerificationType::bogus_type(); )
return top;
}
}
return pop_stack_ex(type, THREAD);
}
inline void pop_stack_2(
VerificationType type1, VerificationType type2, TRAPS) {
assert(type1.is_long2() || type1.is_double2(), "must be long/double");
assert(type2.is_long() || type2.is_double(), "must be long/double_2");
if (_stack_size >= 2) {
VerificationType top1 = _stack[_stack_size - 1];
bool subtype1 = type1.is_assignable_from(top1, verifier(), CHECK);
VerificationType top2 = _stack[_stack_size - 2];
bool subtype2 = type2.is_assignable_from(top2, verifier(), CHECK);
if (subtype1 && subtype2) {
_stack_size -= 2;
NOT_PRODUCT( _stack[_stack_size] = VerificationType::bogus_type(); )
NOT_PRODUCT( _stack[_stack_size+1] = VerificationType::bogus_type(); )
return;
}
}
pop_stack_ex(type1, THREAD);
pop_stack_ex(type2, THREAD);
}
// Uncommon case that throws exceptions.
VerificationType pop_stack_ex(VerificationType type, TRAPS);
// Return the type at index in local variable array after verifying
// it is assignable to type.
VerificationType get_local(int32_t index, VerificationType type, TRAPS);
// For long/double.
void get_local_2(
int32_t index, VerificationType type1, VerificationType type2, TRAPS);
// Set element at index in local variable array to type.
void set_local(int32_t index, VerificationType type, TRAPS);
// For long/double.
void set_local_2(
int32_t index, VerificationType type1, VerificationType type2, TRAPS);
// Private auxiliary method used only in is_assignable_to(StackMapFrame).
// Returns true if src is assignable to target.
bool is_assignable_to(
VerificationType* src, VerificationType* target, int32_t len, TRAPS) const;
bool has_flag_match_exception(const StackMapFrame* target) const;
// Debugging
void print() const PRODUCT_RETURN;
};
#endif // SHARE_VM_CLASSFILE_STACKMAPFRAME_HPP