8010319: Implementation of JEP 181: Nest-Based Access Control
Reviewed-by: alanb, psandoz, mchung, coleenp, acorn, mcimadamore, forax, jlahoda, sspitsyn, abuckley
Contributed-by: alex.buckley@oracle.com, maurizio.mimadamore@oracle.com, mandy.chung@oracle.com, tobias.hartmann@oracle.com, david.holmes@oracle.com, vladimir.x.ivanov@oracle.com, karen.kinnear@oracle.com, vladimir.kozlov@oracle.com, john.r.rose@oracle.com, daniel.smith@oracle.com, serguei.spitsyn@oracle.com, kumardotsrinivasan@gmail.com, boris.ulasevich@bell-sw.com
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#ifndef SHARE_VM_RUNTIME_REGISTERMAP_HPP
#define SHARE_VM_RUNTIME_REGISTERMAP_HPP
#include "code/vmreg.hpp"
#include "utilities/globalDefinitions.hpp"
#include "utilities/macros.hpp"
class JavaThread;
//
// RegisterMap
//
// A companion structure used for stack traversal. The RegisterMap contains
// misc. information needed in order to do correct stack traversal of stack
// frames. Hence, it must always be passed in as an argument to
// frame::sender(RegisterMap*).
//
// In particular,
// 1) It provides access to the thread for which the stack belongs. The
// thread object is needed in order to get sender of a deoptimized frame.
//
// 2) It is used to pass information from a callee frame to its caller
// frame about how the frame should be traversed. This is used to let
// the caller frame take care of calling oops-do of out-going
// arguments, when the callee frame is not instantiated yet. This
// happens, e.g., when a compiled frame calls into
// resolve_virtual_call. (Hence, it is critical that the same
// RegisterMap object is used for the entire stack walk. Normally,
// this is hidden by using the StackFrameStream.) This is used when
// doing follow_oops and oops_do.
//
// 3) The RegisterMap keeps track of the values of callee-saved registers
// from frame to frame (hence, the name). For some stack traversal the
// values of the callee-saved registers does not matter, e.g., if you
// only need the static properties such as frame type, pc, and such.
// Updating of the RegisterMap can be turned off by instantiating the
// register map as: RegisterMap map(thread, false);
class RegisterMap : public StackObj {
public:
typedef julong LocationValidType;
enum {
reg_count = ConcreteRegisterImpl::number_of_registers,
location_valid_type_size = sizeof(LocationValidType)*8,
location_valid_size = (reg_count+location_valid_type_size-1)/location_valid_type_size
};
private:
intptr_t* _location[reg_count]; // Location of registers (intptr_t* looks better than address in the debugger)
LocationValidType _location_valid[location_valid_size];
bool _include_argument_oops; // Should include argument_oop marked locations for compiler
JavaThread* _thread; // Reference to current thread
bool _update_map; // Tells if the register map need to be
// updated when traversing the stack
#ifdef ASSERT
void check_location_valid();
#else
void check_location_valid() {}
#endif
public:
debug_only(intptr_t* _update_for_id;) // Assert that RegisterMap is not updated twice for same frame
RegisterMap(JavaThread *thread, bool update_map = true);
RegisterMap(const RegisterMap* map);
address location(VMReg reg) const {
int index = reg->value() / location_valid_type_size;
assert(0 <= reg->value() && reg->value() < reg_count, "range check");
assert(0 <= index && index < location_valid_size, "range check");
if (_location_valid[index] & ((LocationValidType)1 << (reg->value() % location_valid_type_size))) {
return (address) _location[reg->value()];
} else {
return pd_location(reg);
}
}
void set_location(VMReg reg, address loc) {
int index = reg->value() / location_valid_type_size;
assert(0 <= reg->value() && reg->value() < reg_count, "range check");
assert(0 <= index && index < location_valid_size, "range check");
assert(_update_map, "updating map that does not need updating");
_location[reg->value()] = (intptr_t*) loc;
_location_valid[index] |= ((LocationValidType)1 << (reg->value() % location_valid_type_size));
check_location_valid();
}
// Called by an entry frame.
void clear();
bool include_argument_oops() const { return _include_argument_oops; }
void set_include_argument_oops(bool f) { _include_argument_oops = f; }
JavaThread *thread() const { return _thread; }
bool update_map() const { return _update_map; }
void print_on(outputStream* st) const;
void print() const;
// the following contains the definition of pd_xxx methods
#include CPU_HEADER(registerMap)
};
#endif // SHARE_VM_RUNTIME_REGISTERMAP_HPP