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#ifndef SHARE_PRIMS_JVMTITHREADSTATE_HPP
#define SHARE_PRIMS_JVMTITHREADSTATE_HPP
#include "jvmtifiles/jvmti.h"
#include "memory/allocation.hpp"
#include "prims/jvmtiEventController.hpp"
#include "runtime/thread.hpp"
#include "utilities/growableArray.hpp"
//
// Forward Declarations
//
class JvmtiEnvBase;
class JvmtiEnvThreadState;
class JvmtiDynamicCodeEventCollector;
class JvmtiDeferredEvent;
class JvmtiDeferredEventQueue;
enum JvmtiClassLoadKind {
jvmti_class_load_kind_load = 100,
jvmti_class_load_kind_retransform,
jvmti_class_load_kind_redefine
};
///////////////////////////////////////////////////////////////
//
// class JvmtiEnvThreadStateIterator
//
// The only safe means of iterating through the JvmtiEnvThreadStates
// in a JvmtiThreadState.
// Note that this iteratation includes invalid environments pending
// deallocation -- in fact, some uses depend on this behavior.
//
class JvmtiEnvThreadStateIterator : public StackObj {
private:
JvmtiThreadState* state;
public:
JvmtiEnvThreadStateIterator(JvmtiThreadState* thread_state);
~JvmtiEnvThreadStateIterator();
JvmtiEnvThreadState* first();
JvmtiEnvThreadState* next(JvmtiEnvThreadState* ets);
};
///////////////////////////////////////////////////////////////
//
// class JvmtiThreadState
//
// The Jvmti state for each thread (across all JvmtiEnv):
// 1. Local table of enabled events.
class JvmtiThreadState : public CHeapObj<mtInternal> {
private:
friend class JvmtiEnv;
JavaThread *_thread;
// Jvmti Events that cannot be posted in their current context.
JvmtiDeferredEventQueue* _jvmti_event_queue;
bool _hide_single_stepping;
bool _pending_step_for_popframe;
bool _pending_step_for_earlyret;
int _hide_level;
public:
enum ExceptionState {
ES_CLEARED,
ES_DETECTED,
ES_CAUGHT
};
private:
ExceptionState _exception_state;
// Used to send class being redefined/retransformed and kind of transform
// info to the class file load hook event handler.
Klass* _class_being_redefined;
JvmtiClassLoadKind _class_load_kind;
// This is only valid when is_interp_only_mode() returns true
int _cur_stack_depth;
JvmtiThreadEventEnable _thread_event_enable;
// for support of JvmtiEnvThreadState
JvmtiEnvThreadState* _head_env_thread_state;
// doubly-linked linear list of active thread state
// needed in order to iterate the list without holding Threads_lock
static JvmtiThreadState *_head;
JvmtiThreadState *_next;
JvmtiThreadState *_prev;
// holds the current dynamic code event collector, NULL if no event collector in use
JvmtiDynamicCodeEventCollector* _dynamic_code_event_collector;
// holds the current vm object alloc event collector, NULL if no event collector in use
JvmtiVMObjectAllocEventCollector* _vm_object_alloc_event_collector;
// holds the current sampled object alloc event collector, NULL if no event collector in use
JvmtiSampledObjectAllocEventCollector* _sampled_object_alloc_event_collector;
// Should only be created by factory methods
JvmtiThreadState(JavaThread *thread);
friend class JvmtiEnvThreadStateIterator;
inline JvmtiEnvThreadState* head_env_thread_state();
inline void set_head_env_thread_state(JvmtiEnvThreadState* ets);
public:
~JvmtiThreadState();
// is event_type enabled and usable for this thread in any enviroments?
bool is_enabled(jvmtiEvent event_type) {
return _thread_event_enable.is_enabled(event_type);
}
JvmtiThreadEventEnable *thread_event_enable() {
return &_thread_event_enable;
}
// Must only be called in situations where the state is for the current thread and
// the environment can not go away. To be safe, the returned JvmtiEnvThreadState
// must be used in such a way as there can be no intervening safepoints.
inline JvmtiEnvThreadState* env_thread_state(JvmtiEnvBase *env);
static void periodic_clean_up();
void add_env(JvmtiEnvBase *env);
// Used by the interpreter for fullspeed debugging support
bool is_interp_only_mode() { return _thread->is_interp_only_mode(); }
void enter_interp_only_mode();
void leave_interp_only_mode();
// access to the linked list of all JVMTI thread states
static JvmtiThreadState *first() {
assert(Threads::number_of_threads() == 0 || JvmtiThreadState_lock->is_locked(), "sanity check");
return _head;
}
JvmtiThreadState *next() {
return _next;
}
// Current stack depth is only valid when is_interp_only_mode() returns true.
// These functions should only be called at a safepoint - usually called from same thread.
// Returns the number of Java activations on the stack.
int cur_stack_depth();
void invalidate_cur_stack_depth();
void incr_cur_stack_depth();
void decr_cur_stack_depth();
int count_frames();
inline JavaThread *get_thread() { return _thread; }
inline bool is_exception_detected() { return _exception_state == ES_DETECTED; }
inline bool is_exception_caught() { return _exception_state == ES_CAUGHT; }
inline void set_exception_detected() { _exception_state = ES_DETECTED; }
inline void set_exception_caught() { _exception_state = ES_CAUGHT; }
inline void clear_exception_state() { _exception_state = ES_CLEARED; }
// We need to save and restore exception state inside JvmtiEventMark
inline ExceptionState get_exception_state() { return _exception_state; }
inline void restore_exception_state(ExceptionState state) { _exception_state = state; }
inline void clear_hide_single_stepping() {
if (_hide_level > 0) {
_hide_level--;
} else {
assert(_hide_single_stepping, "hide_single_stepping is out of phase");
_hide_single_stepping = false;
}
}
inline bool hide_single_stepping() { return _hide_single_stepping; }
inline void set_hide_single_stepping() {
if (_hide_single_stepping) {
_hide_level++;
} else {
assert(_hide_level == 0, "hide_level is out of phase");
_hide_single_stepping = true;
}
}
// Step pending flag is set when PopFrame is called and it is cleared
// when step for the Pop Frame is completed.
// This logic is used to distinguish b/w step for pop frame and repeat step.
void set_pending_step_for_popframe() { _pending_step_for_popframe = true; }
void clr_pending_step_for_popframe() { _pending_step_for_popframe = false; }
bool is_pending_step_for_popframe() { return _pending_step_for_popframe; }
void process_pending_step_for_popframe();
// Step pending flag is set when ForceEarlyReturn is called and it is cleared
// when step for the ForceEarlyReturn is completed.
// This logic is used to distinguish b/w step for early return and repeat step.
void set_pending_step_for_earlyret() { _pending_step_for_earlyret = true; }
void clr_pending_step_for_earlyret() { _pending_step_for_earlyret = false; }
bool is_pending_step_for_earlyret() { return _pending_step_for_earlyret; }
void process_pending_step_for_earlyret();
// Setter and getter method is used to send redefined class info
// when class file load hook event is posted.
// It is set while loading redefined class and cleared before the
// class file load hook event is posted.
inline void set_class_being_redefined(Klass* k, JvmtiClassLoadKind kind) {
_class_being_redefined = k;
_class_load_kind = kind;
}
inline void clear_class_being_redefined() {
_class_being_redefined = NULL;
_class_load_kind = jvmti_class_load_kind_load;
}
inline Klass* get_class_being_redefined() {
return _class_being_redefined;
}
inline JvmtiClassLoadKind get_class_load_kind() {
return _class_load_kind;
}
// RedefineClasses support
// The bug 6214132 caused the verification to fail.
//
// Below is the detailed description of the fix approach taken:
// 1. What's done in RedefineClasses() before verification:
// a) A reference to the class being redefined (_the_class) and a
// reference to new version of the class (_scratch_class) are
// saved here for use during the bytecode verification phase of
// RedefineClasses. See RedefineVerifyMark for how these fields
// are managed.
// b) The _java_mirror field from _the_class is copied to the
// _java_mirror field in _scratch_class. This means that a jclass
// returned for _the_class or _scratch_class will refer to the
// same Java mirror. The verifier will see the "one true mirror"
// for the class being verified.
// 2. What is done at verification:
// When the verifier makes calls into the VM to ask questions about
// the class being verified, it will pass the jclass to JVM_* functions.
// The jclass is always pointing to the mirror of _the_class.
// ~28 JVM_* functions called by the verifier for the information
// about CP entries and klass structure should check the jvmtiThreadState
// info about equivalent klass versions and use it to replace a Klass*
// of _the_class with a Klass* of _scratch_class. The function
// class_to_verify_considering_redefinition() must be called for it.
//
// Note again, that this redirection happens only for the verifier thread.
// Other threads have very small overhead by checking the existence
// of the jvmtiThreadSate and the information about klasses equivalence.
// No JNI functions need to be changed, they don't reference the klass guts.
// The JavaThread pointer is already available in all JVM_* functions
// used by the verifier, so there is no extra performance issue with it.
private:
Klass* _the_class_for_redefinition_verification;
Klass* _scratch_class_for_redefinition_verification;
public:
inline void set_class_versions_map(Klass* the_class,
Klass* scratch_class) {
_the_class_for_redefinition_verification = the_class;
_scratch_class_for_redefinition_verification = scratch_class;
}
inline void clear_class_versions_map() { set_class_versions_map(NULL, NULL); }
static inline
Klass* class_to_verify_considering_redefinition(Klass* klass,
JavaThread *thread) {
JvmtiThreadState *state = thread->jvmti_thread_state();
if (state != NULL && state->_the_class_for_redefinition_verification != NULL) {
if (state->_the_class_for_redefinition_verification == klass) {
klass = state->_scratch_class_for_redefinition_verification;
}
}
return klass;
}
// Todo: get rid of this!
private:
bool _debuggable;
public:
// Should the thread be enumerated by jvmtiInternal::GetAllThreads?
bool is_debuggable() { return _debuggable; }
// If a thread cannot be suspended (has no valid last_java_frame) then it gets marked !debuggable
void set_debuggable(bool debuggable) { _debuggable = debuggable; }
public:
bool may_be_walked();
// Thread local event collector setter and getter methods.
JvmtiDynamicCodeEventCollector* get_dynamic_code_event_collector() {
return _dynamic_code_event_collector;
}
JvmtiVMObjectAllocEventCollector* get_vm_object_alloc_event_collector() {
return _vm_object_alloc_event_collector;
}
JvmtiSampledObjectAllocEventCollector* get_sampled_object_alloc_event_collector() {
return _sampled_object_alloc_event_collector;
}
void set_dynamic_code_event_collector(JvmtiDynamicCodeEventCollector* collector) {
_dynamic_code_event_collector = collector;
}
void set_vm_object_alloc_event_collector(JvmtiVMObjectAllocEventCollector* collector) {
_vm_object_alloc_event_collector = collector;
}
void set_sampled_object_alloc_event_collector(JvmtiSampledObjectAllocEventCollector* collector) {
_sampled_object_alloc_event_collector = collector;
}
//
// Frame routines
//
public:
// true when the thread was suspended with a pointer to the last Java frame.
bool has_last_frame() { return _thread->has_last_Java_frame(); }
void update_for_pop_top_frame();
// already holding JvmtiThreadState_lock - retrieve or create JvmtiThreadState
// Can return NULL if JavaThread is exiting.
static JvmtiThreadState *state_for_while_locked(JavaThread *thread);
// retrieve or create JvmtiThreadState
// Can return NULL if JavaThread is exiting.
static JvmtiThreadState *state_for(JavaThread *thread);
// JVMTI ForceEarlyReturn support
// This is set to earlyret_pending to signal that top Java frame
// should be returned immediately
public:
int _earlyret_state;
TosState _earlyret_tos;
jvalue _earlyret_value;
oop _earlyret_oop; // Used to return an oop result into Java code from
// ForceEarlyReturnObject, GC-preserved
// Setting and clearing earlyret_state
// earlyret_pending indicates that a ForceEarlyReturn() has been
// requested and not yet been completed.
public:
enum EarlyretState {
earlyret_inactive = 0,
earlyret_pending = 1
};
void set_earlyret_pending(void) { _earlyret_state = earlyret_pending; }
void clr_earlyret_pending(void) { _earlyret_state = earlyret_inactive; }
bool is_earlyret_pending(void) { return (_earlyret_state == earlyret_pending); }
TosState earlyret_tos() { return _earlyret_tos; }
oop earlyret_oop() const { return _earlyret_oop; }
void set_earlyret_oop (oop x) { _earlyret_oop = x; }
jvalue earlyret_value() { return _earlyret_value; }
void set_earlyret_value(jvalue val, TosState tos) { _earlyret_tos = tos; _earlyret_value = val; }
void clr_earlyret_value() { _earlyret_tos = ilgl; _earlyret_value.j = 0L; }
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