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* version 2 for more details (a copy is included in the LICENSE file that
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*
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#ifndef SHARE_PRIMS_JVMTIIMPL_HPP
#define SHARE_PRIMS_JVMTIIMPL_HPP
#include "classfile/systemDictionary.hpp"
#include "jvmtifiles/jvmti.h"
#include "oops/objArrayOop.hpp"
#include "prims/jvmtiEnvThreadState.hpp"
#include "prims/jvmtiEventController.hpp"
#include "prims/jvmtiTrace.hpp"
#include "prims/jvmtiUtil.hpp"
#include "runtime/stackValueCollection.hpp"
#include "runtime/vmOperations.hpp"
#include "utilities/ostream.hpp"
//
// Forward Declarations
//
class JvmtiBreakpoint;
class JvmtiBreakpoints;
///////////////////////////////////////////////////////////////
//
// class GrowableCache, GrowableElement
// Used by : JvmtiBreakpointCache
// Used by JVMTI methods: none directly.
//
// GrowableCache is a permanent CHeap growable array of <GrowableElement *>
//
// In addition, the GrowableCache maintains a NULL terminated cache array of type address
// that's created from the element array using the function:
// address GrowableElement::getCacheValue().
//
// Whenever the GrowableArray changes size, the cache array gets recomputed into a new C_HEAP allocated
// block of memory. Additionally, every time the cache changes its position in memory, the
// void (*_listener_fun)(void *this_obj, address* cache)
// gets called with the cache's new address. This gives the user of the GrowableCache a callback
// to update its pointer to the address cache.
//
class GrowableElement : public CHeapObj<mtInternal> {
public:
virtual ~GrowableElement() {}
virtual address getCacheValue() =0;
virtual bool equals(GrowableElement* e) =0;
virtual bool lessThan(GrowableElement *e)=0;
virtual GrowableElement *clone() =0;
virtual void oops_do(OopClosure* f) =0;
virtual void metadata_do(void f(Metadata*)) =0;
};
class GrowableCache {
private:
// Object pointer passed into cache & listener functions.
void *_this_obj;
// Array of elements in the collection
GrowableArray<GrowableElement *> *_elements;
// Parallel array of cached values
address *_cache;
// Listener for changes to the _cache field.
// Called whenever the _cache field has it's value changed
// (but NOT when cached elements are recomputed).
void (*_listener_fun)(void *, address*);
static bool equals(void *, GrowableElement *);
// recache all elements after size change, notify listener
void recache();
public:
GrowableCache();
~GrowableCache();
void initialize(void *this_obj, void listener_fun(void *, address*) );
// number of elements in the collection
int length();
// get the value of the index element in the collection
GrowableElement* at(int index);
// find the index of the element, -1 if it doesn't exist
int find(GrowableElement* e);
// append a copy of the element to the end of the collection, notify listener
void append(GrowableElement* e);
// insert a copy of the element using lessthan(), notify listener
void insert(GrowableElement* e);
// remove the element at index, notify listener
void remove (int index);
// clear out all elements and release all heap space, notify listener
void clear();
// apply f to every element and update the cache
void oops_do(OopClosure* f);
// walk metadata to preserve for RedefineClasses
void metadata_do(void f(Metadata*));
};
///////////////////////////////////////////////////////////////
//
// class JvmtiBreakpointCache
// Used by : JvmtiBreakpoints
// Used by JVMTI methods: none directly.
// Note : typesafe wrapper for GrowableCache of JvmtiBreakpoint
//
class JvmtiBreakpointCache : public CHeapObj<mtInternal> {
private:
GrowableCache _cache;
public:
JvmtiBreakpointCache() {}
~JvmtiBreakpointCache() {}
void initialize(void *this_obj, void listener_fun(void *, address*) ) {
_cache.initialize(this_obj,listener_fun);
}
int length() { return _cache.length(); }
JvmtiBreakpoint& at(int index) { return (JvmtiBreakpoint&) *(_cache.at(index)); }
int find(JvmtiBreakpoint& e) { return _cache.find((GrowableElement *) &e); }
void append(JvmtiBreakpoint& e) { _cache.append((GrowableElement *) &e); }
void remove (int index) { _cache.remove(index); }
void clear() { _cache.clear(); }
void oops_do(OopClosure* f) { _cache.oops_do(f); }
void metadata_do(void f(Metadata*)) { _cache.metadata_do(f); }
};
///////////////////////////////////////////////////////////////
//
// class JvmtiBreakpoint
// Used by : JvmtiBreakpoints
// Used by JVMTI methods: SetBreakpoint, ClearBreakpoint, ClearAllBreakpoints
// Note: Extends GrowableElement for use in a GrowableCache
//
// A JvmtiBreakpoint describes a location (class, method, bci) to break at.
//
typedef void (Method::*method_action)(int _bci);
class JvmtiBreakpoint : public GrowableElement {
private:
Method* _method;
int _bci;
Bytecodes::Code _orig_bytecode;
oop _class_holder; // keeps _method memory from being deallocated
public:
JvmtiBreakpoint();
JvmtiBreakpoint(Method* m_method, jlocation location);
bool equals(JvmtiBreakpoint& bp);
bool lessThan(JvmtiBreakpoint &bp);
void copy(JvmtiBreakpoint& bp);
bool is_valid();
address getBcp() const;
void each_method_version_do(method_action meth_act);
void set();
void clear();
void print_on(outputStream* out) const;
Method* method() { return _method; }
// GrowableElement implementation
address getCacheValue() { return getBcp(); }
bool lessThan(GrowableElement* e) { Unimplemented(); return false; }
bool equals(GrowableElement* e) { return equals((JvmtiBreakpoint&) *e); }
void oops_do(OopClosure* f) {
// Mark the method loader as live so the Method* class loader doesn't get
// unloaded and Method* memory reclaimed.
f->do_oop(&_class_holder);
}
void metadata_do(void f(Metadata*)) {
// walk metadata to preserve for RedefineClasses
f(_method);
}
GrowableElement *clone() {
JvmtiBreakpoint *bp = new JvmtiBreakpoint();
bp->copy(*this);
return bp;
}
};
///////////////////////////////////////////////////////////////
//
// class JvmtiBreakpoints
// Used by : JvmtiCurrentBreakpoints
// Used by JVMTI methods: none directly
// Note: A Helper class
//
// JvmtiBreakpoints is a GrowableCache of JvmtiBreakpoint.
// All changes to the GrowableCache occur at a safepoint using VM_ChangeBreakpoints.
//
// Because _bps is only modified at safepoints, its possible to always use the
// cached byte code pointers from _bps without doing any synchronization (see JvmtiCurrentBreakpoints).
//
// It would be possible to make JvmtiBreakpoints a static class, but I've made it
// CHeap allocated to emphasize its similarity to JvmtiFramePops.
//
class JvmtiBreakpoints : public CHeapObj<mtInternal> {
private:
JvmtiBreakpointCache _bps;
// These should only be used by VM_ChangeBreakpoints
// to insure they only occur at safepoints.
// Todo: add checks for safepoint
friend class VM_ChangeBreakpoints;
void set_at_safepoint(JvmtiBreakpoint& bp);
void clear_at_safepoint(JvmtiBreakpoint& bp);
static void do_element(GrowableElement *e);
public:
JvmtiBreakpoints(void listener_fun(void *, address *));
~JvmtiBreakpoints();
int length();
void oops_do(OopClosure* f);
void metadata_do(void f(Metadata*));
void print();
int set(JvmtiBreakpoint& bp);
int clear(JvmtiBreakpoint& bp);
void clearall_in_class_at_safepoint(Klass* klass);
};
///////////////////////////////////////////////////////////////
//
// class JvmtiCurrentBreakpoints
//
// A static wrapper class for the JvmtiBreakpoints that provides:
// 1. a fast inlined function to check if a byte code pointer is a breakpoint (is_breakpoint).
// 2. a function for lazily creating the JvmtiBreakpoints class (this is not strictly necessary,
// but I'm copying the code from JvmtiThreadState which needs to lazily initialize
// JvmtiFramePops).
// 3. An oops_do entry point for GC'ing the breakpoint array.
//
class JvmtiCurrentBreakpoints : public AllStatic {
private:
// Current breakpoints, lazily initialized by get_jvmti_breakpoints();
static JvmtiBreakpoints *_jvmti_breakpoints;
// NULL terminated cache of byte-code pointers corresponding to current breakpoints.
// Updated only at safepoints (with listener_fun) when the cache is moved.
// It exists only to make is_breakpoint fast.
static address *_breakpoint_list;
static inline void set_breakpoint_list(address *breakpoint_list) { _breakpoint_list = breakpoint_list; }
static inline address *get_breakpoint_list() { return _breakpoint_list; }
// Listener for the GrowableCache in _jvmti_breakpoints, updates _breakpoint_list.
static void listener_fun(void *this_obj, address *cache);
public:
static void initialize();
static void destroy();
// lazily create _jvmti_breakpoints and _breakpoint_list
static JvmtiBreakpoints& get_jvmti_breakpoints();
static void oops_do(OopClosure* f);
static void metadata_do(void f(Metadata*)) NOT_JVMTI_RETURN;
};
///////////////////////////////////////////////////////////////
//
// class VM_ChangeBreakpoints
// Used by : JvmtiBreakpoints
// Used by JVMTI methods: none directly.
// Note: A Helper class.
//
// VM_ChangeBreakpoints implements a VM_Operation for ALL modifications to the JvmtiBreakpoints class.
//
class VM_ChangeBreakpoints : public VM_Operation {
private:
JvmtiBreakpoints* _breakpoints;
int _operation;
JvmtiBreakpoint* _bp;
public:
enum { SET_BREAKPOINT=0, CLEAR_BREAKPOINT=1 };
VM_ChangeBreakpoints(int operation, JvmtiBreakpoint *bp) {
JvmtiBreakpoints& current_bps = JvmtiCurrentBreakpoints::get_jvmti_breakpoints();
_breakpoints = ¤t_bps;
_bp = bp;
_operation = operation;
assert(bp != NULL, "bp != NULL");
}
VMOp_Type type() const { return VMOp_ChangeBreakpoints; }
void doit();
void oops_do(OopClosure* f);
void metadata_do(void f(Metadata*));
};
///////////////////////////////////////////////////////////////
// The get/set local operations must only be done by the VM thread
// because the interpreter version needs to access oop maps, which can
// only safely be done by the VM thread
//
// I'm told that in 1.5 oop maps are now protected by a lock and
// we could get rid of the VM op
// However if the VM op is removed then the target thread must
// be suspended AND a lock will be needed to prevent concurrent
// setting of locals to the same java thread. This lock is needed
// to prevent compiledVFrames from trying to add deferred updates
// to the thread simultaneously.
//
class VM_GetOrSetLocal : public VM_Operation {
protected:
JavaThread* _thread;
JavaThread* _calling_thread;
jint _depth;
jint _index;
BasicType _type;
jvalue _value;
javaVFrame* _jvf;
bool _set;
// It is possible to get the receiver out of a non-static native wrapper
// frame. Use VM_GetReceiver to do this.
virtual bool getting_receiver() const { return false; }
jvmtiError _result;
vframe* get_vframe();
javaVFrame* get_java_vframe();
bool check_slot_type_lvt(javaVFrame* vf);
bool check_slot_type_no_lvt(javaVFrame* vf);
public:
// Constructor for non-object getter
VM_GetOrSetLocal(JavaThread* thread, jint depth, jint index, BasicType type);
// Constructor for object or non-object setter
VM_GetOrSetLocal(JavaThread* thread, jint depth, jint index, BasicType type, jvalue value);
// Constructor for object getter
VM_GetOrSetLocal(JavaThread* thread, JavaThread* calling_thread, jint depth,
int index);
VMOp_Type type() const { return VMOp_GetOrSetLocal; }
jvalue value() { return _value; }
jvmtiError result() { return _result; }
bool doit_prologue();
void doit();
bool allow_nested_vm_operations() const;
const char* name() const { return "get/set locals"; }
// Check that the klass is assignable to a type with the given signature.
static bool is_assignable(const char* ty_sign, Klass* klass, Thread* thread);
};
class VM_GetReceiver : public VM_GetOrSetLocal {
protected:
virtual bool getting_receiver() const { return true; }
public:
VM_GetReceiver(JavaThread* thread, JavaThread* calling_thread, jint depth);
const char* name() const { return "get receiver"; }
};
///////////////////////////////////////////////////////////////
//
// class JvmtiSuspendControl
//
// Convenience routines for suspending and resuming threads.
//
// All attempts by JVMTI to suspend and resume threads must go through the
// JvmtiSuspendControl interface.
//
// methods return true if successful
//
class JvmtiSuspendControl : public AllStatic {
public:
// suspend the thread, taking it to a safepoint
static bool suspend(JavaThread *java_thread);
// resume the thread
static bool resume(JavaThread *java_thread);
static void print();
};
/**
* When a thread (such as the compiler thread or VM thread) cannot post a
* JVMTI event itself because the event needs to be posted from a Java
* thread, then it can defer the event to the Service thread for posting.
* The information needed to post the event is encapsulated into this class
* and then enqueued onto the JvmtiDeferredEventQueue, where the Service
* thread will pick it up and post it.
*
* This is currently only used for posting compiled-method-load and unload
* events, which we don't want posted from the compiler thread.
*/
class JvmtiDeferredEvent {
friend class JvmtiDeferredEventQueue;
private:
typedef enum {
TYPE_NONE,
TYPE_COMPILED_METHOD_LOAD,
TYPE_COMPILED_METHOD_UNLOAD,
TYPE_DYNAMIC_CODE_GENERATED,
TYPE_CLASS_UNLOAD
} Type;
Type _type;
union {
nmethod* compiled_method_load;
struct {
jmethodID method_id;
const void* code_begin;
} compiled_method_unload;
struct {
const char* name;
const void* code_begin;
const void* code_end;
} dynamic_code_generated;
struct {
const char* name;
} class_unload;
} _event_data;
JvmtiDeferredEvent(Type t) : _type(t) {}
public:
JvmtiDeferredEvent() : _type(TYPE_NONE) {}
// Factory methods
static JvmtiDeferredEvent compiled_method_load_event(nmethod* nm)
NOT_JVMTI_RETURN_(JvmtiDeferredEvent());
static JvmtiDeferredEvent compiled_method_unload_event(
jmethodID id, const void* code) NOT_JVMTI_RETURN_(JvmtiDeferredEvent());
static JvmtiDeferredEvent dynamic_code_generated_event(
const char* name, const void* begin, const void* end)
NOT_JVMTI_RETURN_(JvmtiDeferredEvent());
static JvmtiDeferredEvent class_unload_event(
const char* name) NOT_JVMTI_RETURN_(JvmtiDeferredEvent());
// Actually posts the event.
void post() NOT_JVMTI_RETURN;
void post_compiled_method_load_event(JvmtiEnv* env) NOT_JVMTI_RETURN;
void run_nmethod_entry_barriers() NOT_JVMTI_RETURN;
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