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|
/*
* Copyright (c) 2012, 2014, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*
*/
#include "precompiled.hpp"
#include "memory/metadataFactory.hpp"
#include "memory/universe.hpp"
#include "oops/oop.inline.hpp"
#include "classfile/symbolTable.hpp"
#include "classfile/classLoaderData.hpp"
#include "prims/whitebox.hpp"
#include "prims/wbtestmethods/parserTests.hpp"
#include "runtime/arguments.hpp"
#include "runtime/interfaceSupport.hpp"
#include "runtime/os.hpp"
#include "utilities/array.hpp"
#include "utilities/debug.hpp"
#include "utilities/macros.hpp"
#include "utilities/exceptions.hpp"
#if INCLUDE_ALL_GCS
#include "gc_implementation/parallelScavenge/parallelScavengeHeap.inline.hpp"
#include "gc_implementation/g1/concurrentMark.hpp"
#include "gc_implementation/g1/g1CollectedHeap.inline.hpp"
#include "gc_implementation/g1/heapRegionRemSet.hpp"
#endif // INCLUDE_ALL_GCS
#if INCLUDE_NMT
#include "services/mallocSiteTable.hpp"
#include "services/memTracker.hpp"
#include "utilities/nativeCallStack.hpp"
#endif // INCLUDE_NMT
#include "compiler/compileBroker.hpp"
#include "runtime/compilationPolicy.hpp"
PRAGMA_FORMAT_MUTE_WARNINGS_FOR_GCC
#define SIZE_T_MAX_VALUE ((size_t) -1)
bool WhiteBox::_used = false;
WB_ENTRY(jlong, WB_GetObjectAddress(JNIEnv* env, jobject o, jobject obj))
return (jlong)(void*)JNIHandles::resolve(obj);
WB_END
WB_ENTRY(jint, WB_GetHeapOopSize(JNIEnv* env, jobject o))
return heapOopSize;
WB_END
class WBIsKlassAliveClosure : public KlassClosure {
Symbol* _name;
bool _found;
public:
WBIsKlassAliveClosure(Symbol* name) : _name(name), _found(false) {}
void do_klass(Klass* k) {
if (_found) return;
Symbol* ksym = k->name();
if (ksym->fast_compare(_name) == 0) {
_found = true;
}
}
bool found() const {
return _found;
}
};
WB_ENTRY(jboolean, WB_IsClassAlive(JNIEnv* env, jobject target, jstring name))
Handle h_name = JNIHandles::resolve(name);
if (h_name.is_null()) return false;
Symbol* sym = java_lang_String::as_symbol(h_name, CHECK_false);
TempNewSymbol tsym(sym); // Make sure to decrement reference count on sym on return
WBIsKlassAliveClosure closure(sym);
ClassLoaderDataGraph::classes_do(&closure);
return closure.found();
WB_END
WB_ENTRY(jboolean, WB_ClassKnownToNotExist(JNIEnv* env, jobject o, jobject loader, jstring name))
ThreadToNativeFromVM ttnfv(thread); // can't be in VM when we call JNI
const char* class_name = env->GetStringUTFChars(name, NULL);
jboolean result = JVM_KnownToNotExist(env, loader, class_name);
env->ReleaseStringUTFChars(name, class_name);
return result;
WB_END
WB_ENTRY(jobjectArray, WB_GetLookupCacheURLs(JNIEnv* env, jobject o, jobject loader))
ThreadToNativeFromVM ttnfv(thread); // can't be in VM when we call JNI
return JVM_GetResourceLookupCacheURLs(env, loader);
WB_END
WB_ENTRY(jintArray, WB_GetLookupCacheMatches(JNIEnv* env, jobject o, jobject loader, jstring name))
ThreadToNativeFromVM ttnfv(thread); // can't be in VM when we call JNI
const char* resource_name = env->GetStringUTFChars(name, NULL);
jintArray result = JVM_GetResourceLookupCache(env, loader, resource_name);
env->ReleaseStringUTFChars(name, resource_name);
return result;
WB_END
WB_ENTRY(jlong, WB_GetCompressedOopsMaxHeapSize(JNIEnv* env, jobject o)) {
return (jlong)Arguments::max_heap_for_compressed_oops();
}
WB_END
WB_ENTRY(void, WB_PrintHeapSizes(JNIEnv* env, jobject o)) {
CollectorPolicy * p = Universe::heap()->collector_policy();
gclog_or_tty->print_cr("Minimum heap "SIZE_FORMAT" Initial heap "
SIZE_FORMAT" Maximum heap "SIZE_FORMAT" Min alignment "SIZE_FORMAT" Max alignment "SIZE_FORMAT,
p->min_heap_byte_size(), p->initial_heap_byte_size(), p->max_heap_byte_size(),
p->space_alignment(), p->heap_alignment());
}
WB_END
#ifndef PRODUCT
// Forward declaration
void TestReservedSpace_test();
void TestReserveMemorySpecial_test();
void TestVirtualSpace_test();
void TestMetaspaceAux_test();
#endif
WB_ENTRY(void, WB_RunMemoryUnitTests(JNIEnv* env, jobject o))
#ifndef PRODUCT
TestReservedSpace_test();
TestReserveMemorySpecial_test();
TestVirtualSpace_test();
TestMetaspaceAux_test();
#endif
WB_END
WB_ENTRY(void, WB_ReadFromNoaccessArea(JNIEnv* env, jobject o))
size_t granularity = os::vm_allocation_granularity();
ReservedHeapSpace rhs(100 * granularity, granularity, false, NULL);
VirtualSpace vs;
vs.initialize(rhs, 50 * granularity);
//Check if constraints are complied
if (!( UseCompressedOops && rhs.base() != NULL &&
Universe::narrow_oop_base() != NULL &&
Universe::narrow_oop_use_implicit_null_checks() )) {
tty->print_cr("WB_ReadFromNoaccessArea method is useless:\n "
"\tUseCompressedOops is %d\n"
"\trhs.base() is "PTR_FORMAT"\n"
"\tUniverse::narrow_oop_base() is "PTR_FORMAT"\n"
"\tUniverse::narrow_oop_use_implicit_null_checks() is %d",
UseCompressedOops,
rhs.base(),
Universe::narrow_oop_base(),
Universe::narrow_oop_use_implicit_null_checks());
return;
}
tty->print_cr("Reading from no access area... ");
tty->print_cr("*(vs.low_boundary() - rhs.noaccess_prefix() / 2 ) = %c",
*(vs.low_boundary() - rhs.noaccess_prefix() / 2 ));
WB_END
static jint wb_stress_virtual_space_resize(size_t reserved_space_size,
size_t magnitude, size_t iterations) {
size_t granularity = os::vm_allocation_granularity();
ReservedHeapSpace rhs(reserved_space_size * granularity, granularity, false, NULL);
VirtualSpace vs;
if (!vs.initialize(rhs, 0)) {
tty->print_cr("Failed to initialize VirtualSpace. Can't proceed.");
return 3;
}
long seed = os::random();
tty->print_cr("Random seed is %ld", seed);
os::init_random(seed);
for (size_t i = 0; i < iterations; i++) {
// Whether we will shrink or grow
bool shrink = os::random() % 2L == 0;
// Get random delta to resize virtual space
size_t delta = (size_t)os::random() % magnitude;
// If we are about to shrink virtual space below zero, then expand instead
if (shrink && vs.committed_size() < delta) {
shrink = false;
}
// Resizing by delta
if (shrink) {
vs.shrink_by(delta);
} else {
// If expanding fails expand_by will silently return false
vs.expand_by(delta, true);
}
}
return 0;
}
WB_ENTRY(jint, WB_StressVirtualSpaceResize(JNIEnv* env, jobject o,
jlong reserved_space_size, jlong magnitude, jlong iterations))
tty->print_cr("reservedSpaceSize="JLONG_FORMAT", magnitude="JLONG_FORMAT", "
"iterations="JLONG_FORMAT"\n", reserved_space_size, magnitude,
iterations);
if (reserved_space_size < 0 || magnitude < 0 || iterations < 0) {
tty->print_cr("One of variables printed above is negative. Can't proceed.\n");
return 1;
}
// sizeof(size_t) depends on whether OS is 32bit or 64bit. sizeof(jlong) is
// always 8 byte. That's why we should avoid overflow in case of 32bit platform.
if (sizeof(size_t) < sizeof(jlong)) {
jlong size_t_max_value = (jlong) SIZE_T_MAX_VALUE;
if (reserved_space_size > size_t_max_value || magnitude > size_t_max_value
|| iterations > size_t_max_value) {
tty->print_cr("One of variables printed above overflows size_t. Can't proceed.\n");
return 2;
}
}
return wb_stress_virtual_space_resize((size_t) reserved_space_size,
(size_t) magnitude, (size_t) iterations);
WB_END
WB_ENTRY(jboolean, WB_isObjectInOldGen(JNIEnv* env, jobject o, jobject obj))
oop p = JNIHandles::resolve(obj);
#if INCLUDE_ALL_GCS
if (UseG1GC) {
G1CollectedHeap* g1 = G1CollectedHeap::heap();
const HeapRegion* hr = g1->heap_region_containing(p);
if (hr == NULL) {
return false;
}
return !(hr->is_young());
} else if (UseParallelGC) {
ParallelScavengeHeap* psh = ParallelScavengeHeap::heap();
return !psh->is_in_young(p);
}
#endif // INCLUDE_ALL_GCS
GenCollectedHeap* gch = GenCollectedHeap::heap();
return !gch->is_in_young(p);
WB_END
WB_ENTRY(jlong, WB_GetObjectSize(JNIEnv* env, jobject o, jobject obj))
oop p = JNIHandles::resolve(obj);
return p->size() * HeapWordSize;
WB_END
#if INCLUDE_ALL_GCS
WB_ENTRY(jboolean, WB_G1IsHumongous(JNIEnv* env, jobject o, jobject obj))
G1CollectedHeap* g1 = G1CollectedHeap::heap();
oop result = JNIHandles::resolve(obj);
const HeapRegion* hr = g1->heap_region_containing(result);
return hr->isHumongous();
WB_END
WB_ENTRY(jlong, WB_G1NumFreeRegions(JNIEnv* env, jobject o))
G1CollectedHeap* g1 = G1CollectedHeap::heap();
size_t nr = g1->num_free_regions();
return (jlong)nr;
WB_END
WB_ENTRY(jboolean, WB_G1InConcurrentMark(JNIEnv* env, jobject o))
G1CollectedHeap* g1 = G1CollectedHeap::heap();
ConcurrentMark* cm = g1->concurrent_mark();
return cm->concurrent_marking_in_progress();
WB_END
WB_ENTRY(jint, WB_G1RegionSize(JNIEnv* env, jobject o))
return (jint)HeapRegion::GrainBytes;
WB_END
#endif // INCLUDE_ALL_GCS
#if INCLUDE_NMT
// Alloc memory using the test memory type so that we can use that to see if
// NMT picks it up correctly
WB_ENTRY(jlong, WB_NMTMalloc(JNIEnv* env, jobject o, jlong size))
jlong addr = 0;
addr = (jlong)(uintptr_t)os::malloc(size, mtTest);
return addr;
WB_END
// Alloc memory with pseudo call stack. The test can create psudo malloc
// allocation site to stress the malloc tracking.
WB_ENTRY(jlong, WB_NMTMallocWithPseudoStack(JNIEnv* env, jobject o, jlong size, jint pseudo_stack))
address pc = (address)(size_t)pseudo_stack;
NativeCallStack stack(&pc, 1);
return (jlong)(uintptr_t)os::malloc(size, mtTest, stack);
WB_END
// Free the memory allocated by NMTAllocTest
WB_ENTRY(void, WB_NMTFree(JNIEnv* env, jobject o, jlong mem))
os::free((void*)(uintptr_t)mem, mtTest);
WB_END
WB_ENTRY(jlong, WB_NMTReserveMemory(JNIEnv* env, jobject o, jlong size))
jlong addr = 0;
addr = (jlong)(uintptr_t)os::reserve_memory(size);
MemTracker::record_virtual_memory_type((address)addr, mtTest);
return addr;
WB_END
WB_ENTRY(void, WB_NMTCommitMemory(JNIEnv* env, jobject o, jlong addr, jlong size))
os::commit_memory((char *)(uintptr_t)addr, size, !ExecMem);
MemTracker::record_virtual_memory_type((address)(uintptr_t)addr, mtTest);
WB_END
WB_ENTRY(void, WB_NMTUncommitMemory(JNIEnv* env, jobject o, jlong addr, jlong size))
os::uncommit_memory((char *)(uintptr_t)addr, size);
WB_END
WB_ENTRY(void, WB_NMTReleaseMemory(JNIEnv* env, jobject o, jlong addr, jlong size))
os::release_memory((char *)(uintptr_t)addr, size);
WB_END
WB_ENTRY(jboolean, WB_NMTIsDetailSupported(JNIEnv* env))
return MemTracker::tracking_level() == NMT_detail;
WB_END
WB_ENTRY(jboolean, WB_NMTChangeTrackingLevel(JNIEnv* env))
// Test that we can downgrade NMT levels but not upgrade them.
if (MemTracker::tracking_level() == NMT_off) {
MemTracker::transition_to(NMT_off);
return MemTracker::tracking_level() == NMT_off;
} else {
assert(MemTracker::tracking_level() == NMT_detail, "Should start out as detail tracking");
MemTracker::transition_to(NMT_summary);
assert(MemTracker::tracking_level() == NMT_summary, "Should be summary now");
// Can't go to detail once NMT is set to summary.
MemTracker::transition_to(NMT_detail);
assert(MemTracker::tracking_level() == NMT_summary, "Should still be summary now");
// Shutdown sets tracking level to minimal.
MemTracker::shutdown();
assert(MemTracker::tracking_level() == NMT_minimal, "Should be minimal now");
// Once the tracking level is minimal, we cannot increase to summary.
// The code ignores this request instead of asserting because if the malloc site
// table overflows in another thread, it tries to change the code to summary.
MemTracker::transition_to(NMT_summary);
assert(MemTracker::tracking_level() == NMT_minimal, "Should still be minimal now");
// Really can never go up to detail, verify that the code would never do this.
MemTracker::transition_to(NMT_detail);
assert(MemTracker::tracking_level() == NMT_minimal, "Should still be minimal now");
return MemTracker::tracking_level() == NMT_minimal;
}
WB_END
WB_ENTRY(jint, WB_NMTGetHashSize(JNIEnv* env, jobject o))
int hash_size = MallocSiteTable::hash_buckets();
assert(hash_size > 0, "NMT hash_size should be > 0");
return (jint)hash_size;
WB_END
#endif // INCLUDE_NMT
static jmethodID reflected_method_to_jmid(JavaThread* thread, JNIEnv* env, jobject method) {
assert(method != NULL, "method should not be null");
ThreadToNativeFromVM ttn(thread);
return env->FromReflectedMethod(method);
}
WB_ENTRY(void, WB_DeoptimizeAll(JNIEnv* env, jobject o))
MutexLockerEx mu(Compile_lock);
CodeCache::mark_all_nmethods_for_deoptimization();
VM_Deoptimize op;
VMThread::execute(&op);
WB_END
WB_ENTRY(jint, WB_DeoptimizeMethod(JNIEnv* env, jobject o, jobject method, jboolean is_osr))
jmethodID jmid = reflected_method_to_jmid(thread, env, method);
int result = 0;
CHECK_JNI_EXCEPTION_(env, result);
MutexLockerEx mu(Compile_lock);
methodHandle mh(THREAD, Method::checked_resolve_jmethod_id(jmid));
if (is_osr) {
result += mh->mark_osr_nmethods();
} else if (mh->code() != NULL) {
mh->code()->mark_for_deoptimization();
++result;
}
result += CodeCache::mark_for_deoptimization(mh());
if (result > 0) {
VM_Deoptimize op;
VMThread::execute(&op);
}
return result;
WB_END
WB_ENTRY(jboolean, WB_IsMethodCompiled(JNIEnv* env, jobject o, jobject method, jboolean is_osr))
jmethodID jmid = reflected_method_to_jmid(thread, env, method);
CHECK_JNI_EXCEPTION_(env, JNI_FALSE);
MutexLockerEx mu(Compile_lock);
methodHandle mh(THREAD, Method::checked_resolve_jmethod_id(jmid));
nmethod* code = is_osr ? mh->lookup_osr_nmethod_for(InvocationEntryBci, CompLevel_none, false) : mh->code();
if (code == NULL) {
return JNI_FALSE;
}
return (code->is_alive() && !code->is_marked_for_deoptimization());
WB_END
WB_ENTRY(jboolean, WB_IsMethodCompilable(JNIEnv* env, jobject o, jobject method, jint comp_level, jboolean is_osr))
jmethodID jmid = reflected_method_to_jmid(thread, env, method);
CHECK_JNI_EXCEPTION_(env, JNI_FALSE);
MutexLockerEx mu(Compile_lock);
methodHandle mh(THREAD, Method::checked_resolve_jmethod_id(jmid));
if (is_osr) {
return CompilationPolicy::can_be_osr_compiled(mh, comp_level);
} else {
return CompilationPolicy::can_be_compiled(mh, comp_level);
}
WB_END
WB_ENTRY(jboolean, WB_IsMethodQueuedForCompilation(JNIEnv* env, jobject o, jobject method))
jmethodID jmid = reflected_method_to_jmid(thread, env, method);
CHECK_JNI_EXCEPTION_(env, JNI_FALSE);
MutexLockerEx mu(Compile_lock);
methodHandle mh(THREAD, Method::checked_resolve_jmethod_id(jmid));
return mh->queued_for_compilation();
WB_END
WB_ENTRY(jint, WB_GetMethodCompilationLevel(JNIEnv* env, jobject o, jobject method, jboolean is_osr))
jmethodID jmid = reflected_method_to_jmid(thread, env, method);
CHECK_JNI_EXCEPTION_(env, CompLevel_none);
methodHandle mh(THREAD, Method::checked_resolve_jmethod_id(jmid));
nmethod* code = is_osr ? mh->lookup_osr_nmethod_for(InvocationEntryBci, CompLevel_none, false) : mh->code();
return (code != NULL ? code->comp_level() : CompLevel_none);
WB_END
WB_ENTRY(void, WB_MakeMethodNotCompilable(JNIEnv* env, jobject o, jobject method, jint comp_level, jboolean is_osr))
jmethodID jmid = reflected_method_to_jmid(thread, env, method);
CHECK_JNI_EXCEPTION(env);
methodHandle mh(THREAD, Method::checked_resolve_jmethod_id(jmid));
if (is_osr) {
mh->set_not_osr_compilable(comp_level, true /* report */, "WhiteBox");
} else {
mh->set_not_compilable(comp_level, true /* report */, "WhiteBox");
}
WB_END
WB_ENTRY(jint, WB_GetMethodEntryBci(JNIEnv* env, jobject o, jobject method))
jmethodID jmid = reflected_method_to_jmid(thread, env, method);
CHECK_JNI_EXCEPTION_(env, InvocationEntryBci);
methodHandle mh(THREAD, Method::checked_resolve_jmethod_id(jmid));
nmethod* code = mh->lookup_osr_nmethod_for(InvocationEntryBci, CompLevel_none, false);
return (code != NULL && code->is_osr_method() ? code->osr_entry_bci() : InvocationEntryBci);
WB_END
WB_ENTRY(jboolean, WB_TestSetDontInlineMethod(JNIEnv* env, jobject o, jobject method, jboolean value))
jmethodID jmid = reflected_method_to_jmid(thread, env, method);
CHECK_JNI_EXCEPTION_(env, JNI_FALSE);
methodHandle mh(THREAD, Method::checked_resolve_jmethod_id(jmid));
bool result = mh->dont_inline();
mh->set_dont_inline(value == JNI_TRUE);
return result;
WB_END
WB_ENTRY(jint, WB_GetCompileQueueSize(JNIEnv* env, jobject o, jint comp_level))
if (comp_level == CompLevel_any) {
return CompileBroker::queue_size(CompLevel_full_optimization) /* C2 */ +
CompileBroker::queue_size(CompLevel_full_profile) /* C1 */;
} else {
return CompileBroker::queue_size(comp_level);
}
WB_END
WB_ENTRY(jboolean, WB_TestSetForceInlineMethod(JNIEnv* env, jobject o, jobject method, jboolean value))
jmethodID jmid = reflected_method_to_jmid(thread, env, method);
CHECK_JNI_EXCEPTION_(env, JNI_FALSE);
methodHandle mh(THREAD, Method::checked_resolve_jmethod_id(jmid));
bool result = mh->force_inline();
mh->set_force_inline(value == JNI_TRUE);
return result;
WB_END
WB_ENTRY(jboolean, WB_EnqueueMethodForCompilation(JNIEnv* env, jobject o, jobject method, jint comp_level, jint bci))
jmethodID jmid = reflected_method_to_jmid(thread, env, method);
CHECK_JNI_EXCEPTION_(env, JNI_FALSE);
methodHandle mh(THREAD, Method::checked_resolve_jmethod_id(jmid));
nmethod* nm = CompileBroker::compile_method(mh, bci, comp_level, mh, mh->invocation_count(), "WhiteBox", THREAD);
MutexLockerEx mu(Compile_lock);
return (mh->queued_for_compilation() || nm != NULL);
WB_END
class VM_WhiteBoxOperation : public VM_Operation {
public:
VM_WhiteBoxOperation() { }
VMOp_Type type() const { return VMOp_WhiteBoxOperation; }
bool allow_nested_vm_operations() const { return true; }
};
class AlwaysFalseClosure : public BoolObjectClosure {
public:
bool do_object_b(oop p) { return false; }
};
static AlwaysFalseClosure always_false;
class VM_WhiteBoxCleanMethodData : public VM_WhiteBoxOperation {
public:
VM_WhiteBoxCleanMethodData(MethodData* mdo) : _mdo(mdo) { }
void doit() {
_mdo->clean_method_data(&always_false);
}
private:
MethodData* _mdo;
};
WB_ENTRY(void, WB_ClearMethodState(JNIEnv* env, jobject o, jobject method))
jmethodID jmid = reflected_method_to_jmid(thread, env, method);
CHECK_JNI_EXCEPTION(env);
methodHandle mh(THREAD, Method::checked_resolve_jmethod_id(jmid));
MutexLockerEx mu(Compile_lock);
MethodData* mdo = mh->method_data();
MethodCounters* mcs = mh->method_counters();
if (mdo != NULL) {
mdo->init();
ResourceMark rm;
int arg_count = mdo->method()->size_of_parameters();
for (int i = 0; i < arg_count; i++) {
mdo->set_arg_modified(i, 0);
}
VM_WhiteBoxCleanMethodData op(mdo);
VMThread::execute(&op);
}
mh->clear_not_c1_compilable();
mh->clear_not_c2_compilable();
mh->clear_not_c2_osr_compilable();
NOT_PRODUCT(mh->set_compiled_invocation_count(0));
if (mcs != NULL) {
mcs->backedge_counter()->init();
mcs->invocation_counter()->init();
mcs->set_interpreter_invocation_count(0);
mcs->set_interpreter_throwout_count(0);
#ifdef TIERED
mcs->set_rate(0.0F);
mh->set_prev_event_count(0);
mh->set_prev_time(0);
#endif
}
WB_END
template <typename T>
static bool GetVMFlag(JavaThread* thread, JNIEnv* env, jstring name, T* value, bool (*TAt)(const char*, T*)) {
if (name == NULL) {
return false;
}
ThreadToNativeFromVM ttnfv(thread); // can't be in VM when we call JNI
const char* flag_name = env->GetStringUTFChars(name, NULL);
bool result = (*TAt)(flag_name, value);
env->ReleaseStringUTFChars(name, flag_name);
return result;
}
template <typename T>
static bool SetVMFlag(JavaThread* thread, JNIEnv* env, jstring name, T* value, bool (*TAtPut)(const char*, T*, Flag::Flags)) {
if (name == NULL) {
return false;
}
ThreadToNativeFromVM ttnfv(thread); // can't be in VM when we call JNI
const char* flag_name = env->GetStringUTFChars(name, NULL);
bool result = (*TAtPut)(flag_name, value, Flag::INTERNAL);
env->ReleaseStringUTFChars(name, flag_name);
return result;
}
template <typename T>
static jobject box(JavaThread* thread, JNIEnv* env, Symbol* name, Symbol* sig, T value) {
ResourceMark rm(thread);
jclass clazz = env->FindClass(name->as_C_string());
CHECK_JNI_EXCEPTION_(env, NULL);
jmethodID methodID = env->GetStaticMethodID(clazz,
vmSymbols::valueOf_name()->as_C_string(),
sig->as_C_string());
CHECK_JNI_EXCEPTION_(env, NULL);
jobject result = env->CallStaticObjectMethod(clazz, methodID, value);
CHECK_JNI_EXCEPTION_(env, NULL);
return result;
}
static jobject booleanBox(JavaThread* thread, JNIEnv* env, jboolean value) {
return box(thread, env, vmSymbols::java_lang_Boolean(), vmSymbols::Boolean_valueOf_signature(), value);
}
static jobject integerBox(JavaThread* thread, JNIEnv* env, jint value) {
return box(thread, env, vmSymbols::java_lang_Integer(), vmSymbols::Integer_valueOf_signature(), value);
}
static jobject longBox(JavaThread* thread, JNIEnv* env, jlong value) {
return box(thread, env, vmSymbols::java_lang_Long(), vmSymbols::Long_valueOf_signature(), value);
}
/* static jobject floatBox(JavaThread* thread, JNIEnv* env, jfloat value) {
return box(thread, env, vmSymbols::java_lang_Float(), vmSymbols::Float_valueOf_signature(), value);
}*/
static jobject doubleBox(JavaThread* thread, JNIEnv* env, jdouble value) {
return box(thread, env, vmSymbols::java_lang_Double(), vmSymbols::Double_valueOf_signature(), value);
}
WB_ENTRY(jobject, WB_GetBooleanVMFlag(JNIEnv* env, jobject o, jstring name))
bool result;
if (GetVMFlag <bool> (thread, env, name, &result, &CommandLineFlags::boolAt)) {
ThreadToNativeFromVM ttnfv(thread); // can't be in VM when we call JNI
return booleanBox(thread, env, result);
}
return NULL;
WB_END
WB_ENTRY(jobject, WB_GetIntxVMFlag(JNIEnv* env, jobject o, jstring name))
intx result;
if (GetVMFlag <intx> (thread, env, name, &result, &CommandLineFlags::intxAt)) {
ThreadToNativeFromVM ttnfv(thread); // can't be in VM when we call JNI
return longBox(thread, env, result);
}
return NULL;
WB_END
WB_ENTRY(jobject, WB_GetUintxVMFlag(JNIEnv* env, jobject o, jstring name))
uintx result;
if (GetVMFlag <uintx> (thread, env, name, &result, &CommandLineFlags::uintxAt)) {
ThreadToNativeFromVM ttnfv(thread); // can't be in VM when we call JNI
return longBox(thread, env, result);
}
return NULL;
WB_END
WB_ENTRY(jobject, WB_GetUint64VMFlag(JNIEnv* env, jobject o, jstring name))
uint64_t result;
if (GetVMFlag <uint64_t> (thread, env, name, &result, &CommandLineFlags::uint64_tAt)) {
ThreadToNativeFromVM ttnfv(thread); // can't be in VM when we call JNI
return longBox(thread, env, result);
}
return NULL;
WB_END
WB_ENTRY(jobject, WB_GetDoubleVMFlag(JNIEnv* env, jobject o, jstring name))
double result;
if (GetVMFlag <double> (thread, env, name, &result, &CommandLineFlags::doubleAt)) {
ThreadToNativeFromVM ttnfv(thread); // can't be in VM when we call JNI
return doubleBox(thread, env, result);
}
return NULL;
WB_END
WB_ENTRY(jstring, WB_GetStringVMFlag(JNIEnv* env, jobject o, jstring name))
ccstr ccstrResult;
if (GetVMFlag <ccstr> (thread, env, name, &ccstrResult, &CommandLineFlags::ccstrAt)) {
ThreadToNativeFromVM ttnfv(thread); // can't be in VM when we call JNI
jstring result = env->NewStringUTF(ccstrResult);
CHECK_JNI_EXCEPTION_(env, NULL);
return result;
}
return NULL;
WB_END
WB_ENTRY(void, WB_SetBooleanVMFlag(JNIEnv* env, jobject o, jstring name, jboolean value))
bool result = value == JNI_TRUE ? true : false;
SetVMFlag <bool> (thread, env, name, &result, &CommandLineFlags::boolAtPut);
WB_END
WB_ENTRY(void, WB_SetIntxVMFlag(JNIEnv* env, jobject o, jstring name, jlong value))
intx result = value;
SetVMFlag <intx> (thread, env, name, &result, &CommandLineFlags::intxAtPut);
WB_END
WB_ENTRY(void, WB_SetUintxVMFlag(JNIEnv* env, jobject o, jstring name, jlong value))
uintx result = value;
SetVMFlag <uintx> (thread, env, name, &result, &CommandLineFlags::uintxAtPut);
WB_END
WB_ENTRY(void, WB_SetUint64VMFlag(JNIEnv* env, jobject o, jstring name, jlong value))
uint64_t result = value;
SetVMFlag <uint64_t> (thread, env, name, &result, &CommandLineFlags::uint64_tAtPut);
WB_END
WB_ENTRY(void, WB_SetDoubleVMFlag(JNIEnv* env, jobject o, jstring name, jdouble value))
double result = value;
SetVMFlag <double> (thread, env, name, &result, &CommandLineFlags::doubleAtPut);
WB_END
WB_ENTRY(void, WB_SetStringVMFlag(JNIEnv* env, jobject o, jstring name, jstring value))
ThreadToNativeFromVM ttnfv(thread); // can't be in VM when we call JNI
const char* ccstrValue = (value == NULL) ? NULL : env->GetStringUTFChars(value, NULL);
ccstr ccstrResult = ccstrValue;
bool needFree;
{
ThreadInVMfromNative ttvfn(thread); // back to VM
needFree = SetVMFlag <ccstr> (thread, env, name, &ccstrResult, &CommandLineFlags::ccstrAtPut);
}
if (value != NULL) {
env->ReleaseStringUTFChars(value, ccstrValue);
}
if (needFree) {
FREE_C_HEAP_ARRAY(char, ccstrResult, mtInternal);
}
WB_END
WB_ENTRY(jboolean, WB_IsInStringTable(JNIEnv* env, jobject o, jstring javaString))
ResourceMark rm(THREAD);
int len;
jchar* name = java_lang_String::as_unicode_string(JNIHandles::resolve(javaString), len, CHECK_false);
return (StringTable::lookup(name, len) != NULL);
WB_END
WB_ENTRY(void, WB_FullGC(JNIEnv* env, jobject o))
Universe::heap()->collector_policy()->set_should_clear_all_soft_refs(true);
Universe::heap()->collect(GCCause::_last_ditch_collection);
#if INCLUDE_ALL_GCS
if (UseG1GC) {
// Needs to be cleared explicitly for G1
Universe::heap()->collector_policy()->set_should_clear_all_soft_refs(false);
}
#endif // INCLUDE_ALL_GCS
WB_END
WB_ENTRY(void, WB_YoungGC(JNIEnv* env, jobject o))
Universe::heap()->collect(GCCause::_wb_young_gc);
WB_END
WB_ENTRY(void, WB_ReadReservedMemory(JNIEnv* env, jobject o))
// static+volatile in order to force the read to happen
// (not be eliminated by the compiler)
static char c;
static volatile char* p;
p = os::reserve_memory(os::vm_allocation_granularity(), NULL, 0);
if (p == NULL) {
THROW_MSG(vmSymbols::java_lang_OutOfMemoryError(), "Failed to reserve memory");
}
c = *p;
WB_END
WB_ENTRY(jstring, WB_GetCPUFeatures(JNIEnv* env, jobject o))
const char* cpu_features = VM_Version::cpu_features();
ThreadToNativeFromVM ttn(thread);
jstring features_string = env->NewStringUTF(cpu_features);
CHECK_JNI_EXCEPTION_(env, NULL);
return features_string;
WB_END
WB_ENTRY(jobjectArray, WB_GetNMethod(JNIEnv* env, jobject o, jobject method, jboolean is_osr))
ResourceMark rm(THREAD);
jmethodID jmid = reflected_method_to_jmid(thread, env, method);
CHECK_JNI_EXCEPTION_(env, NULL);
methodHandle mh(THREAD, Method::checked_resolve_jmethod_id(jmid));
nmethod* code = is_osr ? mh->lookup_osr_nmethod_for(InvocationEntryBci, CompLevel_none, false) : mh->code();
jobjectArray result = NULL;
if (code == NULL) {
return result;
}
int insts_size = code->insts_size();
ThreadToNativeFromVM ttn(thread);
jclass clazz = env->FindClass(vmSymbols::java_lang_Object()->as_C_string());
CHECK_JNI_EXCEPTION_(env, NULL);
result = env->NewObjectArray(2, clazz, NULL);
if (result == NULL) {
return result;
}
jobject obj = integerBox(thread, env, code->comp_level());
CHECK_JNI_EXCEPTION_(env, NULL);
env->SetObjectArrayElement(result, 0, obj);
jbyteArray insts = env->NewByteArray(insts_size);
CHECK_JNI_EXCEPTION_(env, NULL);
env->SetByteArrayRegion(insts, 0, insts_size, (jbyte*) code->insts_begin());
env->SetObjectArrayElement(result, 1, insts);
return result;
WB_END
int WhiteBox::array_bytes_to_length(size_t bytes) {
return Array<u1>::bytes_to_length(bytes);
}
WB_ENTRY(jlong, WB_AllocateMetaspace(JNIEnv* env, jobject wb, jobject class_loader, jlong size))
if (size < 0) {
THROW_MSG_0(vmSymbols::java_lang_IllegalArgumentException(),
err_msg("WB_AllocateMetaspace: size is negative: " JLONG_FORMAT, size));
}
oop class_loader_oop = JNIHandles::resolve(class_loader);
ClassLoaderData* cld = class_loader_oop != NULL
? java_lang_ClassLoader::loader_data(class_loader_oop)
: ClassLoaderData::the_null_class_loader_data();
void* metadata = MetadataFactory::new_writeable_array<u1>(cld, WhiteBox::array_bytes_to_length((size_t)size), thread);
return (jlong)(uintptr_t)metadata;
WB_END
WB_ENTRY(void, WB_FreeMetaspace(JNIEnv* env, jobject wb, jobject class_loader, jlong addr, jlong size))
oop class_loader_oop = JNIHandles::resolve(class_loader);
ClassLoaderData* cld = class_loader_oop != NULL
? java_lang_ClassLoader::loader_data(class_loader_oop)
: ClassLoaderData::the_null_class_loader_data();
MetadataFactory::free_array(cld, (Array<u1>*)(uintptr_t)addr);
WB_END
WB_ENTRY(jlong, WB_IncMetaspaceCapacityUntilGC(JNIEnv* env, jobject wb, jlong inc))
if (inc < 0) {
THROW_MSG_0(vmSymbols::java_lang_IllegalArgumentException(),
err_msg("WB_IncMetaspaceCapacityUntilGC: inc is negative: " JLONG_FORMAT, inc));
}
jlong max_size_t = (jlong) ((size_t) -1);
if (inc > max_size_t) {
THROW_MSG_0(vmSymbols::java_lang_IllegalArgumentException(),
err_msg("WB_IncMetaspaceCapacityUntilGC: inc does not fit in size_t: " JLONG_FORMAT, inc));
}
size_t new_cap_until_GC = 0;
size_t aligned_inc = align_size_down((size_t) inc, Metaspace::commit_alignment());
bool success = MetaspaceGC::inc_capacity_until_GC(aligned_inc, &new_cap_until_GC);
if (!success) {
THROW_MSG_0(vmSymbols::java_lang_IllegalStateException(),
"WB_IncMetaspaceCapacityUntilGC: could not increase capacity until GC "
"due to contention with another thread");
}
return (jlong) new_cap_until_GC;
WB_END
WB_ENTRY(jlong, WB_MetaspaceCapacityUntilGC(JNIEnv* env, jobject wb))
return (jlong) MetaspaceGC::capacity_until_GC();
WB_END
//Some convenience methods to deal with objects from java
int WhiteBox::offset_for_field(const char* field_name, oop object,
Symbol* signature_symbol) {
assert(field_name != NULL && strlen(field_name) > 0, "Field name not valid");
Thread* THREAD = Thread::current();
//Get the class of our object
Klass* arg_klass = object->klass();
//Turn it into an instance-klass
InstanceKlass* ik = InstanceKlass::cast(arg_klass);
//Create symbols to look for in the class
TempNewSymbol name_symbol = SymbolTable::lookup(field_name, (int) strlen(field_name),
THREAD);
//To be filled in with an offset of the field we're looking for
fieldDescriptor fd;
Klass* res = ik->find_field(name_symbol, signature_symbol, &fd);
if (res == NULL) {
tty->print_cr("Invalid layout of %s at %s", ik->external_name(),
name_symbol->as_C_string());
fatal("Invalid layout of preloaded class");
}
//fetch the field at the offset we've found
int dest_offset = fd.offset();
return dest_offset;
}
const char* WhiteBox::lookup_jstring(const char* field_name, oop object) {
int offset = offset_for_field(field_name, object,
vmSymbols::string_signature());
oop string = object->obj_field(offset);
if (string == NULL) {
return NULL;
}
const char* ret = java_lang_String::as_utf8_string(string);
return ret;
}
bool WhiteBox::lookup_bool(const char* field_name, oop object) {
int offset =
offset_for_field(field_name, object, vmSymbols::bool_signature());
bool ret = (object->bool_field(offset) == JNI_TRUE);
return ret;
}
void WhiteBox::register_methods(JNIEnv* env, jclass wbclass, JavaThread* thread, JNINativeMethod* method_array, int method_count) {
ResourceMark rm;
ThreadToNativeFromVM ttnfv(thread); // can't be in VM when we call JNI
// one by one registration natives for exception catching
jclass no_such_method_error_klass = env->FindClass(vmSymbols::java_lang_NoSuchMethodError()->as_C_string());
CHECK_JNI_EXCEPTION(env);
for (int i = 0, n = method_count; i < n; ++i) {
// Skip dummy entries
if (method_array[i].fnPtr == NULL) continue;
if (env->RegisterNatives(wbclass, &method_array[i], 1) != 0) {
jthrowable throwable_obj = env->ExceptionOccurred();
if (throwable_obj != NULL) {
env->ExceptionClear();
if (env->IsInstanceOf(throwable_obj, no_such_method_error_klass)) {
// NoSuchMethodError is thrown when a method can't be found or a method is not native.
// Ignoring the exception since it is not preventing use of other WhiteBox methods.
tty->print_cr("Warning: 'NoSuchMethodError' on register of sun.hotspot.WhiteBox::%s%s",
method_array[i].name, method_array[i].signature);
}
} else {
// Registration failed unexpectedly.
tty->print_cr("Warning: unexpected error on register of sun.hotspot.WhiteBox::%s%s. All methods will be unregistered",
method_array[i].name, method_array[i].signature);
env->UnregisterNatives(wbclass);
break;
}
}
}
}
#define CC (char*)
static JNINativeMethod methods[] = {
{CC"getObjectAddress", CC"(Ljava/lang/Object;)J", (void*)&WB_GetObjectAddress },
{CC"getObjectSize", CC"(Ljava/lang/Object;)J", (void*)&WB_GetObjectSize },
{CC"isObjectInOldGen", CC"(Ljava/lang/Object;)Z", (void*)&WB_isObjectInOldGen },
{CC"getHeapOopSize", CC"()I", (void*)&WB_GetHeapOopSize },
{CC"isClassAlive0", CC"(Ljava/lang/String;)Z", (void*)&WB_IsClassAlive },
{CC"classKnownToNotExist",
CC"(Ljava/lang/ClassLoader;Ljava/lang/String;)Z",(void*)&WB_ClassKnownToNotExist},
{CC"getLookupCacheURLs", CC"(Ljava/lang/ClassLoader;)[Ljava/net/URL;", (void*)&WB_GetLookupCacheURLs},
{CC"getLookupCacheMatches", CC"(Ljava/lang/ClassLoader;Ljava/lang/String;)[I",
(void*)&WB_GetLookupCacheMatches},
{CC"parseCommandLine",
CC"(Ljava/lang/String;[Lsun/hotspot/parser/DiagnosticCommand;)[Ljava/lang/Object;",
(void*) &WB_ParseCommandLine
},
{CC"getCompressedOopsMaxHeapSize", CC"()J",
(void*)&WB_GetCompressedOopsMaxHeapSize},
{CC"printHeapSizes", CC"()V", (void*)&WB_PrintHeapSizes },
{CC"runMemoryUnitTests", CC"()V", (void*)&WB_RunMemoryUnitTests},
{CC"readFromNoaccessArea",CC"()V", (void*)&WB_ReadFromNoaccessArea},
{CC"stressVirtualSpaceResize",CC"(JJJ)I", (void*)&WB_StressVirtualSpaceResize},
#if INCLUDE_ALL_GCS
{CC"g1InConcurrentMark", CC"()Z", (void*)&WB_G1InConcurrentMark},
{CC"g1IsHumongous", CC"(Ljava/lang/Object;)Z", (void*)&WB_G1IsHumongous },
{CC"g1NumFreeRegions", CC"()J", (void*)&WB_G1NumFreeRegions },
{CC"g1RegionSize", CC"()I", (void*)&WB_G1RegionSize },
#endif // INCLUDE_ALL_GCS
#if INCLUDE_NMT
{CC"NMTMalloc", CC"(J)J", (void*)&WB_NMTMalloc },
{CC"NMTMallocWithPseudoStack", CC"(JI)J", (void*)&WB_NMTMallocWithPseudoStack},
{CC"NMTFree", CC"(J)V", (void*)&WB_NMTFree },
{CC"NMTReserveMemory", CC"(J)J", (void*)&WB_NMTReserveMemory },
{CC"NMTCommitMemory", CC"(JJ)V", (void*)&WB_NMTCommitMemory },
{CC"NMTUncommitMemory", CC"(JJ)V", (void*)&WB_NMTUncommitMemory },
{CC"NMTReleaseMemory", CC"(JJ)V", (void*)&WB_NMTReleaseMemory },
{CC"NMTIsDetailSupported",CC"()Z", (void*)&WB_NMTIsDetailSupported},
{CC"NMTChangeTrackingLevel", CC"()Z", (void*)&WB_NMTChangeTrackingLevel},
{CC"NMTGetHashSize", CC"()I", (void*)&WB_NMTGetHashSize },
#endif // INCLUDE_NMT
{CC"deoptimizeAll", CC"()V", (void*)&WB_DeoptimizeAll },
{CC"deoptimizeMethod", CC"(Ljava/lang/reflect/Executable;Z)I",
(void*)&WB_DeoptimizeMethod },
{CC"isMethodCompiled", CC"(Ljava/lang/reflect/Executable;Z)Z",
(void*)&WB_IsMethodCompiled },
{CC"isMethodCompilable", CC"(Ljava/lang/reflect/Executable;IZ)Z",
(void*)&WB_IsMethodCompilable},
{CC"isMethodQueuedForCompilation",
CC"(Ljava/lang/reflect/Executable;)Z", (void*)&WB_IsMethodQueuedForCompilation},
{CC"makeMethodNotCompilable",
CC"(Ljava/lang/reflect/Executable;IZ)V", (void*)&WB_MakeMethodNotCompilable},
{CC"testSetDontInlineMethod",
CC"(Ljava/lang/reflect/Executable;Z)Z", (void*)&WB_TestSetDontInlineMethod},
{CC"getMethodCompilationLevel",
CC"(Ljava/lang/reflect/Executable;Z)I", (void*)&WB_GetMethodCompilationLevel},
{CC"getMethodEntryBci",
CC"(Ljava/lang/reflect/Executable;)I", (void*)&WB_GetMethodEntryBci},
{CC"getCompileQueueSize",
CC"(I)I", (void*)&WB_GetCompileQueueSize},
{CC"testSetForceInlineMethod",
CC"(Ljava/lang/reflect/Executable;Z)Z", (void*)&WB_TestSetForceInlineMethod},
{CC"enqueueMethodForCompilation",
CC"(Ljava/lang/reflect/Executable;II)Z", (void*)&WB_EnqueueMethodForCompilation},
{CC"clearMethodState",
CC"(Ljava/lang/reflect/Executable;)V", (void*)&WB_ClearMethodState},
{CC"setBooleanVMFlag", CC"(Ljava/lang/String;Z)V",(void*)&WB_SetBooleanVMFlag},
{CC"setIntxVMFlag", CC"(Ljava/lang/String;J)V",(void*)&WB_SetIntxVMFlag},
{CC"setUintxVMFlag", CC"(Ljava/lang/String;J)V",(void*)&WB_SetUintxVMFlag},
{CC"setUint64VMFlag", CC"(Ljava/lang/String;J)V",(void*)&WB_SetUint64VMFlag},
{CC"setDoubleVMFlag", CC"(Ljava/lang/String;D)V",(void*)&WB_SetDoubleVMFlag},
{CC"setStringVMFlag", CC"(Ljava/lang/String;Ljava/lang/String;)V",
(void*)&WB_SetStringVMFlag},
{CC"getBooleanVMFlag", CC"(Ljava/lang/String;)Ljava/lang/Boolean;",
(void*)&WB_GetBooleanVMFlag},
{CC"getIntxVMFlag", CC"(Ljava/lang/String;)Ljava/lang/Long;",
(void*)&WB_GetIntxVMFlag},
{CC"getUintxVMFlag", CC"(Ljava/lang/String;)Ljava/lang/Long;",
(void*)&WB_GetUintxVMFlag},
{CC"getUint64VMFlag", CC"(Ljava/lang/String;)Ljava/lang/Long;",
(void*)&WB_GetUint64VMFlag},
{CC"getDoubleVMFlag", CC"(Ljava/lang/String;)Ljava/lang/Double;",
(void*)&WB_GetDoubleVMFlag},
{CC"getStringVMFlag", CC"(Ljava/lang/String;)Ljava/lang/String;",
(void*)&WB_GetStringVMFlag},
{CC"isInStringTable", CC"(Ljava/lang/String;)Z", (void*)&WB_IsInStringTable },
{CC"fullGC", CC"()V", (void*)&WB_FullGC },
{CC"youngGC", CC"()V", (void*)&WB_YoungGC },
{CC"readReservedMemory", CC"()V", (void*)&WB_ReadReservedMemory },
{CC"allocateMetaspace",
CC"(Ljava/lang/ClassLoader;J)J", (void*)&WB_AllocateMetaspace },
{CC"freeMetaspace",
CC"(Ljava/lang/ClassLoader;JJ)V", (void*)&WB_FreeMetaspace },
{CC"incMetaspaceCapacityUntilGC", CC"(J)J", (void*)&WB_IncMetaspaceCapacityUntilGC },
{CC"metaspaceCapacityUntilGC", CC"()J", (void*)&WB_MetaspaceCapacityUntilGC },
{CC"getCPUFeatures", CC"()Ljava/lang/String;", (void*)&WB_GetCPUFeatures },
{CC"getNMethod", CC"(Ljava/lang/reflect/Executable;Z)[Ljava/lang/Object;",
(void*)&WB_GetNMethod },
};
#undef CC
JVM_ENTRY(void, JVM_RegisterWhiteBoxMethods(JNIEnv* env, jclass wbclass))
{
if (WhiteBoxAPI) {
// Make sure that wbclass is loaded by the null classloader
instanceKlassHandle ikh = instanceKlassHandle(JNIHandles::resolve(wbclass)->klass());
Handle loader(ikh->class_loader());
if (loader.is_null()) {
WhiteBox::register_methods(env, wbclass, thread, methods, sizeof(methods) / sizeof(methods[0]));
WhiteBox::register_extended(env, wbclass, thread);
WhiteBox::set_used();
}
}
}
JVM_END
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