8081406: cleanup and minor extensions of the debugging facilities in CodeStrings
Summary: avoid issues around _defunct CodeStrings
Reviewed-by: dholmes, coleenp
/*
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* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
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#include "precompiled.hpp"
#include "code/codeBlob.hpp"
#include "code/codeCache.hpp"
#include "code/relocInfo.hpp"
#include "compiler/disassembler.hpp"
#include "interpreter/bytecode.hpp"
#include "memory/allocation.inline.hpp"
#include "memory/heap.hpp"
#include "oops/oop.inline.hpp"
#include "prims/forte.hpp"
#include "runtime/handles.inline.hpp"
#include "runtime/interfaceSupport.hpp"
#include "runtime/mutexLocker.hpp"
#include "runtime/safepoint.hpp"
#include "runtime/sharedRuntime.hpp"
#include "runtime/vframe.hpp"
#include "services/memoryService.hpp"
#ifdef COMPILER1
#include "c1/c1_Runtime1.hpp"
#endif
unsigned int CodeBlob::align_code_offset(int offset) {
// align the size to CodeEntryAlignment
return
((offset + (int)CodeHeap::header_size() + (CodeEntryAlignment-1)) & ~(CodeEntryAlignment-1))
- (int)CodeHeap::header_size();
}
// This must be consistent with the CodeBlob constructor's layout actions.
unsigned int CodeBlob::allocation_size(CodeBuffer* cb, int header_size) {
unsigned int size = header_size;
size += round_to(cb->total_relocation_size(), oopSize);
// align the size to CodeEntryAlignment
size = align_code_offset(size);
size += round_to(cb->total_content_size(), oopSize);
size += round_to(cb->total_oop_size(), oopSize);
size += round_to(cb->total_metadata_size(), oopSize);
return size;
}
// Creates a simple CodeBlob. Sets up the size of the different regions.
CodeBlob::CodeBlob(const char* name, int header_size, int size, int frame_complete, int locs_size) {
assert(size == round_to(size, oopSize), "unaligned size");
assert(locs_size == round_to(locs_size, oopSize), "unaligned size");
assert(header_size == round_to(header_size, oopSize), "unaligned size");
assert(!UseRelocIndex, "no space allocated for reloc index yet");
// Note: If UseRelocIndex is enabled, there needs to be (at least) one
// extra word for the relocation information, containing the reloc
// index table length. Unfortunately, the reloc index table imple-
// mentation is not easily understandable and thus it is not clear
// what exactly the format is supposed to be. For now, we just turn
// off the use of this table (gri 7/6/2000).
_name = name;
_size = size;
_frame_complete_offset = frame_complete;
_header_size = header_size;
_relocation_size = locs_size;
_content_offset = align_code_offset(header_size + _relocation_size);
_code_offset = _content_offset;
_data_offset = size;
_frame_size = 0;
set_oop_maps(NULL);
_strings = CodeStrings();
}
// Creates a CodeBlob from a CodeBuffer. Sets up the size of the different regions,
// and copy code and relocation info.
CodeBlob::CodeBlob(
const char* name,
CodeBuffer* cb,
int header_size,
int size,
int frame_complete,
int frame_size,
OopMapSet* oop_maps
) {
assert(size == round_to(size, oopSize), "unaligned size");
assert(header_size == round_to(header_size, oopSize), "unaligned size");
_name = name;
_size = size;
_frame_complete_offset = frame_complete;
_header_size = header_size;
_relocation_size = round_to(cb->total_relocation_size(), oopSize);
_content_offset = align_code_offset(header_size + _relocation_size);
_code_offset = _content_offset + cb->total_offset_of(cb->insts());
_data_offset = _content_offset + round_to(cb->total_content_size(), oopSize);
assert(_data_offset <= size, "codeBlob is too small");
_strings = CodeStrings();
cb->copy_code_and_locs_to(this);
set_oop_maps(oop_maps);
_frame_size = frame_size;
#ifdef COMPILER1
// probably wrong for tiered
assert(_frame_size >= -1, "must use frame size or -1 for runtime stubs");
#endif // COMPILER1
}
void CodeBlob::set_oop_maps(OopMapSet* p) {
// Danger Will Robinson! This method allocates a big
// chunk of memory, its your job to free it.
if (p != NULL) {
_oop_maps = ImmutableOopMapSet::build_from(p);
} else {
_oop_maps = NULL;
}
}
void CodeBlob::trace_new_stub(CodeBlob* stub, const char* name1, const char* name2) {
// Do not hold the CodeCache lock during name formatting.
assert(!CodeCache_lock->owned_by_self(), "release CodeCache before registering the stub");
if (stub != NULL) {
char stub_id[256];
assert(strlen(name1) + strlen(name2) < sizeof(stub_id), "");
jio_snprintf(stub_id, sizeof(stub_id), "%s%s", name1, name2);
if (PrintStubCode) {
ttyLocker ttyl;
tty->print_cr("Decoding %s " INTPTR_FORMAT, stub_id, (intptr_t) stub);
Disassembler::decode(stub->code_begin(), stub->code_end());
tty->cr();
}
Forte::register_stub(stub_id, stub->code_begin(), stub->code_end());
if (JvmtiExport::should_post_dynamic_code_generated()) {
const char* stub_name = name2;
if (name2[0] == '\0') stub_name = name1;
JvmtiExport::post_dynamic_code_generated(stub_name, stub->code_begin(), stub->code_end());
}
}
// Track memory usage statistic after releasing CodeCache_lock
MemoryService::track_code_cache_memory_usage();
}
void CodeBlob::flush() {
if (_oop_maps) {
FREE_C_HEAP_ARRAY(unsigned char, _oop_maps);
_oop_maps = NULL;
}
_strings.free();
}
const ImmutableOopMap* CodeBlob::oop_map_for_return_address(address return_address) {
assert(oop_maps() != NULL, "nope");
return oop_maps()->find_map_at_offset((intptr_t) return_address - (intptr_t) code_begin());
}
//----------------------------------------------------------------------------------------------------
// Implementation of BufferBlob
BufferBlob::BufferBlob(const char* name, int size)
: CodeBlob(name, sizeof(BufferBlob), size, CodeOffsets::frame_never_safe, /*locs_size:*/ 0)
{}
BufferBlob* BufferBlob::create(const char* name, int buffer_size) {
ThreadInVMfromUnknown __tiv; // get to VM state in case we block on CodeCache_lock
BufferBlob* blob = NULL;
unsigned int size = sizeof(BufferBlob);
// align the size to CodeEntryAlignment
size = align_code_offset(size);
size += round_to(buffer_size, oopSize);
assert(name != NULL, "must provide a name");
{
MutexLockerEx mu(CodeCache_lock, Mutex::_no_safepoint_check_flag);
blob = new (size) BufferBlob(name, size);
}
// Track memory usage statistic after releasing CodeCache_lock
MemoryService::track_code_cache_memory_usage();
return blob;
}
BufferBlob::BufferBlob(const char* name, int size, CodeBuffer* cb)
: CodeBlob(name, cb, sizeof(BufferBlob), size, CodeOffsets::frame_never_safe, 0, NULL)
{}
BufferBlob* BufferBlob::create(const char* name, CodeBuffer* cb) {
ThreadInVMfromUnknown __tiv; // get to VM state in case we block on CodeCache_lock
BufferBlob* blob = NULL;
unsigned int size = allocation_size(cb, sizeof(BufferBlob));
assert(name != NULL, "must provide a name");
{
MutexLockerEx mu(CodeCache_lock, Mutex::_no_safepoint_check_flag);
blob = new (size) BufferBlob(name, size, cb);
}
// Track memory usage statistic after releasing CodeCache_lock
MemoryService::track_code_cache_memory_usage();
return blob;
}
void* BufferBlob::operator new(size_t s, unsigned size) throw() {
return CodeCache::allocate(size, CodeBlobType::NonNMethod);
}
void BufferBlob::free(BufferBlob *blob) {
ThreadInVMfromUnknown __tiv; // get to VM state in case we block on CodeCache_lock
blob->flush();
{
MutexLockerEx mu(CodeCache_lock, Mutex::_no_safepoint_check_flag);
CodeCache::free((CodeBlob*)blob);
}
// Track memory usage statistic after releasing CodeCache_lock
MemoryService::track_code_cache_memory_usage();
}
//----------------------------------------------------------------------------------------------------
// Implementation of AdapterBlob
AdapterBlob::AdapterBlob(int size, CodeBuffer* cb) :
BufferBlob("I2C/C2I adapters", size, cb) {
CodeCache::commit(this);
}
AdapterBlob* AdapterBlob::create(CodeBuffer* cb) {
ThreadInVMfromUnknown __tiv; // get to VM state in case we block on CodeCache_lock
AdapterBlob* blob = NULL;
unsigned int size = allocation_size(cb, sizeof(AdapterBlob));
{
MutexLockerEx mu(CodeCache_lock, Mutex::_no_safepoint_check_flag);
blob = new (size) AdapterBlob(size, cb);
}
// Track memory usage statistic after releasing CodeCache_lock
MemoryService::track_code_cache_memory_usage();
return blob;
}
//----------------------------------------------------------------------------------------------------
// Implementation of MethodHandlesAdapterBlob
MethodHandlesAdapterBlob* MethodHandlesAdapterBlob::create(int buffer_size) {
ThreadInVMfromUnknown __tiv; // get to VM state in case we block on CodeCache_lock
MethodHandlesAdapterBlob* blob = NULL;
unsigned int size = sizeof(MethodHandlesAdapterBlob);
// align the size to CodeEntryAlignment
size = align_code_offset(size);
size += round_to(buffer_size, oopSize);
{
MutexLockerEx mu(CodeCache_lock, Mutex::_no_safepoint_check_flag);
blob = new (size) MethodHandlesAdapterBlob(size);
}
// Track memory usage statistic after releasing CodeCache_lock
MemoryService::track_code_cache_memory_usage();
return blob;
}
//----------------------------------------------------------------------------------------------------
// Implementation of RuntimeStub
RuntimeStub::RuntimeStub(
const char* name,
CodeBuffer* cb,
int size,
int frame_complete,
int frame_size,
OopMapSet* oop_maps,
bool caller_must_gc_arguments
)
: CodeBlob(name, cb, sizeof(RuntimeStub), size, frame_complete, frame_size, oop_maps)
{
_caller_must_gc_arguments = caller_must_gc_arguments;
}
RuntimeStub* RuntimeStub::new_runtime_stub(const char* stub_name,
CodeBuffer* cb,
int frame_complete,
int frame_size,
OopMapSet* oop_maps,
bool caller_must_gc_arguments)
{
RuntimeStub* stub = NULL;
ThreadInVMfromUnknown __tiv; // get to VM state in case we block on CodeCache_lock
{
MutexLockerEx mu(CodeCache_lock, Mutex::_no_safepoint_check_flag);
unsigned int size = allocation_size(cb, sizeof(RuntimeStub));
stub = new (size) RuntimeStub(stub_name, cb, size, frame_complete, frame_size, oop_maps, caller_must_gc_arguments);
}
trace_new_stub(stub, "RuntimeStub - ", stub_name);
return stub;
}
void* RuntimeStub::operator new(size_t s, unsigned size) throw() {
void* p = CodeCache::allocate(size, CodeBlobType::NonNMethod);
if (!p) fatal("Initial size of CodeCache is too small");
return p;
}
// operator new shared by all singletons:
void* SingletonBlob::operator new(size_t s, unsigned size) throw() {
void* p = CodeCache::allocate(size, CodeBlobType::NonNMethod);
if (!p) fatal("Initial size of CodeCache is too small");
return p;
}
//----------------------------------------------------------------------------------------------------
// Implementation of DeoptimizationBlob
DeoptimizationBlob::DeoptimizationBlob(
CodeBuffer* cb,
int size,
OopMapSet* oop_maps,
int unpack_offset,
int unpack_with_exception_offset,
int unpack_with_reexecution_offset,
int frame_size
)
: SingletonBlob("DeoptimizationBlob", cb, sizeof(DeoptimizationBlob), size, frame_size, oop_maps)
{
_unpack_offset = unpack_offset;
_unpack_with_exception = unpack_with_exception_offset;
_unpack_with_reexecution = unpack_with_reexecution_offset;
#ifdef COMPILER1
_unpack_with_exception_in_tls = -1;
#endif
}
DeoptimizationBlob* DeoptimizationBlob::create(
CodeBuffer* cb,
OopMapSet* oop_maps,
int unpack_offset,
int unpack_with_exception_offset,
int unpack_with_reexecution_offset,
int frame_size)
{
DeoptimizationBlob* blob = NULL;
ThreadInVMfromUnknown __tiv; // get to VM state in case we block on CodeCache_lock
{
MutexLockerEx mu(CodeCache_lock, Mutex::_no_safepoint_check_flag);
unsigned int size = allocation_size(cb, sizeof(DeoptimizationBlob));
blob = new (size) DeoptimizationBlob(cb,
size,
oop_maps,
unpack_offset,
unpack_with_exception_offset,
unpack_with_reexecution_offset,
frame_size);
}
trace_new_stub(blob, "DeoptimizationBlob");
return blob;
}
//----------------------------------------------------------------------------------------------------
// Implementation of UncommonTrapBlob
#ifdef COMPILER2
UncommonTrapBlob::UncommonTrapBlob(
CodeBuffer* cb,
int size,
OopMapSet* oop_maps,
int frame_size
)
: SingletonBlob("UncommonTrapBlob", cb, sizeof(UncommonTrapBlob), size, frame_size, oop_maps)
{}
UncommonTrapBlob* UncommonTrapBlob::create(
CodeBuffer* cb,
OopMapSet* oop_maps,
int frame_size)
{
UncommonTrapBlob* blob = NULL;
ThreadInVMfromUnknown __tiv; // get to VM state in case we block on CodeCache_lock
{
MutexLockerEx mu(CodeCache_lock, Mutex::_no_safepoint_check_flag);
unsigned int size = allocation_size(cb, sizeof(UncommonTrapBlob));
blob = new (size) UncommonTrapBlob(cb, size, oop_maps, frame_size);
}
trace_new_stub(blob, "UncommonTrapBlob");
return blob;
}
#endif // COMPILER2
//----------------------------------------------------------------------------------------------------
// Implementation of ExceptionBlob
#ifdef COMPILER2
ExceptionBlob::ExceptionBlob(
CodeBuffer* cb,
int size,
OopMapSet* oop_maps,
int frame_size
)
: SingletonBlob("ExceptionBlob", cb, sizeof(ExceptionBlob), size, frame_size, oop_maps)
{}
ExceptionBlob* ExceptionBlob::create(
CodeBuffer* cb,
OopMapSet* oop_maps,
int frame_size)
{
ExceptionBlob* blob = NULL;
ThreadInVMfromUnknown __tiv; // get to VM state in case we block on CodeCache_lock
{
MutexLockerEx mu(CodeCache_lock, Mutex::_no_safepoint_check_flag);
unsigned int size = allocation_size(cb, sizeof(ExceptionBlob));
blob = new (size) ExceptionBlob(cb, size, oop_maps, frame_size);
}
trace_new_stub(blob, "ExceptionBlob");
return blob;
}
#endif // COMPILER2
//----------------------------------------------------------------------------------------------------
// Implementation of SafepointBlob
SafepointBlob::SafepointBlob(
CodeBuffer* cb,
int size,
OopMapSet* oop_maps,
int frame_size
)
: SingletonBlob("SafepointBlob", cb, sizeof(SafepointBlob), size, frame_size, oop_maps)
{}
SafepointBlob* SafepointBlob::create(
CodeBuffer* cb,
OopMapSet* oop_maps,
int frame_size)
{
SafepointBlob* blob = NULL;
ThreadInVMfromUnknown __tiv; // get to VM state in case we block on CodeCache_lock
{
MutexLockerEx mu(CodeCache_lock, Mutex::_no_safepoint_check_flag);
unsigned int size = allocation_size(cb, sizeof(SafepointBlob));
blob = new (size) SafepointBlob(cb, size, oop_maps, frame_size);
}
trace_new_stub(blob, "SafepointBlob");
return blob;
}
//----------------------------------------------------------------------------------------------------
// Verification and printing
void CodeBlob::verify() {
ShouldNotReachHere();
}
void CodeBlob::print_on(outputStream* st) const {
st->print_cr("[CodeBlob (" INTPTR_FORMAT ")]", p2i(this));
st->print_cr("Framesize: %d", _frame_size);
}
void CodeBlob::print_value_on(outputStream* st) const {
st->print_cr("[CodeBlob]");
}
void BufferBlob::verify() {
// unimplemented
}
void BufferBlob::print_on(outputStream* st) const {
CodeBlob::print_on(st);
print_value_on(st);
}
void BufferBlob::print_value_on(outputStream* st) const {
st->print_cr("BufferBlob (" INTPTR_FORMAT ") used for %s", p2i(this), name());
}
void RuntimeStub::verify() {
// unimplemented
}
void RuntimeStub::print_on(outputStream* st) const {
ttyLocker ttyl;
CodeBlob::print_on(st);
st->print("Runtime Stub (" INTPTR_FORMAT "): ", p2i(this));
st->print_cr("%s", name());
Disassembler::decode((CodeBlob*)this, st);
}
void RuntimeStub::print_value_on(outputStream* st) const {
st->print("RuntimeStub (" INTPTR_FORMAT "): ", p2i(this)); st->print("%s", name());
}
void SingletonBlob::verify() {
// unimplemented
}
void SingletonBlob::print_on(outputStream* st) const {
ttyLocker ttyl;
CodeBlob::print_on(st);
st->print_cr("%s", name());
Disassembler::decode((CodeBlob*)this, st);
}
void SingletonBlob::print_value_on(outputStream* st) const {
st->print_cr("%s", name());
}
void DeoptimizationBlob::print_value_on(outputStream* st) const {
st->print_cr("Deoptimization (frame not available)");
}