8046809: vm/mlvm/meth/stress/compiler/deoptimize CodeCache is full.
Summary: Use separate sweeper thread; enables more aggressive sweeping.
Reviewed-by: kvn, jrose
/*
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* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
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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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#ifndef SHARE_VM_CODE_DEBUGINFOREC_HPP
#define SHARE_VM_CODE_DEBUGINFOREC_HPP
#include "ci/ciClassList.hpp"
#include "ci/ciInstanceKlass.hpp"
#include "ci/ciMethod.hpp"
#include "code/debugInfo.hpp"
#include "code/location.hpp"
#include "code/pcDesc.hpp"
#include "compiler/oopMap.hpp"
#include "oops/oop.hpp"
#include "utilities/growableArray.hpp"
//** The DebugInformationRecorder collects debugging information
// for a compiled method.
// Debugging information is used for:
// - garbage collecting compiled frames
// - stack tracing across compiled frames
// - deoptimizating compiled frames
//
// The implementation requires the compiler to use the recorder
// in the following order:
// 1) Describe debug information for safepoints at increasing addresses.
// a) Add safepoint entry (use add_safepoint or add_non_safepoint)
// b) Describe scopes for that safepoint
// - create locals if needed (use create_scope_values)
// - create expressions if needed (use create_scope_values)
// - create monitor stack if needed (use create_monitor_values)
// - describe scope (use describe_scope)
// "repeat last four steps for all scopes"
// "outer most scope first and inner most scope last"
// NB: nodes from create_scope_values and create_locations
// can be reused for simple sharing.
// - mark the end of the scopes (end_safepoint or end_non_safepoint)
// 2) Use oop_size, metadata_size, data_size, pcs_size to create the nmethod
// and finally migrate the debugging information into the nmethod
// by calling copy_to.
class DebugToken; // Opaque datatype for stored:
// - GrowableArray<ScopeValue*>
// - GrowableArray<MonitorValue*>
// Alias for InvocationEntryBci.
// Both constants are used for a pseudo-BCI which refers
// to the state just _before_ a method is entered.
// SynchronizationEntryBCI is used where the emphasis
// is on the implicit monitorenter of a synchronized method.
const int SynchronizationEntryBCI = InvocationEntryBci;
class DIR_Chunk; // private class, a nugget of collected information
class DebugInformationRecorder: public ResourceObj {
public:
// constructor
DebugInformationRecorder(OopRecorder* oop_recorder);
// adds an oopmap at a specific offset
void add_oopmap(int pc_offset, OopMap* map);
// adds a jvm mapping at pc-offset, for a safepoint only
void add_safepoint(int pc_offset, OopMap* map);
// adds a jvm mapping at pc-offset, for a non-safepoint (profile point)
void add_non_safepoint(int pc_offset);
// Describes debugging information for a scope at the given pc_offset.
// Calls must be in non-decreasing order of pc_offset.
// If there are several calls at a single pc_offset,
// then they occur in the same order as they were performed by the JVM,
// with the most recent (innermost) call being described last.
// For a safepoint, the pc_offset must have been mentioned
// previously by add_safepoint.
// Otherwise, the pc_offset must have been mentioned previously
// by add_non_safepoint, and the locals, expressions, and monitors
// must all be null.
void describe_scope(int pc_offset,
ciMethod* method,
int bci,
bool reexecute,
bool is_method_handle_invoke = false,
bool return_oop = false,
DebugToken* locals = NULL,
DebugToken* expressions = NULL,
DebugToken* monitors = NULL);
void dump_object_pool(GrowableArray<ScopeValue*>* objects);
// This call must follow every add_safepoint,
// after any intervening describe_scope calls.
void end_safepoint(int pc_offset) { end_scopes(pc_offset, true); }
void end_non_safepoint(int pc_offset) { end_scopes(pc_offset, false); }
// helper fuctions for describe_scope to enable sharing
DebugToken* create_scope_values(GrowableArray<ScopeValue*>* values);
DebugToken* create_monitor_values(GrowableArray<MonitorValue*>* monitors);
// returns the size of the generated scopeDescs.
int data_size();
int pcs_size();
int oop_size() { return oop_recorder()->oop_size(); }
int metadata_size() { return oop_recorder()->metadata_size(); }
// copy the generated debugging information to nmethod
void copy_to(nmethod* nm);
// verifies the debug information
void verify(const nmethod* code);
static void print_statistics() PRODUCT_RETURN;
// Method for setting oopmaps to temporarily preserve old handling of oopmaps
OopMapSet *_oopmaps;
void set_oopmaps(OopMapSet *oopmaps) { _oopmaps = oopmaps; }
OopRecorder* oop_recorder() { return _oop_recorder; }
int last_pc_offset() { return last_pc()->pc_offset(); }
bool recording_non_safepoints() { return _recording_non_safepoints; }
private:
friend class ScopeDesc;
friend class vframeStreamCommon;
friend class DIR_Chunk;
// True if we are recording non-safepoint scopes.
// This flag is set if DebugNonSafepoints is true, or if
// JVMTI post_compiled_method_load events are enabled.
const bool _recording_non_safepoints;
DebugInfoWriteStream* _stream;
DebugInfoWriteStream* stream() const { return _stream; }
OopRecorder* _oop_recorder;
// Scopes that have been described so far.
GrowableArray<DIR_Chunk*>* _all_chunks;
GrowableArray<DIR_Chunk*>* _shared_chunks;
DIR_Chunk* _next_chunk;
DIR_Chunk* _next_chunk_limit;
#ifdef ASSERT
enum { rs_null, rs_safepoint, rs_non_safepoint };
int _recording_state;
#endif
PcDesc* _pcs;
int _pcs_size;
int _pcs_length;
// Note: Would use GrowableArray<PcDesc>, but structs are not supported.
// PC of most recent real safepoint before the current one,
// updated after end_scopes.
int _prev_safepoint_pc;
PcDesc* last_pc() {
guarantee(_pcs_length > 0, "a safepoint must be declared already");
return &_pcs[_pcs_length-1];
}
PcDesc* prev_pc() {
guarantee(_pcs_length > 1, "a safepoint must be declared already");
return &_pcs[_pcs_length-2];
}
void add_new_pc_offset(int pc_offset);
void end_scopes(int pc_offset, bool is_safepoint);
int serialize_monitor_values(GrowableArray<MonitorValue*>* monitors);
int serialize_scope_values(GrowableArray<ScopeValue*>* values);
int find_sharable_decode_offset(int stream_offset);
#ifndef PRODUCT
bool recorders_frozen();
void mark_recorders_frozen();
#endif // PRODUCT
public:
enum { serialized_null = 0 };
};
#endif // SHARE_VM_CODE_DEBUGINFOREC_HPP