#include <config.h>
#include <stdio.h>
#include <jvm.h>
#include <gcj/cni.h>
#include <java/lang/Class.h>
#include <java/lang/reflect/Modifier.h>
#include <java-interp.h>
#undef TRUE
#undef FALSE
extern "C"
{
#include <private/gc_pmark.h>
#include <gc_gcj.h>
#ifdef THREAD_LOCAL_ALLOC
# define GC_REDIRECT_TO_LOCAL
# include <gc_local_alloc.h>
#endif
void GC_finalize_all (void);
ptr_t GC_debug_generic_malloc (size_t size, int k, GC_EXTRA_PARAMS);
};
#define MAYBE_MARK(Obj, Top, Limit, Source, Exit) \
Top=GC_MARK_AND_PUSH((GC_PTR)Obj, Top, Limit, (GC_PTR *)Source)
static int array_kind_x;
static ptr_t *array_free_list;
static _Jv_Mutex_t disable_gc_mutex;
void *
_Jv_MarkObj (void *addr, void *msp, void *msl, void * )
{
mse *mark_stack_ptr = (mse *) msp;
mse *mark_stack_limit = (mse *) msl;
jobject obj = (jobject) addr;
_Jv_VTable *dt = *(_Jv_VTable **) addr;
if (__builtin_expect (! dt || !(dt -> get_finalizer()), false))
return mark_stack_ptr;
jclass klass = dt->clas;
ptr_t p;
# ifndef JV_HASH_SYNCHRONIZATION
p = (ptr_t) obj->sync_info;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, obj, o1label);
# endif
p = (ptr_t) klass;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, obj, o2label);
if (__builtin_expect (klass == &java::lang::Class::class$, false))
{
jclass c = (jclass) addr;
p = (ptr_t) c->name;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, c, c3label);
p = (ptr_t) c->superclass;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, c, c4label);
for (int i = 0; i < c->constants.size; ++i)
{
p = (ptr_t) c->constants.data[i].p;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, c, c5label);
}
#ifdef INTERPRETER
if (_Jv_IsInterpretedClass (c))
{
p = (ptr_t) c->constants.tags;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, c, c5alabel);
p = (ptr_t) c->constants.data;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, c, c5blabel);
p = (ptr_t) c->vtable;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, c, c5clabel);
}
#endif
p = (ptr_t) c->methods;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, c, c6label);
if (__builtin_expect (c->name == NULL, false))
return mark_stack_ptr;
if (! c->isArray() && ! c->isPrimitive())
{
for (int i = 0; i < c->method_count; ++i)
{
p = (ptr_t) c->methods[i].name;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, c,
cm1label);
p = (ptr_t) c->methods[i].signature;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, c,
cm2label);
}
}
p = (ptr_t) c->fields;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, c, c8label);
for (int i = 0; i < c->field_count; ++i)
{
_Jv_Field* field = &c->fields[i];
#ifndef COMPACT_FIELDS
p = (ptr_t) field->name;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, c, c8alabel);
#endif
p = (ptr_t) field->type;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, c, c8blabel);
if ((field->flags & java::lang::reflect::Modifier::STATIC))
{
p = (ptr_t) field->u.addr;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, c, c8clabel);
if (JvFieldIsRef (field) && field->isResolved())
{
jobject val = *(jobject*) field->u.addr;
p = (ptr_t) val;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit,
c, c8elabel);
}
}
}
p = (ptr_t) c->vtable;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, c, c9label);
p = (ptr_t) c->interfaces;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, c, cAlabel);
for (int i = 0; i < c->interface_count; ++i)
{
p = (ptr_t) c->interfaces[i];
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, c, cClabel);
}
p = (ptr_t) c->loader;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, c, cBlabel);
p = (ptr_t) c->arrayclass;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, c, cDlabel);
p = (ptr_t) c->protectionDomain;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, c, cPlabel);
#ifdef INTERPRETER
if (_Jv_IsInterpretedClass (c))
{
_Jv_InterpClass* ic = (_Jv_InterpClass*) c;
p = (ptr_t) ic->interpreted_methods;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, ic, cElabel);
for (int i = 0; i < c->method_count; i++)
{
p = (ptr_t) ic->interpreted_methods[i];
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, ic, \
cFlabel);
if ((c->methods[i].accflags
& java::lang::reflect::Modifier::NATIVE) == 0)
{
_Jv_InterpMethod *im
= (_Jv_InterpMethod *) ic->interpreted_methods[i];
if (im)
{
p = (ptr_t) im->prepared;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, ic, \
cFlabel);
}
}
p = (ptr_t) c->methods[i].ncode;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, c,
cm3label);
}
p = (ptr_t) ic->field_initializers;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, ic, cGlabel);
}
#endif
}
else
{
while (klass && klass != &java::lang::Object::class$)
{
jfieldID field = JvGetFirstInstanceField (klass);
jint max = JvNumInstanceFields (klass);
for (int i = 0; i < max; ++i)
{
if (JvFieldIsRef (field))
{
jobject val = JvGetObjectField (obj, field);
p = (ptr_t) val;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit,
obj, elabel);
}
field = field->getNextField ();
}
klass = klass->getSuperclass();
}
}
return mark_stack_ptr;
}
void *
_Jv_MarkArray (void *addr, void *msp, void *msl, void * )
{
mse *mark_stack_ptr = (mse *) msp;
mse *mark_stack_limit = (mse *) msl;
jobjectArray array = (jobjectArray) addr;
_Jv_VTable *dt = *(_Jv_VTable **) addr;
if (__builtin_expect (! dt || !(dt -> get_finalizer()), false))
return mark_stack_ptr;
jclass klass = dt->clas;
ptr_t p;
# ifndef JV_HASH_SYNCHRONIZATION
p = (ptr_t) array->sync_info;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, array, e1label);
# endif
p = (ptr_t) klass;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, &(dt -> clas), o2label);
for (int i = 0; i < JvGetArrayLength (array); ++i)
{
jobject obj = elements (array)[i];
p = (ptr_t) obj;
MAYBE_MARK (p, mark_stack_ptr, mark_stack_limit, array, e2label);
}
return mark_stack_ptr;
}
#define GCJ_DEFAULT_DESCR GC_MAKE_PROC(GC_GCJ_RESERVED_MARK_PROC_INDEX,0)
void *
_Jv_BuildGCDescr(jclass)
{
return (void *)(GCJ_DEFAULT_DESCR);
}
void *
_Jv_AllocBytes (jsize size)
{
void *r = GC_MALLOC_ATOMIC (size);
memset (r, 0, size);
return r;
}
void *
_Jv_AllocArray (jsize size, jclass klass)
{
void *obj;
const jsize min_heap_addr = 16*1024;
#ifdef GC_DEBUG
obj = GC_MALLOC(size);
#else
if (size < min_heap_addr)
obj = GC_MALLOC(size);
else
obj = GC_generic_malloc (size, array_kind_x);
#endif
*((_Jv_VTable **) obj) = klass->vtable;
return obj;
}
void *
_Jv_AllocRawObj (jsize size)
{
return (void *) GC_MALLOC (size);
}
static void
call_finalizer (GC_PTR obj, GC_PTR client_data)
{
_Jv_FinalizerFunc *fn = (_Jv_FinalizerFunc *) client_data;
jobject jobj = (jobject) obj;
(*fn) (jobj);
}
void
_Jv_RegisterFinalizer (void *object, _Jv_FinalizerFunc *meth)
{
GC_REGISTER_FINALIZER_NO_ORDER (object, call_finalizer, (GC_PTR) meth,
NULL, NULL);
}
void
_Jv_RunFinalizers (void)
{
GC_invoke_finalizers ();
}
void
_Jv_RunAllFinalizers (void)
{
GC_finalize_all ();
}
void
_Jv_RunGC (void)
{
GC_gcollect ();
}
long
_Jv_GCTotalMemory (void)
{
return GC_get_heap_size ();
}
long
_Jv_GCFreeMemory (void)
{
return GC_get_free_bytes ();
}
void
_Jv_GCSetInitialHeapSize (size_t size)
{
size_t current = GC_get_heap_size ();
if (size > current)
GC_expand_hp (size - current);
}
void
_Jv_GCSetMaximumHeapSize (size_t size)
{
GC_set_max_heap_size ((GC_word) size);
}
extern "C" void GC_enable();
extern "C" void GC_disable();
void
_Jv_DisableGC (void)
{
_Jv_MutexLock (&disable_gc_mutex);
GC_disable();
_Jv_MutexUnlock (&disable_gc_mutex);
}
void
_Jv_EnableGC (void)
{
_Jv_MutexLock (&disable_gc_mutex);
GC_enable();
_Jv_MutexUnlock (&disable_gc_mutex);
}
static void * handle_out_of_memory(size_t)
{
_Jv_ThrowNoMemory();
}
void
_Jv_InitGC (void)
{
int proc;
GC_all_interior_pointers = 0;
GC_init_gcj_malloc (0, (void *) _Jv_MarkObj);
GC_oom_fn = handle_out_of_memory;
GC_java_finalization = 1;
array_free_list = (ptr_t *) GC_generic_malloc_inner ((MAXOBJSZ + 1)
* sizeof (ptr_t),
PTRFREE);
memset (array_free_list, 0, (MAXOBJSZ + 1) * sizeof (ptr_t));
proc = GC_n_mark_procs++;
GC_mark_procs[proc] = (GC_mark_proc) _Jv_MarkArray;
array_kind_x = GC_n_kinds++;
GC_obj_kinds[array_kind_x].ok_freelist = array_free_list;
GC_obj_kinds[array_kind_x].ok_reclaim_list = 0;
GC_obj_kinds[array_kind_x].ok_descriptor = GC_MAKE_PROC (proc, 0);
GC_obj_kinds[array_kind_x].ok_relocate_descr = FALSE;
GC_obj_kinds[array_kind_x].ok_init = TRUE;
_Jv_MutexInit (&disable_gc_mutex);
}
#ifdef JV_HASH_SYNCHRONIZATION
static _Jv_VTable trace_one_vtable = {
0, (void *)(2 * sizeof(void *)),
{0} };
void *
_Jv_AllocTraceOne (jsize size )
{
return GC_GCJ_MALLOC (size, &trace_one_vtable);
}
static _Jv_VTable trace_two_vtable =
{
0, (void *)(3 * sizeof(void *)),
{0} };
void *
_Jv_AllocTraceTwo (jsize size )
{
return GC_GCJ_MALLOC (size, &trace_two_vtable);
}
#endif
void
_Jv_GCInitializeFinalizers (void (*notifier) (void))
{
GC_finalize_on_demand = 1;
GC_finalizer_notifier = notifier;
}
void
_Jv_GCRegisterDisappearingLink (jobject *objp)
{
GC_general_register_disappearing_link ((GC_PTR *) objp, (GC_PTR) *objp);
}
jboolean
_Jv_GCCanReclaimSoftReference (jobject)
{
return true;
}