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android / platform / dalvik / b2e78d39f6df19a6222b3cd4c7010864fb8cb55f / . / vm / alloc / Alloc.c
blob: 50f6ed98f23056c86deae6256d513369e0487f43 [file] [log] [blame]
/*
* Copyright (C) 2008 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/*
* Garbage-collecting memory allocator.
*/
#include "Dalvik.h"
#include "alloc/Heap.h"
#include "alloc/HeapInternal.h"
#include "alloc/HeapSource.h"
#if WITH_HPROF && WITH_HPROF_STACK
#include "hprof/Hprof.h"
#endif
/*
* Initialize the GC universe.
*
* We're currently using a memory-mapped arena to keep things off of the
* main heap. This needs to be replaced with something real.
*/
bool dvmGcStartup(void)
{
dvmInitMutex(&gDvm.gcHeapLock);
return dvmHeapStartup();
}
/*
* Post-zygote heap initialization, including starting
* the HeapWorker thread.
*/
bool dvmGcStartupAfterZygote(void)
{
if (!dvmHeapWorkerStartup()) {
return false;
}
return dvmHeapStartupAfterZygote();
}
/*
* Shutdown the threads internal to the garbage collector.
*/
void dvmGcThreadShutdown(void)
{
dvmHeapWorkerShutdown();
dvmHeapThreadShutdown();
}
/*
* Shut the GC down.
*/
void dvmGcShutdown(void)
{
//TODO: grab and destroy the lock
dvmHeapShutdown();
}
/*
* Do any last-minute preparation before we call fork() for the first time.
*/
bool dvmGcPreZygoteFork(void)
{
return dvmHeapSourceStartupBeforeFork();
}
/*
* Create a "stock instance" of an exception class.
*/
static Object* createStockException(const char* descriptor, const char* msg)
{
Thread* self = dvmThreadSelf();
StringObject* msgStr = NULL;
ClassObject* clazz;
Method* init;
Object* obj;
/* find class, initialize if necessary */
clazz = dvmFindSystemClass(descriptor);
if (clazz == NULL) {
LOGE("Unable to find %s\n", descriptor);
return NULL;
}
init = dvmFindDirectMethodByDescriptor(clazz, "<init>",
"(Ljava/lang/String;)V");
if (init == NULL) {
LOGE("Unable to find String-arg constructor for %s\n", descriptor);
return NULL;
}
obj = dvmAllocObject(clazz, ALLOC_DEFAULT);
if (obj == NULL)
return NULL;
if (msg == NULL) {
msgStr = NULL;
} else {
msgStr = dvmCreateStringFromCstr(msg);
if (msgStr == NULL) {
LOGW("Could not allocate message string \"%s\"\n", msg);
dvmReleaseTrackedAlloc(obj, self);
return NULL;
}
}
JValue unused;
dvmCallMethod(self, init, obj, &unused, msgStr);
if (dvmCheckException(self)) {
dvmReleaseTrackedAlloc((Object*) msgStr, self);
dvmReleaseTrackedAlloc(obj, self);
return NULL;
}
dvmReleaseTrackedAlloc((Object*) msgStr, self); // okay if msgStr NULL
return obj;
}
/*
* Create some "stock" exceptions. These can be thrown when the system is
* too screwed up to allocate and initialize anything, or when we don't
* need a meaningful stack trace.
*
* We can't do this during the initial startup because we need to execute
* the constructors.
*/
bool dvmCreateStockExceptions(void)
{
/*
* Pre-allocate some throwables. These need to be explicitly added
* to the GC's root set (see dvmHeapMarkRootSet()).
*/
gDvm.outOfMemoryObj = createStockException("Ljava/lang/OutOfMemoryError;",
"[memory exhausted]");
dvmReleaseTrackedAlloc(gDvm.outOfMemoryObj, NULL);
gDvm.internalErrorObj = createStockException("Ljava/lang/InternalError;",
"[pre-allocated]");
dvmReleaseTrackedAlloc(gDvm.internalErrorObj, NULL);
gDvm.noClassDefFoundErrorObj =
createStockException("Ljava/lang/NoClassDefFoundError;",
"[generic]");
dvmReleaseTrackedAlloc(gDvm.noClassDefFoundErrorObj, NULL);
if (gDvm.outOfMemoryObj == NULL || gDvm.internalErrorObj == NULL ||
gDvm.noClassDefFoundErrorObj == NULL)
{
LOGW("Unable to create stock exceptions\n");
return false;
}
return true;
}
/*
* Create an instance of the specified class.
*
* Returns NULL and throws an exception on failure.
*/
Object* dvmAllocObject(ClassObject* clazz, int flags)
{
Object* newObj;
assert(dvmIsClassInitialized(clazz) || dvmIsClassInitializing(clazz));
if (IS_CLASS_FLAG_SET(clazz, CLASS_ISFINALIZABLE)) {
flags |= ALLOC_FINALIZABLE;
}
/* allocate on GC heap; memory is zeroed out */
newObj = dvmMalloc(clazz->objectSize, flags);
if (newObj != NULL) {
DVM_OBJECT_INIT(newObj, clazz);
#if WITH_HPROF && WITH_HPROF_STACK
hprofFillInStackTrace(newObj);
#endif
dvmTrackAllocation(clazz, clazz->objectSize);
}
return newObj;
}
/*
* Create a copy of an object, for Object.clone().
*
* We use the size actually allocated, rather than obj->clazz->objectSize,
* because the latter doesn't work for array objects.
*/
Object* dvmCloneObject(Object* obj)
{
Object* copy;
int size;
int flags;
assert(dvmIsValidObject(obj));
/* Class.java shouldn't let us get here (java.lang.Class is final
* and does not implement Clonable), but make extra sure.
* A memcpy() clone will wreak havoc on a ClassObject's "innards".
*/
assert(obj->clazz != gDvm.classJavaLangClass);
if (IS_CLASS_FLAG_SET(obj->clazz, CLASS_ISFINALIZABLE))
flags = ALLOC_DEFAULT | ALLOC_FINALIZABLE;
else
flags = ALLOC_DEFAULT;
if (IS_CLASS_FLAG_SET(obj->clazz, CLASS_ISARRAY)) {
size = dvmArrayObjectSize((ArrayObject *)obj);
} else {
size = obj->clazz->objectSize;
}
copy = dvmMalloc(size, flags);
if (copy == NULL)
return NULL;
#if WITH_HPROF && WITH_HPROF_STACK
hprofFillInStackTrace(copy);
dvmTrackAllocation(obj->clazz, size);
#endif
memcpy(copy, obj, size);
DVM_LOCK_INIT(&copy->lock);
dvmWriteBarrierObject(copy);
return copy;
}
/*
* Track an object that was allocated internally and isn't yet part of the
* VM root set.
*
* We could do this per-thread or globally. If it's global we don't have
* to do the thread lookup but we do have to synchronize access to the list.
*
* NOTE: "obj" is not a fully-formed object; in particular, obj->clazz will
* usually be NULL since we're being called from dvmMalloc().
*/
void dvmAddTrackedAlloc(Object* obj, Thread* self)
{
if (self == NULL)
self = dvmThreadSelf();
assert(self != NULL);
if (!dvmAddToReferenceTable(&self->internalLocalRefTable, obj)) {
LOGE("threadid=%d: unable to add %p to internal ref table\n",
self->threadId, obj);
dvmDumpThread(self, false);
dvmAbort();
}
}
/*
* Stop tracking an object.
*
* We allow attempts to delete NULL "obj" so that callers don't have to wrap
* calls with "if != NULL".
*/
void dvmReleaseTrackedAlloc(Object* obj, Thread* self)
{
if (obj == NULL)
return;
if (self == NULL)
self = dvmThreadSelf();
assert(self != NULL);
if (!dvmRemoveFromReferenceTable(&self->internalLocalRefTable,
self->internalLocalRefTable.table, obj))
{
LOGE("threadid=%d: failed to remove %p from internal ref table\n",
self->threadId, obj);
dvmAbort();
}
}
/*
* Explicitly initiate garbage collection.
*/
void dvmCollectGarbage(bool collectSoftReferences)
{
dvmLockHeap();
dvmCollectGarbageInternal(collectSoftReferences, GC_EXPLICIT);
dvmUnlockHeap();
}
typedef struct {
const ClassObject *clazz;
size_t count;
} CountInstancesOfClassContext;
static void countInstancesOfClassCallback(size_t numPtrs, void **ptrs,
const void *finger, void *arg)
{
CountInstancesOfClassContext *ctx = arg;
size_t i;
assert(ctx != NULL);
for (i = 0; i < numPtrs; ++i) {
const Object *obj = ptrs[i];
if (obj->clazz == ctx->clazz) {
ctx->count += 1;
}
}
}
size_t dvmCountInstancesOfClass(const ClassObject *clazz)
{
CountInstancesOfClassContext ctx = { clazz, 0 };
HeapBitmap *bitmap = dvmHeapSourceGetLiveBits();
dvmLockHeap();
dvmHeapBitmapWalk(bitmap, countInstancesOfClassCallback, &ctx);
dvmUnlockHeap();
return ctx.count;
}