/* * Copyright (c) 1998, 2013, 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. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * 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. */ #if defined(_ALLBSD_SOURCE) #include /* for uintptr_t */ #endif #include "util.h" #include "commonRef.h" /* * ANDROID-CHANGED: This was modified for android to avoid any use of weak * global (jweak) references. On Android hosts the number of jweak * references active at any one time is limited. By using jweaks to keep * track of objects here we could hit the jweak limit on some very large * apps. The implementation is compatible with any JVMTI implementation * that provides the 'can_tag_objects' and * 'can_generate_object_free_events' capabilities. This works by watching * for the ObjectFree events on tagged objects and storing them in a list * of things that have been deleted. * * Each object sent to the front end is tracked with the RefNode struct * (see util.h). * External to this module, objects are identified by a jlong id which is * simply the sequence number. A JVMTI tag is usually used so that * the presence of a debugger-tracked object will not prevent * its collection. Once an object is collected, its RefNode may be * deleted (these may happen in * either order). Using the sequence number * as the object id prevents ambiguity in the object id when the weak ref * is reused. The RefNode* is stored with the object as it's JVMTI Tag. * This tag also provides the weak-reference behavior. * * The ref member is changed from weak to strong when gc of the object is * to be prevented. Whether or not it is strong, it is never exported * from this module. * * A reference count of each jobject is also maintained here. It tracks * the number times an object has been referenced through * commonRef_refToID. A RefNode is freed once the reference * count is decremented to 0 (with commonRef_release*), even if the * corresponding object has not been collected. * * One hash table is maintained. The mapping of ID to RefNode* is handled * with one hash table that will re-size itself as the number of RefNode's * grow. */ /* Initial hash table size (must be power of 2) */ #define HASH_INIT_SIZE 512 /* If element count exceeds HASH_EXPAND_SCALE*hash_size we expand & re-hash */ #define HASH_EXPAND_SCALE 8 /* Maximum hash table size (must be power of 2) */ #define HASH_MAX_SIZE (1024*HASH_INIT_SIZE) /* Map a key (ID) to a hash bucket */ static jint hashBucket(jlong key) { /* Size should always be a power of 2, use mask instead of mod operator */ /*LINTED*/ return ((jint)key) & (gdata->objectsByIDsize-1); } /* Generate a new ID */ static jlong newSeqNum(void) { return gdata->nextSeqNum++; } /* ANDROID-CHANGED: This helper function is unique to android. * This function gets a local-ref to object the node is pointing to. If the node's object has been * collected it will return NULL. The caller is responsible for calling env->DeleteLocalRef or * env->PopLocalFrame to clean up the reference. This function makes no changes to the passed in * node. */ static jobject getLocalRef(JNIEnv *env, const RefNode* node) { if (node->isStrong) { return JNI_FUNC_PTR(env,NewLocalRef)(env, node->ref); } jint count = -1; jobject *objects = NULL; jlong tag = ptr_to_jlong(node); jvmtiError error = JVMTI_FUNC_PTR(gdata->jvmti,GetObjectsWithTags) (gdata->jvmti, 1, &tag, &count, &objects, NULL); if (error != JVMTI_ERROR_NONE) { EXIT_ERROR(error,"GetObjectsWithTags"); } if (count != 1 && count != 0) { EXIT_ERROR(AGENT_ERROR_INTERNAL, "GetObjectsWithTags returned multiple objects unexpectedly"); } jobject res = (count == 0) ? NULL : objects[0]; JVMTI_FUNC_PTR(gdata->jvmti,Deallocate)(gdata->jvmti,(unsigned char*)objects); return res; } /* ANDROID-CHANGED: Handler function for objects being freed. */ void commonRef_handleFreedObject(jlong tag) { RefNode* node = (RefNode*)jlong_to_ptr(tag); debugMonitorEnterNoSuspend(gdata->refLock); { // Delete the node and remove it from the hashmap. // If we raced with a deleteNode call and lost the next and prev will be null but we will // not be at the start of the bucket. This is fine. jint slot = hashBucket(node->seqNum); if (node->next != NULL || node->prev != NULL || gdata->objectsByID[slot] == node) { /* Detach from id hash table */ if (node->prev == NULL) { gdata->objectsByID[slot] = node->next; } else { node->prev->next = node->next; } /* Also fixup back links. */ if (node->next != NULL) { node->next->prev = node->prev; } gdata->objectsByIDcount--; } jvmtiDeallocate(node); } debugMonitorExit(gdata->refLock); } /* Create a fresh RefNode structure, and tag the object (creating a weak-ref to it). * ANDROID-CHANGED: The definition of RefNode was changed slightly so that node->ref is only for * a strong reference. For weak references we use the node as a tag on the object to keep track if * it. * ANDROID-CHANGED: ref must be a local-reference held live for the duration of this method until it * is fully in the objectByID map. */ static RefNode * createNode(JNIEnv *env, jobject ref) { RefNode *node; jvmtiError error; if (ref == NULL) { return NULL; } /* Could allocate RefNode's in blocks, not sure it would help much */ node = (RefNode*)jvmtiAllocate((int)sizeof(RefNode)); if (node == NULL) { return NULL; } /* ANDROID-CHANGED: Use local reference to make sure we have a reference. We will use this * reference to set a tag to the node to use as a weak-reference and keep track of the ref. * ANDROID-CHANGED: Set node tag on the ref. This tag now functions as the weak-reference to the * object. */ error = JVMTI_FUNC_PTR(gdata->jvmti, SetTag)(gdata->jvmti, ref, ptr_to_jlong(node)); if ( error != JVMTI_ERROR_NONE ) { jvmtiDeallocate(node); return NULL; } /* Fill in RefNode */ node->ref = NULL; node->isStrong = JNI_FALSE; node->count = 1; node->seqNum = newSeqNum(); /* Count RefNode's created */ gdata->objectsByIDcount++; return node; } /* Delete a RefNode allocation, delete weak/global ref and clear tag */ static void deleteNode(JNIEnv *env, RefNode *node) { /* ANDROID-CHANGED: use getLocalRef to get a local reference to the node. */ WITH_LOCAL_REFS(env, 1) { jobject localRef = getLocalRef(env, node); LOG_MISC(("Freeing %d\n", (int)node->seqNum)); /* Detach from id hash table */ if (node->prev == NULL) { gdata->objectsByID[hashBucket(node->seqNum)] = node->next; } else { node->prev->next = node->next; } /* Also fixup back links. */ if (node->next != NULL) { node->next->prev = node->prev; } // If we don't get the localref that means the ObjectFree event is being called and the // node will be deleted there. if ( localRef != NULL ) { /* Clear tag */ (void)JVMTI_FUNC_PTR(gdata->jvmti,SetTag) (gdata->jvmti, localRef, NULL_OBJECT_ID); if (node->isStrong) { JNI_FUNC_PTR(env,DeleteGlobalRef)(env, node->ref); } jvmtiDeallocate(node); } else { // We are going to let the object-free do the final work. Mark this node as not in the // list with both null links but not in the bucket. node->prev = NULL; node->next = NULL; } gdata->objectsByIDcount--; } END_WITH_LOCAL_REFS(env); } /* Change a RefNode to have a strong reference */ static jobject strengthenNode(JNIEnv *env, RefNode *node) { if (!node->isStrong) { /* ANDROID-CHANGED: We need to find and fill in the node->ref when we strengthen a node. */ WITH_LOCAL_REFS(env, 1) { /* getLocalRef will return NULL if the referent has been collected. */ jobject localRef = getLocalRef(env, node); if (localRef != NULL) { node->ref = JNI_FUNC_PTR(env,NewGlobalRef)(env, localRef); if (node->ref == NULL) { EXIT_ERROR(AGENT_ERROR_NULL_POINTER,"NewGlobalRef"); } node->isStrong = JNI_TRUE; } } END_WITH_LOCAL_REFS(env); } return node->ref; } /* Change a RefNode to have a weak reference * ANDROID-CHANGED: This is done by deleting the strong reference. We already have a tag in * to the node from when we created the node. Since this is never removed we can simply delete the * global ref, reset node->isStrong & node->ref, and return. Since no part of this can fail we can * change this function to be void too. */ static void weakenNode(JNIEnv *env, RefNode *node) { if (node->isStrong) { JNI_FUNC_PTR(env,DeleteGlobalRef)(env, node->ref); node->ref = NULL; node->isStrong = JNI_FALSE; } } /* * Returns the node which contains the common reference for the * given object. The passed reference should not be a weak reference * managed in the object hash table (i.e. returned by commonRef_idToRef) * because no sequence number checking is done. */ static RefNode * findNodeByRef(JNIEnv *env, jobject ref) { jvmtiError error; jlong tag; tag = NULL_OBJECT_ID; error = JVMTI_FUNC_PTR(gdata->jvmti,GetTag)(gdata->jvmti, ref, &tag); if ( error == JVMTI_ERROR_NONE ) { RefNode *node; node = (RefNode*)jlong_to_ptr(tag); return node; } return NULL; } /* Locate and delete a node based on ID */ static void deleteNodeByID(JNIEnv *env, jlong id, jint refCount) { /* ANDROID-CHANGED: Rewrite for double-linked list. Also remove ALL_REFS since it's not needed * since the free-callback will do the work of cleaning up when an object gets collected. */ jint slot; RefNode *node; slot = hashBucket(id); node = gdata->objectsByID[slot]; while (node != NULL) { if (id == node->seqNum) { node->count -= refCount; if (node->count <= 0) { if ( node->count < 0 ) { EXIT_ERROR(AGENT_ERROR_INTERNAL,"RefNode count < 0"); } deleteNode(env, node); } break; } node = node->next; } } /* * Returns the node stored in the object hash table for the given object * id. The id should be a value previously returned by * commonRef_refToID. * * NOTE: It is possible that a match is found here, but that the object * is garbage collected by the time the caller inspects node->ref. * Callers should take care using the node->ref object returned here. * */ static RefNode * findNodeByID(JNIEnv *env, jlong id) { /* ANDROID-CHANGED: Rewrite for double-linked list */ jint slot; RefNode *node; slot = hashBucket(id); node = gdata->objectsByID[slot]; while (node != NULL) { if ( id == node->seqNum ) { if ( node->prev != NULL ) { /* Re-order hash list so this one is up front */ node->prev->next = node->next; node->prev->prev = node->prev; node->next = gdata->objectsByID[slot]; node->next->prev = node; node->prev = NULL; gdata->objectsByID[slot] = node; } break; } node = node->next; } return node; } /* Initialize the hash table stored in gdata area */ static void initializeObjectsByID(int size) { /* Size should always be a power of 2 */ if ( size > HASH_MAX_SIZE ) size = HASH_MAX_SIZE; gdata->objectsByIDsize = size; gdata->objectsByIDcount = 0; gdata->objectsByID = (RefNode**)jvmtiAllocate((int)sizeof(RefNode*)*size); (void)memset(gdata->objectsByID, 0, (int)sizeof(RefNode*)*size); } /* hash in a RefNode */ static void hashIn(RefNode *node) { /* ANDROID-CHANGED: Modify for double-linked list */ jint slot; /* Add to id hashtable */ slot = hashBucket(node->seqNum); node->next = gdata->objectsByID[slot]; node->prev = NULL; if (node->next != NULL) { node->next->prev = node; } gdata->objectsByID[slot] = node; } /* Allocate and add RefNode to hash table * ANDROID-CHANGED: Requires that ref be a held-live local ref.*/ static RefNode * newCommonRef(JNIEnv *env, jobject ref) { RefNode *node; /* Allocate the node and set it up */ node = createNode(env, ref); if ( node == NULL ) { return NULL; } /* See if hash table needs expansion */ if ( gdata->objectsByIDcount > gdata->objectsByIDsize*HASH_EXPAND_SCALE && gdata->objectsByIDsize < HASH_MAX_SIZE ) { RefNode **old; int oldsize; int newsize; int i; /* Save old information */ old = gdata->objectsByID; oldsize = gdata->objectsByIDsize; /* Allocate new hash table */ gdata->objectsByID = NULL; newsize = oldsize*HASH_EXPAND_SCALE; if ( newsize > HASH_MAX_SIZE ) newsize = HASH_MAX_SIZE; initializeObjectsByID(newsize); /* Walk over old one and hash in all the RefNodes */ for ( i = 0 ; i < oldsize ; i++ ) { RefNode *onode; onode = old[i]; while (onode != NULL) { RefNode *next; next = onode->next; hashIn(onode); onode = next; } } jvmtiDeallocate(old); } /* Add to id hashtable */ hashIn(node); return node; } /* Initialize the commonRefs usage */ void commonRef_initialize(void) { gdata->refLock = debugMonitorCreate("JDWP Reference Table Monitor"); gdata->nextSeqNum = 1; /* 0 used for error indication */ initializeObjectsByID(HASH_INIT_SIZE); } /* Reset the commonRefs usage */ void commonRef_reset(JNIEnv *env) { debugMonitorEnter(gdata->refLock); { int i; for (i = 0; i < gdata->objectsByIDsize; i++) { RefNode *node; for (node = gdata->objectsByID[i]; node != NULL; node = gdata->objectsByID[i]) { deleteNode(env, node); } gdata->objectsByID[i] = NULL; } /* Toss entire hash table and re-create a new one */ jvmtiDeallocate(gdata->objectsByID); gdata->objectsByID = NULL; gdata->nextSeqNum = 1; /* 0 used for error indication */ initializeObjectsByID(HASH_INIT_SIZE); } debugMonitorExit(gdata->refLock); } /* * Given a reference obtained from JNI or JVMTI, return an object * id suitable for sending to the debugger front end. */ jlong commonRef_refToID(JNIEnv *env, jobject ref) { jlong id; if (ref == NULL) { return NULL_OBJECT_ID; } id = NULL_OBJECT_ID; debugMonitorEnter(gdata->refLock); { RefNode *node; node = findNodeByRef(env, ref); if (node == NULL) { WITH_LOCAL_REFS(env, 1) { node = newCommonRef(env, JNI_FUNC_PTR(env,NewLocalRef)(env, ref)); if ( node != NULL ) { id = node->seqNum; } } END_WITH_LOCAL_REFS(env); } else { id = node->seqNum; node->count++; } } debugMonitorExit(gdata->refLock); return id; } /* * Given an object ID obtained from the debugger front end, return a * strong, global reference to that object (or NULL if the object * has been collected). The reference can then be used for JNI and * JVMTI calls. Caller is resposible for deleting the returned reference. */ jobject commonRef_idToRef(JNIEnv *env, jlong id) { jobject ref; ref = NULL; debugMonitorEnter(gdata->refLock); { RefNode *node; node = findNodeByID(env, id); if (node != NULL) { if (node->isStrong) { saveGlobalRef(env, node->ref, &ref); } else { jobject lref; /* ANDROID-CHANGED: Use getLocalRef helper to get a local-reference to the object * this node weakly points to. It will return NULL if the object has been GCd */ lref = getLocalRef(env, node); if ( lref != NULL ) { /* ANDROID-CHANGED: Use lref to save the global ref since that is the only real * jobject we have. */ saveGlobalRef(env, lref, &ref); JNI_FUNC_PTR(env,DeleteLocalRef)(env, lref); } /* ANDROID-CHANGED: Otherwise the object was GC'd shortly after we found the node. * The free callback will deal with cleanup once we return. */ } } } debugMonitorExit(gdata->refLock); return ref; } /* Deletes the global reference that commonRef_idToRef() created */ void commonRef_idToRef_delete(JNIEnv *env, jobject ref) { if ( ref==NULL ) { return; } tossGlobalRef(env, &ref); } /* Prevent garbage collection of an object */ jvmtiError commonRef_pin(jlong id) { jvmtiError error; error = JVMTI_ERROR_NONE; if (id == NULL_OBJECT_ID) { return error; } debugMonitorEnter(gdata->refLock); { JNIEnv *env; RefNode *node; env = getEnv(); node = findNodeByID(env, id); if (node == NULL) { error = AGENT_ERROR_INVALID_OBJECT; } else { jobject strongRef; strongRef = strengthenNode(env, node); if (strongRef == NULL) { /* * Referent has been collected, clean up now. * ANDROID-CHANGED: The node will be cleaned up by the object-free callback. */ error = AGENT_ERROR_INVALID_OBJECT; } } } debugMonitorExit(gdata->refLock); return error; } /* Permit garbage collection of an object */ jvmtiError commonRef_unpin(jlong id) { jvmtiError error; error = JVMTI_ERROR_NONE; debugMonitorEnter(gdata->refLock); { JNIEnv *env; RefNode *node; env = getEnv(); node = findNodeByID(env, id); if (node != NULL) { // ANDROID-CHANGED: weakenNode was changed to never fail. weakenNode(env, node); } } debugMonitorExit(gdata->refLock); return error; } /* Release tracking of an object by ID */ void commonRef_release(JNIEnv *env, jlong id) { debugMonitorEnter(gdata->refLock); { deleteNodeByID(env, id, 1); } debugMonitorExit(gdata->refLock); } void commonRef_releaseMultiple(JNIEnv *env, jlong id, jint refCount) { debugMonitorEnter(gdata->refLock); { deleteNodeByID(env, id, refCount); } debugMonitorExit(gdata->refLock); } /* Get rid of RefNodes for objects that no longer exist */ void commonRef_compact(void) { // NO-OP. } /* Lock the commonRef tables */ void commonRef_lock(void) { debugMonitorEnter(gdata->refLock); } /* Unlock the commonRef tables */ void commonRef_unlock(void) { debugMonitorExit(gdata->refLock); }