/*
* Copyright (c) 2003, 2019, 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.
*
* 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
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*/
#include "precompiled.hpp"
#include "classfile/classLoaderData.inline.hpp"
#include "classfile/classLoaderDataGraph.hpp"
#include "classfile/dictionary.hpp"
#include "classfile/loaderConstraints.hpp"
#include "logging/log.hpp"
#include "memory/resourceArea.hpp"
#include "oops/oop.inline.hpp"
#include "runtime/handles.inline.hpp"
#include "runtime/safepoint.hpp"
#include "utilities/hashtable.inline.hpp"
void LoaderConstraintEntry::set_loader(int i, oop p) {
set_loader_data(i, ClassLoaderData::class_loader_data(p));
}
LoaderConstraintTable::LoaderConstraintTable(int table_size)
: Hashtable<InstanceKlass*, mtClass>(table_size, sizeof(LoaderConstraintEntry)) {};
LoaderConstraintEntry* LoaderConstraintTable::new_entry(
unsigned int hash, Symbol* name,
InstanceKlass* klass, int num_loaders,
int max_loaders) {
LoaderConstraintEntry* entry;
entry = (LoaderConstraintEntry*)Hashtable<InstanceKlass*, mtClass>::new_entry(hash, klass);
entry->set_name(name);
entry->set_num_loaders(num_loaders);
entry->set_max_loaders(max_loaders);
return entry;
}
void LoaderConstraintTable::free_entry(LoaderConstraintEntry *entry) {
// decrement name refcount before freeing
entry->name()->decrement_refcount();
Hashtable<InstanceKlass*, mtClass>::free_entry(entry);
}
// The loaderConstraintTable must always be accessed with the
// SystemDictionary lock held. This is true even for readers as
// entries in the table could be being dynamically resized.
LoaderConstraintEntry** LoaderConstraintTable::find_loader_constraint(
Symbol* name, Handle loader) {
assert_lock_strong(SystemDictionary_lock);
unsigned int hash = compute_hash(name);
int index = hash_to_index(hash);
LoaderConstraintEntry** pp = bucket_addr(index);
ClassLoaderData* loader_data = ClassLoaderData::class_loader_data(loader());
while (*pp) {
LoaderConstraintEntry* p = *pp;
if (p->hash() == hash) {
if (p->name() == name) {
for (int i = p->num_loaders() - 1; i >= 0; i--) {
if (p->loader_data(i) == loader_data &&
// skip unloaded klasses
(p->klass() == NULL ||
p->klass()->is_loader_alive())) {
return pp;
}
}
}
}
pp = p->next_addr();
}
return pp;
}
void LoaderConstraintTable::purge_loader_constraints() {
assert_locked_or_safepoint(SystemDictionary_lock);
LogTarget(Info, class, loader, constraints) lt;
// Remove unloaded entries from constraint table
for (int index = 0; index < table_size(); index++) {
LoaderConstraintEntry** p = bucket_addr(index);
while(*p) {
LoaderConstraintEntry* probe = *p;
InstanceKlass* klass = probe->klass();
// Remove klass that is no longer alive
if (klass != NULL &&
!klass->is_loader_alive()) {
probe->set_klass(NULL);
if (lt.is_enabled()) {
ResourceMark rm;
lt.print("purging class object from constraint for name %s,"
" loader list:",
probe->name()->as_C_string());
for (int i = 0; i < probe->num_loaders(); i++) {
lt.print(" [%d]: %s", i,
probe->loader_data(i)->loader_name_and_id());
}
}
}
// Remove entries no longer alive from loader array
int n = 0;
while (n < probe->num_loaders()) {
if (probe->loader_data(n)->is_unloading()) {
if (lt.is_enabled()) {
ResourceMark rm;
lt.print("purging loader %s from constraint for name %s",
probe->loader_data(n)->loader_name_and_id(),
probe->name()->as_C_string()
);
}
// Compact array
int num = probe->num_loaders() - 1;
probe->set_num_loaders(num);
probe->set_loader_data(n, probe->loader_data(num));
probe->set_loader_data(num, NULL);
if (lt.is_enabled()) {
ResourceMark rm;
lt.print("new loader list:");
for (int i = 0; i < probe->num_loaders(); i++) {
lt.print(" [%d]: %s", i,
probe->loader_data(i)->loader_name_and_id());
}
}
continue; // current element replaced, so restart without
// incrementing n
}
n++;
}
// Check whether entry should be purged
if (probe->num_loaders() < 2) {
if (lt.is_enabled()) {
ResourceMark rm;
lt.print("purging complete constraint for name %s",
probe->name()->as_C_string());
}
// Purge entry
*p = probe->next();
FREE_C_HEAP_ARRAY(oop, probe->loaders());
free_entry(probe);
} else {
#ifdef ASSERT
if (probe->klass() != NULL) {
assert(probe->klass()->is_loader_alive(), "klass should be live");
}
#endif
// Go to next entry
p = probe->next_addr();
}
}
}
}
void log_ldr_constraint_msg(Symbol* class_name, const char* reason,
Handle class_loader1, Handle class_loader2) {
LogTarget(Info, class, loader, constraints) lt;
if (lt.is_enabled()) {
ResourceMark rm;
lt.print("Failed to add constraint for name: %s, loader[0]: %s,"
" loader[1]: %s, Reason: %s",
class_name->as_C_string(),
ClassLoaderData::class_loader_data(class_loader1())->loader_name_and_id(),
ClassLoaderData::class_loader_data(class_loader2())->loader_name_and_id(),
reason);
}
}
bool LoaderConstraintTable::add_entry(Symbol* class_name,
InstanceKlass* klass1, Handle class_loader1,
InstanceKlass* klass2, Handle class_loader2) {
LogTarget(Info, class, loader, constraints) lt;
if (klass1 != NULL && klass2 != NULL) {
if (klass1 == klass2) {
// Same type already loaded in both places. There is no need for any constraint.
return true;
} else {
log_ldr_constraint_msg(class_name,
"The class objects presented by loader[0] and loader[1] "
"are different",
class_loader1, class_loader2);
return false;
}
}
InstanceKlass* klass = klass1 != NULL ? klass1 : klass2;
LoaderConstraintEntry** pp1 = find_loader_constraint(class_name, class_loader1);
if (*pp1 != NULL && (*pp1)->klass() != NULL) {
if (klass != NULL) {
if (klass != (*pp1)->klass()) {
log_ldr_constraint_msg(class_name,
"The class object presented by loader[0] does not match "
"the stored class object in the constraint",
class_loader1, class_loader2);
return false;
}
} else {
klass = (*pp1)->klass();
}
}
LoaderConstraintEntry** pp2 = find_loader_constraint(class_name, class_loader2);
if (*pp2 != NULL && (*pp2)->klass() != NULL) {
if (klass != NULL) {
if (klass != (*pp2)->klass()) {
log_ldr_constraint_msg(class_name,
"The class object presented by loader[1] does not match "
"the stored class object in the constraint",
class_loader1, class_loader2);
return false;
}
} else {
klass = (*pp2)->klass();
}
}
if (*pp1 == NULL && *pp2 == NULL) {
unsigned int hash = compute_hash(class_name);
int index = hash_to_index(hash);
LoaderConstraintEntry* p;
p = new_entry(hash, class_name, klass, 2, 2);
p->set_loaders(NEW_C_HEAP_ARRAY(ClassLoaderData*, 2, mtClass));
p->set_loader(0, class_loader1());
p->set_loader(1, class_loader2());
p->set_klass(klass);
p->set_next(bucket(index));
set_entry(index, p);
if (lt.is_enabled()) {
ResourceMark rm;
lt.print("adding new constraint for name: %s, loader[0]: %s,"
" loader[1]: %s",
class_name->as_C_string(),
ClassLoaderData::class_loader_data(class_loader1())->loader_name_and_id(),
ClassLoaderData::class_loader_data(class_loader2())->loader_name_and_id()
);
}
} else if (*pp1 == *pp2) {
/* constraint already imposed */
if ((*pp1)->klass() == NULL) {
(*pp1)->set_klass(klass);
if (lt.is_enabled()) {
ResourceMark rm;
lt.print("setting class object in existing constraint for"
" name: %s and loader %s",
class_name->as_C_string(),
ClassLoaderData::class_loader_data(class_loader1())->loader_name_and_id()
);
}
} else {
assert((*pp1)->klass() == klass, "loader constraints corrupted");
}
} else if (*pp1 == NULL) {
extend_loader_constraint(*pp2, class_loader1, klass);
} else if (*pp2 == NULL) {
extend_loader_constraint(*pp1, class_loader2, klass);
} else {
merge_loader_constraints(pp1, pp2, klass);
}
return true;
}
// return true if the constraint was updated, false if the constraint is
// violated
bool LoaderConstraintTable::check_or_update(InstanceKlass* k,
Handle loader,
Symbol* name) {
LogTarget(Info, class, loader, constraints) lt;
LoaderConstraintEntry* p = *(find_loader_constraint(name, loader));
if (p && p->klass() != NULL && p->klass() != k) {
if (lt.is_enabled()) {
ResourceMark rm;
lt.print("constraint check failed for name %s, loader %s: "
"the presented class object differs from that stored",
name->as_C_string(),
ClassLoaderData::class_loader_data(loader())->loader_name_and_id());
}
return false;
} else {
if (p && p->klass() == NULL) {
p->set_klass(k);
if (lt.is_enabled()) {
ResourceMark rm;
lt.print("updating constraint for name %s, loader %s, "
"by setting class object",
name->as_C_string(),
ClassLoaderData::class_loader_data(loader())->loader_name_and_id());
}
}
return true;
}
}
InstanceKlass* LoaderConstraintTable::find_constrained_klass(Symbol* name,
Handle loader) {
LoaderConstraintEntry *p = *(find_loader_constraint(name, loader));
if (p != NULL && p->klass() != NULL) {
assert(p->klass()->is_instance_klass(), "sanity");
if (!p->klass()->is_loaded()) {
// Only return fully loaded classes. Classes found through the
// constraints might still be in the process of loading.
return NULL;
}
return p->klass();
}
// No constraints, or else no klass loaded yet.
return NULL;
}
void LoaderConstraintTable::ensure_loader_constraint_capacity(
LoaderConstraintEntry *p,
int nfree) {
if (p->max_loaders() - p->num_loaders() < nfree) {
int n = nfree + p->num_loaders();
ClassLoaderData** new_loaders = NEW_C_HEAP_ARRAY(ClassLoaderData*, n, mtClass);
memcpy(new_loaders, p->loaders(), sizeof(ClassLoaderData*) * p->num_loaders());
p->set_max_loaders(n);
FREE_C_HEAP_ARRAY(ClassLoaderData*, p->loaders());
p->set_loaders(new_loaders);
}
}
void LoaderConstraintTable::extend_loader_constraint(LoaderConstraintEntry* p,
Handle loader,
InstanceKlass* klass) {
ensure_loader_constraint_capacity(p, 1);
int num = p->num_loaders();
p->set_loader(num, loader());
p->set_num_loaders(num + 1);
LogTarget(Info, class, loader, constraints) lt;
if (lt.is_enabled()) {
ResourceMark rm;
lt.print("extending constraint for name %s by adding loader[%d]: %s %s",
p->name()->as_C_string(),
num,
ClassLoaderData::class_loader_data(loader())->loader_name_and_id(),
(p->klass() == NULL ? " and setting class object" : "")
);
}
if (p->klass() == NULL) {
p->set_klass(klass);
} else {
assert(klass == NULL || p->klass() == klass, "constraints corrupted");
}
}
void LoaderConstraintTable::merge_loader_constraints(
LoaderConstraintEntry** pp1,
LoaderConstraintEntry** pp2,
InstanceKlass* klass) {
// make sure *pp1 has higher capacity
if ((*pp1)->max_loaders() < (*pp2)->max_loaders()) {
LoaderConstraintEntry** tmp = pp2;
pp2 = pp1;
pp1 = tmp;
}
LoaderConstraintEntry* p1 = *pp1;
LoaderConstraintEntry* p2 = *pp2;
ensure_loader_constraint_capacity(p1, p2->num_loaders());
for (int i = 0; i < p2->num_loaders(); i++) {
int num = p1->num_loaders();
p1->set_loader_data(num, p2->loader_data(i));
p1->set_num_loaders(num + 1);
}
LogTarget(Info, class, loader, constraints) lt;
if (lt.is_enabled()) {
ResourceMark rm;
lt.print("merged constraints for name %s, new loader list:",
p1->name()->as_C_string()
);
for (int i = 0; i < p1->num_loaders(); i++) {
lt.print(" [%d]: %s", i,
p1->loader_data(i)->loader_name_and_id());
}
if (p1->klass() == NULL) {
lt.print("... and setting class object");
}
}
// p1->klass() will hold NULL if klass, p2->klass(), and old
// p1->klass() are all NULL. In addition, all three must have
// matching non-NULL values, otherwise either the constraints would
// have been violated, or the constraints had been corrupted (and an
// assertion would fail).
if (p2->klass() != NULL) {
assert(p2->klass() == klass, "constraints corrupted");
}
if (p1->klass() == NULL) {
p1->set_klass(klass);
} else {
assert(p1->klass() == klass, "constraints corrupted");
}
*pp2 = p2->next();
FREE_C_HEAP_ARRAY(oop, p2->loaders());
free_entry(p2);
return;
}
void LoaderConstraintTable::verify(PlaceholderTable* placeholders) {
Thread *thread = Thread::current();
for (int cindex = 0; cindex < table_size(); cindex++) {
for (LoaderConstraintEntry* probe = bucket(cindex);
probe != NULL;
probe = probe->next()) {
if (probe->klass() != NULL) {
InstanceKlass* ik = probe->klass();
guarantee(ik->name() == probe->name(), "name should match");
Symbol* name = ik->name();
ClassLoaderData* loader_data = ik->class_loader_data();
Dictionary* dictionary = loader_data->dictionary();
unsigned int d_hash = dictionary->compute_hash(name);
int d_index = dictionary->hash_to_index(d_hash);
InstanceKlass* k = dictionary->find_class(d_index, d_hash, name);
if (k != NULL) {
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