/* * Copyright (c) 2016, 2018, 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 * questions. * */ #include "precompiled.hpp" #include "jni.h" #include "classfile/classLoaderData.inline.hpp" #include "classfile/javaClasses.inline.hpp" #include "classfile/moduleEntry.hpp" #include "logging/log.hpp" #include "memory/resourceArea.hpp" #include "oops/oopHandle.inline.hpp" #include "oops/symbol.hpp" #include "runtime/handles.inline.hpp" #include "runtime/safepoint.hpp" #include "utilities/events.hpp" #include "utilities/growableArray.hpp" #include "utilities/hashtable.inline.hpp" #include "utilities/ostream.hpp" ModuleEntry* ModuleEntryTable::_javabase_module = NULL; oop ModuleEntry::module() const { return _module.resolve(); } void ModuleEntry::set_location(Symbol* location) { if (_location != NULL) { // _location symbol's refcounts are managed by ModuleEntry, // must decrement the old one before updating. _location->decrement_refcount(); } _location = location; if (location != NULL) { location->increment_refcount(); } } bool ModuleEntry::is_non_jdk_module() { ResourceMark rm; if (location() != NULL) { const char* loc = location()->as_C_string(); if (strncmp(loc, "jrt:/java.", 10) != 0 && strncmp(loc, "jrt:/jdk.", 9) != 0) { return true; } } return false; } void ModuleEntry::set_version(Symbol* version) { if (_version != NULL) { // _version symbol's refcounts are managed by ModuleEntry, // must decrement the old one before updating. _version->decrement_refcount(); } _version = version; if (version != NULL) { version->increment_refcount(); } } // Returns the shared ProtectionDomain oop ModuleEntry::shared_protection_domain() { return _pd.resolve(); } // Set the shared ProtectionDomain atomically void ModuleEntry::set_shared_protection_domain(ClassLoaderData *loader_data, Handle pd_h) { // Create a handle for the shared ProtectionDomain and save it atomically. // init_handle_locked checks if someone beats us setting the _pd cache. loader_data->init_handle_locked(_pd, pd_h); } // Returns true if this module can read module m bool ModuleEntry::can_read(ModuleEntry* m) const { assert(m != NULL, "No module to lookup in this module's reads list"); // Unnamed modules read everyone and all modules // read java.base. If either of these conditions // hold, readability has been established. if (!this->is_named() || (m == ModuleEntryTable::javabase_moduleEntry())) { return true; } MutexLocker m1(Module_lock); // This is a guard against possible race between agent threads that redefine // or retransform classes in this module. Only one of them is adding the // default read edges to the unnamed modules of the boot and app class loaders // with an upcall to jdk.internal.module.Modules.transformedByAgent. // At the same time, another thread can instrument the module classes by // injecting dependencies that require the default read edges for resolution. if (this->has_default_read_edges() && !m->is_named()) { ClassLoaderData* cld = m->loader_data(); if (cld->is_the_null_class_loader_data() || cld->is_system_class_loader_data()) { return true; // default read edge } } if (!has_reads_list()) { return false; } else { return _reads->contains(m); } } // Add a new module to this module's reads list void ModuleEntry::add_read(ModuleEntry* m) { // Unnamed module is special cased and can read all modules if (!is_named()) { return; } MutexLocker m1(Module_lock); if (m == NULL) { set_can_read_all_unnamed(); } else { if (_reads == NULL) { // Lazily create a module's reads list _reads = new (ResourceObj::C_HEAP, mtModule)GrowableArray(MODULE_READS_SIZE, true); } // Determine, based on this newly established read edge to module m, // if this module's read list should be walked at a GC safepoint. set_read_walk_required(m->loader_data()); // Establish readability to module m _reads->append_if_missing(m); } } // If the module's loader, that a read edge is being established to, is // not the same loader as this module's and is not one of the 3 builtin // class loaders, then this module's reads list must be walked at GC // safepoint. Modules have the same life cycle as their defining class // loaders and should be removed if dead. void ModuleEntry::set_read_walk_required(ClassLoaderData* m_loader_data) { assert(is_named(), "Cannot call set_read_walk_required on unnamed module"); assert_locked_or_safepoint(Module_lock); if (!_must_walk_reads && loader_data() != m_loader_data && !m_loader_data->is_builtin_class_loader_data()) { _must_walk_reads = true; if (log_is_enabled(Trace, module)) { ResourceMark rm; log_trace(module)("ModuleEntry::set_read_walk_required(): module %s reads list must be walked", (name() != NULL) ? name()->as_C_string() : UNNAMED_MODULE); } } } // Set whether the module is open, i.e. all its packages are unqualifiedly exported void ModuleEntry::set_is_open(bool is_open) { assert_lock_strong(Module_lock); _is_open = is_open; } // Returns true if the module has a non-empty reads list. As such, the unnamed // module will return false. bool ModuleEntry::has_reads_list() const { assert_locked_or_safepoint(Module_lock); return ((_reads != NULL) && !_reads->is_empty()); } // Purge dead module entries out of reads list. void ModuleEntry::purge_reads() { assert(SafepointSynchronize::is_at_safepoint(), "must be at safepoint"); if (_must_walk_reads && has_reads_list()) { // This module's _must_walk_reads flag will be reset based // on the remaining live modules on the reads list. _must_walk_reads = false; if (log_is_enabled(Trace, module)) { ResourceMark rm; log_trace(module)("ModuleEntry::purge_reads(): module %s reads list being walked", (name() != NULL) ? name()->as_C_string() : UNNAMED_MODULE); } // Go backwards because this removes entries that are dead. int len = _reads->length(); for (int idx = len - 1; idx >= 0; idx--) { ModuleEntry* module_idx = _reads->at(idx); ClassLoaderData* cld_idx = module_idx->loader_data(); if (cld_idx->is_unloading()) { _reads->delete_at(idx); } else { // Update the need to walk this module's reads based on live modules set_read_walk_required(cld_idx); } } } } void ModuleEntry::module_reads_do(ModuleClosure* f) { assert_locked_or_safepoint(Module_lock); assert(f != NULL, "invariant"); if (has_reads_list()) { int reads_len = _reads->length(); for (int i = 0; i < reads_len; ++i) { f->do_module(_reads->at(i)); } } } void ModuleEntry::delete_reads() { assert(SafepointSynchronize::is_at_safepoint(), "must be at safepoint"); delete _reads; _reads = NULL; } ModuleEntry* ModuleEntry::create_unnamed_module(ClassLoaderData* cld) { // The java.lang.Module for this loader's // corresponding unnamed module can be found in the java.lang.ClassLoader object. oop module = java_lang_ClassLoader::unnamedModule(cld->class_loader()); // Ensure that the unnamed module was correctly set when // the class loader was constructed. guarantee(java_lang_Module::is_instance(module), "unnamed module is not an instance of type java.lang.Module"); ModuleEntry* unnamed_module = new_unnamed_module_entry(Handle(Thread::current(), module), cld); // Store pointer to the ModuleEntry in the unnamed module's java.lang.Module object. java_lang_Module::set_module_entry(module, unnamed_module); return unnamed_module; } ModuleEntry* ModuleEntry::create_boot_unnamed_module(ClassLoaderData* cld) { // For the boot loader, the java.lang.Module for the unnamed module // is not known until a call to JVM_SetBootLoaderUnnamedModule is made. At // this point initially create the ModuleEntry for the unnamed module. ModuleEntry* unnamed_module = new_unnamed_module_entry(Handle(), cld); assert(unnamed_module != NULL, "boot loader unnamed module should not be null"); return unnamed_module; } // When creating an unnamed module, this is called without holding the Module_lock. // This is okay because the unnamed module gets created before the ClassLoaderData // is available to other threads. ModuleEntry* ModuleEntry::new_unnamed_module_entry(Handle module_handle, ClassLoaderData* cld) { ModuleEntry* entry = (ModuleEntry*) NEW_C_HEAP_ARRAY(char, sizeof(ModuleEntry), mtModule); // Initialize everything BasicHashtable would entry->set_next(NULL); entry->set_hash(0); entry->set_literal(NULL); // Initialize fields specific to a ModuleEntry entry->init(); // Unnamed modules can read all other unnamed modules. entry->set_can_read_all_unnamed(); if (!module_handle.is_null()) { entry->set_module(cld->add_handle(module_handle)); } entry->set_loader_data(cld); entry->_is_open = true; JFR_ONLY(INIT_ID(entry);) return entry; } void ModuleEntry::delete_unnamed_module() { // Do not need unlink_entry() since the unnamed module is not in the hashtable FREE_C_HEAP_ARRAY(char, this); } ModuleEntryTable::ModuleEntryTable(int table_size) : Hashtable(table_size, sizeof(ModuleEntry)) { } ModuleEntryTable::~ModuleEntryTable() { assert_locked_or_safepoint(Module_lock); // Walk through all buckets and all entries in each bucket, // freeing each entry. for (int i = 0; i < table_size(); ++i) { for (ModuleEntry* m = bucket(i); m != NULL;) { ModuleEntry* to_remove = m; // read next before freeing. m = m->next(); ResourceMark rm; if (to_remove->name() != NULL) { log_info(module, unload)("unloading module %s", to_remove->name()->as_C_string()); } log_debug(module)("ModuleEntryTable: deleting module: %s", to_remove->name() != NULL ? to_remove->name()->as_C_string() : UNNAMED_MODULE); // Clean out the C heap allocated reads list first before freeing the entry to_remove->delete_reads(); if (to_remove->name() != NULL) { to_remove->name()->decrement_refcount(); } if (to_remove->version() != NULL) { to_remove->version()->decrement_refcount(); } if (to_remove->location() != NULL) { to_remove->location()->decrement_refcount(); } // Unlink from the Hashtable prior to freeing unlink_entry(to_remove); FREE_C_HEAP_ARRAY(char, to_remove); } } assert(number_of_entries() == 0, "should have removed all entries"); assert(new_entry_free_list() == NULL, "entry present on ModuleEntryTable's free list"); free_buckets(); } ModuleEntry* ModuleEntryTable::new_entry(unsigned int hash, Handle module_handle, bool is_open, Symbol* name, Symbol* version, Symbol* location, ClassLoaderData* loader_data) { assert(Module_lock->owned_by_self(), "should have the Module_lock"); ModuleEntry* entry = (ModuleEntry*)Hashtable::allocate_new_entry(hash, name); // Initialize fields specific to a ModuleEntry entry->init(); if (name != NULL) { name->increment_refcount(); } else { // Unnamed modules can read all other unnamed modules. entry->set_can_read_all_unnamed(); } if (!module_handle.is_null()) { entry->set_module(loader_data->add_handle(module_handle)); } entry->set_loader_data(loader_data); entry->set_version(version); entry->set_location(location); entry->set_is_open(is_open); if (ClassLoader::is_in_patch_mod_entries(name)) { entry->set_is_patched(); if (log_is_enabled(Trace, module, patch)) { ResourceMark rm; log_trace(module, patch)("Marked module %s as patched from --patch-module", name->as_C_string()); } } JFR_ONLY(INIT_ID(entry);) return entry; } void ModuleEntryTable::add_entry(int index, ModuleEntry* new_entry) { assert(Module_lock->owned_by_self(), "should have the Module_lock"); Hashtable::add_entry(index, (HashtableEntry*)new_entry); } ModuleEntry* ModuleEntryTable::locked_create_entry_or_null(Handle module_handle, bool is_open, Symbol* module_name, Symbol* module_version, Symbol* module_location, ClassLoaderData* loader_data) { assert(module_name != NULL, "ModuleEntryTable locked_create_entry_or_null should never be called for unnamed module."); assert(Module_lock->owned_by_self(), "should have the Module_lock"); // Check if module already exists. if (lookup_only(module_name) != NULL) { return NULL; } else { ModuleEntry* entry = new_entry(compute_hash(module_name), module_handle, is_open, module_name, module_version, module_location, loader_data); add_entry(index_for(module_name), entry); return entry; } } // lookup_only by Symbol* to find a ModuleEntry. ModuleEntry* ModuleEntryTable::lookup_only(Symbol* name) { assert(name != NULL, "name cannot be NULL"); int index = index_for(name); for (ModuleEntry* m = bucket(index); m != NULL; m = m->next()) { if (m->name()->fast_compare(name) == 0) { return m; } } return NULL; } // Remove dead modules from all other alive modules' reads list. // This should only occur at class unloading. void ModuleEntryTable::purge_all_module_reads() { assert(SafepointSynchronize::is_at_safepoint(), "must be at safepoint"); for (int i = 0; i < table_size(); i++) { for (ModuleEntry* entry = bucket(i); entry != NULL; entry = entry->next()) { entry->purge_reads(); } } } void ModuleEntryTable::finalize_javabase(Handle module_handle, Symbol* version, Symbol* location) { assert(Module_lock->owned_by_self(), "should have the Module_lock"); ClassLoaderData* boot_loader_data = ClassLoaderData::the_null_class_loader_data(); ModuleEntryTable* module_table = boot_loader_data->modules(); assert(module_table != NULL, "boot loader's ModuleEntryTable not defined"); if (module_handle.is_null()) { fatal("Unable to finalize module definition for " JAVA_BASE_NAME); } // Set java.lang.Module, version and location for java.base ModuleEntry* jb_module = javabase_moduleEntry(); assert(jb_module != NULL, JAVA_BASE_NAME " ModuleEntry not defined"); jb_module->set_version(version); jb_module->set_location(location); // Once java.base's ModuleEntry _module field is set with the known // java.lang.Module, java.base is considered "defined" to the VM. jb_module->set_module(boot_loader_data->add_handle(module_handle)); // Store pointer to the ModuleEntry for java.base in the java.lang.Module object. java_lang_Module::set_module_entry(module_handle(), jb_module); } // Within java.lang.Class instances there is a java.lang.Module field that must // be set with the defining module. During startup, prior to java.base's definition, // classes needing their module field set are added to the fixup_module_list. // Their module field is set once java.base's java.lang.Module is known to the VM. void ModuleEntryTable::patch_javabase_entries(Handle module_handle) { if (module_handle.is_null()) { fatal("Unable to patch the module field of classes loaded prior to " JAVA_BASE_NAME "'s definition, invalid java.lang.Module"); } // Do the fixups for the basic primitive types java_lang_Class::set_module(Universe::int_mirror(), module_handle()); java_lang_Class::set_module(Universe::float_mirror(), module_handle()); java_lang_Class::set_module(Universe::double_mirror(), module_handle()); java_lang_Class::set_module(Universe::byte_mirror(), module_handle()); java_lang_Class::set_module(Universe::bool_mirror(), module_handle()); java_lang_Class::set_module(Universe::char_mirror(), module_handle()); java_lang_Class::set_module(Universe::long_mirror(), module_handle()); java_lang_Class::set_module(Universe::short_mirror(), module_handle()); java_lang_Class::set_module(Universe::void_mirror(), module_handle()); // Do the fixups for classes that have already been created. GrowableArray * list = java_lang_Class::fixup_module_field_list(); int list_length = list->length(); for (int i = 0; i < list_length; i++) { Klass* k = list->at(i); assert(k->is_klass(), "List should only hold classes"); java_lang_Class::fixup_module_field(k, module_handle); k->class_loader_data()->dec_keep_alive(); } delete java_lang_Class::fixup_module_field_list(); java_lang_Class::set_fixup_module_field_list(NULL); } void ModuleEntryTable::print(outputStream* st) { st->print_cr("Module Entry Table (table_size=%d, entries=%d)", table_size(), number_of_entries()); for (int i = 0; i < table_size(); i++) { for (ModuleEntry* probe = bucket(i); probe != NULL; probe = probe->next()) { probe->print(st); } } } void ModuleEntry::print(outputStream* st) { ResourceMark rm; st->print_cr("entry " PTR_FORMAT " name %s module " PTR_FORMAT " loader %s version %s location %s strict %s next " PTR_FORMAT, p2i(this), name() == NULL ? UNNAMED_MODULE : name()->as_C_string(), p2i(module()), loader_data()->loader_name(), version() != NULL ? version()->as_C_string() : "NULL", location() != NULL ? location()->as_C_string() : "NULL", BOOL_TO_STR(!can_read_all_unnamed()), p2i(next())); } void ModuleEntryTable::verify() { verify_table("Module Entry Table"); } void ModuleEntry::verify() { guarantee(loader_data() != NULL, "A module entry must be associated with a loader."); }