/* * Copyright (c) 2018, Oracle and/or its affiliates. All rights reserved. * Copyright (c) 2018 SAP SE. 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 "classfile/classLoaderData.inline.hpp" #include "classfile/classLoaderHierarchyDCmd.hpp" #include "memory/allocation.hpp" #include "memory/resourceArea.hpp" #include "runtime/safepoint.hpp" #include "oops/reflectionAccessorImplKlassHelper.hpp" #include "utilities/globalDefinitions.hpp" #include "utilities/ostream.hpp" ClassLoaderHierarchyDCmd::ClassLoaderHierarchyDCmd(outputStream* output, bool heap) : DCmdWithParser(output, heap), _show_classes("show-classes", "Print loaded classes.", "BOOLEAN", false, "false"), _verbose("verbose", "Print detailed information.", "BOOLEAN", false, "false"), _fold("fold", "Show loaders of the same name and class as one.", "BOOLEAN", true, "true") { _dcmdparser.add_dcmd_option(&_show_classes); _dcmdparser.add_dcmd_option(&_verbose); _dcmdparser.add_dcmd_option(&_fold); } int ClassLoaderHierarchyDCmd::num_arguments() { ResourceMark rm; ClassLoaderHierarchyDCmd* dcmd = new ClassLoaderHierarchyDCmd(NULL, false); if (dcmd != NULL) { DCmdMark mark(dcmd); return dcmd->_dcmdparser.num_arguments(); } else { return 0; } } // Helper class for drawing the branches to the left of a node. class BranchTracker : public StackObj { // "" // " |---" // " | | // " | " // " | |--- // " | |--- // ^^^^^^^ ^^^ // A B // Some terms for the graphics: // - branch: vertical connection between a node's ancestor to a later sibling. // - branchwork: (A) the string to print as a prefix at the start of each line, contains all branches. // - twig (B): Length of the dashed line connecting a node to its branch. // - branch spacing: how many spaces between branches are printed. public: enum { max_depth = 64, twig_len = 2, branch_spacing = 5 }; private: char _branches[max_depth]; int _pos; public: BranchTracker() : _pos(0) {} void push(bool has_branch) { if (_pos < max_depth) { _branches[_pos] = has_branch ? '|' : ' '; } _pos ++; // beyond max depth, omit branch drawing but do count on. } void pop() { assert(_pos > 0, "must be"); _pos --; } void print(outputStream* st) { for (int i = 0; i < _pos; i ++) { st->print("%c%.*s", _branches[i], branch_spacing, " "); } } class Mark { BranchTracker& _tr; public: Mark(BranchTracker& tr, bool has_branch_here) : _tr(tr) { _tr.push(has_branch_here); } ~Mark() { _tr.pop(); } }; }; // end: BranchTracker struct LoadedClassInfo : public ResourceObj { public: LoadedClassInfo* _next; Klass* const _klass; const ClassLoaderData* const _cld; LoadedClassInfo(Klass* klass, const ClassLoaderData* cld) : _klass(klass), _cld(cld) {} }; class LoaderTreeNode : public ResourceObj { // We walk the CLDG and, for each CLD which is non-anonymous, add // a tree node. // To add a node we need its parent node; if the parent node does not yet // exist - because we have not yet encountered the CLD for the parent loader - // we add a preliminary empty LoaderTreeNode for it. This preliminary node // just contains the loader oop and nothing else. Once we encounter the CLD of // this parent loader, we fill in all the other details. const oop _loader_oop; const ClassLoaderData* _cld; LoaderTreeNode* _child; LoaderTreeNode* _next; LoadedClassInfo* _classes; int _num_classes; LoadedClassInfo* _anon_classes; int _num_anon_classes; // In default view, similar tree nodes (same loader class, same name or no name) // are folded into each other to make the output more readable. // _num_folded contains the number of nodes which have been folded into this // one. int _num_folded; void print_with_childs(outputStream* st, BranchTracker& branchtracker, bool print_classes, bool verbose) const { ResourceMark rm; if (_cld == NULL) { // Not sure how this could happen: we added a preliminary node for a parent but then never encountered // its CLD? return; } // Retrieve information. const Klass* const loader_klass = _cld->class_loader_klass(); const Symbol* const loader_name = _cld->name(); branchtracker.print(st); // e.g. "+--- jdk.internal.reflect.DelegatingClassLoader" st->print("+%.*s", BranchTracker::twig_len, "----------"); if (_cld->is_the_null_class_loader_data()) { st->print(" "); } else { if (loader_name != NULL) { st->print(" \"%s\",", loader_name->as_C_string()); } st->print(" %s", loader_klass != NULL ? loader_klass->external_name() : "??"); if (_num_folded > 0) { st->print(" (+ %d more)", _num_folded); } } st->cr(); // Output following this node (node details and child nodes) - up to the next sibling node // needs to be prefixed with "|" if there is a follow up sibling. const bool have_sibling = _next != NULL; BranchTracker::Mark trm(branchtracker, have_sibling); { // optional node details following this node needs to be prefixed with "|" // if there are follow up child nodes. const bool have_child = _child != NULL; BranchTracker::Mark trm(branchtracker, have_child); // Empty line branchtracker.print(st); st->cr(); const int indentation = 18; if (verbose) { branchtracker.print(st); st->print_cr("%*s " PTR_FORMAT, indentation, "Loader Oop:", p2i(_loader_oop)); branchtracker.print(st); st->print_cr("%*s " PTR_FORMAT, indentation, "Loader Data:", p2i(_cld)); branchtracker.print(st); st->print_cr("%*s " PTR_FORMAT, indentation, "Loader Klass:", p2i(loader_klass)); // Empty line branchtracker.print(st); st->cr(); } if (print_classes) { if (_classes != NULL) { for (LoadedClassInfo* lci = _classes; lci; lci = lci->_next) { // Non-anonymous classes should live in the primary CLD of its loader assert(lci->_cld == _cld, "must be"); branchtracker.print(st); if (lci == _classes) { // first iteration st->print("%*s ", indentation, "Classes:"); } else { st->print("%*s ", indentation, ""); } st->print("%s", lci->_klass->external_name()); // Special treatment for generated core reflection accessor classes: print invocation target. if (ReflectionAccessorImplKlassHelper::is_generated_accessor(lci->_klass)) { st->print(" (invokes: "); ReflectionAccessorImplKlassHelper::print_invocation_target(st, lci->_klass); st->print(")"); } st->cr(); } branchtracker.print(st); st->print("%*s ", indentation, ""); st->print_cr("(%u class%s)", _num_classes, (_num_classes == 1) ? "" : "es"); // Empty line branchtracker.print(st); st->cr(); } if (_anon_classes != NULL) { for (LoadedClassInfo* lci = _anon_classes; lci; lci = lci->_next) { branchtracker.print(st); if (lci == _anon_classes) { // first iteration st->print("%*s ", indentation, "Anonymous Classes:"); } else { st->print("%*s ", indentation, ""); } st->print("%s", lci->_klass->external_name()); // For anonymous classes, also print CLD if verbose. Should be a different one than the primary CLD. assert(lci->_cld != _cld, "must be"); if (verbose) { st->print(" (Loader Data: " PTR_FORMAT ")", p2i(lci->_cld)); } st->cr(); } branchtracker.print(st); st->print("%*s ", indentation, ""); st->print_cr("(%u anonymous class%s)", _num_anon_classes, (_num_anon_classes == 1) ? "" : "es"); // Empty line branchtracker.print(st); st->cr(); } } // end: print_classes } // Pop branchtracker mark // Print children, recursively LoaderTreeNode* c = _child; while (c != NULL) { c->print_with_childs(st, branchtracker, print_classes, verbose); c = c->_next; } } // Helper: Attempt to fold this node into the target node. If success, returns true. // Folding can be done if both nodes are leaf nodes and they refer to the same loader class // and they have the same name or no name (note: leaf check is done by caller). bool can_fold_into(LoaderTreeNode* target_node) const { assert(is_leaf() && target_node->is_leaf(), "must be leaf"); return _cld->class_loader_klass() == target_node->_cld->class_loader_klass() && _cld->name() == target_node->_cld->name(); } public: LoaderTreeNode(const oop loader_oop) : _loader_oop(loader_oop), _cld(NULL), _child(NULL), _next(NULL), _classes(NULL), _anon_classes(NULL), _num_classes(0), _num_anon_classes(0), _num_folded(0) {} void set_cld(const ClassLoaderData* cld) { _cld = cld; } void add_child(LoaderTreeNode* info) { info->_next = _child; _child = info; } void add_sibling(LoaderTreeNode* info) { assert(info->_next == NULL, "must be"); info->_next = _next; _next = info; } void add_classes(LoadedClassInfo* first_class, int num_classes, bool anonymous) { LoadedClassInfo** p_list_to_add_to = anonymous ? &_anon_classes : &_classes; // Search tail. while ((*p_list_to_add_to) != NULL) { p_list_to_add_to = &(*p_list_to_add_to)->_next; } *p_list_to_add_to = first_class; if (anonymous) { _num_anon_classes += num_classes; } else { _num_classes += num_classes; } } const ClassLoaderData* cld() const { return _cld; } const oop loader_oop() const { return _loader_oop; } LoaderTreeNode* find(const oop loader_oop) { LoaderTreeNode* result = NULL; if (_loader_oop == loader_oop) { result = this; } else { LoaderTreeNode* c = _child; while (c != NULL && result == NULL) { result = c->find(loader_oop); c = c->_next; } } return result; } bool is_leaf() const { return _child == NULL; } // Attempt to fold similar nodes among this node's children. We only fold leaf nodes // (no child class loaders). // For non-leaf nodes (class loaders with child class loaders), do this recursivly. void fold_children() { LoaderTreeNode* node = _child; LoaderTreeNode* prev = NULL; while (node != NULL) { LoaderTreeNode* matching_node = NULL; if (node->is_leaf()) { // Look among the preceeding node siblings for a match. for (LoaderTreeNode* node2 = _child; node2 != node && matching_node == NULL; node2 = node2->_next) { if (node2->is_leaf() && node->can_fold_into(node2)) { matching_node = node2; } } } else { node->fold_children(); } if (matching_node != NULL) { // Increase fold count for the matching node and remove folded node from the child list. matching_node->_num_folded ++; assert(prev != NULL, "Sanity"); // can never happen since we do not fold the first node. prev->_next = node->_next; } else { prev = node; } node = node->_next; } } void print_with_childs(outputStream* st, bool print_classes, bool print_add_info) const { BranchTracker bwt; print_with_childs(st, bwt, print_classes, print_add_info); } }; class LoadedClassCollectClosure : public KlassClosure { public: LoadedClassInfo* _list; const ClassLoaderData* _cld; int _num_classes; LoadedClassCollectClosure(const ClassLoaderData* cld) : _list(NULL), _cld(cld), _num_classes(0) {} void do_klass(Klass* k) { LoadedClassInfo* lki = new LoadedClassInfo(k, _cld); lki->_next = _list; _list = lki; _num_classes ++; } }; class LoaderInfoScanClosure : public CLDClosure { const bool _print_classes; const bool _verbose; LoaderTreeNode* _root; static void fill_in_classes(LoaderTreeNode* info, const ClassLoaderData* cld) { assert(info != NULL && cld != NULL, "must be"); LoadedClassCollectClosure lccc(cld); const_cast(cld)->classes_do(&lccc); if (lccc._num_classes > 0) { info->add_classes(lccc._list, lccc._num_classes, cld->is_anonymous()); } } LoaderTreeNode* find_node_or_add_empty_node(oop loader_oop) { assert(_root != NULL, "root node must exist"); if (loader_oop == NULL) { return _root; } // Check if a node for this oop already exists. LoaderTreeNode* info = _root->find(loader_oop); if (info == NULL) { // It does not. Create a node. info = new LoaderTreeNode(loader_oop); // Add it to tree. LoaderTreeNode* parent_info = NULL; // Recursively add parent nodes if needed. const oop parent_oop = java_lang_ClassLoader::parent(loader_oop); if (parent_oop == NULL) { parent_info = _root; } else { parent_info = find_node_or_add_empty_node(parent_oop); } assert(parent_info != NULL, "must be"); parent_info->add_child(info); } return info; } public: LoaderInfoScanClosure(bool print_classes, bool verbose) : _print_classes(print_classes), _verbose(verbose), _root(NULL) { _root = new LoaderTreeNode(NULL); } void print_results(outputStream* st) const { _root->print_with_childs(st, _print_classes, _verbose); } void do_cld (ClassLoaderData* cld) { // We do not display unloading loaders, for now. if (cld->is_unloading()) { return; } const oop loader_oop = cld->class_loader(); LoaderTreeNode* info = find_node_or_add_empty_node(loader_oop); assert(info != NULL, "must be"); // Update CLD in node, but only if this is the primary CLD for this loader. if (cld->is_anonymous() == false) { assert(info->cld() == NULL, "there should be only one primary CLD per loader"); info->set_cld(cld); } // Add classes. fill_in_classes(info, cld); } void fold() { _root->fold_children(); } }; class ClassLoaderHierarchyVMOperation : public VM_Operation { outputStream* const _out; const bool _show_classes; const bool _verbose; const bool _fold; public: ClassLoaderHierarchyVMOperation(outputStream* out, bool show_classes, bool verbose, bool fold) : _out(out), _show_classes(show_classes), _verbose(verbose), _fold(fold) {} VMOp_Type type() const { return VMOp_ClassLoaderHierarchyOperation; } void doit() { assert(SafepointSynchronize::is_at_safepoint(), "must be a safepoint"); ResourceMark rm; LoaderInfoScanClosure cl (_show_classes, _verbose); ClassLoaderDataGraph::cld_do(&cl); // In non-verbose and non-show-classes mode, attempt to fold the tree. if (_fold) { if (!_verbose && !_show_classes) { cl.fold(); } } cl.print_results(_out); } }; // This command needs to be executed at a safepoint. void ClassLoaderHierarchyDCmd::execute(DCmdSource source, TRAPS) { ClassLoaderHierarchyVMOperation op(output(), _show_classes.value(), _verbose.value(), _fold.value()); VMThread::execute(&op); }