/* * Copyright (c) 2003, 2011, 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 "classfile/stackMapTable.hpp" #include "classfile/verifier.hpp" #include "memory/resourceArea.hpp" #include "oops/oop.inline.hpp" #include "runtime/fieldType.hpp" #include "runtime/handles.inline.hpp" StackMapTable::StackMapTable(StackMapReader* reader, StackMapFrame* init_frame, u2 max_locals, u2 max_stack, char* code_data, int code_len, TRAPS) { _code_length = code_len; _frame_count = reader->get_frame_count(); if (_frame_count > 0) { _frame_array = NEW_RESOURCE_ARRAY_IN_THREAD(THREAD, StackMapFrame*, _frame_count); StackMapFrame* pre_frame = init_frame; for (int32_t i = 0; i < _frame_count; i++) { StackMapFrame* frame = reader->next( pre_frame, i == 0, max_locals, max_stack, CHECK_VERIFY(pre_frame->verifier())); _frame_array[i] = frame; int offset = frame->offset(); if (offset >= code_len || code_data[offset] == 0) { frame->verifier()->verify_error("StackMapTable error: bad offset"); return; } pre_frame = frame; } } reader->check_end(CHECK); } // This method is only called by method in StackMapTable. int StackMapTable::get_index_from_offset(int32_t offset) const { int i = 0; for (; i < _frame_count; i++) { if (_frame_array[i]->offset() == offset) { return i; } } return i; // frame with offset doesn't exist in the array } bool StackMapTable::match_stackmap( StackMapFrame* frame, int32_t target, bool match, bool update, TRAPS) const { int index = get_index_from_offset(target); return match_stackmap( frame, target, index, match, update, CHECK_VERIFY_(frame->verifier(), false)); } // Match and/or update current_frame to the frame in stackmap table with // specified offset and frame index. Return true if the two frames match. // // The values of match and update are: _match__update_ // // checking a branch target/exception handler: true false // linear bytecode verification following an // unconditional branch: false true // linear bytecode verification not following an // unconditional branch: true true bool StackMapTable::match_stackmap( StackMapFrame* frame, int32_t target, int32_t frame_index, bool match, bool update, TRAPS) const { if (frame_index < 0 || frame_index >= _frame_count) { frame->verifier()->verify_error(frame->offset(), "Expecting a stackmap frame at branch target %d", target); return false; } bool result = true; StackMapFrame *stackmap_frame = _frame_array[frame_index]; if (match) { // when checking handler target, match == true && update == false bool is_exception_handler = !update; // Has direct control flow from last instruction, need to match the two // frames. result = frame->is_assignable_to( stackmap_frame, is_exception_handler, CHECK_VERIFY_(frame->verifier(), false)); } if (update) { // Use the frame in stackmap table as current frame int lsize = stackmap_frame->locals_size(); int ssize = stackmap_frame->stack_size(); if (frame->locals_size() > lsize || frame->stack_size() > ssize) { // Make sure unused type array items are all _bogus_type. frame->reset(); } frame->set_locals_size(lsize); frame->copy_locals(stackmap_frame); frame->set_stack_size(ssize); frame->copy_stack(stackmap_frame); frame->set_flags(stackmap_frame->flags()); } return result; } void StackMapTable::check_jump_target( StackMapFrame* frame, int32_t target, TRAPS) const { bool match = match_stackmap( frame, target, true, false, CHECK_VERIFY(frame->verifier())); if (!match || (target < 0 || target >= _code_length)) { frame->verifier()->verify_error(frame->offset(), "Inconsistent stackmap frames at branch target %d", target); return; } // check if uninitialized objects exist on backward branches check_new_object(frame, target, CHECK_VERIFY(frame->verifier())); } void StackMapTable::check_new_object( const StackMapFrame* frame, int32_t target, TRAPS) const { if (frame->offset() > target && frame->has_new_object()) { frame->verifier()->verify_error(frame->offset(), "Uninitialized object exists on backward branch %d", target); return; } } #ifndef PRODUCT void StackMapTable::print() const { tty->print_cr("StackMapTable: frame_count = %d", _frame_count); tty->print_cr("table = { "); for (int32_t i = 0; i < _frame_count; i++) { _frame_array[i]->print(); } tty->print_cr(" }"); } #endif int32_t StackMapReader::chop( VerificationType* locals, int32_t length, int32_t chops) { if (locals == NULL) return -1; int32_t pos = length - 1; for (int32_t i=0; iget_u1(THREAD); if (tag < (u1)ITEM_UninitializedThis) { return VerificationType::from_tag(tag); } if (tag == ITEM_Object) { u2 class_index = _stream->get_u2(THREAD); int nconstants = _cp->length(); if ((class_index <= 0 || class_index >= nconstants) || (!_cp->tag_at(class_index).is_klass() && !_cp->tag_at(class_index).is_unresolved_klass())) { _stream->stackmap_format_error("bad class index", THREAD); return VerificationType::bogus_type(); } return VerificationType::reference_type(_cp->klass_name_at(class_index)); } if (tag == ITEM_UninitializedThis) { if (flags != NULL) { *flags |= FLAG_THIS_UNINIT; } return VerificationType::uninitialized_this_type(); } if (tag == ITEM_Uninitialized) { u2 offset = _stream->get_u2(THREAD); if (offset >= _code_length || _code_data[offset] != ClassVerifier::NEW_OFFSET) { ResourceMark rm(THREAD); _verifier->class_format_error( "StackMapTable format error: bad offset for Uninitialized"); return VerificationType::bogus_type(); } return VerificationType::uninitialized_type(offset); } _stream->stackmap_format_error("bad verification type", THREAD); return VerificationType::bogus_type(); } StackMapFrame* StackMapReader::next( StackMapFrame* pre_frame, bool first, u2 max_locals, u2 max_stack, TRAPS) { StackMapFrame* frame; int offset; VerificationType* locals = NULL; u1 frame_type = _stream->get_u1(THREAD); if (frame_type < 64) { // same_frame if (first) { offset = frame_type; // Can't share the locals array since that is updated by the verifier. if (pre_frame->locals_size() > 0) { locals = NEW_RESOURCE_ARRAY_IN_THREAD( THREAD, VerificationType, pre_frame->locals_size()); } } else { offset = pre_frame->offset() + frame_type + 1; locals = pre_frame->locals(); } frame = new StackMapFrame( offset, pre_frame->flags(), pre_frame->locals_size(), 0, max_locals, max_stack, locals, NULL, _verifier); if (first && locals != NULL) { frame->copy_locals(pre_frame); } return frame; } if (frame_type < 128) { // same_locals_1_stack_item_frame if (first) { offset = frame_type - 64; // Can't share the locals array since that is updated by the verifier. if (pre_frame->locals_size() > 0) { locals = NEW_RESOURCE_ARRAY_IN_THREAD( THREAD, VerificationType, pre_frame->locals_size()); } } else { offset = pre_frame->offset() + frame_type - 63; locals = pre_frame->locals(); } VerificationType* stack = NEW_RESOURCE_ARRAY_IN_THREAD( THREAD, VerificationType, 2); u2 stack_size = 1; stack[0] = parse_verification_type(NULL, CHECK_VERIFY_(_verifier, NULL)); if (stack[0].is_category2()) { stack[1] = stack[0].to_category2_2nd(); stack_size = 2; } check_verification_type_array_size( stack_size, max_stack, CHECK_VERIFY_(_verifier, NULL)); frame = new StackMapFrame( offset, pre_frame->flags(), pre_frame->locals_size(), stack_size, max_locals, max_stack, locals, stack, _verifier); if (first && locals != NULL) { frame->copy_locals(pre_frame); } return frame; } u2 offset_delta = _stream->get_u2(THREAD); if (frame_type < SAME_LOCALS_1_STACK_ITEM_EXTENDED) { // reserved frame types _stream->stackmap_format_error( "reserved frame type", CHECK_VERIFY_(_verifier, NULL)); } if (frame_type == SAME_LOCALS_1_STACK_ITEM_EXTENDED) { // same_locals_1_stack_item_frame_extended if (first) { offset = offset_delta; // Can't share the locals array since that is updated by the verifier. if (pre_frame->locals_size() > 0) { locals = NEW_RESOURCE_ARRAY_IN_THREAD( THREAD, VerificationType, pre_frame->locals_size()); } } else { offset = pre_frame->offset() + offset_delta + 1; locals = pre_frame->locals(); } VerificationType* stack = NEW_RESOURCE_ARRAY_IN_THREAD( THREAD, VerificationType, 2); u2 stack_size = 1; stack[0] = parse_verification_type(NULL, CHECK_VERIFY_(_verifier, NULL)); if (stack[0].is_category2()) { stack[1] = stack[0].to_category2_2nd(); stack_size = 2; } check_verification_type_array_size( stack_size, max_stack, CHECK_VERIFY_(_verifier, NULL)); frame = new StackMapFrame( offset, pre_frame->flags(), pre_frame->locals_size(), stack_size, max_locals, max_stack, locals, stack, _verifier); if (first && locals != NULL) { frame->copy_locals(pre_frame); } return frame; } if (frame_type <= SAME_EXTENDED) { // chop_frame or same_frame_extended locals = pre_frame->locals(); int length = pre_frame->locals_size(); int chops = SAME_EXTENDED - frame_type; int new_length = length; u1 flags = pre_frame->flags(); if (chops != 0) { new_length = chop(locals, length, chops); check_verification_type_array_size( new_length, max_locals, CHECK_VERIFY_(_verifier, NULL)); // Recompute flags since uninitializedThis could have been chopped. flags = 0; for (int i=0; i 0) { locals = NEW_RESOURCE_ARRAY_IN_THREAD( THREAD, VerificationType, new_length); } else { locals = NULL; } } else { offset = pre_frame->offset() + offset_delta + 1; } frame = new StackMapFrame( offset, flags, new_length, 0, max_locals, max_stack, locals, NULL, _verifier); if (first && locals != NULL) { frame->copy_locals(pre_frame); } return frame; } else if (frame_type < SAME_EXTENDED + 4) { // append_frame int appends = frame_type - SAME_EXTENDED; int real_length = pre_frame->locals_size(); int new_length = real_length + appends*2; locals = NEW_RESOURCE_ARRAY_IN_THREAD(THREAD, VerificationType, new_length); VerificationType* pre_locals = pre_frame->locals(); int i; for (i=0; ilocals_size(); i++) { locals[i] = pre_locals[i]; } u1 flags = pre_frame->flags(); for (i=0; ioffset() + offset_delta + 1; } frame = new StackMapFrame( offset, flags, real_length, 0, max_locals, max_stack, locals, NULL, _verifier); return frame; } if (frame_type == FULL) { // full_frame u1 flags = 0; u2 locals_size = _stream->get_u2(THREAD); int real_locals_size = 0; if (locals_size > 0) { locals = NEW_RESOURCE_ARRAY_IN_THREAD( THREAD, VerificationType, locals_size*2); } int i; for (i=0; iget_u2(THREAD); int real_stack_size = 0; VerificationType* stack = NULL; if (stack_size > 0) { stack = NEW_RESOURCE_ARRAY_IN_THREAD( THREAD, VerificationType, stack_size*2); } for (i=0; ioffset() + offset_delta + 1; } frame = new StackMapFrame( offset, flags, real_locals_size, real_stack_size, max_locals, max_stack, locals, stack, _verifier); return frame; } _stream->stackmap_format_error( "reserved frame type", CHECK_VERIFY_(pre_frame->verifier(), NULL)); return NULL; }