/* * Copyright (c) 2003, 2016, 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/stackMapFrame.hpp" #include "classfile/verifier.hpp" #include "memory/resourceArea.hpp" #include "oops/oop.inline.hpp" #include "oops/symbol.hpp" #include "runtime/handles.inline.hpp" #include "utilities/globalDefinitions.hpp" StackMapFrame::StackMapFrame(u2 max_locals, u2 max_stack, ClassVerifier* v) : _offset(0), _locals_size(0), _stack_size(0), _stack_mark(0), _max_locals(max_locals), _max_stack(max_stack), _flags(0), _verifier(v) { Thread* thr = v->thread(); _locals = NEW_RESOURCE_ARRAY_IN_THREAD(thr, VerificationType, max_locals); _stack = NEW_RESOURCE_ARRAY_IN_THREAD(thr, VerificationType, max_stack); int32_t i; for(i = 0; i < max_locals; i++) { _locals[i] = VerificationType::bogus_type(); } for(i = 0; i < max_stack; i++) { _stack[i] = VerificationType::bogus_type(); } } StackMapFrame* StackMapFrame::frame_in_exception_handler(u1 flags) { Thread* thr = _verifier->thread(); VerificationType* stack = NEW_RESOURCE_ARRAY_IN_THREAD(thr, VerificationType, 1); StackMapFrame* frame = new StackMapFrame(_offset, flags, _locals_size, 0, _max_locals, _max_stack, _locals, stack, _verifier); return frame; } void StackMapFrame::initialize_object( VerificationType old_object, VerificationType new_object) { int32_t i; for (i = 0; i < _max_locals; i++) { if (_locals[i].equals(old_object)) { _locals[i] = new_object; } } for (i = 0; i < _stack_size; i++) { if (_stack[i].equals(old_object)) { _stack[i] = new_object; } } if (old_object == VerificationType::uninitialized_this_type()) { // "this" has been initialized - reset flags _flags = 0; } } VerificationType StackMapFrame::set_locals_from_arg( const methodHandle& m, VerificationType thisKlass, TRAPS) { SignatureStream ss(m->signature()); int init_local_num = 0; if (!m->is_static()) { init_local_num++; // add one extra argument for instance method if (m->name() == vmSymbols::object_initializer_name() && thisKlass.name() != vmSymbols::java_lang_Object()) { _locals[0] = VerificationType::uninitialized_this_type(); _flags |= FLAG_THIS_UNINIT; } else { _locals[0] = thisKlass; } } // local num may be greater than size of parameters because long/double occupies two slots while(!ss.at_return_type()) { init_local_num += _verifier->change_sig_to_verificationType( &ss, &_locals[init_local_num], CHECK_VERIFY_(verifier(), VerificationType::bogus_type())); ss.next(); } _locals_size = init_local_num; switch (ss.type()) { case T_OBJECT: case T_ARRAY: { Symbol* sig = ss.as_symbol(CHECK_(VerificationType::bogus_type())); if (!sig->is_permanent()) { // Create another symbol to save as signature stream unreferences // this symbol. Symbol *sig_copy = verifier()->create_temporary_symbol(sig, 0, sig->utf8_length(), CHECK_(VerificationType::bogus_type())); assert(sig_copy == sig, "symbols don't match"); sig = sig_copy; } return VerificationType::reference_type(sig); } case T_INT: return VerificationType::integer_type(); case T_BYTE: return VerificationType::byte_type(); case T_CHAR: return VerificationType::char_type(); case T_SHORT: return VerificationType::short_type(); case T_BOOLEAN: return VerificationType::boolean_type(); case T_FLOAT: return VerificationType::float_type(); case T_DOUBLE: return VerificationType::double_type(); case T_LONG: return VerificationType::long_type(); case T_VOID: return VerificationType::bogus_type(); default: ShouldNotReachHere(); } return VerificationType::bogus_type(); } void StackMapFrame::copy_locals(const StackMapFrame* src) { int32_t len = src->locals_size() < _locals_size ? src->locals_size() : _locals_size; for (int32_t i = 0; i < len; i++) { _locals[i] = src->locals()[i]; } } void StackMapFrame::copy_stack(const StackMapFrame* src) { int32_t len = src->stack_size() < _stack_size ? src->stack_size() : _stack_size; for (int32_t i = 0; i < len; i++) { _stack[i] = src->stack()[i]; } } // Returns the location of the first mismatch, or 'len' if there are no // mismatches int StackMapFrame::is_assignable_to( VerificationType* from, VerificationType* to, int32_t len, TRAPS) const { int32_t i = 0; for (i = 0; i < len; i++) { if (!to[i].is_assignable_from(from[i], verifier(), false, THREAD)) { break; } } return i; } bool StackMapFrame::is_assignable_to( const StackMapFrame* target, ErrorContext* ctx, TRAPS) const { if (_max_locals != target->max_locals()) { *ctx = ErrorContext::locals_size_mismatch( _offset, (StackMapFrame*)this, (StackMapFrame*)target); return false; } if (_stack_size != target->stack_size()) { *ctx = ErrorContext::stack_size_mismatch( _offset, (StackMapFrame*)this, (StackMapFrame*)target); return false; } // Only need to compare type elements up to target->locals() or target->stack(). // The remaining type elements in this state can be ignored because they are // assignable to bogus type. int mismatch_loc; mismatch_loc = is_assignable_to( _locals, target->locals(), target->locals_size(), THREAD); if (mismatch_loc != target->locals_size()) { *ctx = ErrorContext::bad_type(target->offset(), TypeOrigin::local(mismatch_loc, (StackMapFrame*)this), TypeOrigin::sm_local(mismatch_loc, (StackMapFrame*)target)); return false; } mismatch_loc = is_assignable_to(_stack, target->stack(), _stack_size, THREAD); if (mismatch_loc != _stack_size) { *ctx = ErrorContext::bad_type(target->offset(), TypeOrigin::stack(mismatch_loc, (StackMapFrame*)this), TypeOrigin::sm_stack(mismatch_loc, (StackMapFrame*)target)); return false; } if ((_flags | target->flags()) == target->flags()) { return true; } else { *ctx = ErrorContext::bad_flags(target->offset(), (StackMapFrame*)this, (StackMapFrame*)target); return false; } } VerificationType StackMapFrame::pop_stack_ex(VerificationType type, TRAPS) { if (_stack_size <= 0) { verifier()->verify_error( ErrorContext::stack_underflow(_offset, this), "Operand stack underflow"); return VerificationType::bogus_type(); } VerificationType top = _stack[--_stack_size]; bool subtype = type.is_assignable_from( top, verifier(), false, CHECK_(VerificationType::bogus_type())); if (!subtype) { verifier()->verify_error( ErrorContext::bad_type(_offset, stack_top_ctx(), TypeOrigin::implicit(type)), "Bad type on operand stack"); return VerificationType::bogus_type(); } return top; } VerificationType StackMapFrame::get_local( int32_t index, VerificationType type, TRAPS) { if (index >= _max_locals) { verifier()->verify_error( ErrorContext::bad_local_index(_offset, index), "Local variable table overflow"); return VerificationType::bogus_type(); } bool subtype = type.is_assignable_from(_locals[index], verifier(), false, CHECK_(VerificationType::bogus_type())); if (!subtype) { verifier()->verify_error( ErrorContext::bad_type(_offset, TypeOrigin::local(index, this), TypeOrigin::implicit(type)), "Bad local variable type"); return VerificationType::bogus_type(); } if(index >= _locals_size) { _locals_size = index + 1; } return _locals[index]; } void StackMapFrame::get_local_2( int32_t index, VerificationType type1, VerificationType type2, TRAPS) { assert(type1.is_long() || type1.is_double(), "must be long/double"); assert(type2.is_long2() || type2.is_double2(), "must be long/double_2"); if (index >= _locals_size - 1) { verifier()->verify_error( ErrorContext::bad_local_index(_offset, index), "get long/double overflows locals"); return; } bool subtype = type1.is_assignable_from(_locals[index], verifier(), false, CHECK); if (!subtype) { verifier()->verify_error( ErrorContext::bad_type(_offset, TypeOrigin::local(index, this), TypeOrigin::implicit(type1)), "Bad local variable type"); } else { subtype = type2.is_assignable_from(_locals[index + 1], verifier(), false, CHECK); if (!subtype) { /* Unreachable? All local store routines convert a split long or double * into a TOP during the store. So we should never end up seeing an * orphaned half. */ verifier()->verify_error( ErrorContext::bad_type(_offset, TypeOrigin::local(index + 1, this), TypeOrigin::implicit(type2)), "Bad local variable type"); } } } void StackMapFrame::set_local(int32_t index, VerificationType type, TRAPS) { assert(!type.is_check(), "Must be a real type"); if (index >= _max_locals) { verifier()->verify_error( ErrorContext::bad_local_index(_offset, index), "Local variable table overflow"); return; } // If type at index is double or long, set the next location to be unusable if (_locals[index].is_double() || _locals[index].is_long()) { assert((index + 1) < _locals_size, "Local variable table overflow"); _locals[index + 1] = VerificationType::bogus_type(); } // If type at index is double_2 or long_2, set the previous location to be unusable if (_locals[index].is_double2() || _locals[index].is_long2()) { assert(index >= 1, "Local variable table underflow"); _locals[index - 1] = VerificationType::bogus_type(); } _locals[index] = type; if (index >= _locals_size) { #ifdef ASSERT for (int i=_locals_size; i= _max_locals - 1) { verifier()->verify_error( ErrorContext::bad_local_index(_offset, index), "Local variable table overflow"); return; } // If type at index+1 is double or long, set the next location to be unusable if (_locals[index+1].is_double() || _locals[index+1].is_long()) { assert((index + 2) < _locals_size, "Local variable table overflow"); _locals[index + 2] = VerificationType::bogus_type(); } // If type at index is double_2 or long_2, set the previous location to be unusable if (_locals[index].is_double2() || _locals[index].is_long2()) { assert(index >= 1, "Local variable table underflow"); _locals[index - 1] = VerificationType::bogus_type(); } _locals[index] = type1; _locals[index+1] = type2; if (index >= _locals_size - 1) { #ifdef ASSERT for (int i=_locals_size; iindent().print_cr("bci: @%d", _offset); str->indent().print_cr("flags: {%s }", flag_this_uninit() ? " flagThisUninit" : ""); str->indent().print("locals: {"); for (int32_t i = 0; i < _locals_size; ++i) { str->print(" "); _locals[i].print_on(str); if (i != _locals_size - 1) { str->print(","); } } str->print_cr(" }"); str->indent().print("stack: {"); for (int32_t j = 0; j < _stack_size; ++j) { str->print(" "); _stack[j].print_on(str); if (j != _stack_size - 1) { str->print(","); } } str->print_cr(" }"); }