/* This file is part of solidity. solidity is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. solidity 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 for more details. You should have received a copy of the GNU General Public License along with solidity. If not, see . */ #include #include #include #include #include using namespace std; using namespace dev; using namespace dev::eth; AssemblyItem AssemblyItem::toSubAssemblyTag(size_t _subId) const { assertThrow(data() < (u256(1) << 64), Exception, "Tag already has subassembly set."); assertThrow(m_type == PushTag || m_type == Tag, Exception, ""); AssemblyItem r = *this; r.m_type = PushTag; r.setPushTagSubIdAndTag(_subId, size_t(data())); return r; } pair AssemblyItem::splitForeignPushTag() const { assertThrow(m_type == PushTag || m_type == Tag, Exception, ""); return make_pair(size_t((data()) / (u256(1) << 64)) - 1, size_t(data())); } void AssemblyItem::setPushTagSubIdAndTag(size_t _subId, size_t _tag) { assertThrow(m_type == PushTag || m_type == Tag, Exception, ""); setData(_tag + (u256(_subId + 1) << 64)); } unsigned AssemblyItem::bytesRequired(unsigned _addressLength) const { switch (m_type) { case Operation: case Tag: // 1 byte for the JUMPDEST return 1; case PushString: return 33; case Push: return 1 + max(1, dev::bytesRequired(data())); case PushSubSize: case PushProgramSize: return 4; // worst case: a 16MB program case PushTag: case PushData: case PushSub: return 1 + _addressLength; case PushLibraryAddress: return 21; default: break; } BOOST_THROW_EXCEPTION(InvalidOpcode()); } int AssemblyItem::arguments() const { if (type() == Operation) return instructionInfo(instruction()).args; else return 0; } int AssemblyItem::returnValues() const { switch (m_type) { case Operation: return instructionInfo(instruction()).ret; case Push: case PushString: case PushTag: case PushData: case PushSub: case PushSubSize: case PushProgramSize: case PushLibraryAddress: return 1; case Tag: return 0; default:; } return 0; } bool AssemblyItem::canBeFunctional() const { switch (m_type) { case Operation: return !SemanticInformation::isDupInstruction(*this) && !SemanticInformation::isSwapInstruction(*this); case Push: case PushString: case PushTag: case PushData: case PushSub: case PushSubSize: case PushProgramSize: case PushLibraryAddress: return true; case Tag: return false; default:; } return 0; } string AssemblyItem::getJumpTypeAsString() const { switch (m_jumpType) { case JumpType::IntoFunction: return "[in]"; case JumpType::OutOfFunction: return "[out]"; case JumpType::Ordinary: default: return ""; } } string AssemblyItem::toAssemblyText() const { string text; switch (type()) { case Operation: { assertThrow(isValidInstruction(instruction()), AssemblyException, "Invalid instruction."); string name = instructionInfo(instruction()).name; transform(name.begin(), name.end(), name.begin(), [](unsigned char _c) { return tolower(_c); }); text = name; break; } case Push: text = toHex(toCompactBigEndian(data(), 1), 1, HexPrefix::Add); break; case PushString: text = string("data_") + toHex(data()); break; case PushTag: { size_t sub{0}; size_t tag{0}; tie(sub, tag) = splitForeignPushTag(); if (sub == size_t(-1)) text = string("tag_") + to_string(tag); else text = string("tag_") + to_string(sub) + "_" + to_string(tag); break; } case Tag: assertThrow(data() < 0x10000, AssemblyException, "Declaration of sub-assembly tag."); text = string("tag_") + to_string(size_t(data())) + ":"; break; case PushData: text = string("data_") + toHex(data()); break; case PushSub: text = string("dataOffset(sub_") + to_string(size_t(data())) + ")"; break; case PushSubSize: text = string("dataSize(sub_") + to_string(size_t(data())) + ")"; break; case PushProgramSize: text = string("bytecodeSize"); break; case PushLibraryAddress: text = string("linkerSymbol(\"") + toHex(data()) + string("\")"); break; case UndefinedItem: assertThrow(false, AssemblyException, "Invalid assembly item."); break; default: BOOST_THROW_EXCEPTION(InvalidOpcode()); } if (m_jumpType == JumpType::IntoFunction || m_jumpType == JumpType::OutOfFunction) { text += "\t//"; if (m_jumpType == JumpType::IntoFunction) text += " in"; else text += " out"; } return text; } ostream& dev::eth::operator<<(ostream& _out, AssemblyItem const& _item) { switch (_item.type()) { case Operation: _out << " " << instructionInfo(_item.instruction()).name; if (_item.instruction() == solidity::Instruction::JUMP || _item.instruction() == solidity::Instruction::JUMPI) _out << "\t" << _item.getJumpTypeAsString(); break; case Push: _out << " PUSH " << hex << _item.data(); break; case PushString: _out << " PushString" << hex << (unsigned)_item.data(); break; case PushTag: { size_t subId = _item.splitForeignPushTag().first; if (subId == size_t(-1)) _out << " PushTag " << _item.splitForeignPushTag().second; else _out << " PushTag " << subId << ":" << _item.splitForeignPushTag().second; break; } case Tag: _out << " Tag " << _item.data(); break; case PushData: _out << " PushData " << hex << (unsigned)_item.data(); break; case PushSub: _out << " PushSub " << hex << size_t(_item.data()); break; case PushSubSize: _out << " PushSubSize " << hex << size_t(_item.data()); break; case PushProgramSize: _out << " PushProgramSize"; break; case PushLibraryAddress: _out << " PushLibraryAddress " << hex << h256(_item.data()).abridgedMiddle(); break; case UndefinedItem: _out << " ???"; break; default: BOOST_THROW_EXCEPTION(InvalidOpcode()); } return _out; }