mirror of
https://github.com/ethereum/solidity
synced 2023-10-03 13:03:40 +00:00
1019 lines
40 KiB
C++
1019 lines
40 KiB
C++
/*
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This file is part of solidity.
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solidity is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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solidity is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with solidity. If not, see <http://www.gnu.org/licenses/>.
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*/
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/**
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* @author Christian <c@ethdev.com>
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* @date 2015
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* Code generation utils that handle arrays.
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*/
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#include <libsolidity/codegen/ArrayUtils.h>
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#include <libevmasm/Instruction.h>
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#include <libsolidity/codegen/CompilerContext.h>
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#include <libsolidity/codegen/CompilerUtils.h>
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#include <libsolidity/ast/Types.h>
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#include <libsolidity/interface/Exceptions.h>
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#include <libsolidity/codegen/LValue.h>
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using namespace std;
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using namespace dev;
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using namespace solidity;
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void ArrayUtils::copyArrayToStorage(ArrayType const& _targetType, ArrayType const& _sourceType) const
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{
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// this copies source to target and also clears target if it was larger
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// need to leave "target_ref target_byte_off" on the stack at the end
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// stack layout: [source_ref] [source length] target_ref (top)
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solAssert(_targetType.location() == DataLocation::Storage, "");
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TypePointer uint256 = make_shared<IntegerType>(256);
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TypePointer targetBaseType = _targetType.isByteArray() ? uint256 : _targetType.baseType();
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TypePointer sourceBaseType = _sourceType.isByteArray() ? uint256 : _sourceType.baseType();
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// TODO unroll loop for small sizes
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bool sourceIsStorage = _sourceType.location() == DataLocation::Storage;
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bool fromCalldata = _sourceType.location() == DataLocation::CallData;
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bool directCopy = sourceIsStorage && sourceBaseType->isValueType() && *sourceBaseType == *targetBaseType;
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bool haveByteOffsetSource = !directCopy && sourceIsStorage && sourceBaseType->storageBytes() <= 16;
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bool haveByteOffsetTarget = !directCopy && targetBaseType->storageBytes() <= 16;
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unsigned byteOffsetSize = (haveByteOffsetSource ? 1 : 0) + (haveByteOffsetTarget ? 1 : 0);
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// stack: source_ref [source_length] target_ref
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// store target_ref
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for (unsigned i = _sourceType.sizeOnStack(); i > 0; --i)
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m_context << swapInstruction(i);
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// stack: target_ref source_ref [source_length]
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// stack: target_ref source_ref [source_length]
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// retrieve source length
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if (_sourceType.location() != DataLocation::CallData || !_sourceType.isDynamicallySized())
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retrieveLength(_sourceType); // otherwise, length is already there
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if (_sourceType.location() == DataLocation::Memory && _sourceType.isDynamicallySized())
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{
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// increment source pointer to point to data
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m_context << Instruction::SWAP1 << u256(0x20);
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m_context << Instruction::ADD << Instruction::SWAP1;
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}
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// stack: target_ref source_ref source_length
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TypePointer targetType = _targetType.shared_from_this();
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TypePointer sourceType = _sourceType.shared_from_this();
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m_context.callLowLevelFunction(
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"$copyArrayToStorage_" + sourceType->identifier() + "_to_" + targetType->identifier(),
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3,
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1,
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[=](CompilerContext& _context)
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{
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ArrayUtils utils(_context);
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ArrayType const& _sourceType = dynamic_cast<ArrayType const&>(*sourceType);
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ArrayType const& _targetType = dynamic_cast<ArrayType const&>(*targetType);
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// stack: target_ref source_ref source_length
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_context << Instruction::DUP3;
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// stack: target_ref source_ref source_length target_ref
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utils.retrieveLength(_targetType);
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// stack: target_ref source_ref source_length target_ref target_length
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if (_targetType.isDynamicallySized())
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// store new target length
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if (!_targetType.isByteArray())
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// Otherwise, length will be stored below.
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_context << Instruction::DUP3 << Instruction::DUP3 << Instruction::SSTORE;
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if (sourceBaseType->category() == Type::Category::Mapping)
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{
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solAssert(targetBaseType->category() == Type::Category::Mapping, "");
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solAssert(_sourceType.location() == DataLocation::Storage, "");
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// nothing to copy
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_context
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<< Instruction::POP << Instruction::POP
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<< Instruction::POP << Instruction::POP;
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return;
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}
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// stack: target_ref source_ref source_length target_ref target_length
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// compute hashes (data positions)
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_context << Instruction::SWAP1;
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if (_targetType.isDynamicallySized())
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CompilerUtils(_context).computeHashStatic();
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// stack: target_ref source_ref source_length target_length target_data_pos
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_context << Instruction::SWAP1;
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utils.convertLengthToSize(_targetType);
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_context << Instruction::DUP2 << Instruction::ADD;
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// stack: target_ref source_ref source_length target_data_pos target_data_end
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_context << Instruction::SWAP3;
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// stack: target_ref target_data_end source_length target_data_pos source_ref
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eth::AssemblyItem copyLoopEndWithoutByteOffset = _context.newTag();
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// special case for short byte arrays: Store them together with their length.
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if (_targetType.isByteArray())
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{
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// stack: target_ref target_data_end source_length target_data_pos source_ref
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_context << Instruction::DUP3 << u256(31) << Instruction::LT;
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eth::AssemblyItem longByteArray = _context.appendConditionalJump();
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// store the short byte array
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solAssert(_sourceType.isByteArray(), "");
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if (_sourceType.location() == DataLocation::Storage)
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{
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// just copy the slot, it contains length and data
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_context << Instruction::DUP1 << Instruction::SLOAD;
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_context << Instruction::DUP6 << Instruction::SSTORE;
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}
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else
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{
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_context << Instruction::DUP1;
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CompilerUtils(_context).loadFromMemoryDynamic(*sourceBaseType, fromCalldata, true, false);
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// stack: target_ref target_data_end source_length target_data_pos source_ref value
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// clear the lower-order byte - which will hold the length
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_context << u256(0xff) << Instruction::NOT << Instruction::AND;
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// fetch the length and shift it left by one
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_context << Instruction::DUP4 << Instruction::DUP1 << Instruction::ADD;
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// combine value and length and store them
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_context << Instruction::OR << Instruction::DUP6 << Instruction::SSTORE;
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}
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// end of special case, jump right into cleaning target data area
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_context.appendJumpTo(copyLoopEndWithoutByteOffset);
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_context << longByteArray;
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// Store length (2*length+1)
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_context << Instruction::DUP3 << Instruction::DUP1 << Instruction::ADD;
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_context << u256(1) << Instruction::ADD;
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_context << Instruction::DUP6 << Instruction::SSTORE;
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}
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// skip copying if source length is zero
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_context << Instruction::DUP3 << Instruction::ISZERO;
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_context.appendConditionalJumpTo(copyLoopEndWithoutByteOffset);
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if (_sourceType.location() == DataLocation::Storage && _sourceType.isDynamicallySized())
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CompilerUtils(_context).computeHashStatic();
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// stack: target_ref target_data_end source_length target_data_pos source_data_pos
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_context << Instruction::SWAP2;
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utils.convertLengthToSize(_sourceType);
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_context << Instruction::DUP3 << Instruction::ADD;
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// stack: target_ref target_data_end source_data_pos target_data_pos source_data_end
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if (haveByteOffsetTarget)
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_context << u256(0);
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if (haveByteOffsetSource)
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_context << u256(0);
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// stack: target_ref target_data_end source_data_pos target_data_pos source_data_end [target_byte_offset] [source_byte_offset]
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eth::AssemblyItem copyLoopStart = _context.newTag();
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_context << copyLoopStart;
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// check for loop condition
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_context
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<< dupInstruction(3 + byteOffsetSize) << dupInstruction(2 + byteOffsetSize)
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<< Instruction::GT << Instruction::ISZERO;
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eth::AssemblyItem copyLoopEnd = _context.appendConditionalJump();
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// stack: target_ref target_data_end source_data_pos target_data_pos source_data_end [target_byte_offset] [source_byte_offset]
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// copy
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if (sourceBaseType->category() == Type::Category::Array)
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{
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solAssert(byteOffsetSize == 0, "Byte offset for array as base type.");
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auto const& sourceBaseArrayType = dynamic_cast<ArrayType const&>(*sourceBaseType);
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_context << Instruction::DUP3;
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if (sourceBaseArrayType.location() == DataLocation::Memory)
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_context << Instruction::MLOAD;
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_context << Instruction::DUP3;
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utils.copyArrayToStorage(dynamic_cast<ArrayType const&>(*targetBaseType), sourceBaseArrayType);
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_context << Instruction::POP;
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}
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else if (directCopy)
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{
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solAssert(byteOffsetSize == 0, "Byte offset for direct copy.");
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_context
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<< Instruction::DUP3 << Instruction::SLOAD
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<< Instruction::DUP3 << Instruction::SSTORE;
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}
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else
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{
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// Note that we have to copy each element on its own in case conversion is involved.
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// We might copy too much if there is padding at the last element, but this way end
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// checking is easier.
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// stack: target_ref target_data_end source_data_pos target_data_pos source_data_end [target_byte_offset] [source_byte_offset]
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_context << dupInstruction(3 + byteOffsetSize);
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if (_sourceType.location() == DataLocation::Storage)
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{
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if (haveByteOffsetSource)
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_context << Instruction::DUP2;
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else
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_context << u256(0);
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StorageItem(_context, *sourceBaseType).retrieveValue(SourceLocation(), true);
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}
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else if (sourceBaseType->isValueType())
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CompilerUtils(_context).loadFromMemoryDynamic(*sourceBaseType, fromCalldata, true, false);
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else
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solUnimplemented("Copying of type " + _sourceType.toString(false) + " to storage not yet supported.");
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// stack: target_ref target_data_end source_data_pos target_data_pos source_data_end [target_byte_offset] [source_byte_offset] <source_value>...
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solAssert(
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2 + byteOffsetSize + sourceBaseType->sizeOnStack() <= 16,
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"Stack too deep, try removing local variables."
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);
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// fetch target storage reference
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_context << dupInstruction(2 + byteOffsetSize + sourceBaseType->sizeOnStack());
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if (haveByteOffsetTarget)
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_context << dupInstruction(1 + byteOffsetSize + sourceBaseType->sizeOnStack());
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else
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_context << u256(0);
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StorageItem(_context, *targetBaseType).storeValue(*sourceBaseType, SourceLocation(), true);
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}
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// stack: target_ref target_data_end source_data_pos target_data_pos source_data_end [target_byte_offset] [source_byte_offset]
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// increment source
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if (haveByteOffsetSource)
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utils.incrementByteOffset(sourceBaseType->storageBytes(), 1, haveByteOffsetTarget ? 5 : 4);
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else
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{
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_context << swapInstruction(2 + byteOffsetSize);
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if (sourceIsStorage)
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_context << sourceBaseType->storageSize();
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else if (_sourceType.location() == DataLocation::Memory)
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_context << sourceBaseType->memoryHeadSize();
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else
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_context << sourceBaseType->calldataEncodedSize(true);
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_context
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<< Instruction::ADD
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<< swapInstruction(2 + byteOffsetSize);
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}
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// increment target
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if (haveByteOffsetTarget)
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utils.incrementByteOffset(targetBaseType->storageBytes(), byteOffsetSize, byteOffsetSize + 2);
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else
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_context
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<< swapInstruction(1 + byteOffsetSize)
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<< targetBaseType->storageSize()
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<< Instruction::ADD
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<< swapInstruction(1 + byteOffsetSize);
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_context.appendJumpTo(copyLoopStart);
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_context << copyLoopEnd;
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if (haveByteOffsetTarget)
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{
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// clear elements that might be left over in the current slot in target
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// stack: target_ref target_data_end source_data_pos target_data_pos source_data_end target_byte_offset [source_byte_offset]
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_context << dupInstruction(byteOffsetSize) << Instruction::ISZERO;
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eth::AssemblyItem copyCleanupLoopEnd = _context.appendConditionalJump();
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_context << dupInstruction(2 + byteOffsetSize) << dupInstruction(1 + byteOffsetSize);
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StorageItem(_context, *targetBaseType).setToZero(SourceLocation(), true);
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utils.incrementByteOffset(targetBaseType->storageBytes(), byteOffsetSize, byteOffsetSize + 2);
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_context.appendJumpTo(copyLoopEnd);
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_context << copyCleanupLoopEnd;
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_context << Instruction::POP; // might pop the source, but then target is popped next
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}
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if (haveByteOffsetSource)
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_context << Instruction::POP;
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_context << copyLoopEndWithoutByteOffset;
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// zero-out leftovers in target
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// stack: target_ref target_data_end source_data_pos target_data_pos_updated source_data_end
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_context << Instruction::POP << Instruction::SWAP1 << Instruction::POP;
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// stack: target_ref target_data_end target_data_pos_updated
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utils.clearStorageLoop(targetBaseType);
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_context << Instruction::POP;
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}
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);
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}
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void ArrayUtils::copyArrayToMemory(ArrayType const& _sourceType, bool _padToWordBoundaries) const
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{
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solUnimplementedAssert(
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!_sourceType.baseType()->isDynamicallySized(),
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"Nested dynamic arrays not implemented here."
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);
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CompilerUtils utils(m_context);
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unsigned baseSize = 1;
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if (!_sourceType.isByteArray())
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{
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// We always pad the elements, regardless of _padToWordBoundaries.
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baseSize = _sourceType.baseType()->calldataEncodedSize();
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solAssert(baseSize >= 0x20, "");
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}
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if (_sourceType.location() == DataLocation::CallData)
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{
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if (!_sourceType.isDynamicallySized())
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m_context << _sourceType.length();
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if (baseSize > 1)
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m_context << u256(baseSize) << Instruction::MUL;
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// stack: target source_offset source_len
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m_context << Instruction::DUP1 << Instruction::DUP3 << Instruction::DUP5;
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// stack: target source_offset source_len source_len source_offset target
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m_context << Instruction::CALLDATACOPY;
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m_context << Instruction::DUP3 << Instruction::ADD;
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m_context << Instruction::SWAP2 << Instruction::POP << Instruction::POP;
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}
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else if (_sourceType.location() == DataLocation::Memory)
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{
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retrieveLength(_sourceType);
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// stack: target source length
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if (!_sourceType.baseType()->isValueType())
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{
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// copy using a loop
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m_context << u256(0) << Instruction::SWAP3;
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// stack: counter source length target
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auto repeat = m_context.newTag();
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m_context << repeat;
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m_context << Instruction::DUP2 << Instruction::DUP5;
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m_context << Instruction::LT << Instruction::ISZERO;
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auto loopEnd = m_context.appendConditionalJump();
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m_context << Instruction::DUP3 << Instruction::DUP5;
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accessIndex(_sourceType, false);
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MemoryItem(m_context, *_sourceType.baseType(), true).retrieveValue(SourceLocation(), true);
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if (auto baseArray = dynamic_cast<ArrayType const*>(_sourceType.baseType().get()))
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copyArrayToMemory(*baseArray, _padToWordBoundaries);
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else
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utils.storeInMemoryDynamic(*_sourceType.baseType());
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m_context << Instruction::SWAP3 << u256(1) << Instruction::ADD;
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m_context << Instruction::SWAP3;
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m_context.appendJumpTo(repeat);
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m_context << loopEnd;
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m_context << Instruction::SWAP3;
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utils.popStackSlots(3);
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// stack: updated_target_pos
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return;
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}
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// memcpy using the built-in contract
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if (_sourceType.isDynamicallySized())
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{
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// change pointer to data part
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m_context << Instruction::SWAP1 << u256(32) << Instruction::ADD;
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m_context << Instruction::SWAP1;
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}
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// convert length to size
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if (baseSize > 1)
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m_context << u256(baseSize) << Instruction::MUL;
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// stack: <target> <source> <size>
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m_context << Instruction::DUP1 << Instruction::DUP4 << Instruction::DUP4;
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// We can resort to copying full 32 bytes only if
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// - the length is known to be a multiple of 32 or
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// - we will pad to full 32 bytes later anyway.
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if (((baseSize % 32) == 0) || _padToWordBoundaries)
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utils.memoryCopy32();
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else
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utils.memoryCopy();
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m_context << Instruction::SWAP1 << Instruction::POP;
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// stack: <target> <size>
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bool paddingNeeded = false;
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if (_sourceType.isDynamicallySized())
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paddingNeeded = _padToWordBoundaries && ((baseSize % 32) != 0);
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else
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paddingNeeded = _padToWordBoundaries && (((_sourceType.length() * baseSize) % 32) != 0);
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if (paddingNeeded)
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{
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// stack: <target> <size>
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m_context << Instruction::SWAP1 << Instruction::DUP2 << Instruction::ADD;
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// stack: <length> <target + size>
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m_context << Instruction::SWAP1 << u256(31) << Instruction::AND;
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// stack: <target + size> <remainder = size % 32>
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eth::AssemblyItem skip = m_context.newTag();
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if (_sourceType.isDynamicallySized())
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{
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m_context << Instruction::DUP1 << Instruction::ISZERO;
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m_context.appendConditionalJumpTo(skip);
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}
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// round off, load from there.
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// stack <target + size> <remainder = size % 32>
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m_context << Instruction::DUP1 << Instruction::DUP3;
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m_context << Instruction::SUB;
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// stack: target+size remainder <target + size - remainder>
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m_context << Instruction::DUP1 << Instruction::MLOAD;
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// Now we AND it with ~(2**(8 * (32 - remainder)) - 1)
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m_context << u256(1);
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m_context << Instruction::DUP4 << u256(32) << Instruction::SUB;
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// stack: ...<v> 1 <32 - remainder>
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m_context << u256(0x100) << Instruction::EXP << Instruction::SUB;
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m_context << Instruction::NOT << Instruction::AND;
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// stack: target+size remainder target+size-remainder <v & ...>
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m_context << Instruction::DUP2 << Instruction::MSTORE;
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// stack: target+size remainder target+size-remainder
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m_context << u256(32) << Instruction::ADD;
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// stack: target+size remainder <new_padded_end>
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m_context << Instruction::SWAP2 << Instruction::POP;
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if (_sourceType.isDynamicallySized())
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m_context << skip.tag();
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// stack <target + "size"> <remainder = size % 32>
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m_context << Instruction::POP;
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}
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else
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// stack: <target> <size>
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m_context << Instruction::ADD;
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}
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else
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{
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solAssert(_sourceType.location() == DataLocation::Storage, "");
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unsigned storageBytes = _sourceType.baseType()->storageBytes();
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u256 storageSize = _sourceType.baseType()->storageSize();
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solAssert(storageSize > 1 || (storageSize == 1 && storageBytes > 0), "");
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retrieveLength(_sourceType);
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// stack here: memory_offset storage_offset length
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// jump to end if length is zero
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m_context << Instruction::DUP1 << Instruction::ISZERO;
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eth::AssemblyItem loopEnd = m_context.appendConditionalJump();
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// Special case for tightly-stored byte arrays
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if (_sourceType.isByteArray())
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{
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// stack here: memory_offset storage_offset length
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m_context << Instruction::DUP1 << u256(31) << Instruction::LT;
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eth::AssemblyItem longByteArray = m_context.appendConditionalJump();
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// store the short byte array (discard lower-order byte)
|
|
m_context << u256(0x100) << Instruction::DUP1;
|
|
m_context << Instruction::DUP4 << Instruction::SLOAD;
|
|
m_context << Instruction::DIV << Instruction::MUL;
|
|
m_context << Instruction::DUP4 << Instruction::MSTORE;
|
|
// stack here: memory_offset storage_offset length
|
|
// add 32 or length to memory offset
|
|
m_context << Instruction::SWAP2;
|
|
if (_padToWordBoundaries)
|
|
m_context << u256(32);
|
|
else
|
|
m_context << Instruction::DUP3;
|
|
m_context << Instruction::ADD;
|
|
m_context << Instruction::SWAP2;
|
|
m_context.appendJumpTo(loopEnd);
|
|
m_context << longByteArray;
|
|
}
|
|
// compute memory end offset
|
|
if (baseSize > 1)
|
|
// convert length to memory size
|
|
m_context << u256(baseSize) << Instruction::MUL;
|
|
m_context << Instruction::DUP3 << Instruction::ADD << Instruction::SWAP2;
|
|
if (_sourceType.isDynamicallySized())
|
|
{
|
|
// actual array data is stored at KECCAK256(storage_offset)
|
|
m_context << Instruction::SWAP1;
|
|
utils.computeHashStatic();
|
|
m_context << Instruction::SWAP1;
|
|
}
|
|
|
|
// stack here: memory_end_offset storage_data_offset memory_offset
|
|
bool haveByteOffset = !_sourceType.isByteArray() && storageBytes <= 16;
|
|
if (haveByteOffset)
|
|
m_context << u256(0) << Instruction::SWAP1;
|
|
// stack here: memory_end_offset storage_data_offset [storage_byte_offset] memory_offset
|
|
eth::AssemblyItem loopStart = m_context.newTag();
|
|
m_context << loopStart;
|
|
// load and store
|
|
if (_sourceType.isByteArray())
|
|
{
|
|
// Packed both in storage and memory.
|
|
m_context << Instruction::DUP2 << Instruction::SLOAD;
|
|
m_context << Instruction::DUP2 << Instruction::MSTORE;
|
|
// increment storage_data_offset by 1
|
|
m_context << Instruction::SWAP1 << u256(1) << Instruction::ADD;
|
|
// increment memory offset by 32
|
|
m_context << Instruction::SWAP1 << u256(32) << Instruction::ADD;
|
|
}
|
|
else
|
|
{
|
|
// stack here: memory_end_offset storage_data_offset [storage_byte_offset] memory_offset
|
|
if (haveByteOffset)
|
|
m_context << Instruction::DUP3 << Instruction::DUP3;
|
|
else
|
|
m_context << Instruction::DUP2 << u256(0);
|
|
StorageItem(m_context, *_sourceType.baseType()).retrieveValue(SourceLocation(), true);
|
|
if (auto baseArray = dynamic_cast<ArrayType const*>(_sourceType.baseType().get()))
|
|
copyArrayToMemory(*baseArray, _padToWordBoundaries);
|
|
else
|
|
utils.storeInMemoryDynamic(*_sourceType.baseType());
|
|
// increment storage_data_offset and byte offset
|
|
if (haveByteOffset)
|
|
incrementByteOffset(storageBytes, 2, 3);
|
|
else
|
|
{
|
|
m_context << Instruction::SWAP1;
|
|
m_context << storageSize << Instruction::ADD;
|
|
m_context << Instruction::SWAP1;
|
|
}
|
|
}
|
|
// check for loop condition
|
|
m_context << Instruction::DUP1 << dupInstruction(haveByteOffset ? 5 : 4);
|
|
m_context << Instruction::GT;
|
|
m_context.appendConditionalJumpTo(loopStart);
|
|
// stack here: memory_end_offset storage_data_offset [storage_byte_offset] memory_offset
|
|
if (haveByteOffset)
|
|
m_context << Instruction::SWAP1 << Instruction::POP;
|
|
if (_padToWordBoundaries && baseSize % 32 != 0)
|
|
{
|
|
// memory_end_offset - start is the actual length (we want to compute the ceil of).
|
|
// memory_offset - start is its next multiple of 32, but it might be off by 32.
|
|
// so we compute: memory_end_offset += (memory_offset - memory_end_offest) & 31
|
|
m_context << Instruction::DUP3 << Instruction::SWAP1 << Instruction::SUB;
|
|
m_context << u256(31) << Instruction::AND;
|
|
m_context << Instruction::DUP3 << Instruction::ADD;
|
|
m_context << Instruction::SWAP2;
|
|
}
|
|
m_context << loopEnd << Instruction::POP << Instruction::POP;
|
|
}
|
|
}
|
|
|
|
void ArrayUtils::clearArray(ArrayType const& _typeIn) const
|
|
{
|
|
TypePointer type = _typeIn.shared_from_this();
|
|
m_context.callLowLevelFunction(
|
|
"$clearArray_" + _typeIn.identifier(),
|
|
2,
|
|
0,
|
|
[type](CompilerContext& _context)
|
|
{
|
|
ArrayType const& _type = dynamic_cast<ArrayType const&>(*type);
|
|
unsigned stackHeightStart = _context.stackHeight();
|
|
solAssert(_type.location() == DataLocation::Storage, "");
|
|
if (_type.baseType()->storageBytes() < 32)
|
|
{
|
|
solAssert(_type.baseType()->isValueType(), "Invalid storage size for non-value type.");
|
|
solAssert(_type.baseType()->storageSize() <= 1, "Invalid storage size for type.");
|
|
}
|
|
if (_type.baseType()->isValueType())
|
|
solAssert(_type.baseType()->storageSize() <= 1, "Invalid size for value type.");
|
|
|
|
_context << Instruction::POP; // remove byte offset
|
|
if (_type.isDynamicallySized())
|
|
ArrayUtils(_context).clearDynamicArray(_type);
|
|
else if (_type.length() == 0 || _type.baseType()->category() == Type::Category::Mapping)
|
|
_context << Instruction::POP;
|
|
else if (_type.baseType()->isValueType() && _type.storageSize() <= 5)
|
|
{
|
|
// unroll loop for small arrays @todo choose a good value
|
|
// Note that we loop over storage slots here, not elements.
|
|
for (unsigned i = 1; i < _type.storageSize(); ++i)
|
|
_context
|
|
<< u256(0) << Instruction::DUP2 << Instruction::SSTORE
|
|
<< u256(1) << Instruction::ADD;
|
|
_context << u256(0) << Instruction::SWAP1 << Instruction::SSTORE;
|
|
}
|
|
else if (!_type.baseType()->isValueType() && _type.length() <= 4)
|
|
{
|
|
// unroll loop for small arrays @todo choose a good value
|
|
solAssert(_type.baseType()->storageBytes() >= 32, "Invalid storage size.");
|
|
for (unsigned i = 1; i < _type.length(); ++i)
|
|
{
|
|
_context << u256(0);
|
|
StorageItem(_context, *_type.baseType()).setToZero(SourceLocation(), false);
|
|
_context
|
|
<< Instruction::POP
|
|
<< u256(_type.baseType()->storageSize()) << Instruction::ADD;
|
|
}
|
|
_context << u256(0);
|
|
StorageItem(_context, *_type.baseType()).setToZero(SourceLocation(), true);
|
|
}
|
|
else
|
|
{
|
|
_context << Instruction::DUP1 << _type.length();
|
|
ArrayUtils(_context).convertLengthToSize(_type);
|
|
_context << Instruction::ADD << Instruction::SWAP1;
|
|
if (_type.baseType()->storageBytes() < 32)
|
|
ArrayUtils(_context).clearStorageLoop(make_shared<IntegerType>(256));
|
|
else
|
|
ArrayUtils(_context).clearStorageLoop(_type.baseType());
|
|
_context << Instruction::POP;
|
|
}
|
|
solAssert(_context.stackHeight() == stackHeightStart - 2, "");
|
|
}
|
|
);
|
|
}
|
|
|
|
void ArrayUtils::clearDynamicArray(ArrayType const& _type) const
|
|
{
|
|
solAssert(_type.location() == DataLocation::Storage, "");
|
|
solAssert(_type.isDynamicallySized(), "");
|
|
|
|
// fetch length
|
|
retrieveLength(_type);
|
|
// set length to zero
|
|
m_context << u256(0) << Instruction::DUP3 << Instruction::SSTORE;
|
|
// Special case: short byte arrays are stored togeher with their length
|
|
eth::AssemblyItem endTag = m_context.newTag();
|
|
if (_type.isByteArray())
|
|
{
|
|
// stack: ref old_length
|
|
m_context << Instruction::DUP1 << u256(31) << Instruction::LT;
|
|
eth::AssemblyItem longByteArray = m_context.appendConditionalJump();
|
|
m_context << Instruction::POP;
|
|
m_context.appendJumpTo(endTag);
|
|
m_context.adjustStackOffset(1); // needed because of jump
|
|
m_context << longByteArray;
|
|
}
|
|
// stack: ref old_length
|
|
convertLengthToSize(_type);
|
|
// compute data positions
|
|
m_context << Instruction::SWAP1;
|
|
CompilerUtils(m_context).computeHashStatic();
|
|
// stack: len data_pos
|
|
m_context << Instruction::SWAP1 << Instruction::DUP2 << Instruction::ADD
|
|
<< Instruction::SWAP1;
|
|
// stack: data_pos_end data_pos
|
|
if (_type.isByteArray() || _type.baseType()->storageBytes() < 32)
|
|
clearStorageLoop(make_shared<IntegerType>(256));
|
|
else
|
|
clearStorageLoop(_type.baseType());
|
|
// cleanup
|
|
m_context << endTag;
|
|
m_context << Instruction::POP;
|
|
}
|
|
|
|
void ArrayUtils::resizeDynamicArray(ArrayType const& _typeIn) const
|
|
{
|
|
TypePointer type = _typeIn.shared_from_this();
|
|
m_context.callLowLevelFunction(
|
|
"$resizeDynamicArray_" + _typeIn.identifier(),
|
|
2,
|
|
0,
|
|
[type](CompilerContext& _context)
|
|
{
|
|
ArrayType const& _type = dynamic_cast<ArrayType const&>(*type);
|
|
solAssert(_type.location() == DataLocation::Storage, "");
|
|
solAssert(_type.isDynamicallySized(), "");
|
|
if (!_type.isByteArray() && _type.baseType()->storageBytes() < 32)
|
|
solAssert(_type.baseType()->isValueType(), "Invalid storage size for non-value type.");
|
|
|
|
unsigned stackHeightStart = _context.stackHeight();
|
|
eth::AssemblyItem resizeEnd = _context.newTag();
|
|
|
|
// stack: ref new_length
|
|
// fetch old length
|
|
ArrayUtils(_context).retrieveLength(_type, 1);
|
|
// stack: ref new_length old_length
|
|
solAssert(_context.stackHeight() - stackHeightStart == 3 - 2, "2");
|
|
|
|
// Special case for short byte arrays, they are stored together with their length
|
|
if (_type.isByteArray())
|
|
{
|
|
eth::AssemblyItem regularPath = _context.newTag();
|
|
// We start by a large case-distinction about the old and new length of the byte array.
|
|
|
|
_context << Instruction::DUP3 << Instruction::SLOAD;
|
|
// stack: ref new_length current_length ref_value
|
|
|
|
solAssert(_context.stackHeight() - stackHeightStart == 4 - 2, "3");
|
|
_context << Instruction::DUP2 << u256(31) << Instruction::LT;
|
|
eth::AssemblyItem currentIsLong = _context.appendConditionalJump();
|
|
_context << Instruction::DUP3 << u256(31) << Instruction::LT;
|
|
eth::AssemblyItem newIsLong = _context.appendConditionalJump();
|
|
|
|
// Here: short -> short
|
|
|
|
// Compute 1 << (256 - 8 * new_size)
|
|
eth::AssemblyItem shortToShort = _context.newTag();
|
|
_context << shortToShort;
|
|
_context << Instruction::DUP3 << u256(8) << Instruction::MUL;
|
|
_context << u256(0x100) << Instruction::SUB;
|
|
_context << u256(2) << Instruction::EXP;
|
|
// Divide and multiply by that value, clearing bits.
|
|
_context << Instruction::DUP1 << Instruction::SWAP2;
|
|
_context << Instruction::DIV << Instruction::MUL;
|
|
// Insert 2*length.
|
|
_context << Instruction::DUP3 << Instruction::DUP1 << Instruction::ADD;
|
|
_context << Instruction::OR;
|
|
// Store.
|
|
_context << Instruction::DUP4 << Instruction::SSTORE;
|
|
solAssert(_context.stackHeight() - stackHeightStart == 3 - 2, "3");
|
|
_context.appendJumpTo(resizeEnd);
|
|
|
|
_context.adjustStackOffset(1); // we have to do that because of the jumps
|
|
// Here: short -> long
|
|
|
|
_context << newIsLong;
|
|
// stack: ref new_length current_length ref_value
|
|
solAssert(_context.stackHeight() - stackHeightStart == 4 - 2, "3");
|
|
// Zero out lower-order byte.
|
|
_context << u256(0xff) << Instruction::NOT << Instruction::AND;
|
|
// Store at data location.
|
|
_context << Instruction::DUP4;
|
|
CompilerUtils(_context).computeHashStatic();
|
|
_context << Instruction::SSTORE;
|
|
// stack: ref new_length current_length
|
|
// Store new length: Compule 2*length + 1 and store it.
|
|
_context << Instruction::DUP2 << Instruction::DUP1 << Instruction::ADD;
|
|
_context << u256(1) << Instruction::ADD;
|
|
// stack: ref new_length current_length 2*new_length+1
|
|
_context << Instruction::DUP4 << Instruction::SSTORE;
|
|
solAssert(_context.stackHeight() - stackHeightStart == 3 - 2, "3");
|
|
_context.appendJumpTo(resizeEnd);
|
|
|
|
_context.adjustStackOffset(1); // we have to do that because of the jumps
|
|
|
|
_context << currentIsLong;
|
|
_context << Instruction::DUP3 << u256(31) << Instruction::LT;
|
|
_context.appendConditionalJumpTo(regularPath);
|
|
|
|
// Here: long -> short
|
|
// Read the first word of the data and store it on the stack. Clear the data location and
|
|
// then jump to the short -> short case.
|
|
|
|
// stack: ref new_length current_length ref_value
|
|
solAssert(_context.stackHeight() - stackHeightStart == 4 - 2, "3");
|
|
_context << Instruction::POP << Instruction::DUP3;
|
|
CompilerUtils(_context).computeHashStatic();
|
|
_context << Instruction::DUP1 << Instruction::SLOAD << Instruction::SWAP1;
|
|
// stack: ref new_length current_length first_word data_location
|
|
_context << Instruction::DUP3;
|
|
ArrayUtils(_context).convertLengthToSize(_type);
|
|
_context << Instruction::DUP2 << Instruction::ADD << Instruction::SWAP1;
|
|
// stack: ref new_length current_length first_word data_location_end data_location
|
|
ArrayUtils(_context).clearStorageLoop(make_shared<IntegerType>(256));
|
|
_context << Instruction::POP;
|
|
// stack: ref new_length current_length first_word
|
|
solAssert(_context.stackHeight() - stackHeightStart == 4 - 2, "3");
|
|
_context.appendJumpTo(shortToShort);
|
|
|
|
_context << regularPath;
|
|
// stack: ref new_length current_length ref_value
|
|
_context << Instruction::POP;
|
|
}
|
|
|
|
// Change of length for a regular array (i.e. length at location, data at KECCAK256(location)).
|
|
// stack: ref new_length old_length
|
|
// store new length
|
|
_context << Instruction::DUP2;
|
|
if (_type.isByteArray())
|
|
// For a "long" byte array, store length as 2*length+1
|
|
_context << Instruction::DUP1 << Instruction::ADD << u256(1) << Instruction::ADD;
|
|
_context<< Instruction::DUP4 << Instruction::SSTORE;
|
|
// skip if size is not reduced
|
|
_context << Instruction::DUP2 << Instruction::DUP2
|
|
<< Instruction::ISZERO << Instruction::GT;
|
|
_context.appendConditionalJumpTo(resizeEnd);
|
|
|
|
// size reduced, clear the end of the array
|
|
// stack: ref new_length old_length
|
|
ArrayUtils(_context).convertLengthToSize(_type);
|
|
_context << Instruction::DUP2;
|
|
ArrayUtils(_context).convertLengthToSize(_type);
|
|
// stack: ref new_length old_size new_size
|
|
// compute data positions
|
|
_context << Instruction::DUP4;
|
|
CompilerUtils(_context).computeHashStatic();
|
|
// stack: ref new_length old_size new_size data_pos
|
|
_context << Instruction::SWAP2 << Instruction::DUP3 << Instruction::ADD;
|
|
// stack: ref new_length data_pos new_size delete_end
|
|
_context << Instruction::SWAP2 << Instruction::ADD;
|
|
// stack: ref new_length delete_end delete_start
|
|
if (_type.isByteArray() || _type.baseType()->storageBytes() < 32)
|
|
ArrayUtils(_context).clearStorageLoop(make_shared<IntegerType>(256));
|
|
else
|
|
ArrayUtils(_context).clearStorageLoop(_type.baseType());
|
|
|
|
_context << resizeEnd;
|
|
// cleanup
|
|
_context << Instruction::POP << Instruction::POP << Instruction::POP;
|
|
solAssert(_context.stackHeight() == stackHeightStart - 2, "");
|
|
}
|
|
);
|
|
}
|
|
|
|
void ArrayUtils::clearStorageLoop(TypePointer const& _type) const
|
|
{
|
|
m_context.callLowLevelFunction(
|
|
"$clearStorageLoop_" + _type->identifier(),
|
|
2,
|
|
1,
|
|
[_type](CompilerContext& _context)
|
|
{
|
|
unsigned stackHeightStart = _context.stackHeight();
|
|
if (_type->category() == Type::Category::Mapping)
|
|
{
|
|
_context << Instruction::POP;
|
|
return;
|
|
}
|
|
// stack: end_pos pos
|
|
|
|
// jump to and return from the loop to allow for duplicate code removal
|
|
eth::AssemblyItem returnTag = _context.pushNewTag();
|
|
_context << Instruction::SWAP2 << Instruction::SWAP1;
|
|
|
|
// stack: <return tag> end_pos pos
|
|
eth::AssemblyItem loopStart = _context.appendJumpToNew();
|
|
_context << loopStart;
|
|
// check for loop condition
|
|
_context << Instruction::DUP1 << Instruction::DUP3
|
|
<< Instruction::GT << Instruction::ISZERO;
|
|
eth::AssemblyItem zeroLoopEnd = _context.newTag();
|
|
_context.appendConditionalJumpTo(zeroLoopEnd);
|
|
// delete
|
|
_context << u256(0);
|
|
StorageItem(_context, *_type).setToZero(SourceLocation(), false);
|
|
_context << Instruction::POP;
|
|
// increment
|
|
_context << _type->storageSize() << Instruction::ADD;
|
|
_context.appendJumpTo(loopStart);
|
|
// cleanup
|
|
_context << zeroLoopEnd;
|
|
_context << Instruction::POP << Instruction::SWAP1;
|
|
// "return"
|
|
_context << Instruction::JUMP;
|
|
|
|
_context << returnTag;
|
|
solAssert(_context.stackHeight() == stackHeightStart - 1, "");
|
|
}
|
|
);
|
|
}
|
|
|
|
void ArrayUtils::convertLengthToSize(ArrayType const& _arrayType, bool _pad) const
|
|
{
|
|
if (_arrayType.location() == DataLocation::Storage)
|
|
{
|
|
if (_arrayType.baseType()->storageSize() <= 1)
|
|
{
|
|
unsigned baseBytes = _arrayType.baseType()->storageBytes();
|
|
if (baseBytes == 0)
|
|
m_context << Instruction::POP << u256(1);
|
|
else if (baseBytes <= 16)
|
|
{
|
|
unsigned itemsPerSlot = 32 / baseBytes;
|
|
m_context
|
|
<< u256(itemsPerSlot - 1) << Instruction::ADD
|
|
<< u256(itemsPerSlot) << Instruction::SWAP1 << Instruction::DIV;
|
|
}
|
|
}
|
|
else
|
|
m_context << _arrayType.baseType()->storageSize() << Instruction::MUL;
|
|
}
|
|
else
|
|
{
|
|
if (!_arrayType.isByteArray())
|
|
{
|
|
if (_arrayType.location() == DataLocation::Memory)
|
|
m_context << _arrayType.baseType()->memoryHeadSize();
|
|
else
|
|
m_context << _arrayType.baseType()->calldataEncodedSize();
|
|
m_context << Instruction::MUL;
|
|
}
|
|
else if (_pad)
|
|
m_context << u256(31) << Instruction::ADD
|
|
<< u256(32) << Instruction::DUP1
|
|
<< Instruction::SWAP2 << Instruction::DIV << Instruction::MUL;
|
|
}
|
|
}
|
|
|
|
void ArrayUtils::retrieveLength(ArrayType const& _arrayType, unsigned _stackDepth) const
|
|
{
|
|
if (!_arrayType.isDynamicallySized())
|
|
m_context << _arrayType.length();
|
|
else
|
|
{
|
|
m_context << dupInstruction(1 + _stackDepth);
|
|
switch (_arrayType.location())
|
|
{
|
|
case DataLocation::CallData:
|
|
// length is stored on the stack
|
|
break;
|
|
case DataLocation::Memory:
|
|
m_context << Instruction::MLOAD;
|
|
break;
|
|
case DataLocation::Storage:
|
|
m_context << Instruction::SLOAD;
|
|
if (_arrayType.isByteArray())
|
|
{
|
|
// Retrieve length both for in-place strings and off-place strings:
|
|
// Computes (x & (0x100 * (ISZERO (x & 1)) - 1)) / 2
|
|
// i.e. for short strings (x & 1 == 0) it does (x & 0xff) / 2 and for long strings it
|
|
// computes (x & (-1)) / 2, which is equivalent to just x / 2.
|
|
m_context << u256(1) << Instruction::DUP2 << u256(1) << Instruction::AND;
|
|
m_context << Instruction::ISZERO << u256(0x100) << Instruction::MUL;
|
|
m_context << Instruction::SUB << Instruction::AND;
|
|
m_context << u256(2) << Instruction::SWAP1 << Instruction::DIV;
|
|
}
|
|
break;
|
|
}
|
|
}
|
|
}
|
|
|
|
void ArrayUtils::accessIndex(ArrayType const& _arrayType, bool _doBoundsCheck) const
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{
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/// Stack: reference [length] index
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DataLocation location = _arrayType.location();
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if (_doBoundsCheck)
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{
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// retrieve length
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ArrayUtils::retrieveLength(_arrayType, 1);
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// Stack: ref [length] index length
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// check out-of-bounds access
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m_context << Instruction::DUP2 << Instruction::LT << Instruction::ISZERO;
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// out-of-bounds access throws exception
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m_context.appendConditionalInvalid();
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}
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if (location == DataLocation::CallData && _arrayType.isDynamicallySized())
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// remove length if present
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m_context << Instruction::SWAP1 << Instruction::POP;
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// stack: <base_ref> <index>
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m_context << Instruction::SWAP1;
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// stack: <index> <base_ref>
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switch (location)
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{
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case DataLocation::Memory:
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case DataLocation::CallData:
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if (location == DataLocation::Memory && _arrayType.isDynamicallySized())
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m_context << u256(32) << Instruction::ADD;
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if (!_arrayType.isByteArray())
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{
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m_context << Instruction::SWAP1;
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if (location == DataLocation::CallData)
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m_context << _arrayType.baseType()->calldataEncodedSize();
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else
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m_context << u256(_arrayType.memoryHeadSize());
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m_context << Instruction::MUL;
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}
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m_context << Instruction::ADD;
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break;
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case DataLocation::Storage:
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{
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eth::AssemblyItem endTag = m_context.newTag();
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if (_arrayType.isByteArray())
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{
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// Special case of short byte arrays.
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m_context << Instruction::SWAP1;
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m_context << Instruction::DUP2 << Instruction::SLOAD;
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m_context << u256(1) << Instruction::AND << Instruction::ISZERO;
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// No action needed for short byte arrays.
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m_context.appendConditionalJumpTo(endTag);
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m_context << Instruction::SWAP1;
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}
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if (_arrayType.isDynamicallySized())
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CompilerUtils(m_context).computeHashStatic();
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m_context << Instruction::SWAP1;
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if (_arrayType.baseType()->storageBytes() <= 16)
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|
{
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|
// stack: <data_ref> <index>
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// goal:
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// <ref> <byte_number> = <base_ref + index / itemsPerSlot> <(index % itemsPerSlot) * byteSize>
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unsigned byteSize = _arrayType.baseType()->storageBytes();
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solAssert(byteSize != 0, "");
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unsigned itemsPerSlot = 32 / byteSize;
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m_context << u256(itemsPerSlot) << Instruction::SWAP2;
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// stack: itemsPerSlot index data_ref
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m_context
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<< Instruction::DUP3 << Instruction::DUP3
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<< Instruction::DIV << Instruction::ADD
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// stack: itemsPerSlot index (data_ref + index / itemsPerSlot)
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<< Instruction::SWAP2 << Instruction::SWAP1
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<< Instruction::MOD;
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if (byteSize != 1)
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m_context << u256(byteSize) << Instruction::MUL;
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}
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else
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{
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if (_arrayType.baseType()->storageSize() != 1)
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|
m_context << _arrayType.baseType()->storageSize() << Instruction::MUL;
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|
m_context << Instruction::ADD << u256(0);
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|
}
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m_context << endTag;
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|
break;
|
|
}
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default:
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|
solAssert(false, "");
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}
|
|
}
|
|
|
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void ArrayUtils::incrementByteOffset(unsigned _byteSize, unsigned _byteOffsetPosition, unsigned _storageOffsetPosition) const
|
|
{
|
|
solAssert(_byteSize < 32, "");
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|
solAssert(_byteSize != 0, "");
|
|
// We do the following, but avoiding jumps:
|
|
// byteOffset += byteSize
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|
// if (byteOffset + byteSize > 32)
|
|
// {
|
|
// storageOffset++;
|
|
// byteOffset = 0;
|
|
// }
|
|
if (_byteOffsetPosition > 1)
|
|
m_context << swapInstruction(_byteOffsetPosition - 1);
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|
m_context << u256(_byteSize) << Instruction::ADD;
|
|
if (_byteOffsetPosition > 1)
|
|
m_context << swapInstruction(_byteOffsetPosition - 1);
|
|
// compute, X := (byteOffset + byteSize - 1) / 32, should be 1 iff byteOffset + bytesize > 32
|
|
m_context
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|
<< u256(32) << dupInstruction(1 + _byteOffsetPosition) << u256(_byteSize - 1)
|
|
<< Instruction::ADD << Instruction::DIV;
|
|
// increment storage offset if X == 1 (just add X to it)
|
|
// stack: X
|
|
m_context
|
|
<< swapInstruction(_storageOffsetPosition) << dupInstruction(_storageOffsetPosition + 1)
|
|
<< Instruction::ADD << swapInstruction(_storageOffsetPosition);
|
|
// stack: X
|
|
// set source_byte_offset to zero if X == 1 (using source_byte_offset *= 1 - X)
|
|
m_context << u256(1) << Instruction::SUB;
|
|
// stack: 1 - X
|
|
if (_byteOffsetPosition == 1)
|
|
m_context << Instruction::MUL;
|
|
else
|
|
m_context
|
|
<< dupInstruction(_byteOffsetPosition + 1) << Instruction::MUL
|
|
<< swapInstruction(_byteOffsetPosition) << Instruction::POP;
|
|
}
|