solidity/libsolidity/codegen/ABIFunctions.h

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/*
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 <http://www.gnu.org/licenses/>.
*/
// SPDX-License-Identifier: GPL-3.0
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/**
* @author Christian <chris@ethereum.org>
* @date 2017
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* Routines that generate Yul code related to ABI encoding, decoding and type conversions.
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*/
#pragma once
#include <libsolidity/codegen/MultiUseYulFunctionCollector.h>
#include <libsolidity/codegen/YulUtilFunctions.h>
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#include <libsolidity/interface/DebugSettings.h>
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#include <liblangutil/EVMVersion.h>
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#include <functional>
#include <map>
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#include <vector>
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namespace solidity::frontend
{
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class Type;
class ArrayType;
class StructType;
class FunctionType;
using TypePointers = std::vector<Type const*>;
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/**
* Class to generate encoding and decoding functions. Also maintains a collection
* of "functions to be generated" in order to avoid generating the same function
* multiple times.
*
* Make sure to include the result of ``requestedFunctions()`` to a block that
* is visible from the code that was generated here, or use named labels.
*/
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class ABIFunctions
{
public:
explicit ABIFunctions(
langutil::EVMVersion _evmVersion,
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RevertStrings _revertStrings,
MultiUseYulFunctionCollector& _functionCollector
):
m_evmVersion(_evmVersion),
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m_revertStrings(_revertStrings),
m_functionCollector(_functionCollector),
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m_utils(_evmVersion, m_revertStrings, m_functionCollector)
{}
/// @returns name of an assembly function to ABI-encode values of @a _givenTypes
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/// into memory, converting the types to @a _targetTypes on the fly.
/// Parameters are: <headStart> <value_1> ... <value_n>, i.e.
/// the layout on the stack is <value_n> ... <value_1> <headStart> with
/// the top of the stack on the right.
/// The values represent stack slots. If a type occupies more or less than one
/// stack slot, it takes exactly that number of values.
/// Returns a pointer to the end of the area written in memory.
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/// Does not allocate memory (does not change the free memory pointer), but writes
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/// to memory starting at $headStart and an unrestricted amount after that.
/// If @reversed is true, the order of the variables after <headStart> is reversed.
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std::string tupleEncoder(
TypePointers const& _givenTypes,
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TypePointers _targetTypes,
bool _encodeAsLibraryTypes = false,
bool _reversed = false
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);
/// Specialization of tupleEncoder to _reversed = true
std::string tupleEncoderReversed(
TypePointers const& _givenTypes,
TypePointers const& _targetTypes,
bool _encodeAsLibraryTypes = false
) {
return tupleEncoder(_givenTypes, _targetTypes, _encodeAsLibraryTypes, true);
}
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/// @returns name of an assembly function to encode values of @a _givenTypes
/// with packed encoding into memory, converting the types to @a _targetTypes on the fly.
/// Parameters are: <memPos> <value_1> ... <value_n>, i.e.
/// the layout on the stack is <value_n> ... <value_1> <memPos> with
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/// the top of the stack on the right.
/// The values represent stack slots. If a type occupies more or less than one
/// stack slot, it takes exactly that number of values.
/// Returns a pointer to the end of the area written in memory.
/// Does not allocate memory (does not change the free memory pointer), but writes
/// to memory starting at memPos and an unrestricted amount after that.
/// If @reversed is true, the order of the variables after <headStart> is reversed.
std::string tupleEncoderPacked(
TypePointers const& _givenTypes,
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TypePointers _targetTypes,
bool _reversed = false
);
/// Specialization of tupleEncoderPacked to _reversed = true
std::string tupleEncoderPackedReversed(TypePointers const& _givenTypes, TypePointers const& _targetTypes)
{
return tupleEncoderPacked(_givenTypes, _targetTypes, true);
}
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/// @returns name of an assembly function to ABI-decode values of @a _types
/// into memory. If @a _fromMemory is true, decodes from memory instead of
/// from calldata.
/// Can allocate memory.
/// Inputs: <source_offset> <source_end> (layout reversed on stack)
/// Outputs: <value0> <value1> ... <valuen>
/// The values represent stack slots. If a type occupies more or less than one
/// stack slot, it takes exactly that number of values.
std::string tupleDecoder(TypePointers const& _types, bool _fromMemory = false);
struct EncodingOptions
{
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/// Pad/signextend value types and bytes/string to multiples of 32 bytes.
/// If false, data is always left-aligned.
/// Note that this is always re-set to true for the elements of arrays and structs.
bool padded = true;
/// Store arrays and structs in place without "data pointer" and do not store the length.
bool dynamicInplace = false;
/// Only for external function types: The value is a pair of address / function id instead
/// of a memory pointer to the compression representation.
bool encodeFunctionFromStack = false;
/// Encode storage pointers as storage pointers (we are targeting a library call).
bool encodeAsLibraryTypes = false;
/// @returns a string to uniquely identify the encoding options for the encoding
/// function name. Skips everything that has its default value.
std::string toFunctionNameSuffix() const;
};
/// Internal encoding function that is also used by some copying routines.
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/// @returns the name of the ABI encoding function with the given type
/// and queues the generation of the function to the requested functions.
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/// @param _fromStack if false, the input value was just loaded from storage
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/// or memory and thus might be compacted into a single slot (depending on the type).
std::string abiEncodingFunction(
Type const& _givenType,
Type const& _targetType,
EncodingOptions const& _options
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);
/// Internal encoding function that is also used by some copying routines.
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/// @returns the name of a function that internally calls `abiEncodingFunction`
/// but always returns the updated encoding position, even if the type is
/// statically encoded.
std::string abiEncodeAndReturnUpdatedPosFunction(
Type const& _givenType,
Type const& _targetType,
EncodingOptions const& _options
);
/// Decodes array in case of dynamic arrays with offset pointing to
/// data and length already on stack
/// signature: (dataOffset, length, dataEnd) -> decodedArray
std::string abiDecodingFunctionArrayAvailableLength(ArrayType const& _type, bool _fromMemory);
/// Internal decoding function that is also used by some copying routines.
/// @returns the name of a function that decodes structs.
/// signature: (dataStart, dataEnd) -> decodedStruct
std::string abiDecodingFunctionStruct(StructType const& _type, bool _fromMemory);
private:
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/// Part of @a abiEncodingFunction for array target type and given calldata array.
/// Uses calldatacopy and does not perform cleanup or validation and can therefore only
/// be used for byte arrays and arrays with the base type uint256 or bytes32.
std::string abiEncodingFunctionCalldataArrayWithoutCleanup(
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Type const& _givenType,
Type const& _targetType,
EncodingOptions const& _options
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);
/// Part of @a abiEncodingFunction for array target type and given memory array or
/// a given storage array with every item occupies one or multiple full slots.
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std::string abiEncodingFunctionSimpleArray(
ArrayType const& _givenType,
ArrayType const& _targetType,
EncodingOptions const& _options
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);
std::string abiEncodingFunctionMemoryByteArray(
ArrayType const& _givenType,
ArrayType const& _targetType,
EncodingOptions const& _options
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);
/// Part of @a abiEncodingFunction for array target type and given storage array
/// where multiple items are packed into the same storage slot.
std::string abiEncodingFunctionCompactStorageArray(
ArrayType const& _givenType,
ArrayType const& _targetType,
EncodingOptions const& _options
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);
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/// Part of @a abiEncodingFunction for struct types.
std::string abiEncodingFunctionStruct(
StructType const& _givenType,
StructType const& _targetType,
EncodingOptions const& _options
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);
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// @returns the name of the ABI encoding function with the given type
// and queues the generation of the function to the requested functions.
// Case for _givenType being a string literal
std::string abiEncodingFunctionStringLiteral(
Type const& _givenType,
Type const& _targetType,
EncodingOptions const& _options
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);
std::string abiEncodingFunctionFunctionType(
FunctionType const& _from,
Type const& _to,
EncodingOptions const& _options
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);
/// @returns the name of the ABI decoding function for the given type
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/// and queues the generation of the function to the requested functions.
/// The caller has to ensure that no out of bounds access (at least to the static
/// part) can happen inside this function.
/// @param _fromMemory if decoding from memory instead of from calldata
/// @param _forUseOnStack if the decoded value is stored on stack or in memory.
std::string abiDecodingFunction(
Type const& _type,
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bool _fromMemory,
bool _forUseOnStack
);
/// Part of @a abiDecodingFunction for value types.
std::string abiDecodingFunctionValueType(Type const& _type, bool _fromMemory);
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/// Part of @a abiDecodingFunction for "regular" array types.
std::string abiDecodingFunctionArray(ArrayType const& _type, bool _fromMemory);
/// Part of @a abiDecodingFunction for calldata array types.
std::string abiDecodingFunctionCalldataArray(ArrayType const& _type);
/// Part of @a abiDecodingFunctionArrayAvailableLength
std::string abiDecodingFunctionByteArrayAvailableLength(ArrayType const& _type, bool _fromMemory);
/// Part of @a abiDecodingFunction for calldata struct types.
std::string abiDecodingFunctionCalldataStruct(StructType const& _type);
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/// Part of @a abiDecodingFunction for array types.
std::string abiDecodingFunctionFunctionType(FunctionType const& _type, bool _fromMemory, bool _forUseOnStack);
/// @returns the name of a function that retrieves an element from calldata.
std::string calldataAccessFunction(Type const& _type);
/// @returns the name of a function used during encoding that stores the length
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/// if the array is dynamically sized (and the options do not request in-place encoding).
/// It returns the new encoding position.
/// If the array is not dynamically sized (or in-place encoding was requested),
/// does nothing and just returns the position again.
std::string arrayStoreLengthForEncodingFunction(ArrayType const& _type, EncodingOptions const& _options);
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/// Helper function that uses @a _creator to create a function and add it to
/// @a m_requestedFunctions if it has not been created yet and returns @a _name in both
/// cases.
std::string createFunction(std::string const& _name, std::function<std::string()> const& _creator);
/// @returns the size of the static part of the encoding of the given types.
static size_t headSize(TypePointers const& _targetTypes);
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/// @returns the number of variables needed to store a type.
/// This is one for almost all types. The exception being dynamically sized calldata arrays or
/// external function types (if we are encoding from stack, i.e. _options.encodeFunctionFromStack
/// is true), for which it is two.
static size_t numVariablesForType(Type const& _type, EncodingOptions const& _options);
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/// @returns the name of a function that uses @param _message for revert reason
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/// if m_revertStrings is debug.
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std::string revertReasonIfDebugFunction(std::string const& _message = "");
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langutil::EVMVersion m_evmVersion;
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RevertStrings const m_revertStrings;
MultiUseYulFunctionCollector& m_functionCollector;
YulUtilFunctions m_utils;
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};
}