/*
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 .
*/
#pragma once
#include
#include
#include
#include
#include
#include
#include
#include
#include
namespace dev
{
namespace solidity
{
namespace test
{
/**
* All soltest tokens.
*/
#define SOLT_TOKEN_LIST(T, K) \
T(Unknown, "unknown", 0) \
T(Invalid, "invalid", 0) \
T(EOS, "EOS", 0) \
T(Whitespace, "_", 0) \
/* punctuations */ \
T(LParen, "(", 0) \
T(RParen, ")", 0) \
T(LBrack, "[", 0) \
T(RBrack, "]", 0) \
T(LBrace, "{", 0) \
T(RBrace, "}", 0) \
T(Sub, "-", 0) \
T(Colon, ":", 0) \
T(Comma, ",", 0) \
T(Period, ".", 0) \
T(Arrow, "->", 0) \
T(Newline, "//", 0) \
/* Literals & identifier */ \
T(Comment, "#", 0) \
T(Number, "number", 0) \
T(HexNumber, "hex_number", 0) \
T(Identifier, "identifier", 0) \
/* type keywords */ \
K(Ether, "ether", 0) \
K(Hex, "hex", 0) \
K(Boolean, "boolean", 0) \
/* special keywords */ \
K(Left, "left", 0) \
K(Right, "right", 0) \
K(Failure, "FAILURE", 0) \
namespace soltest
{
enum class Token : unsigned int {
#define T(name, string, precedence) name,
SOLT_TOKEN_LIST(T, T)
NUM_TOKENS
#undef T
};
/// Prints a friendly string representation of \param _token.
inline std::string formatToken(Token _token)
{
switch (_token)
{
#define T(name, string, precedence) case Token::name: return string;
SOLT_TOKEN_LIST(T, T)
#undef T
default: // Token::NUM_TOKENS:
return "";
}
}
}
/**
* The purpose of the ABI type is the storage of type information
* retrieved while parsing a test. This information is used
* for the conversion of human-readable function arguments and
* return values to `bytes` and vice-versa.
* Defaults to None, a 0-byte representation. 0-bytes
* can also be interpreted as Failure, which means
* either a REVERT or another EVM failure.
*/
struct ABIType
{
enum Type
{
UnsignedDec,
SignedDec,
Boolean,
Hex,
HexString,
Failure,
None
};
enum Align
{
AlignLeft,
AlignRight,
AlignNone,
};
Type type = ABIType::None;
Align align = ABIType::AlignRight;
size_t size = 0;
bool alignDeclared = false;
};
/**
* Helper that can hold format information retrieved
* while scanning through a parameter list in soltest.
*/
struct FormatInfo
{
bool newline = false;
};
/**
* Parameter abstraction used for the encoding and decoding of
* function parameter and expectation / return value lists.
* A parameter list is usually a comma-separated list of literals.
* It should not be possible to call create a parameter holding
* an identifier, but if so, the ABI type would be invalid.
*/
struct Parameter
{
/// ABI encoded / decoded `bytes` of values.
/// These `bytes` are used to pass values to function calls
/// and also to store expected return vales. These are
/// compared to the actual result of a function call
/// and used for validating it.
bytes rawBytes;
/// Stores the raw string representation of this parameter.
/// Used to print the unformatted arguments of a function call.
std::string rawString;
/// Types that were used to encode `rawBytes`. Expectations
/// are usually comma separated literals. Their type is auto-
/// detected and retained in order to format them later on.
ABIType abiType;
/// Format info attached to the parameter. It handles newlines given
/// in the declaration of it.
FormatInfo format;
};
using ParameterList = std::vector;
/**
* Represents the expected result of a function call after it has been executed. This may be a single
* return value or a comma-separated list of return values. It also contains the detected input
* formats used to convert the values to `bytes` needed for the comparison with the actual result
* of a call. In addition to that, it also stores the expected transaction status.
* An optional comment can be assigned.
*/
struct FunctionCallExpectations
{
/// Representation of the comma-separated (or empty) list of expected result values
/// attached to the function call object. It is checked against the actual result of
/// a function call when used in test framework.
ParameterList result;
/// Expected status of the transaction. It can be either
/// a REVERT or a different EVM failure (e.g. out-of-gas).
bool failure = true;
/// A Comment that can be attached to the expectations,
/// that is retained and can be displayed.
std::string comment;
/// ABI encoded `bytes` of parsed expected return values. It is checked
/// against the actual result of a function call when used in test framework.
bytes rawBytes() const
{
bytes raw;
for (auto const& param: result)
raw += param.rawBytes;
return raw;
}
};
/**
* Represents the arguments passed to a function call. This can be a single
* argument or a comma-separated list of arguments. It also contains the detected input
* formats used to convert the arguments to `bytes` needed for the call.
* An optional comment can be assigned.
*/
struct FunctionCallArgs
{
/// Types that were used to encode `rawBytes`. Parameters
/// are usually comma separated literals. Their type is auto-
/// detected and retained in order to format them later on.
ParameterList parameters;
/// A Comment that can be attached to the expectations,
/// that is retained and can be displayed.
std::string comment;
/// ABI encoded `bytes` of parsed parameters. These `bytes`
/// passed to the function call.
bytes rawBytes() const
{
bytes raw;
for (auto const& param: parameters)
raw += param.rawBytes;
return raw;
}
};
/**
* Represents a function call read from an input stream. It contains the signature, the
* arguments, an optional ether value and an expected execution result.
*/
struct FunctionCall
{
/// Signature of the function call, e.g. `f(uint256, uint256)`.
std::string signature;
/// Optional `ether` value that can be send with the call.
u256 value;
/// Object that holds all function parameters in their `bytes`
/// representations given by the contract ABI.
FunctionCallArgs arguments;
/// Object that holds all function call expectation in
/// their `bytes` representations given by the contract ABI.
/// They are checked against the actual results and their
/// `bytes` representation, as well as the transaction status.
FunctionCallExpectations expectations;
/// single / multi-line mode will be detected as follows:
/// every newline (//) in source results in a function call
/// that has its display mode set to multi-mode. Function and
/// result parameter lists are an exception: a single parameter
/// stores a format information that contains a newline definition.
enum DisplayMode {
SingleLine,
MultiLine
};
DisplayMode displayMode = DisplayMode::SingleLine;
};
/**
* Class that is able to parse an additional and well-formed comment section in a Solidity
* source file used by the file-based unit test environment. For now, it parses function
* calls and their expected result after the call was made.
*
* - Function calls defined in blocks:
* // f(uint256, uint256): 1, 1 # Signature and comma-separated list of arguments #
* // -> 1, 1 # Expected result value #
* // g(), 2 ether # (Optional) Ether to be send with the call #
* // -> 2, 3
* // h(uint256), 1 ether: 42
* // -> FAILURE # If REVERT or other EVM failure was detected #
* ...
*/
class TestFileParser
{
public:
/// Constructor that takes an input stream \param _stream to operate on
/// and creates the internal scanner.
TestFileParser(std::istream& _stream): m_scanner(_stream) {}
/// Parses function calls blockwise and returns a list of function calls found.
/// Throws an exception if a function call cannot be parsed because of its
/// incorrect structure, an invalid or unsupported encoding
/// of its arguments or expected results.
std::vector parseFunctionCalls();
private:
using Token = soltest::Token;
/**
* Token scanner that is used internally to abstract away character traversal.
*/
class Scanner
{
public:
/// Constructor that takes an input stream \param _stream to operate on.
/// It reads all lines into one single line, keeping the newlines.
Scanner(std::istream& _stream) { readStream(_stream); }
/// Reads input stream into a single line and resets the current iterator.
void readStream(std::istream& _stream);
/// Reads character stream and creates token.
void scanNextToken();
soltest::Token currentToken() { return m_currentToken.first; }
std::string currentLiteral() { return m_currentToken.second; }
std::string scanComment();
std::string scanIdentifierOrKeyword();
std::string scanDecimalNumber();
std::string scanHexNumber();
private:
using TokenDesc = std::pair;
/// Advances current position in the input stream.
void advance() { ++m_char; }
/// Returns the current character.
char current() const { return *m_char; }
/// Peeks the next character.
char peek() const { auto it = m_char; return *(it + 1); }
/// Returns true if the end of a line is reached, false otherwise.
bool isEndOfLine() const { return m_char == m_line.end(); }
std::string m_line;
std::string::iterator m_char;
std::string m_currentLiteral;
TokenDesc m_currentToken;
};
bool accept(soltest::Token _token, bool const _expect = false);
bool expect(soltest::Token _token, bool const _advance = true);
/// Parses a function call signature in the form of f(uint256, ...).
std::string parseFunctionSignature();
/// Parses the optional ether value that can be passed alongside the
/// function call arguments. Throws an InvalidEtherValueEncoding exception
/// if given value cannot be converted to `u256`.
u256 parseFunctionCallValue();
/// Parses a comma-separated list of arguments passed with a function call.
/// Does not check for a potential mismatch between the signature and the number
/// or types of arguments.
FunctionCallArgs parseFunctionCallArguments();
/// Parses the expected result of a function call execution.
FunctionCallExpectations parseFunctionCallExpectations();
/// Parses the next parameter in a comma separated list.
/// Takes a newly parsed, and type-annotated `bytes` argument,
/// appends it to the internal `bytes` buffer of the parameter. It can also
/// store newlines found in the source, that are needed to
/// format input and output of the interactive update.
Parameter parseParameter();
/// Parses and converts the current literal to its byte representation and
/// preserves the chosen ABI type, as well as a raw, unformatted string representation
/// of this literal.
/// Based on the type information retrieved, the driver of this parser may format arguments,
/// expectations and results. Supported types:
/// - unsigned and signed decimal number literals.
/// Returns invalid ABI type for empty literal. This is needed in order
/// to detect empty expectations. Throws a ParserError if data is encoded incorrectly or
/// if data type is not supported.
std::tuple parseABITypeLiteral();
/// Recursively parses an identifier or a tuple definition that contains identifiers
/// and / or parentheses like `((uint, uint), (uint, (uint, uint)), uint)`.
std::string parseIdentifierOrTuple();
/// Parses a boolean literal.
std::string parseBoolean();
/// Parses a comment that is defined like this:
/// # A nice comment. #
std::string parseComment();
/// Parses the current decimal number literal.
std::string parseDecimalNumber();
/// Parses the current hex number literal.
std::string parseHexNumber();
/// Tries to convert \param _literal to an unpadded `bytes`
/// representation of the boolean number literal. Throws if conversion fails.
bytes convertBoolean(std::string const& _literal);
/// Tries to convert \param _literal to an unpadded `bytes`
/// representation of the decimal number literal. Throws if conversion fails.
bytes convertNumber(std::string const& _literal);
/// Tries to convert \param _literal to an unpadded `bytes`
/// representation of the hex literal. Throws if conversion fails.
bytes convertHexNumber(std::string const& _literal);
/// Tries to convert \param _literal to left-aligned, unpadded `bytes`
/// representation of the hex string literal. Throws if conversion fails.
bytes convertHexString(std::string const& _literal);
/// A scanner instance
Scanner m_scanner;
};
}
}
}