/*
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 .
*/
/**
* @author Christian
* @author Gav Wood
* @date 2014
* Full-stack compiler that converts a source code string to bytecode.
*/
#pragma once
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
namespace dev
{
namespace eth
{
class Assembly;
class AssemblyItem;
using AssemblyItems = std::vector;
}
namespace solidity
{
// forward declarations
class Scanner;
class ASTNode;
class ContractDefinition;
class FunctionDefinition;
class SourceUnit;
class Compiler;
class GlobalContext;
class Natspec;
class Error;
class DeclarationContainer;
enum class DocumentationType: uint8_t
{
NatspecUser = 1,
NatspecDev
};
/**
* Easy to use and self-contained Solidity compiler with as few header dependencies as possible.
* It holds state and can be used to either step through the compilation stages (and abort e.g.
* before compilation to bytecode) or run the whole compilation in one call.
*/
class CompilerStack: boost::noncopyable
{
public:
enum State {
Empty,
SourcesSet,
ParsingSuccessful,
AnalysisSuccessful,
CompilationSuccessful
};
/// Creates a new compiler stack.
/// @param _readFile callback to used to read files for import statements. Must return
/// and must not emit exceptions.
explicit CompilerStack(ReadFile::Callback const& _readFile = ReadFile::Callback()):
m_readFile(_readFile),
m_errorList(),
m_errorReporter(m_errorList) {}
/// Sets path remappings in the format "context:prefix=target"
void setRemappings(std::vector const& _remappings);
/// Resets the compiler to a state where the sources are not parsed or even removed.
/// Sets the state to SourcesSet if @a _keepSources is true, otherwise to Empty.
/// All settings, with the exception of remappings, are reset.
void reset(bool _keepSources = false);
/// Adds a source object (e.g. file) to the parser. After this, parse has to be called again.
/// @returns true if a source object by the name already existed and was replaced.
bool addSource(std::string const& _name, std::string const& _content, bool _isLibrary = false);
/// Parses all source units that were added
/// @returns false on error.
bool parse();
/// Performs the analysis steps (imports, scopesetting, syntaxCheck, referenceResolving,
/// typechecking, staticAnalysis) on previously set sources
/// @returns false on error.
bool analyze();
/// Parses and analyzes all source units that were added
/// @returns false on error.
bool parseAndAnalyze();
/// @returns a list of the contract names in the sources.
std::vector contractNames() const;
/// Compiles the source units that were previously added and parsed.
/// @returns false on error.
bool compile(
bool _optimize = false,
unsigned _runs = 200,
std::map const& _libraries = std::map{}
);
/// @returns the assembled object for a contract.
eth::LinkerObject const& object(std::string const& _contractName = "") const;
/// @returns the runtime object for the contract.
eth::LinkerObject const& runtimeObject(std::string const& _contractName = "") const;
/// @returns the bytecode of a contract that uses an already deployed contract via DELEGATECALL.
/// The returned bytes will contain a sequence of 20 bytes of the format "XXX...XXX" which have to
/// substituted by the actual address. Note that this sequence starts end ends in three X
/// characters but can contain anything in between.
eth::LinkerObject const& cloneObject(std::string const& _contractName = "") const;
/// @returns normal contract assembly items
eth::AssemblyItems const* assemblyItems(std::string const& _contractName = "") const;
/// @returns runtime contract assembly items
eth::AssemblyItems const* runtimeAssemblyItems(std::string const& _contractName = "") const;
/// @returns the string that provides a mapping between bytecode and sourcecode or a nullptr
/// if the contract does not (yet) have bytecode.
std::string const* sourceMapping(std::string const& _contractName = "") const;
/// @returns the string that provides a mapping between runtime bytecode and sourcecode.
/// if the contract does not (yet) have bytecode.
std::string const* runtimeSourceMapping(std::string const& _contractName = "") const;
/// @returns either the contract's name or a mixture of its name and source file, sanitized for filesystem use
std::string const filesystemFriendlyName(std::string const& _contractName) const;
/// Streams a verbose version of the assembly to @a _outStream.
/// @arg _sourceCodes is the map of input files to source code strings
/// @arg _inJsonFromat shows whether the out should be in Json format
/// Prerequisite: Successful compilation.
Json::Value streamAssembly(std::ostream& _outStream, std::string const& _contractName = "", StringMap _sourceCodes = StringMap(), bool _inJsonFormat = false) const;
/// @returns the list of sources (paths) used
std::vector sourceNames() const;
/// @returns a mapping assigning each source name its index inside the vector returned
/// by sourceNames().
std::map sourceIndices() const;
/// @returns a JSON representing the contract ABI.
/// Prerequisite: Successful call to parse or compile.
Json::Value const& contractABI(std::string const& _contractName = "") const;
/// @returns a JSON representing the contract's documentation.
/// Prerequisite: Successful call to parse or compile.
/// @param type The type of the documentation to get.
/// Can be one of 4 types defined at @c DocumentationType
Json::Value const& natspec(std::string const& _contractName, DocumentationType _type) const;
/// @returns a JSON representing a map of method identifiers (hashes) to function names.
Json::Value methodIdentifiers(std::string const& _contractName) const;
std::string const& metadata(std::string const& _contractName) const;
void useMetadataLiteralSources(bool _metadataLiteralSources) { m_metadataLiteralSources = _metadataLiteralSources; }
/// @returns a JSON representing the estimated gas usage for contract creation, internal and external functions
Json::Value gasEstimates(std::string const& _contractName) const;
/// @returns the previously used scanner, useful for counting lines during error reporting.
Scanner const& scanner(std::string const& _sourceName = "") const;
/// @returns the parsed source unit with the supplied name.
SourceUnit const& ast(std::string const& _sourceName = "") const;
/// Helper function for logs printing. Do only use in error cases, it's quite expensive.
/// line and columns are numbered starting from 1 with following order:
/// start line, start column, end line, end column
std::tuple positionFromSourceLocation(SourceLocation const& _sourceLocation) const;
/// @returns the list of errors that occured during parsing and type checking.
ErrorList const& errors() { return m_errorReporter.errors(); }
/// @returns the current state.
State state() const { return m_stackState; }
private:
/**
* Information pertaining to one source unit, filled gradually during parsing and compilation.
*/
struct Source
{
std::shared_ptr scanner;
std::shared_ptr ast;
bool isLibrary = false;
void reset() { scanner.reset(); ast.reset(); }
};
struct Contract
{
ContractDefinition const* contract = nullptr;
std::shared_ptr compiler;
eth::LinkerObject object;
eth::LinkerObject runtimeObject;
eth::LinkerObject cloneObject;
std::string metadata; ///< The metadata json that will be hashed into the chain.
mutable std::unique_ptr abi;
mutable std::unique_ptr userDocumentation;
mutable std::unique_ptr devDocumentation;
mutable std::unique_ptr sourceMapping;
mutable std::unique_ptr runtimeSourceMapping;
};
/// Loads the missing sources from @a _ast (named @a _path) using the callback
/// @a m_readFile and stores the absolute paths of all imports in the AST annotations.
/// @returns the newly loaded sources.
StringMap loadMissingSources(SourceUnit const& _ast, std::string const& _path);
std::string applyRemapping(std::string const& _path, std::string const& _context);
void resolveImports();
/// @returns the absolute path corresponding to @a _path relative to @a _reference.
std::string absolutePath(std::string const& _path, std::string const& _reference) const;
/// Helper function to return path converted strings.
std::string sanitizePath(std::string const& _path) const { return boost::filesystem::path(_path).generic_string(); }
/// Compile a single contract and put the result in @a _compiledContracts.
void compileContract(
ContractDefinition const& _contract,
std::map& _compiledContracts
);
void link();
Contract const& contract(std::string const& _contractName = "") const;
Source const& source(std::string const& _sourceName = "") const;
/// @returns the parsed contract with the supplied name. Throws an exception if the contract
/// does not exist.
ContractDefinition const& contractDefinition(std::string const& _contractName) const;
std::string createMetadata(Contract const& _contract) const;
std::string computeSourceMapping(eth::AssemblyItems const& _items) const;
Json::Value const& contractABI(Contract const&) const;
Json::Value const& natspec(Contract const&, DocumentationType _type) const;
/// @returns the offset of the entry point of the given function into the list of assembly items
/// or zero if it is not found or does not exist.
size_t functionEntryPoint(
std::string const& _contractName,
FunctionDefinition const& _function
) const;
struct Remapping
{
std::string context;
std::string prefix;
std::string target;
};
ReadFile::Callback m_readFile;
bool m_optimize = false;
unsigned m_optimizeRuns = 200;
std::map m_libraries;
/// list of path prefix remappings, e.g. mylibrary: github.com/ethereum = /usr/local/ethereum
/// "context:prefix=target"
std::vector m_remappings;
std::map m_sources;
std::shared_ptr m_globalContext;
std::map> m_scopes;
std::vector