solidity/libsolidity/lsp/LanguageServer.cpp

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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
#include <libsolidity/ast/AST.h>
#include <libsolidity/ast/ASTUtils.h>
#include <libsolidity/ast/ASTVisitor.h>
#include <libsolidity/interface/ReadFile.h>
#include <libsolidity/interface/StandardCompiler.h>
#include <libsolidity/lsp/LanguageServer.h>
#include <libsolidity/lsp/HandlerBase.h>
#include <libsolidity/lsp/Utils.h>
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// LSP feature implementations
#include <libsolidity/lsp/DocumentHoverHandler.h>
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#include <libsolidity/lsp/GotoDefinition.h>
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#include <libsolidity/lsp/RenameSymbol.h>
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#include <libsolidity/lsp/SemanticTokensBuilder.h>
#include <liblangutil/SourceReferenceExtractor.h>
#include <liblangutil/CharStream.h>
#include <libsolutil/CommonIO.h>
#include <libsolutil/Visitor.h>
#include <libsolutil/JSON.h>
#include <boost/exception/diagnostic_information.hpp>
#include <boost/filesystem.hpp>
#include <boost/algorithm/string/predicate.hpp>
#include <ostream>
#include <string>
#include <fmt/format.h>
using namespace std::string_literals;
using namespace std::placeholders;
using namespace solidity::lsp;
using namespace solidity::langutil;
using namespace solidity::frontend;
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namespace fs = boost::filesystem;
namespace
{
bool resolvesToRegularFile(boost::filesystem::path _path, int maxRecursionDepth = 10)
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{
fs::file_status fileStatus = fs::status(_path);
while (fileStatus.type() == fs::file_type::symlink_file && maxRecursionDepth > 0)
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{
_path = boost::filesystem::read_symlink(_path);
fileStatus = fs::status(_path);
maxRecursionDepth--;
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}
return fileStatus.type() == fs::file_type::regular_file;
}
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int toDiagnosticSeverity(Error::Type _errorType)
{
// 1=Error, 2=Warning, 3=Info, 4=Hint
switch (Error::errorSeverity(_errorType))
{
case Error::Severity::Error: return 1;
case Error::Severity::Warning: return 2;
case Error::Severity::Info: return 3;
}
solAssert(false);
return -1;
}
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Json::Value semanticTokensLegend()
{
Json::Value legend = Json::objectValue;
// NOTE! The (alphabetical) order and items must match exactly the items of
// their respective enum class members.
Json::Value tokenTypes = Json::arrayValue;
tokenTypes.append("class");
tokenTypes.append("comment");
tokenTypes.append("enum");
tokenTypes.append("enumMember");
tokenTypes.append("event");
tokenTypes.append("function");
tokenTypes.append("interface");
tokenTypes.append("keyword");
tokenTypes.append("macro");
tokenTypes.append("method");
tokenTypes.append("modifier");
tokenTypes.append("number");
tokenTypes.append("operator");
tokenTypes.append("parameter");
tokenTypes.append("property");
tokenTypes.append("std::string");
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tokenTypes.append("struct");
tokenTypes.append("type");
tokenTypes.append("typeParameter");
tokenTypes.append("variable");
legend["tokenTypes"] = tokenTypes;
Json::Value tokenModifiers = Json::arrayValue;
tokenModifiers.append("abstract");
tokenModifiers.append("declaration");
tokenModifiers.append("definition");
tokenModifiers.append("deprecated");
tokenModifiers.append("documentation");
tokenModifiers.append("modification");
tokenModifiers.append("readonly");
legend["tokenModifiers"] = tokenModifiers;
return legend;
}
}
LanguageServer::LanguageServer(Transport& _transport):
m_client{_transport},
m_handlers{
{"$/cancelRequest", [](auto, auto) {/*nothing for now as we are synchronous */}},
{"cancelRequest", [](auto, auto) {/*nothing for now as we are synchronous */}},
{"exit", [this](auto, auto) { m_state = (m_state == State::ShutdownRequested ? State::ExitRequested : State::ExitWithoutShutdown); }},
{"initialize", std::bind(&LanguageServer::handleInitialize, this, _1, _2)},
{"initialized", std::bind(&LanguageServer::handleInitialized, this, _1, _2)},
{"$/setTrace", [this](auto, Json::Value const& args) { setTrace(args["value"]); }},
{"shutdown", [this](auto, auto) { m_state = State::ShutdownRequested; }},
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{"textDocument/definition", GotoDefinition(*this) },
{"textDocument/didOpen", std::bind(&LanguageServer::handleTextDocumentDidOpen, this, _2)},
{"textDocument/didChange", std::bind(&LanguageServer::handleTextDocumentDidChange, this, _2)},
{"textDocument/didClose", std::bind(&LanguageServer::handleTextDocumentDidClose, this, _2)},
{"textDocument/hover", DocumentHoverHandler(*this) },
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{"textDocument/rename", RenameSymbol(*this) },
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{"textDocument/implementation", GotoDefinition(*this) },
{"textDocument/semanticTokens/full", std::bind(&LanguageServer::semanticTokensFull, this, _1, _2)},
{"workspace/didChangeConfiguration", std::bind(&LanguageServer::handleWorkspaceDidChangeConfiguration, this, _2)},
},
m_fileRepository("/" /* basePath */, {} /* no search paths */),
m_compilerStack{m_fileRepository.reader()}
{
}
Json::Value LanguageServer::toRange(SourceLocation const& _location)
{
return HandlerBase(*this).toRange(_location);
}
Json::Value LanguageServer::toJson(SourceLocation const& _location)
{
return HandlerBase(*this).toJson(_location);
}
void LanguageServer::changeConfiguration(Json::Value const& _settings)
{
// The settings item: "file-load-strategy" (enum) defaults to "project-directory" if not (or not correctly) set.
// It can be overridden during client's handshake or at runtime, as usual.
//
// If this value is set to "project-directory" (default), all .sol files located inside the project directory or reachable through symbolic links will be subject to operations.
//
// Operations include compiler analysis, but also finding all symbolic references or symbolic renaming.
//
// If this value is set to "directly-opened-and-on-import", then only currently directly opened files and
// those files being imported directly or indirectly will be included in operations.
if (_settings["file-load-strategy"])
{
auto const text = _settings["file-load-strategy"].asString();
if (text == "project-directory")
m_fileLoadStrategy = FileLoadStrategy::ProjectDirectory;
else if (text == "directly-opened-and-on-import")
m_fileLoadStrategy = FileLoadStrategy::DirectlyOpenedAndOnImported;
else
lspRequire(false, ErrorCode::InvalidParams, "Invalid file load strategy: " + text);
}
m_settingsObject = _settings;
Json::Value jsonIncludePaths = _settings["include-paths"];
if (jsonIncludePaths)
{
int typeFailureCount = 0;
if (jsonIncludePaths.isArray())
{
std::vector<boost::filesystem::path> includePaths;
for (Json::Value const& jsonPath: jsonIncludePaths)
{
if (jsonPath.isString())
includePaths.emplace_back(boost::filesystem::path(jsonPath.asString()));
else
typeFailureCount++;
}
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m_fileRepository.setIncludePaths(std::move(includePaths));
}
else
++typeFailureCount;
if (typeFailureCount)
m_client.trace("Invalid JSON configuration passed. \"include-paths\" must be an array of strings.");
}
}
std::vector<boost::filesystem::path> LanguageServer::allSolidityFilesFromProject() const
{
std::vector<fs::path> collectedPaths{};
// We explicitly decided against including all files from include paths but leave the possibility
// open for a future PR to enable such a feature to be optionally enabled (default disabled).
// Note: Newer versions of boost have deprecated symlink_option::recurse
#if (BOOST_VERSION < 107200)
auto directoryIterator = fs::recursive_directory_iterator(m_fileRepository.basePath(), fs::symlink_option::recurse);
#else
auto directoryIterator = fs::recursive_directory_iterator(m_fileRepository.basePath(), fs::directory_options::follow_directory_symlink);
#endif
for (fs::directory_entry const& dirEntry: directoryIterator)
if (
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dirEntry.path().extension() == ".sol" &&
(dirEntry.status().type() == fs::file_type::regular_file || resolvesToRegularFile(dirEntry.path()))
)
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collectedPaths.push_back(dirEntry.path());
return collectedPaths;
}
void LanguageServer::compile()
{
// For files that are not open, we have to take changes on disk into account,
// so we just remove all non-open files.
FileRepository oldRepository(m_fileRepository.basePath(), m_fileRepository.includePaths());
std::swap(oldRepository, m_fileRepository);
// Load all solidity files from project.
if (m_fileLoadStrategy == FileLoadStrategy::ProjectDirectory)
for (auto const& projectFile: allSolidityFilesFromProject())
{
lspDebug(fmt::format("adding project file: {}", projectFile.generic_string()));
m_fileRepository.setSourceByUri(
m_fileRepository.sourceUnitNameToUri(projectFile.generic_string()),
util::readFileAsString(projectFile)
);
}
// Overwrite all files as opened by the client, including the ones which might potentially have changes.
for (std::string const& fileName: m_openFiles)
m_fileRepository.setSourceByUri(
fileName,
oldRepository.sourceUnits().at(oldRepository.uriToSourceUnitName(fileName))
);
// TODO: optimize! do not recompile if nothing has changed (file(s) not flagged dirty).
m_compilerStack.reset(false);
m_compilerStack.setSources(m_fileRepository.sourceUnits());
m_compilerStack.compile(CompilerStack::State::AnalysisSuccessful);
}
void LanguageServer::compileAndUpdateDiagnostics()
{
compile();
// These are the source units we will sent diagnostics to the client for sure,
// even if it is just to clear previous diagnostics.
std::map<std::string, Json::Value> diagnosticsBySourceUnit;
for (std::string const& sourceUnitName: m_fileRepository.sourceUnits() | ranges::views::keys)
diagnosticsBySourceUnit[sourceUnitName] = Json::arrayValue;
for (std::string const& sourceUnitName: m_nonemptyDiagnostics)
diagnosticsBySourceUnit[sourceUnitName] = Json::arrayValue;
for (std::shared_ptr<Error const> const& error: m_compilerStack.errors())
{
SourceLocation const* location = error->sourceLocation();
if (!location || !location->sourceName)
// LSP only has diagnostics applied to individual files.
continue;
Json::Value jsonDiag;
jsonDiag["source"] = "solc";
jsonDiag["severity"] = toDiagnosticSeverity(error->type());
jsonDiag["code"] = Json::UInt64{error->errorId().error};
std::string message = Error::formatErrorType(error->type()) + ":";
if (std::string const* comment = error->comment())
message += " " + *comment;
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jsonDiag["message"] = std::move(message);
jsonDiag["range"] = toRange(*location);
if (auto const* secondary = error->secondarySourceLocation())
for (auto&& [secondaryMessage, secondaryLocation]: secondary->infos)
{
Json::Value jsonRelated;
jsonRelated["message"] = secondaryMessage;
jsonRelated["location"] = toJson(secondaryLocation);
jsonDiag["relatedInformation"].append(jsonRelated);
}
diagnosticsBySourceUnit[*location->sourceName].append(jsonDiag);
}
if (m_client.traceValue() != TraceValue::Off)
{
Json::Value extra;
extra["openFileCount"] = Json::UInt64(diagnosticsBySourceUnit.size());
m_client.trace("Number of currently open files: " + std::to_string(diagnosticsBySourceUnit.size()), extra);
}
m_nonemptyDiagnostics.clear();
for (auto&& [sourceUnitName, diagnostics]: diagnosticsBySourceUnit)
{
Json::Value params;
params["uri"] = m_fileRepository.sourceUnitNameToUri(sourceUnitName);
if (!diagnostics.empty())
m_nonemptyDiagnostics.insert(sourceUnitName);
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params["diagnostics"] = std::move(diagnostics);
m_client.notify("textDocument/publishDiagnostics", std::move(params));
}
}
bool LanguageServer::run()
{
while (m_state != State::ExitRequested && m_state != State::ExitWithoutShutdown && !m_client.closed())
{
MessageID id;
try
{
std::optional<Json::Value> const jsonMessage = m_client.receive();
if (!jsonMessage)
continue;
if ((*jsonMessage)["method"].isString())
{
std::string const methodName = (*jsonMessage)["method"].asString();
id = (*jsonMessage)["id"];
lspDebug(fmt::format("received method call: {}", methodName));
if (auto handler = util::valueOrDefault(m_handlers, methodName))
handler(id, (*jsonMessage)["params"]);
else
m_client.error(id, ErrorCode::MethodNotFound, "Unknown method " + methodName);
}
else
m_client.error({}, ErrorCode::ParseError, "\"method\" has to be a string.");
}
catch (Json::Exception const&)
{
m_client.error(id, ErrorCode::InvalidParams, "JSON object access error. Most likely due to a badly formatted JSON request message."s);
}
catch (RequestError const& error)
{
m_client.error(id, error.code(), error.comment() ? *error.comment() : ""s);
}
catch (...)
{
m_client.error(id, ErrorCode::InternalError, "Unhandled exception: "s + boost::current_exception_diagnostic_information());
}
}
return m_state == State::ExitRequested;
}
void LanguageServer::requireServerInitialized()
{
lspRequire(
m_state == State::Initialized,
ErrorCode::ServerNotInitialized,
"Server is not properly initialized."
);
}
void LanguageServer::handleInitialize(MessageID _id, Json::Value const& _args)
{
lspRequire(
m_state == State::Started,
ErrorCode::RequestFailed,
"Initialize called at the wrong time."
);
m_state = State::Initialized;
// The default of FileReader is to use `.`, but the path from where the LSP was started
// should not matter.
std::string rootPath("/");
if (Json::Value uri = _args["rootUri"])
{
rootPath = uri.asString();
lspRequire(
boost::starts_with(rootPath, "file://"),
ErrorCode::InvalidParams,
"rootUri only supports file URI scheme."
);
rootPath = stripFileUriSchemePrefix(rootPath);
}
else if (Json::Value rootPath = _args["rootPath"])
rootPath = rootPath.asString();
if (_args["trace"])
setTrace(_args["trace"]);
m_fileRepository = FileRepository(rootPath, {});
if (_args["initializationOptions"].isObject())
changeConfiguration(_args["initializationOptions"]);
Json::Value replyArgs;
replyArgs["serverInfo"]["name"] = "solc";
replyArgs["serverInfo"]["version"] = std::string(VersionNumber);
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replyArgs["capabilities"]["definitionProvider"] = true;
replyArgs["capabilities"]["implementationProvider"] = true;
replyArgs["capabilities"]["textDocumentSync"]["change"] = 2; // 0=none, 1=full, 2=incremental
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replyArgs["capabilities"]["textDocumentSync"]["openClose"] = true;
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replyArgs["capabilities"]["semanticTokensProvider"]["legend"] = semanticTokensLegend();
replyArgs["capabilities"]["semanticTokensProvider"]["range"] = false;
replyArgs["capabilities"]["semanticTokensProvider"]["full"] = true; // XOR requests.full.delta = true
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replyArgs["capabilities"]["renameProvider"] = true;
replyArgs["capabilities"]["hoverProvider"] = true;
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m_client.reply(_id, std::move(replyArgs));
}
void LanguageServer::handleInitialized(MessageID, Json::Value const&)
{
if (m_fileLoadStrategy == FileLoadStrategy::ProjectDirectory)
compileAndUpdateDiagnostics();
}
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void LanguageServer::semanticTokensFull(MessageID _id, Json::Value const& _args)
{
auto uri = _args["textDocument"]["uri"];
compile();
auto const sourceName = m_fileRepository.uriToSourceUnitName(uri.as<std::string>());
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SourceUnit const& ast = m_compilerStack.ast(sourceName);
m_compilerStack.charStream(sourceName);
Json::Value data = SemanticTokensBuilder().build(ast, m_compilerStack.charStream(sourceName));
Json::Value reply = Json::objectValue;
reply["data"] = data;
m_client.reply(_id, std::move(reply));
}
void LanguageServer::handleWorkspaceDidChangeConfiguration(Json::Value const& _args)
{
requireServerInitialized();
if (_args["settings"].isObject())
changeConfiguration(_args["settings"]);
}
void LanguageServer::setTrace(Json::Value const& _args)
{
if (!_args.isString())
// Simply ignore invalid parameter.
return;
std::string const stringValue = _args.asString();
if (stringValue == "off")
m_client.setTrace(TraceValue::Off);
else if (stringValue == "messages")
m_client.setTrace(TraceValue::Messages);
else if (stringValue == "verbose")
m_client.setTrace(TraceValue::Verbose);
}
void LanguageServer::handleTextDocumentDidOpen(Json::Value const& _args)
{
requireServerInitialized();
lspRequire(
_args["textDocument"],
ErrorCode::RequestFailed,
"Text document parameter missing."
);
std::string text = _args["textDocument"]["text"].asString();
std::string uri = _args["textDocument"]["uri"].asString();
m_openFiles.insert(uri);
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m_fileRepository.setSourceByUri(uri, std::move(text));
compileAndUpdateDiagnostics();
}
void LanguageServer::handleTextDocumentDidChange(Json::Value const& _args)
{
requireServerInitialized();
std::string const uri = _args["textDocument"]["uri"].asString();
for (Json::Value jsonContentChange: _args["contentChanges"])
{
lspRequire(
jsonContentChange.isObject(),
ErrorCode::RequestFailed,
"Invalid content reference."
);
std::string const sourceUnitName = m_fileRepository.uriToSourceUnitName(uri);
lspRequire(
m_fileRepository.sourceUnits().count(sourceUnitName),
ErrorCode::RequestFailed,
"Unknown file: " + uri
);
std::string text = jsonContentChange["text"].asString();
if (jsonContentChange["range"].isObject()) // otherwise full content update
{
std::optional<SourceLocation> change = parseRange(m_fileRepository, sourceUnitName, jsonContentChange["range"]);
lspRequire(
change && change->hasText(),
ErrorCode::RequestFailed,
"Invalid source range: " + util::jsonCompactPrint(jsonContentChange["range"])
);
std::string buffer = m_fileRepository.sourceUnits().at(sourceUnitName);
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buffer.replace(static_cast<size_t>(change->start), static_cast<size_t>(change->end - change->start), std::move(text));
text = std::move(buffer);
}
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m_fileRepository.setSourceByUri(uri, std::move(text));
}
compileAndUpdateDiagnostics();
}
void LanguageServer::handleTextDocumentDidClose(Json::Value const& _args)
{
requireServerInitialized();
lspRequire(
_args["textDocument"],
ErrorCode::RequestFailed,
"Text document parameter missing."
);
std::string uri = _args["textDocument"]["uri"].asString();
m_openFiles.erase(uri);
compileAndUpdateDiagnostics();
}
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ASTNode const* LanguageServer::astNodeAtSourceLocation(std::string const& _sourceUnitName, LineColumn const& _filePos)
{
return std::get<ASTNode const*>(astNodeAndOffsetAtSourceLocation(_sourceUnitName, _filePos));
}
std::tuple<ASTNode const*, int> LanguageServer::astNodeAndOffsetAtSourceLocation(std::string const& _sourceUnitName, LineColumn const& _filePos)
{
if (m_compilerStack.state() < CompilerStack::AnalysisSuccessful)
return {nullptr, -1};
if (!m_fileRepository.sourceUnits().count(_sourceUnitName))
return {nullptr, -1};
std::optional<int> sourcePos = m_compilerStack.charStream(_sourceUnitName).translateLineColumnToPosition(_filePos);
if (!sourcePos)
return {nullptr, -1};
return {locateInnermostASTNode(*sourcePos, m_compilerStack.ast(_sourceUnitName)), *sourcePos};
}