#include "language_server_api.h" #include "recorder.h" #include "serializers/json.h" #include #include #include #include MessageRegistry* MessageRegistry::instance_ = nullptr; lsTextDocumentIdentifier lsVersionedTextDocumentIdentifier::AsTextDocumentIdentifier() const { lsTextDocumentIdentifier result; result.uri = uri; return result; } // Reads a JsonRpc message. |read| returns the next input character. optional ReadJsonRpcContentFrom( std::function()> read) { // Read the content length. It is terminated by the "\r\n" sequence. int exit_seq = 0; std::string stringified_content_length; while (true) { optional opt_c = read(); if (!opt_c) { LOG_S(INFO) << "No more input when reading content length header"; return nullopt; } char c = *opt_c; if (exit_seq == 0 && c == '\r') ++exit_seq; if (exit_seq == 1 && c == '\n') break; stringified_content_length += c; } const char* kContentLengthStart = "Content-Length: "; assert(StartsWith(stringified_content_length, kContentLengthStart)); int content_length = atoi(stringified_content_length.c_str() + strlen(kContentLengthStart)); // There is always a "\r\n" sequence before the actual content. auto expect_char = [&](char expected) { optional opt_c = read(); return opt_c && *opt_c == expected; }; if (!expect_char('\r') || !expect_char('\n')) { LOG_S(INFO) << "Unexpected token (expected \r\n sequence)"; return nullopt; } // Read content. std::string content; content.reserve(content_length); for (size_t i = 0; i < content_length; ++i) { optional c = read(); if (!c) { LOG_S(INFO) << "No more input when reading content body"; return nullopt; } content += *c; } RecordInput(content); return content; } std::function()> MakeContentReader(std::string* content, bool can_be_empty) { return [content, can_be_empty]() -> optional { if (!can_be_empty) REQUIRE(!content->empty()); if (content->empty()) return nullopt; char c = (*content)[0]; content->erase(content->begin()); return c; }; } TEST_SUITE("FindIncludeLine") { TEST_CASE("ReadContentFromSource") { auto parse_correct = [](std::string content) -> std::string { auto reader = MakeContentReader(&content, false /*can_be_empty*/); auto got = ReadJsonRpcContentFrom(reader); REQUIRE(got); return got.value(); }; auto parse_incorrect = [](std::string content) -> optional { auto reader = MakeContentReader(&content, true /*can_be_empty*/); return ReadJsonRpcContentFrom(reader); }; REQUIRE(parse_correct("Content-Length: 0\r\n\r\n") == ""); REQUIRE(parse_correct("Content-Length: 1\r\n\r\na") == "a"); REQUIRE(parse_correct("Content-Length: 4\r\n\r\nabcd") == "abcd"); REQUIRE(parse_incorrect("ggg") == optional()); REQUIRE(parse_incorrect("Content-Length: 0\r\n") == optional()); REQUIRE(parse_incorrect("Content-Length: 5\r\n\r\nab") == optional()); } } optional ReadCharFromStdinBlocking() { // We do not use std::cin because it does not read bytes once stuck in // cin.bad(). We can call cin.clear() but C++ iostream has other annoyance // like std::{cin,cout} is tied by default, which causes undesired cout flush // for cin operations. int c = getchar(); if (c >= 0) return c; return nullopt; } optional MessageRegistry::ReadMessageFromStdin( std::unique_ptr* message) { optional content = ReadJsonRpcContentFrom(&ReadCharFromStdinBlocking); if (!content) { LOG_S(ERROR) << "Failed to read JsonRpc input; exiting"; exit(1); } rapidjson::Document document; document.Parse(content->c_str(), content->length()); assert(!document.HasParseError()); JsonReader json_reader{&document}; return Parse(json_reader, message); } optional MessageRegistry::Parse( Reader& visitor, std::unique_ptr* message) { if (!visitor.HasMember("jsonrpc") || std::string(visitor["jsonrpc"]->GetString()) != "2.0") { LOG_S(FATAL) << "Bad or missing jsonrpc version"; exit(1); } std::string method; ReflectMember(visitor, "method", method); if (allocators.find(method) == allocators.end()) return std::string("Unable to find registered handler for method '") + method + "'"; Allocator& allocator = allocators[method]; try { allocator(visitor, message); return nullopt; } catch (std::invalid_argument& e) { // *message is partially deserialized but some field (e.g. |id|) are likely // available. return std::string("Fail to parse '") + method + "' " + static_cast(visitor).GetPath() + ", expected " + e.what(); } } MessageRegistry* MessageRegistry::instance() { if (!instance_) instance_ = new MessageRegistry(); return instance_; } lsBaseOutMessage::~lsBaseOutMessage() = default; void lsResponseError::Write(Writer& visitor) { auto& value = *this; int code2 = static_cast(this->code); visitor.StartObject(); REFLECT_MEMBER2("code", code2); REFLECT_MEMBER(message); if (data) { visitor.Key("data"); data->Write(visitor); } visitor.EndObject(); } lsDocumentUri lsDocumentUri::FromPath(const std::string& path) { lsDocumentUri result; result.SetPath(path); return result; } lsDocumentUri::lsDocumentUri() {} bool lsDocumentUri::operator==(const lsDocumentUri& other) const { return raw_uri == other.raw_uri; } void lsDocumentUri::SetPath(const std::string& path) { // file:///c%3A/Users/jacob/Desktop/superindex/indexer/full_tests raw_uri = path; size_t index = raw_uri.find(":"); if (index == 1) { // widows drive letters must always be 1 char raw_uri.replace(raw_uri.begin() + index, raw_uri.begin() + index + 1, "%3A"); } // subset of reserved characters from the URI standard // http://www.ecma-international.org/ecma-262/6.0/#sec-uri-syntax-and-semantics std::string t; t.reserve(8 + raw_uri.size()); // TODO: proper fix #if defined(_WIN32) t += "file:///"; #else t += "file://"; #endif // clang-format off for (char c : raw_uri) switch (c) { case ' ': t += "%20"; break; case '#': t += "%23"; break; case '$': t += "%24"; break; case '&': t += "%26"; break; case '(': t += "%28"; break; case ')': t += "%29"; break; case '+': t += "%2B"; break; case ',': t += "%2C"; break; case ';': t += "%3B"; break; case '?': t += "%3F"; break; case '@': t += "%40"; break; default: t += c; break; } // clang-format on raw_uri = std::move(t); } std::string lsDocumentUri::GetPath() const { if (raw_uri.compare(0, 8, "file:///")) return raw_uri; std::string ret; #ifdef _WIN32 size_t i = 8; #else size_t i = 7; #endif auto from_hex = [](unsigned char c) { return c - '0' < 10 ? c - '0' : (c | 32) - 'a' + 10; }; for (; i < raw_uri.size(); i++) { if (i + 3 <= raw_uri.size() && raw_uri[i] == '%') { ret.push_back(from_hex(raw_uri[i + 1]) * 16 + from_hex(raw_uri[i + 2])); i += 2; } else ret.push_back(raw_uri[i] == '\\' ? '/' : raw_uri[i]); } return ret; } lsPosition::lsPosition() {} lsPosition::lsPosition(int line, int character) : line(line), character(character) {} bool lsPosition::operator==(const lsPosition& other) const { return line == other.line && character == other.character; } bool lsPosition::operator<(const lsPosition& other) const { return line != other.line ? line < other.line : character < other.character; } std::string lsPosition::ToString() const { return std::to_string(line) + ":" + std::to_string(character); } const lsPosition lsPosition::kZeroPosition = lsPosition(); lsRange::lsRange() {} lsRange::lsRange(lsPosition start, lsPosition end) : start(start), end(end) {} bool lsRange::operator==(const lsRange& other) const { return start == other.start && end == other.end; } lsLocation::lsLocation() {} lsLocation::lsLocation(lsDocumentUri uri, lsRange range) : uri(uri), range(range) {} bool lsLocation::operator==(const lsLocation& other) const { return uri == other.uri && range == other.range; } bool lsTextEdit::operator==(const lsTextEdit& that) { return range == that.range && newText == that.newText; } const std::string& lsCompletionItem::InsertedContent() const { if (textEdit) return textEdit->newText; if (!insertText.empty()) return insertText; return label; } std::string Out_ShowLogMessage::method() { if (display_type == DisplayType::Log) return "window/logMessage"; return "window/showMessage"; }