/* Icinga 2 | (c) 2012 Icinga GmbH | GPLv2+ */ #include "config/configcompiler.hpp" #include "config/configitem.hpp" #include "base/logger.hpp" #include "base/utility.hpp" #include "base/loader.hpp" #include "base/context.hpp" #include "base/exception.hpp" #include using namespace icinga; std::vector ConfigCompiler::m_IncludeSearchDirs; boost::mutex ConfigCompiler::m_ZoneDirsMutex; std::map > ConfigCompiler::m_ZoneDirs; /** * Constructor for the ConfigCompiler class. * * @param path The path of the configuration file (or another name that * identifies the source of the configuration text). * @param input Input stream for the configuration file. * @param zone The zone. */ ConfigCompiler::ConfigCompiler(String path, std::istream *input, String zone, String package) : m_Path(std::move(path)), m_Input(input), m_Zone(std::move(zone)), m_Package(std::move(package)), m_Eof(false), m_OpenBraces(0) { InitializeScanner(); } /** * Destructor for the ConfigCompiler class. */ ConfigCompiler::~ConfigCompiler() { DestroyScanner(); } /** * Reads data from the input stream. Used internally by the lexer. * * @param buffer Where to store data. * @param max_size The maximum number of bytes to read from the stream. * @returns The actual number of bytes read. */ size_t ConfigCompiler::ReadInput(char *buffer, size_t max_size) { m_Input->read(buffer, max_size); return static_cast(m_Input->gcount()); } /** * Retrieves the scanner object. * * @returns The scanner object. */ void *ConfigCompiler::GetScanner() const { return m_Scanner; } /** * Retrieves the path for the input file. * * @returns The path. */ const char *ConfigCompiler::GetPath() const { return m_Path.CStr(); } void ConfigCompiler::SetZone(const String& zone) { m_Zone = zone; } String ConfigCompiler::GetZone() const { return m_Zone; } void ConfigCompiler::SetPackage(const String& package) { m_Package = package; } String ConfigCompiler::GetPackage() const { return m_Package; } void ConfigCompiler::CollectIncludes(std::vector >& expressions, const String& file, const String& zone, const String& package) { try { expressions.emplace_back(CompileFile(file, zone, package)); } catch (const std::exception& ex) { Log(LogWarning, "ConfigCompiler") << "Cannot compile file '" << file << "': " << DiagnosticInformation(ex); } } /** * Handles an include directive. * * @param relativeBath The path this include is relative to. * @param path The path from the include directive. * @param search Whether to search global include dirs. * @param debuginfo Debug information. */ std::unique_ptr ConfigCompiler::HandleInclude(const String& relativeBase, const String& path, bool search, const String& zone, const String& package, const DebugInfo& debuginfo) { String upath; if (search || (IsAbsolutePath(path))) upath = path; else upath = relativeBase + "/" + path; String includePath = upath; if (search) { for (const String& dir : m_IncludeSearchDirs) { String spath = dir + "/" + path; if (Utility::PathExists(spath)) { includePath = spath; break; } } } std::vector > expressions; if (!Utility::Glob(includePath, std::bind(&ConfigCompiler::CollectIncludes, std::ref(expressions), _1, zone, package), GlobFile) && includePath.FindFirstOf("*?") == String::NPos) { std::ostringstream msgbuf; msgbuf << "Include file '" + path + "' does not exist"; BOOST_THROW_EXCEPTION(ScriptError(msgbuf.str(), debuginfo)); } std::unique_ptr expr{new DictExpression(std::move(expressions))}; expr->MakeInline(); return std::move(expr); } /** * Handles recursive includes. * * @param relativeBase The path this include is relative to. * @param path The directory path. * @param pattern The file pattern. * @param debuginfo Debug information. */ std::unique_ptr ConfigCompiler::HandleIncludeRecursive(const String& relativeBase, const String& path, const String& pattern, const String& zone, const String& package, const DebugInfo&) { String ppath; if (IsAbsolutePath(path)) ppath = path; else ppath = relativeBase + "/" + path; std::vector > expressions; Utility::GlobRecursive(ppath, pattern, std::bind(&ConfigCompiler::CollectIncludes, std::ref(expressions), _1, zone, package), GlobFile); std::unique_ptr dict{new DictExpression(std::move(expressions))}; dict->MakeInline(); return std::move(dict); } void ConfigCompiler::HandleIncludeZone(const String& relativeBase, const String& tag, const String& path, const String& pattern, const String& package, std::vector >& expressions) { String zoneName = Utility::BaseName(path); String ppath; if (IsAbsolutePath(path)) ppath = path; else ppath = relativeBase + "/" + path; RegisterZoneDir(tag, ppath, zoneName); Utility::GlobRecursive(ppath, pattern, std::bind(&ConfigCompiler::CollectIncludes, std::ref(expressions), _1, zoneName, package), GlobFile); } /** * Handles zone includes. * * @param relativeBase The path this include is relative to. * @param tag The tag name. * @param path The directory path. * @param pattern The file pattern. * @param debuginfo Debug information. */ std::unique_ptr ConfigCompiler::HandleIncludeZones(const String& relativeBase, const String& tag, const String& path, const String& pattern, const String& package, const DebugInfo&) { String ppath; String newRelativeBase = relativeBase; if (IsAbsolutePath(path)) ppath = path; else { ppath = relativeBase + "/" + path; newRelativeBase = "."; } std::vector > expressions; Utility::Glob(ppath + "/*", std::bind(&ConfigCompiler::HandleIncludeZone, newRelativeBase, tag, _1, pattern, package, std::ref(expressions)), GlobDirectory); return std::unique_ptr(new DictExpression(std::move(expressions))); } /** * Compiles a stream. * * @param path A name identifying the stream. * @param stream The input stream. * @returns Configuration items. */ std::unique_ptr ConfigCompiler::CompileStream(const String& path, std::istream *stream, const String& zone, const String& package) { CONTEXT("Compiling configuration stream with name '" + path + "'"); stream->exceptions(std::istream::badbit); ConfigCompiler ctx(path, stream, zone, package); try { return ctx.Compile(); } catch (const ScriptError& ex) { return std::unique_ptr(new ThrowExpression(MakeLiteral(ex.what()), ex.IsIncompleteExpression(), ex.GetDebugInfo())); } catch (const std::exception& ex) { return std::unique_ptr(new ThrowExpression(MakeLiteral(DiagnosticInformation(ex)), false)); } } /** * Compiles a file. * * @param path The path. * @returns Configuration items. */ std::unique_ptr ConfigCompiler::CompileFile(const String& path, const String& zone, const String& package) { CONTEXT("Compiling configuration file '" + path + "'"); std::ifstream stream(path.CStr(), std::ifstream::in); if (!stream) BOOST_THROW_EXCEPTION(posix_error() << boost::errinfo_api_function("std::ifstream::open") << boost::errinfo_errno(errno) << boost::errinfo_file_name(path)); Log(LogNotice, "ConfigCompiler") << "Compiling config file: " << path; return CompileStream(path, &stream, zone, package); } /** * Compiles a snippet of text. * * @param path A name identifying the text. * @param text The text. * @returns Configuration items. */ std::unique_ptr ConfigCompiler::CompileText(const String& path, const String& text, const String& zone, const String& package) { std::stringstream stream(text); return CompileStream(path, &stream, zone, package); } /** * Adds a directory to the list of include search dirs. * * @param dir The new dir. */ void ConfigCompiler::AddIncludeSearchDir(const String& dir) { Log(LogInformation, "ConfigCompiler") << "Adding include search dir: " << dir; m_IncludeSearchDirs.push_back(dir); } std::vector ConfigCompiler::GetZoneDirs(const String& zone) { boost::mutex::scoped_lock lock(m_ZoneDirsMutex); auto it = m_ZoneDirs.find(zone); if (it == m_ZoneDirs.end()) return std::vector(); else return it->second; } void ConfigCompiler::RegisterZoneDir(const String& tag, const String& ppath, const String& zoneName) { ZoneFragment zf; zf.Tag = tag; zf.Path = ppath; boost::mutex::scoped_lock lock(m_ZoneDirsMutex); m_ZoneDirs[zoneName].push_back(zf); } bool ConfigCompiler::HasZoneConfigAuthority(const String& zoneName) { std::vector zoneDirs = m_ZoneDirs[zoneName]; bool empty = zoneDirs.empty(); if (!empty) { std::vector paths; paths.reserve(zoneDirs.size()); for (const ZoneFragment& zf : zoneDirs) { paths.push_back(zf.Path); } Log(LogNotice, "ConfigCompiler") << "Registered authoritative config directories for zone '" << zoneName << "': " << Utility::NaturalJoin(paths); } return !empty; } bool ConfigCompiler::IsAbsolutePath(const String& path) { #ifndef _WIN32 return (path.GetLength() > 0 && path[0] == '/'); #else /* _WIN32 */ return !PathIsRelative(path.CStr()); #endif /* _WIN32 */ } void ConfigCompiler::AddImport(const Expression::Ptr& import) { m_Imports.push_back(import); } std::vector ConfigCompiler::GetImports() const { return m_Imports; }