/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include "cmServerProtocol.h" #include "cmAlgorithms.h" #include "cmExternalMakefileProjectGenerator.h" #include "cmFileMonitor.h" #include "cmGeneratorExpression.h" #include "cmGeneratorTarget.h" #include "cmGlobalGenerator.h" #include "cmInstallGenerator.h" #include "cmInstallTargetGenerator.h" #include "cmLinkLineComputer.h" #include "cmLocalGenerator.h" #include "cmMakefile.h" #include "cmProperty.h" #include "cmServer.h" #include "cmServerDictionary.h" #include "cmSourceFile.h" #include "cmState.h" #include "cmStateDirectory.h" #include "cmStateSnapshot.h" #include "cmStateTypes.h" #include "cmSystemTools.h" #include "cmTarget.h" #include "cmTest.h" #include "cm_uv.h" #include "cmake.h" #include #include #include #include #include #include #include #include #include #include #include // Get rid of some windows macros: #undef max namespace { std::vector getConfigurations(const cmake* cm) { std::vector configurations; auto makefiles = cm->GetGlobalGenerator()->GetMakefiles(); if (makefiles.empty()) { return configurations; } makefiles[0]->GetConfigurations(configurations); if (configurations.empty()) { configurations.push_back(""); } return configurations; } bool hasString(const Json::Value& v, const std::string& s) { return !v.isNull() && std::any_of(v.begin(), v.end(), [s](const Json::Value& i) { return i.asString() == s; }); } template Json::Value fromStringList(const T& in) { Json::Value result = Json::arrayValue; for (std::string const& i : in) { result.append(i); } return result; } std::vector toStringList(const Json::Value& in) { std::vector result; for (auto const& it : in) { result.push_back(it.asString()); } return result; } void getCMakeInputs(const cmGlobalGenerator* gg, const std::string& sourceDir, const std::string& buildDir, std::vector* internalFiles, std::vector* explicitFiles, std::vector* tmpFiles) { const std::string cmakeRootDir = cmSystemTools::GetCMakeRoot() + '/'; std::vector const& makefiles = gg->GetMakefiles(); for (cmMakefile const* mf : makefiles) { for (std::string const& lf : mf->GetListFiles()) { const std::string startOfFile = lf.substr(0, cmakeRootDir.size()); const bool isInternal = (startOfFile == cmakeRootDir); const bool isTemporary = !isInternal && (lf.find(buildDir + '/') == 0); std::string toAdd = lf; if (!sourceDir.empty()) { const std::string& relative = cmSystemTools::RelativePath(sourceDir.c_str(), lf.c_str()); if (toAdd.size() > relative.size()) { toAdd = relative; } } if (isInternal) { if (internalFiles) { internalFiles->push_back(std::move(toAdd)); } } else { if (isTemporary) { if (tmpFiles) { tmpFiles->push_back(std::move(toAdd)); } } else { if (explicitFiles) { explicitFiles->push_back(std::move(toAdd)); } } } } } } } // namespace cmServerRequest::cmServerRequest(cmServer* server, cmConnection* connection, const std::string& t, const std::string& c, const Json::Value& d) : Type(t) , Cookie(c) , Data(d) , Connection(connection) , m_Server(server) { } void cmServerRequest::ReportProgress(int min, int current, int max, const std::string& message) const { this->m_Server->WriteProgress(*this, min, current, max, message); } void cmServerRequest::ReportMessage(const std::string& message, const std::string& title) const { m_Server->WriteMessage(*this, message, title); } cmServerResponse cmServerRequest::Reply(const Json::Value& data) const { cmServerResponse response(*this); response.SetData(data); return response; } cmServerResponse cmServerRequest::ReportError(const std::string& message) const { cmServerResponse response(*this); response.SetError(message); return response; } cmServerResponse::cmServerResponse(const cmServerRequest& request) : Type(request.Type) , Cookie(request.Cookie) { } void cmServerResponse::SetData(const Json::Value& data) { assert(this->m_Payload == PAYLOAD_UNKNOWN); if (!data[kCOOKIE_KEY].isNull() || !data[kTYPE_KEY].isNull()) { this->SetError("Response contains cookie or type field."); return; } this->m_Payload = PAYLOAD_DATA; this->m_Data = data; } void cmServerResponse::SetError(const std::string& message) { assert(this->m_Payload == PAYLOAD_UNKNOWN); this->m_Payload = PAYLOAD_ERROR; this->m_ErrorMessage = message; } bool cmServerResponse::IsComplete() const { return this->m_Payload != PAYLOAD_UNKNOWN; } bool cmServerResponse::IsError() const { assert(this->m_Payload != PAYLOAD_UNKNOWN); return this->m_Payload == PAYLOAD_ERROR; } std::string cmServerResponse::ErrorMessage() const { if (this->m_Payload == PAYLOAD_ERROR) { return this->m_ErrorMessage; } return std::string(); } Json::Value cmServerResponse::Data() const { assert(this->m_Payload != PAYLOAD_UNKNOWN); return this->m_Data; } bool cmServerProtocol::Activate(cmServer* server, const cmServerRequest& request, std::string* errorMessage) { assert(server); this->m_Server = server; this->m_CMakeInstance = cm::make_unique(cmake::RoleProject); const bool result = this->DoActivate(request, errorMessage); if (!result) { this->m_CMakeInstance = nullptr; } return result; } cmFileMonitor* cmServerProtocol::FileMonitor() const { return this->m_Server ? this->m_Server->FileMonitor() : nullptr; } void cmServerProtocol::SendSignal(const std::string& name, const Json::Value& data) const { if (this->m_Server) { this->m_Server->WriteSignal(name, data); } } cmake* cmServerProtocol::CMakeInstance() const { return this->m_CMakeInstance.get(); } bool cmServerProtocol::DoActivate(const cmServerRequest& /*request*/, std::string* /*errorMessage*/) { return true; } std::pair cmServerProtocol1::ProtocolVersion() const { return std::make_pair(1, 2); } static void setErrorMessage(std::string* errorMessage, const std::string& text) { if (errorMessage) { *errorMessage = text; } } static bool getOrTestHomeDirectory(cmState* state, std::string& value, std::string* errorMessage) { const std::string cachedValue = std::string(state->GetCacheEntryValue("CMAKE_HOME_DIRECTORY")); if (value.empty()) { value = cachedValue; return true; } const std::string suffix = "/CMakeLists.txt"; const std::string cachedValueCML = cachedValue + suffix; const std::string valueCML = value + suffix; if (!cmSystemTools::SameFile(valueCML, cachedValueCML)) { setErrorMessage(errorMessage, std::string("\"CMAKE_HOME_DIRECTORY\" is set but " "incompatible with configured " "source directory value.")); return false; } return true; } static bool getOrTestValue(cmState* state, const std::string& key, std::string& value, const std::string& keyDescription, std::string* errorMessage) { const char* entry = state->GetCacheEntryValue(key); const std::string cachedValue = entry == nullptr ? std::string() : std::string(entry); if (value.empty()) { value = cachedValue; } if (!cachedValue.empty() && cachedValue != value) { setErrorMessage(errorMessage, std::string("\"") + key + "\" is set but incompatible with configured " + keyDescription + " value."); return false; } return true; } bool cmServerProtocol1::DoActivate(const cmServerRequest& request, std::string* errorMessage) { std::string sourceDirectory = request.Data[kSOURCE_DIRECTORY_KEY].asString(); const std::string buildDirectory = request.Data[kBUILD_DIRECTORY_KEY].asString(); std::string generator = request.Data[kGENERATOR_KEY].asString(); std::string extraGenerator = request.Data[kEXTRA_GENERATOR_KEY].asString(); std::string toolset = request.Data[kTOOLSET_KEY].asString(); std::string platform = request.Data[kPLATFORM_KEY].asString(); if (buildDirectory.empty()) { setErrorMessage(errorMessage, std::string("\"") + kBUILD_DIRECTORY_KEY + "\" is missing."); return false; } cmake* cm = CMakeInstance(); if (cmSystemTools::PathExists(buildDirectory)) { if (!cmSystemTools::FileIsDirectory(buildDirectory)) { setErrorMessage(errorMessage, std::string("\"") + kBUILD_DIRECTORY_KEY + "\" exists but is not a directory."); return false; } const std::string cachePath = cm->FindCacheFile(buildDirectory); if (cm->LoadCache(cachePath)) { cmState* state = cm->GetState(); // Check generator: if (!getOrTestValue(state, "CMAKE_GENERATOR", generator, "generator", errorMessage)) { return false; } // check extra generator: if (!getOrTestValue(state, "CMAKE_EXTRA_GENERATOR", extraGenerator, "extra generator", errorMessage)) { return false; } // check sourcedir: if (!getOrTestHomeDirectory(state, sourceDirectory, errorMessage)) { return false; } // check toolset: if (!getOrTestValue(state, "CMAKE_GENERATOR_TOOLSET", toolset, "toolset", errorMessage)) { return false; } // check platform: if (!getOrTestValue(state, "CMAKE_GENERATOR_PLATFORM", platform, "platform", errorMessage)) { return false; } } } if (sourceDirectory.empty()) { setErrorMessage(errorMessage, std::string("\"") + kSOURCE_DIRECTORY_KEY + "\" is unset but required."); return false; } if (!cmSystemTools::FileIsDirectory(sourceDirectory)) { setErrorMessage(errorMessage, std::string("\"") + kSOURCE_DIRECTORY_KEY + "\" is not a directory."); return false; } if (generator.empty()) { setErrorMessage(errorMessage, std::string("\"") + kGENERATOR_KEY + "\" is unset but required."); return false; } std::vector generators; cm->GetRegisteredGenerators(generators); auto baseIt = std::find_if(generators.begin(), generators.end(), [&generator](const cmake::GeneratorInfo& info) { return info.name == generator; }); if (baseIt == generators.end()) { setErrorMessage(errorMessage, std::string("Generator \"") + generator + "\" not supported."); return false; } auto extraIt = std::find_if( generators.begin(), generators.end(), [&generator, &extraGenerator](const cmake::GeneratorInfo& info) { return info.baseName == generator && info.extraName == extraGenerator; }); if (extraIt == generators.end()) { setErrorMessage(errorMessage, std::string("The combination of generator \"" + generator + "\" and extra generator \"" + extraGenerator + "\" is not supported.")); return false; } if (!extraIt->supportsToolset && !toolset.empty()) { setErrorMessage(errorMessage, std::string("Toolset was provided but is not supported by " "the requested generator.")); return false; } if (!extraIt->supportsPlatform && !platform.empty()) { setErrorMessage(errorMessage, std::string("Platform was provided but is not supported " "by the requested generator.")); return false; } this->GeneratorInfo = GeneratorInformation(generator, extraGenerator, toolset, platform, sourceDirectory, buildDirectory); this->m_State = STATE_ACTIVE; return true; } void cmServerProtocol1::HandleCMakeFileChanges(const std::string& path, int event, int status) { assert(status == 0); static_cast(status); if (!m_isDirty) { m_isDirty = true; SendSignal(kDIRTY_SIGNAL, Json::objectValue); } Json::Value obj = Json::objectValue; obj[kPATH_KEY] = path; Json::Value properties = Json::arrayValue; if (event & UV_RENAME) { properties.append(kRENAME_PROPERTY_VALUE); } if (event & UV_CHANGE) { properties.append(kCHANGE_PROPERTY_VALUE); } obj[kPROPERTIES_KEY] = properties; SendSignal(kFILE_CHANGE_SIGNAL, obj); } const cmServerResponse cmServerProtocol1::Process( const cmServerRequest& request) { assert(this->m_State >= STATE_ACTIVE); if (request.Type == kCACHE_TYPE) { return this->ProcessCache(request); } if (request.Type == kCMAKE_INPUTS_TYPE) { return this->ProcessCMakeInputs(request); } if (request.Type == kCODE_MODEL_TYPE) { return this->ProcessCodeModel(request); } if (request.Type == kCOMPUTE_TYPE) { return this->ProcessCompute(request); } if (request.Type == kCONFIGURE_TYPE) { return this->ProcessConfigure(request); } if (request.Type == kFILESYSTEM_WATCHERS_TYPE) { return this->ProcessFileSystemWatchers(request); } if (request.Type == kGLOBAL_SETTINGS_TYPE) { return this->ProcessGlobalSettings(request); } if (request.Type == kSET_GLOBAL_SETTINGS_TYPE) { return this->ProcessSetGlobalSettings(request); } if (request.Type == kCTEST_INFO_TYPE) { return this->ProcessCTests(request); } return request.ReportError("Unknown command!"); } bool cmServerProtocol1::IsExperimental() const { return true; } cmServerResponse cmServerProtocol1::ProcessCache( const cmServerRequest& request) { cmState* state = this->CMakeInstance()->GetState(); Json::Value result = Json::objectValue; std::vector allKeys = state->GetCacheEntryKeys(); Json::Value list = Json::arrayValue; std::vector keys = toStringList(request.Data[kKEYS_KEY]); if (keys.empty()) { keys = allKeys; } else { for (auto const& i : keys) { if (std::find(allKeys.begin(), allKeys.end(), i) == allKeys.end()) { return request.ReportError("Key \"" + i + "\" not found in cache."); } } } std::sort(keys.begin(), keys.end()); for (auto const& key : keys) { Json::Value entry = Json::objectValue; entry[kKEY_KEY] = key; entry[kTYPE_KEY] = cmState::CacheEntryTypeToString(state->GetCacheEntryType(key)); entry[kVALUE_KEY] = state->GetCacheEntryValue(key); Json::Value props = Json::objectValue; bool haveProperties = false; for (auto const& prop : state->GetCacheEntryPropertyList(key)) { haveProperties = true; props[prop] = state->GetCacheEntryProperty(key, prop); } if (haveProperties) { entry[kPROPERTIES_KEY] = props; } list.append(entry); } result[kCACHE_KEY] = list; return request.Reply(result); } cmServerResponse cmServerProtocol1::ProcessCMakeInputs( const cmServerRequest& request) { if (this->m_State < STATE_CONFIGURED) { return request.ReportError("This instance was not yet configured."); } const cmake* cm = this->CMakeInstance(); const cmGlobalGenerator* gg = cm->GetGlobalGenerator(); const std::string cmakeRootDir = cmSystemTools::GetCMakeRoot(); const std::string buildDir = cm->GetHomeOutputDirectory(); const std::string sourceDir = cm->GetHomeDirectory(); Json::Value result = Json::objectValue; result[kSOURCE_DIRECTORY_KEY] = sourceDir; result[kCMAKE_ROOT_DIRECTORY_KEY] = cmakeRootDir; std::vector internalFiles; std::vector explicitFiles; std::vector tmpFiles; getCMakeInputs(gg, sourceDir, buildDir, &internalFiles, &explicitFiles, &tmpFiles); Json::Value array = Json::arrayValue; Json::Value tmp = Json::objectValue; tmp[kIS_CMAKE_KEY] = true; tmp[kIS_TEMPORARY_KEY] = false; tmp[kSOURCES_KEY] = fromStringList(internalFiles); array.append(tmp); tmp = Json::objectValue; tmp[kIS_CMAKE_KEY] = false; tmp[kIS_TEMPORARY_KEY] = false; tmp[kSOURCES_KEY] = fromStringList(explicitFiles); array.append(tmp); tmp = Json::objectValue; tmp[kIS_CMAKE_KEY] = false; tmp[kIS_TEMPORARY_KEY] = true; tmp[kSOURCES_KEY] = fromStringList(tmpFiles); array.append(tmp); result[kBUILD_FILES_KEY] = array; return request.Reply(result); } class LanguageData { public: bool operator==(const LanguageData& other) const; void SetDefines(const std::set& defines); bool IsGenerated = false; std::string Language; std::string Flags; std::vector Defines; std::vector> IncludePathList; }; bool LanguageData::operator==(const LanguageData& other) const { return Language == other.Language && Defines == other.Defines && Flags == other.Flags && IncludePathList == other.IncludePathList && IsGenerated == other.IsGenerated; } void LanguageData::SetDefines(const std::set& defines) { std::vector result; result.reserve(defines.size()); for (std::string const& i : defines) { result.push_back(i); } std::sort(result.begin(), result.end()); Defines = std::move(result); } namespace std { template <> struct hash { std::size_t operator()(const LanguageData& in) const { using std::hash; size_t result = hash()(in.Language) ^ hash()(in.Flags); for (auto const& i : in.IncludePathList) { result = result ^ (hash()(i.first) ^ (i.second ? std::numeric_limits::max() : 0)); } for (auto const& i : in.Defines) { result = result ^ hash()(i); } result = result ^ (in.IsGenerated ? std::numeric_limits::max() : 0); return result; } }; } // namespace std static Json::Value DumpSourceFileGroup(const LanguageData& data, const std::vector& files, const std::string& baseDir) { Json::Value result = Json::objectValue; if (!data.Language.empty()) { result[kLANGUAGE_KEY] = data.Language; if (!data.Flags.empty()) { result[kCOMPILE_FLAGS_KEY] = data.Flags; } if (!data.IncludePathList.empty()) { Json::Value includes = Json::arrayValue; for (auto const& i : data.IncludePathList) { Json::Value tmp = Json::objectValue; tmp[kPATH_KEY] = i.first; if (i.second) { tmp[kIS_SYSTEM_KEY] = i.second; } includes.append(tmp); } result[kINCLUDE_PATH_KEY] = includes; } if (!data.Defines.empty()) { result[kDEFINES_KEY] = fromStringList(data.Defines); } } result[kIS_GENERATED_KEY] = data.IsGenerated; Json::Value sourcesValue = Json::arrayValue; for (auto const& i : files) { const std::string relPath = cmSystemTools::RelativePath(baseDir.c_str(), i.c_str()); sourcesValue.append(relPath.size() < i.size() ? relPath : i); } result[kSOURCES_KEY] = sourcesValue; return result; } static Json::Value DumpSourceFilesList( cmGeneratorTarget* target, const std::string& config, const std::map& languageDataMap) { // Collect sourcefile groups: std::vector files; target->GetSourceFiles(files, config); std::unordered_map> fileGroups; for (cmSourceFile* file : files) { LanguageData fileData; fileData.Language = file->GetLanguage(); if (!fileData.Language.empty()) { const LanguageData& ld = languageDataMap.at(fileData.Language); cmLocalGenerator* lg = target->GetLocalGenerator(); cmGeneratorExpressionInterpreter genexInterpreter( lg, target, config, target->GetName(), fileData.Language); std::string compileFlags = ld.Flags; const std::string COMPILE_FLAGS("COMPILE_FLAGS"); if (const char* cflags = file->GetProperty(COMPILE_FLAGS)) { lg->AppendFlags(compileFlags, genexInterpreter.Evaluate(cflags, COMPILE_FLAGS)); } const std::string COMPILE_OPTIONS("COMPILE_OPTIONS"); if (const char* coptions = file->GetProperty(COMPILE_OPTIONS)) { lg->AppendCompileOptions( compileFlags, genexInterpreter.Evaluate(coptions, COMPILE_OPTIONS)); } fileData.Flags = compileFlags; // Add include directories from source file properties. std::vector includes; const std::string INCLUDE_DIRECTORIES("INCLUDE_DIRECTORIES"); if (const char* cincludes = file->GetProperty(INCLUDE_DIRECTORIES)) { const char* evaluatedIncludes = genexInterpreter.Evaluate(cincludes, INCLUDE_DIRECTORIES); lg->AppendIncludeDirectories(includes, evaluatedIncludes, *file); for (const auto& include : includes) { fileData.IncludePathList.push_back(std::make_pair( include, target->IsSystemIncludeDirectory(include, config))); } } fileData.IncludePathList.insert(fileData.IncludePathList.end(), ld.IncludePathList.begin(), ld.IncludePathList.end()); const std::string COMPILE_DEFINITIONS("COMPILE_DEFINITIONS"); std::set defines; if (const char* defs = file->GetProperty(COMPILE_DEFINITIONS)) { lg->AppendDefines( defines, genexInterpreter.Evaluate(defs, COMPILE_DEFINITIONS)); } const std::string defPropName = "COMPILE_DEFINITIONS_" + cmSystemTools::UpperCase(config); if (const char* config_defs = file->GetProperty(defPropName)) { lg->AppendDefines(defines, genexInterpreter.Evaluate( config_defs, COMPILE_DEFINITIONS)); } defines.insert(ld.Defines.begin(), ld.Defines.end()); fileData.SetDefines(defines); } fileData.IsGenerated = file->GetPropertyAsBool("GENERATED"); std::vector& groupFileList = fileGroups[fileData]; groupFileList.push_back(file->GetFullPath()); } const std::string baseDir = target->Makefile->GetCurrentSourceDirectory(); Json::Value result = Json::arrayValue; for (auto const& it : fileGroups) { Json::Value group = DumpSourceFileGroup(it.first, it.second, baseDir); if (!group.isNull()) { result.append(group); } } return result; } static Json::Value DumpCTestInfo(cmLocalGenerator* lg, cmTest* testInfo, const std::string& config) { Json::Value result = Json::objectValue; result[kCTEST_NAME] = testInfo->GetName(); // Concat command entries together. After the first should be the arguments // for the command std::string command; for (auto const& cmd : testInfo->GetCommand()) { command.append(cmd); command.append(" "); } // Remove any config specific variables from the output. cmGeneratorExpression ge; auto cge = ge.Parse(command.c_str()); const char* processed = cge->Evaluate(lg, config); result[kCTEST_COMMAND] = processed; // Build up the list of properties that may have been specified Json::Value properties = Json::arrayValue; for (auto& prop : testInfo->GetProperties()) { Json::Value entry = Json::objectValue; entry[kKEY_KEY] = prop.first; // Remove config variables from the value too. auto cge_value = ge.Parse(prop.second.GetValue()); const char* processed_value = cge_value->Evaluate(lg, config); entry[kVALUE_KEY] = processed_value; properties.append(entry); } result[kPROPERTIES_KEY] = properties; return result; } static void DumpMakefileTests(cmLocalGenerator* lg, const std::string& config, Json::Value* result) { auto mf = lg->GetMakefile(); std::vector tests; mf->GetTests(config, tests); for (auto test : tests) { Json::Value tmp = DumpCTestInfo(lg, test, config); if (!tmp.isNull()) { result->append(tmp); } } } static Json::Value DumpCTestProjectList(const cmake* cm, std::string const& config) { Json::Value result = Json::arrayValue; auto globalGen = cm->GetGlobalGenerator(); for (const auto& projectIt : globalGen->GetProjectMap()) { Json::Value pObj = Json::objectValue; pObj[kNAME_KEY] = projectIt.first; Json::Value tests = Json::arrayValue; // Gather tests for every generator for (const auto& lg : projectIt.second) { // Make sure they're generated. lg->GenerateTestFiles(); DumpMakefileTests(lg, config, &tests); } pObj[kCTEST_INFO] = tests; result.append(pObj); } return result; } static Json::Value DumpCTestConfiguration(const cmake* cm, const std::string& config) { Json::Value result = Json::objectValue; result[kNAME_KEY] = config; result[kPROJECTS_KEY] = DumpCTestProjectList(cm, config); return result; } static Json::Value DumpCTestConfigurationsList(const cmake* cm) { Json::Value result = Json::arrayValue; for (const std::string& c : getConfigurations(cm)) { result.append(DumpCTestConfiguration(cm, c)); } return result; } static Json::Value DumpTarget(cmGeneratorTarget* target, const std::string& config) { cmLocalGenerator* lg = target->GetLocalGenerator(); const cmState* state = lg->GetState(); const cmStateEnums::TargetType type = target->GetType(); const std::string typeName = state->GetTargetTypeName(type); Json::Value ttl = Json::arrayValue; ttl.append("EXECUTABLE"); ttl.append("STATIC_LIBRARY"); ttl.append("SHARED_LIBRARY"); ttl.append("MODULE_LIBRARY"); ttl.append("OBJECT_LIBRARY"); ttl.append("UTILITY"); ttl.append("INTERFACE_LIBRARY"); if (!hasString(ttl, typeName) || target->IsImported()) { return Json::Value(); } Json::Value result = Json::objectValue; result[kNAME_KEY] = target->GetName(); result[kIS_GENERATOR_PROVIDED_KEY] = target->Target->GetIsGeneratorProvided(); result[kTYPE_KEY] = typeName; result[kSOURCE_DIRECTORY_KEY] = lg->GetCurrentSourceDirectory(); result[kBUILD_DIRECTORY_KEY] = lg->GetCurrentBinaryDirectory(); if (type == cmStateEnums::INTERFACE_LIBRARY) { return result; } result[kFULL_NAME_KEY] = target->GetFullName(config); if (target->Target->GetHaveInstallRule()) { result[kHAS_INSTALL_RULE] = true; Json::Value installPaths = Json::arrayValue; auto targetGenerators = target->Makefile->GetInstallGenerators(); for (auto installGenerator : targetGenerators) { auto installTargetGenerator = dynamic_cast(installGenerator); if (installTargetGenerator != nullptr && installTargetGenerator->GetTarget()->Target == target->Target) { auto dest = installTargetGenerator->GetDestination(config); std::string installPath; if (!dest.empty() && cmSystemTools::FileIsFullPath(dest.c_str())) { installPath = dest; } else { std::string installPrefix = target->Makefile->GetSafeDefinition("CMAKE_INSTALL_PREFIX"); installPath = installPrefix + '/' + dest; } installPaths.append(installPath); } } result[kINSTALL_PATHS] = installPaths; } if (target->HaveWellDefinedOutputFiles()) { Json::Value artifacts = Json::arrayValue; artifacts.append( target->GetFullPath(config, cmStateEnums::RuntimeBinaryArtifact)); if (target->IsDLLPlatform()) { artifacts.append( target->GetFullPath(config, cmStateEnums::ImportLibraryArtifact)); const cmGeneratorTarget::OutputInfo* output = target->GetOutputInfo(config); if (output && !output->PdbDir.empty()) { artifacts.append(output->PdbDir + '/' + target->GetPDBName(config)); } } result[kARTIFACTS_KEY] = artifacts; result[kLINKER_LANGUAGE_KEY] = target->GetLinkerLanguage(config); std::string linkLibs; std::string linkFlags; std::string linkLanguageFlags; std::string frameworkPath; std::string linkPath; cmLinkLineComputer linkLineComputer(lg, lg->GetStateSnapshot().GetDirectory()); lg->GetTargetFlags(&linkLineComputer, config, linkLibs, linkLanguageFlags, linkFlags, frameworkPath, linkPath, target); linkLibs = cmSystemTools::TrimWhitespace(linkLibs); linkFlags = cmSystemTools::TrimWhitespace(linkFlags); linkLanguageFlags = cmSystemTools::TrimWhitespace(linkLanguageFlags); frameworkPath = cmSystemTools::TrimWhitespace(frameworkPath); linkPath = cmSystemTools::TrimWhitespace(linkPath); if (!cmSystemTools::TrimWhitespace(linkLibs).empty()) { result[kLINK_LIBRARIES_KEY] = linkLibs; } if (!cmSystemTools::TrimWhitespace(linkFlags).empty()) { result[kLINK_FLAGS_KEY] = linkFlags; } if (!cmSystemTools::TrimWhitespace(linkLanguageFlags).empty()) { result[kLINK_LANGUAGE_FLAGS_KEY] = linkLanguageFlags; } if (!frameworkPath.empty()) { result[kFRAMEWORK_PATH_KEY] = frameworkPath; } if (!linkPath.empty()) { result[kLINK_PATH_KEY] = linkPath; } const std::string sysroot = lg->GetMakefile()->GetSafeDefinition("CMAKE_SYSROOT"); if (!sysroot.empty()) { result[kSYSROOT_KEY] = sysroot; } } std::set languages; target->GetLanguages(languages, config); std::map languageDataMap; for (std::string const& lang : languages) { LanguageData& ld = languageDataMap[lang]; ld.Language = lang; lg->GetTargetCompileFlags(target, config, lang, ld.Flags); std::set defines; lg->GetTargetDefines(target, config, lang, defines); ld.SetDefines(defines); std::vector includePathList; lg->GetIncludeDirectories(includePathList, target, lang, config, true); for (std::string const& i : includePathList) { ld.IncludePathList.push_back( std::make_pair(i, target->IsSystemIncludeDirectory(i, config))); } } Json::Value sourceGroupsValue = DumpSourceFilesList(target, config, languageDataMap); if (!sourceGroupsValue.empty()) { result[kFILE_GROUPS_KEY] = sourceGroupsValue; } return result; } static Json::Value DumpTargetsList( const std::vector& generators, const std::string& config) { Json::Value result = Json::arrayValue; std::vector targetList; for (auto const& lgIt : generators) { const auto& list = lgIt->GetGeneratorTargets(); targetList.insert(targetList.end(), list.begin(), list.end()); } std::sort(targetList.begin(), targetList.end()); for (cmGeneratorTarget* target : targetList) { Json::Value tmp = DumpTarget(target, config); if (!tmp.isNull()) { result.append(tmp); } } return result; } static Json::Value DumpProjectList(const cmake* cm, std::string const& config) { Json::Value result = Json::arrayValue; auto globalGen = cm->GetGlobalGenerator(); for (auto const& projectIt : globalGen->GetProjectMap()) { Json::Value pObj = Json::objectValue; pObj[kNAME_KEY] = projectIt.first; // All Projects must have at least one local generator assert(!projectIt.second.empty()); const cmLocalGenerator* lg = projectIt.second.at(0); // Project structure information: const cmMakefile* mf = lg->GetMakefile(); auto minVersion = mf->GetDefinition("CMAKE_MINIMUM_REQUIRED_VERSION"); pObj[kMINIMUM_CMAKE_VERSION] = minVersion ? minVersion : ""; pObj[kSOURCE_DIRECTORY_KEY] = mf->GetCurrentSourceDirectory(); pObj[kBUILD_DIRECTORY_KEY] = mf->GetCurrentBinaryDirectory(); pObj[kTARGETS_KEY] = DumpTargetsList(projectIt.second, config); // For a project-level install rule it might be defined in any of its // associated generators. bool hasInstallRule = false; for (const auto generator : projectIt.second) { hasInstallRule = generator->GetMakefile()->GetInstallGenerators().empty() == false; if (hasInstallRule) { break; } } pObj[kHAS_INSTALL_RULE] = hasInstallRule; result.append(pObj); } return result; } static Json::Value DumpConfiguration(const cmake* cm, const std::string& config) { Json::Value result = Json::objectValue; result[kNAME_KEY] = config; result[kPROJECTS_KEY] = DumpProjectList(cm, config); return result; } static Json::Value DumpConfigurationsList(const cmake* cm) { Json::Value result = Json::arrayValue; for (std::string const& c : getConfigurations(cm)) { result.append(DumpConfiguration(cm, c)); } return result; } cmServerResponse cmServerProtocol1::ProcessCodeModel( const cmServerRequest& request) { if (this->m_State != STATE_COMPUTED) { return request.ReportError("No build system was generated yet."); } Json::Value result = Json::objectValue; result[kCONFIGURATIONS_KEY] = DumpConfigurationsList(this->CMakeInstance()); return request.Reply(result); } cmServerResponse cmServerProtocol1::ProcessCompute( const cmServerRequest& request) { if (this->m_State > STATE_CONFIGURED) { return request.ReportError("This build system was already generated."); } if (this->m_State < STATE_CONFIGURED) { return request.ReportError("This project was not configured yet."); } cmake* cm = this->CMakeInstance(); int ret = cm->Generate(); if (ret < 0) { return request.ReportError("Failed to compute build system."); } m_State = STATE_COMPUTED; return request.Reply(Json::Value()); } cmServerResponse cmServerProtocol1::ProcessConfigure( const cmServerRequest& request) { if (this->m_State == STATE_INACTIVE) { return request.ReportError("This instance is inactive."); } FileMonitor()->StopMonitoring(); std::string errorMessage; cmake* cm = this->CMakeInstance(); this->GeneratorInfo.SetupGenerator(cm, &errorMessage); if (!errorMessage.empty()) { return request.ReportError(errorMessage); } // Make sure the types of cacheArguments matches (if given): std::vector cacheArgs = { "unused" }; bool cacheArgumentsError = false; const Json::Value passedArgs = request.Data[kCACHE_ARGUMENTS_KEY]; if (!passedArgs.isNull()) { if (passedArgs.isString()) { cacheArgs.push_back(passedArgs.asString()); } else if (passedArgs.isArray()) { for (auto const& arg : passedArgs) { if (!arg.isString()) { cacheArgumentsError = true; break; } cacheArgs.push_back(arg.asString()); } } else { cacheArgumentsError = true; } } if (cacheArgumentsError) { request.ReportError( "cacheArguments must be unset, a string or an array of strings."); } std::string sourceDir = cm->GetHomeDirectory(); const std::string buildDir = cm->GetHomeOutputDirectory(); cmGlobalGenerator* gg = cm->GetGlobalGenerator(); if (buildDir.empty()) { return request.ReportError("No build directory set via Handshake."); } if (cm->LoadCache(buildDir)) { // build directory has been set up before const char* cachedSourceDir = cm->GetState()->GetInitializedCacheValue("CMAKE_HOME_DIRECTORY"); if (!cachedSourceDir) { return request.ReportError("No CMAKE_HOME_DIRECTORY found in cache."); } if (sourceDir.empty()) { sourceDir = std::string(cachedSourceDir); cm->SetHomeDirectory(sourceDir); } const char* cachedGenerator = cm->GetState()->GetInitializedCacheValue("CMAKE_GENERATOR"); if (cachedGenerator) { if (gg && gg->GetName() != cachedGenerator) { return request.ReportError("Configured generator does not match with " "CMAKE_GENERATOR found in cache."); } } } else { // build directory has not been set up before if (sourceDir.empty()) { return request.ReportError("No sourceDirectory set via " "setGlobalSettings and no cache found in " "buildDirectory."); } } cmSystemTools::ResetErrorOccuredFlag(); // Reset error state if (cm->AddCMakePaths() != 1) { return request.ReportError("Failed to set CMake paths."); } if (!cm->SetCacheArgs(cacheArgs)) { return request.ReportError("cacheArguments could not be set."); } int ret = cm->Configure(); if (ret < 0) { return request.ReportError("Configuration failed."); } std::vector toWatchList; getCMakeInputs(gg, std::string(), buildDir, nullptr, &toWatchList, nullptr); FileMonitor()->MonitorPaths(toWatchList, [this](const std::string& p, int e, int s) { this->HandleCMakeFileChanges(p, e, s); }); m_State = STATE_CONFIGURED; m_isDirty = false; return request.Reply(Json::Value()); } cmServerResponse cmServerProtocol1::ProcessGlobalSettings( const cmServerRequest& request) { cmake* cm = this->CMakeInstance(); Json::Value obj = Json::objectValue; // Capabilities information: obj[kCAPABILITIES_KEY] = cm->ReportCapabilitiesJson(true); obj[kDEBUG_OUTPUT_KEY] = cm->GetDebugOutput(); obj[kTRACE_KEY] = cm->GetTrace(); obj[kTRACE_EXPAND_KEY] = cm->GetTraceExpand(); obj[kWARN_UNINITIALIZED_KEY] = cm->GetWarnUninitialized(); obj[kWARN_UNUSED_KEY] = cm->GetWarnUnused(); obj[kWARN_UNUSED_CLI_KEY] = cm->GetWarnUnusedCli(); obj[kCHECK_SYSTEM_VARS_KEY] = cm->GetCheckSystemVars(); obj[kSOURCE_DIRECTORY_KEY] = this->GeneratorInfo.SourceDirectory; obj[kBUILD_DIRECTORY_KEY] = this->GeneratorInfo.BuildDirectory; // Currently used generator: obj[kGENERATOR_KEY] = this->GeneratorInfo.GeneratorName; obj[kEXTRA_GENERATOR_KEY] = this->GeneratorInfo.ExtraGeneratorName; return request.Reply(obj); } static void setBool(const cmServerRequest& request, const std::string& key, std::function const& setter) { if (request.Data[key].isNull()) { return; } setter(request.Data[key].asBool()); } cmServerResponse cmServerProtocol1::ProcessSetGlobalSettings( const cmServerRequest& request) { const std::vector boolValues = { kDEBUG_OUTPUT_KEY, kTRACE_KEY, kTRACE_EXPAND_KEY, kWARN_UNINITIALIZED_KEY, kWARN_UNUSED_KEY, kWARN_UNUSED_CLI_KEY, kCHECK_SYSTEM_VARS_KEY }; for (std::string const& i : boolValues) { if (!request.Data[i].isNull() && !request.Data[i].isBool()) { return request.ReportError("\"" + i + "\" must be unset or a bool value."); } } cmake* cm = this->CMakeInstance(); setBool(request, kDEBUG_OUTPUT_KEY, [cm](bool e) { cm->SetDebugOutputOn(e); }); setBool(request, kTRACE_KEY, [cm](bool e) { cm->SetTrace(e); }); setBool(request, kTRACE_EXPAND_KEY, [cm](bool e) { cm->SetTraceExpand(e); }); setBool(request, kWARN_UNINITIALIZED_KEY, [cm](bool e) { cm->SetWarnUninitialized(e); }); setBool(request, kWARN_UNUSED_KEY, [cm](bool e) { cm->SetWarnUnused(e); }); setBool(request, kWARN_UNUSED_CLI_KEY, [cm](bool e) { cm->SetWarnUnusedCli(e); }); setBool(request, kCHECK_SYSTEM_VARS_KEY, [cm](bool e) { cm->SetCheckSystemVars(e); }); return request.Reply(Json::Value()); } cmServerResponse cmServerProtocol1::ProcessFileSystemWatchers( const cmServerRequest& request) { const cmFileMonitor* const fm = FileMonitor(); Json::Value result = Json::objectValue; Json::Value files = Json::arrayValue; for (auto const& f : fm->WatchedFiles()) { files.append(f); } Json::Value directories = Json::arrayValue; for (auto const& d : fm->WatchedDirectories()) { directories.append(d); } result[kWATCHED_FILES_KEY] = files; result[kWATCHED_DIRECTORIES_KEY] = directories; return request.Reply(result); } cmServerResponse cmServerProtocol1::ProcessCTests( const cmServerRequest& request) { if (this->m_State < STATE_COMPUTED) { return request.ReportError("This instance was not yet computed."); } Json::Value result = Json::objectValue; result[kCONFIGURATIONS_KEY] = DumpCTestConfigurationsList(this->CMakeInstance()); return request.Reply(result); } cmServerProtocol1::GeneratorInformation::GeneratorInformation( const std::string& generatorName, const std::string& extraGeneratorName, const std::string& toolset, const std::string& platform, const std::string& sourceDirectory, const std::string& buildDirectory) : GeneratorName(generatorName) , ExtraGeneratorName(extraGeneratorName) , Toolset(toolset) , Platform(platform) , SourceDirectory(sourceDirectory) , BuildDirectory(buildDirectory) { } void cmServerProtocol1::GeneratorInformation::SetupGenerator( cmake* cm, std::string* errorMessage) { const std::string fullGeneratorName = cmExternalMakefileProjectGenerator::CreateFullGeneratorName( GeneratorName, ExtraGeneratorName); cm->SetHomeDirectory(SourceDirectory); cm->SetHomeOutputDirectory(BuildDirectory); cmGlobalGenerator* gg = cm->CreateGlobalGenerator(fullGeneratorName); if (!gg) { setErrorMessage( errorMessage, std::string("Could not set up the requested combination of \"") + kGENERATOR_KEY + "\" and \"" + kEXTRA_GENERATOR_KEY + "\""); return; } cm->SetGlobalGenerator(gg); cm->SetGeneratorToolset(Toolset); cm->SetGeneratorPlatform(Platform); }