/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include "cmFindPackageCommand.h" #include "cmSystemTools.h" #include "cmsys/Directory.hxx" #include "cmsys/FStream.hxx" #include "cmsys/Glob.hxx" #include "cmsys/RegularExpression.hxx" #include "cmsys/String.h" #include #include #include #include #include #include // IWYU pragma: keep #include #include #include #include #include "cmAlgorithms.h" #include "cmMakefile.h" #include "cmPolicies.h" #include "cmSearchPath.h" #include "cmState.h" #include "cmStateTypes.h" #include "cmVersion.h" #include "cmake.h" #if defined(__HAIKU__) # include # include #endif class cmExecutionStatus; class cmFileList; cmFindPackageCommand::PathLabel cmFindPackageCommand::PathLabel::UserRegistry( "PACKAGE_REGISTRY"); cmFindPackageCommand::PathLabel cmFindPackageCommand::PathLabel::Builds( "BUILDS"); cmFindPackageCommand::PathLabel cmFindPackageCommand::PathLabel::SystemRegistry("SYSTEM_PACKAGE_REGISTRY"); struct StrverscmpGreater { bool operator()(const std::string& lhs, const std::string& rhs) const { return cmSystemTools::strverscmp(lhs, rhs) > 0; } }; struct StrverscmpLesser { bool operator()(const std::string& lhs, const std::string& rhs) const { return cmSystemTools::strverscmp(lhs, rhs) < 0; } }; void cmFindPackageCommand::Sort(std::vector::iterator begin, std::vector::iterator end, SortOrderType order, SortDirectionType dir) { if (order == Name_order) { if (dir == Dec) { std::sort(begin, end, std::greater()); } else { std::sort(begin, end); } } else if (order == Natural) // natural order uses letters and numbers (contiguous numbers digit are // compared such that e.g. 000 00 < 01 < 010 < 09 < 0 < 1 < 9 < 10 { if (dir == Dec) { std::sort(begin, end, StrverscmpGreater()); } else { std::sort(begin, end, StrverscmpLesser()); } } // else do not sort } cmFindPackageCommand::cmFindPackageCommand() { this->CMakePathName = "PACKAGE"; this->Quiet = false; this->Required = false; this->NoUserRegistry = false; this->NoSystemRegistry = false; this->UseConfigFiles = true; this->UseFindModules = true; this->DebugMode = false; this->UseLib32Paths = false; this->UseLib64Paths = false; this->UseLibx32Paths = false; this->PolicyScope = true; this->VersionMajor = 0; this->VersionMinor = 0; this->VersionPatch = 0; this->VersionTweak = 0; this->VersionCount = 0; this->VersionExact = false; this->VersionFoundMajor = 0; this->VersionFoundMinor = 0; this->VersionFoundPatch = 0; this->VersionFoundTweak = 0; this->VersionFoundCount = 0; this->RequiredCMakeVersion = 0; this->SortOrder = None; this->SortDirection = Asc; this->AppendSearchPathGroups(); this->DeprecatedFindModules["Qt"] = cmPolicies::CMP0084; } void cmFindPackageCommand::AppendSearchPathGroups() { std::vector* labels; // Update the All group with new paths labels = &this->PathGroupLabelMap[PathGroup::All]; labels->insert( std::find(labels->begin(), labels->end(), PathLabel::CMakeSystem), PathLabel::UserRegistry); labels->insert( std::find(labels->begin(), labels->end(), PathLabel::CMakeSystem), PathLabel::Builds); labels->insert(std::find(labels->begin(), labels->end(), PathLabel::Guess), PathLabel::SystemRegistry); // Create the new path objects this->LabeledPaths.insert( std::make_pair(PathLabel::UserRegistry, cmSearchPath(this))); this->LabeledPaths.insert( std::make_pair(PathLabel::Builds, cmSearchPath(this))); this->LabeledPaths.insert( std::make_pair(PathLabel::SystemRegistry, cmSearchPath(this))); } bool cmFindPackageCommand::InitialPass(std::vector const& args, cmExecutionStatus&) { if (args.empty()) { this->SetError("called with incorrect number of arguments"); return false; } // Lookup required version of CMake. if (const char* rv = this->Makefile->GetDefinition("CMAKE_MINIMUM_REQUIRED_VERSION")) { unsigned int v[3] = { 0, 0, 0 }; sscanf(rv, "%u.%u.%u", &v[0], &v[1], &v[2]); this->RequiredCMakeVersion = CMake_VERSION_ENCODE(v[0], v[1], v[2]); } // Check for debug mode. this->DebugMode = this->Makefile->IsOn("CMAKE_FIND_DEBUG_MODE"); // Lookup target architecture, if any. if (const char* arch = this->Makefile->GetDefinition("CMAKE_LIBRARY_ARCHITECTURE")) { this->LibraryArchitecture = arch; } // Lookup whether lib32 paths should be used. if (this->Makefile->PlatformIs32Bit() && this->Makefile->GetState()->GetGlobalPropertyAsBool( "FIND_LIBRARY_USE_LIB32_PATHS")) { this->UseLib32Paths = true; } // Lookup whether lib64 paths should be used. if (this->Makefile->PlatformIs64Bit() && this->Makefile->GetState()->GetGlobalPropertyAsBool( "FIND_LIBRARY_USE_LIB64_PATHS")) { this->UseLib64Paths = true; } // Lookup whether libx32 paths should be used. if (this->Makefile->PlatformIsx32() && this->Makefile->GetState()->GetGlobalPropertyAsBool( "FIND_LIBRARY_USE_LIBX32_PATHS")) { this->UseLibx32Paths = true; } // Check if User Package Registry should be disabled if (this->Makefile->IsOn("CMAKE_FIND_PACKAGE_NO_PACKAGE_REGISTRY")) { this->NoUserRegistry = true; } // Check if System Package Registry should be disabled if (this->Makefile->IsOn("CMAKE_FIND_PACKAGE_NO_SYSTEM_PACKAGE_REGISTRY")) { this->NoSystemRegistry = true; } // Check if Sorting should be enabled if (const char* so = this->Makefile->GetDefinition("CMAKE_FIND_PACKAGE_SORT_ORDER")) { if (strcmp(so, "NAME") == 0) { this->SortOrder = Name_order; } else if (strcmp(so, "NATURAL") == 0) { this->SortOrder = Natural; } else { this->SortOrder = None; } } if (const char* sd = this->Makefile->GetDefinition("CMAKE_FIND_PACKAGE_SORT_DIRECTION")) { this->SortDirection = strcmp(sd, "ASC") == 0 ? Asc : Dec; } // Find the current root path mode. this->SelectDefaultRootPathMode(); // Find the current bundle/framework search policy. this->SelectDefaultMacMode(); // Record options. this->Name = args[0]; std::string components; const char* components_sep = ""; std::set requiredComponents; std::set optionalComponents; // Always search directly in a generated path. this->SearchPathSuffixes.emplace_back(); // Parse the arguments. enum Doing { DoingNone, DoingComponents, DoingOptionalComponents, DoingNames, DoingPaths, DoingPathSuffixes, DoingConfigs, DoingHints }; Doing doing = DoingNone; cmsys::RegularExpression version("^[0-9.]+$"); bool haveVersion = false; std::set configArgs; std::set moduleArgs; for (unsigned int i = 1; i < args.size(); ++i) { if (args[i] == "QUIET") { this->Quiet = true; doing = DoingNone; } else if (args[i] == "EXACT") { this->VersionExact = true; doing = DoingNone; } else if (args[i] == "MODULE") { moduleArgs.insert(i); doing = DoingNone; } else if (args[i] == "CONFIG") { configArgs.insert(i); doing = DoingNone; } else if (args[i] == "NO_MODULE") { configArgs.insert(i); doing = DoingNone; } else if (args[i] == "REQUIRED") { this->Required = true; doing = DoingComponents; } else if (args[i] == "COMPONENTS") { doing = DoingComponents; } else if (args[i] == "OPTIONAL_COMPONENTS") { doing = DoingOptionalComponents; } else if (args[i] == "NAMES") { configArgs.insert(i); doing = DoingNames; } else if (args[i] == "PATHS") { configArgs.insert(i); doing = DoingPaths; } else if (args[i] == "HINTS") { configArgs.insert(i); doing = DoingHints; } else if (args[i] == "PATH_SUFFIXES") { configArgs.insert(i); doing = DoingPathSuffixes; } else if (args[i] == "CONFIGS") { configArgs.insert(i); doing = DoingConfigs; } else if (args[i] == "NO_POLICY_SCOPE") { this->PolicyScope = false; doing = DoingNone; } else if (args[i] == "NO_CMAKE_PACKAGE_REGISTRY") { this->NoUserRegistry = true; configArgs.insert(i); doing = DoingNone; } else if (args[i] == "NO_CMAKE_SYSTEM_PACKAGE_REGISTRY") { this->NoSystemRegistry = true; configArgs.insert(i); doing = DoingNone; } else if (args[i] == "NO_CMAKE_BUILDS_PATH") { // Ignore legacy option. configArgs.insert(i); doing = DoingNone; } else if (this->CheckCommonArgument(args[i])) { configArgs.insert(i); doing = DoingNone; } else if ((doing == DoingComponents) || (doing == DoingOptionalComponents)) { // Set a variable telling the find script whether this component // is required. const char* isRequired = "1"; if (doing == DoingOptionalComponents) { isRequired = "0"; optionalComponents.insert(args[i]); } else { requiredComponents.insert(args[i]); } std::string req_var = this->Name + "_FIND_REQUIRED_" + args[i]; this->AddFindDefinition(req_var, isRequired); // Append to the list of required components. components += components_sep; components += args[i]; components_sep = ";"; } else if (doing == DoingNames) { this->Names.push_back(args[i]); } else if (doing == DoingPaths) { this->UserGuessArgs.push_back(args[i]); } else if (doing == DoingHints) { this->UserHintsArgs.push_back(args[i]); } else if (doing == DoingPathSuffixes) { this->AddPathSuffix(args[i]); } else if (doing == DoingConfigs) { if (args[i].find_first_of(":/\\") != std::string::npos || cmSystemTools::GetFilenameLastExtension(args[i]) != ".cmake") { std::ostringstream e; e << "given CONFIGS option followed by invalid file name \"" << args[i] << "\". The names given must be file names without " << "a path and with a \".cmake\" extension."; this->SetError(e.str()); return false; } this->Configs.push_back(args[i]); } else if (!haveVersion && version.find(args[i])) { haveVersion = true; this->Version = args[i]; } else { std::ostringstream e; e << "called with invalid argument \"" << args[i] << "\""; this->SetError(e.str()); return false; } } std::vector doubledComponents; std::set_intersection(requiredComponents.begin(), requiredComponents.end(), optionalComponents.begin(), optionalComponents.end(), std::back_inserter(doubledComponents)); if (!doubledComponents.empty()) { std::ostringstream e; e << "called with components that are both required and optional:\n"; e << cmWrap(" ", doubledComponents, "", "\n") << "\n"; this->SetError(e.str()); return false; } // Maybe choose one mode exclusively. this->UseFindModules = configArgs.empty(); this->UseConfigFiles = moduleArgs.empty(); if (!this->UseFindModules && !this->UseConfigFiles) { std::ostringstream e; e << "given options exclusive to Module mode:\n"; for (unsigned int si : moduleArgs) { e << " " << args[si] << "\n"; } e << "and options exclusive to Config mode:\n"; for (unsigned int si : configArgs) { e << " " << args[si] << "\n"; } e << "The options are incompatible."; this->SetError(e.str()); return false; } // Ignore EXACT with no version. if (this->Version.empty() && this->VersionExact) { this->VersionExact = false; this->Makefile->IssueMessage( cmake::AUTHOR_WARNING, "Ignoring EXACT since no version is requested."); } if (this->Version.empty() || components.empty()) { // Check whether we are recursing inside "Find.cmake" within // another find_package() call. std::string mod = this->Name; mod += "_FIND_MODULE"; if (this->Makefile->IsOn(mod)) { if (this->Version.empty()) { // Get version information from the outer call if necessary. // Requested version string. std::string ver = this->Name; ver += "_FIND_VERSION"; this->Version = this->Makefile->GetSafeDefinition(ver); // Whether an exact version is required. std::string exact = this->Name; exact += "_FIND_VERSION_EXACT"; this->VersionExact = this->Makefile->IsOn(exact); } if (components.empty()) { std::string components_var = this->Name + "_FIND_COMPONENTS"; components = this->Makefile->GetSafeDefinition(components_var); } } } if (!this->Version.empty()) { // Try to parse the version number and store the results that were // successfully parsed. unsigned int parsed_major; unsigned int parsed_minor; unsigned int parsed_patch; unsigned int parsed_tweak; this->VersionCount = sscanf(this->Version.c_str(), "%u.%u.%u.%u", &parsed_major, &parsed_minor, &parsed_patch, &parsed_tweak); switch (this->VersionCount) { case 4: this->VersionTweak = parsed_tweak; CM_FALLTHROUGH; case 3: this->VersionPatch = parsed_patch; CM_FALLTHROUGH; case 2: this->VersionMinor = parsed_minor; CM_FALLTHROUGH; case 1: this->VersionMajor = parsed_major; CM_FALLTHROUGH; default: break; } } std::string disableFindPackageVar = "CMAKE_DISABLE_FIND_PACKAGE_"; disableFindPackageVar += this->Name; if (this->Makefile->IsOn(disableFindPackageVar)) { if (this->Required) { std::ostringstream e; e << "for module " << this->Name << " called with REQUIRED, but " << disableFindPackageVar << " is enabled. A REQUIRED package cannot be disabled."; this->SetError(e.str()); return false; } return true; } { // Allocate a PACKAGE_ROOT_PATH for the current find_package call. this->Makefile->FindPackageRootPathStack.emplace_back(); std::vector& rootPaths = *this->Makefile->FindPackageRootPathStack.rbegin(); // Add root paths from _ROOT CMake and environment variables, // subject to CMP0074. switch (this->Makefile->GetPolicyStatus(cmPolicies::CMP0074)) { case cmPolicies::WARN: this->Makefile->MaybeWarnCMP0074(this->Name); CM_FALLTHROUGH; case cmPolicies::OLD: // OLD behavior is to ignore the _ROOT variables. break; case cmPolicies::REQUIRED_IF_USED: case cmPolicies::REQUIRED_ALWAYS: this->Makefile->IssueMessage( cmake::FATAL_ERROR, cmPolicies::GetRequiredPolicyError(cmPolicies::CMP0074)); break; case cmPolicies::NEW: { // NEW behavior is to honor the _ROOT variables. std::string const rootVar = this->Name + "_ROOT"; if (const char* pkgRoot = this->Makefile->GetDefinition(rootVar)) { cmSystemTools::ExpandListArgument(pkgRoot, rootPaths, false); } cmSystemTools::GetPath(rootPaths, rootVar.c_str()); } break; } } this->SetModuleVariables(components); // See if there is a Find.cmake module. if (this->UseFindModules) { bool foundModule = false; if (!this->FindModule(foundModule)) { this->AppendSuccessInformation(); return false; } if (foundModule) { this->AppendSuccessInformation(); return true; } } if (this->UseFindModules && this->UseConfigFiles && this->Makefile->IsOn("CMAKE_FIND_PACKAGE_WARN_NO_MODULE")) { std::ostringstream aw; if (this->RequiredCMakeVersion >= CMake_VERSION_ENCODE(2, 8, 8)) { aw << "find_package called without either MODULE or CONFIG option and " "no Find" << this->Name << ".cmake module is in CMAKE_MODULE_PATH. " "Add MODULE to exclusively request Module mode and fail if " "Find" << this->Name << ".cmake is missing. " "Add CONFIG to exclusively request Config mode and search for a " "package configuration file provided by " << this->Name << " (" << this->Name << "Config.cmake or " << cmSystemTools::LowerCase(this->Name) << "-config.cmake). "; } else { aw << "find_package called without NO_MODULE option and no " "Find" << this->Name << ".cmake module is in CMAKE_MODULE_PATH. " "Add NO_MODULE to exclusively request Config mode and search for a " "package configuration file provided by " << this->Name << " (" << this->Name << "Config.cmake or " << cmSystemTools::LowerCase(this->Name) << "-config.cmake). " "Otherwise make Find" << this->Name << ".cmake available in " "CMAKE_MODULE_PATH."; } aw << "\n" "(Variable CMAKE_FIND_PACKAGE_WARN_NO_MODULE enabled this warning.)"; this->Makefile->IssueMessage(cmake::AUTHOR_WARNING, aw.str()); } // No find module. Assume the project has a CMake config file. Use // a _DIR cache variable to locate it. this->Variable = this->Name; this->Variable += "_DIR"; // Add the default name. if (this->Names.empty()) { this->Names.push_back(this->Name); } // Add the default configs. if (this->Configs.empty()) { for (std::string const& n : this->Names) { std::string config = n; config += "Config.cmake"; this->Configs.push_back(config); config = cmSystemTools::LowerCase(n); config += "-config.cmake"; this->Configs.push_back(std::move(config)); } } // get igonored paths from vars and reroot them. std::vector ignored; this->GetIgnoredPaths(ignored); this->RerootPaths(ignored); // Construct a set of ignored paths this->IgnoredPaths.clear(); this->IgnoredPaths.insert(ignored.begin(), ignored.end()); // Find and load the package. bool result = this->HandlePackageMode(); this->AppendSuccessInformation(); return result; } void cmFindPackageCommand::SetModuleVariables(const std::string& components) { this->AddFindDefinition("CMAKE_FIND_PACKAGE_NAME", this->Name.c_str()); // Store the list of components. std::string components_var = this->Name + "_FIND_COMPONENTS"; this->AddFindDefinition(components_var, components.c_str()); if (this->Quiet) { // Tell the module that is about to be read that it should find // quietly. std::string quietly = this->Name; quietly += "_FIND_QUIETLY"; this->AddFindDefinition(quietly, "1"); } if (this->Required) { // Tell the module that is about to be read that it should report // a fatal error if the package is not found. std::string req = this->Name; req += "_FIND_REQUIRED"; this->AddFindDefinition(req, "1"); } if (!this->Version.empty()) { // Tell the module that is about to be read what version of the // package has been requested. std::string ver = this->Name; ver += "_FIND_VERSION"; this->AddFindDefinition(ver, this->Version.c_str()); char buf[64]; sprintf(buf, "%u", this->VersionMajor); this->AddFindDefinition(ver + "_MAJOR", buf); sprintf(buf, "%u", this->VersionMinor); this->AddFindDefinition(ver + "_MINOR", buf); sprintf(buf, "%u", this->VersionPatch); this->AddFindDefinition(ver + "_PATCH", buf); sprintf(buf, "%u", this->VersionTweak); this->AddFindDefinition(ver + "_TWEAK", buf); sprintf(buf, "%u", this->VersionCount); this->AddFindDefinition(ver + "_COUNT", buf); // Tell the module whether an exact version has been requested. std::string exact = this->Name; exact += "_FIND_VERSION_EXACT"; this->AddFindDefinition(exact, this->VersionExact ? "1" : "0"); } } void cmFindPackageCommand::AddFindDefinition(const std::string& var, const char* val) { if (const char* old = this->Makefile->GetDefinition(var)) { this->OriginalDefs[var].exists = true; this->OriginalDefs[var].value = old; } else { this->OriginalDefs[var].exists = false; } this->Makefile->AddDefinition(var, val); } void cmFindPackageCommand::RestoreFindDefinitions() { for (auto const& i : this->OriginalDefs) { OriginalDef const& od = i.second; if (od.exists) { this->Makefile->AddDefinition(i.first, od.value.c_str()); } else { this->Makefile->RemoveDefinition(i.first); } } } bool cmFindPackageCommand::FindModule(bool& found) { std::string module = "Find"; module += this->Name; module += ".cmake"; bool system = false; std::string mfile = this->Makefile->GetModulesFile(module.c_str(), system); if (!mfile.empty()) { if (system) { auto it = this->DeprecatedFindModules.find(this->Name); if (it != this->DeprecatedFindModules.end()) { cmPolicies::PolicyStatus status = this->Makefile->GetPolicyStatus(it->second); switch (status) { case cmPolicies::WARN: { std::ostringstream e; e << cmPolicies::GetPolicyWarning(it->second) << "\n"; this->Makefile->IssueMessage(cmake::AUTHOR_WARNING, e.str()); CM_FALLTHROUGH; } case cmPolicies::OLD: break; case cmPolicies::REQUIRED_IF_USED: case cmPolicies::REQUIRED_ALWAYS: case cmPolicies::NEW: return true; } } } // Load the module we found, and set "_FIND_MODULE" to true // while inside it. found = true; std::string var = this->Name; var += "_FIND_MODULE"; this->Makefile->AddDefinition(var, "1"); bool result = this->ReadListFile(mfile.c_str(), DoPolicyScope); this->Makefile->RemoveDefinition(var); return result; } return true; } bool cmFindPackageCommand::HandlePackageMode() { this->ConsideredConfigs.clear(); // Support old capitalization behavior. std::string upperDir = cmSystemTools::UpperCase(this->Name); std::string upperFound = cmSystemTools::UpperCase(this->Name); upperDir += "_DIR"; upperFound += "_FOUND"; // Try to find the config file. const char* def = this->Makefile->GetDefinition(this->Variable); // Try to load the config file if the directory is known bool fileFound = false; if (this->UseConfigFiles) { if (!cmSystemTools::IsOff(def)) { // Get the directory from the variable value. std::string dir = def; cmSystemTools::ConvertToUnixSlashes(dir); // Treat relative paths with respect to the current source dir. if (!cmSystemTools::FileIsFullPath(dir)) { dir = "/" + dir; dir = this->Makefile->GetCurrentSourceDirectory() + dir; } // The file location was cached. Look for the correct file. std::string file; if (this->FindConfigFile(dir, file)) { this->FileFound = file; fileFound = true; } def = this->Makefile->GetDefinition(this->Variable); } // Search for the config file if it is not already found. if (cmSystemTools::IsOff(def) || !fileFound) { fileFound = this->FindConfig(); } // Sanity check. if (fileFound && this->FileFound.empty()) { this->Makefile->IssueMessage( cmake::INTERNAL_ERROR, "fileFound is true but FileFound is empty!"); fileFound = false; } } std::string foundVar = this->Name; foundVar += "_FOUND"; std::string notFoundMessageVar = this->Name; notFoundMessageVar += "_NOT_FOUND_MESSAGE"; std::string notFoundMessage; // If the directory for the config file was found, try to read the file. bool result = true; bool found = false; bool configFileSetFOUNDFalse = false; if (fileFound) { if (this->Makefile->IsDefinitionSet(foundVar) && !this->Makefile->IsOn(foundVar)) { // by removing Foo_FOUND here if it is FALSE, we don't really change // the situation for the Config file which is about to be included, // but we make it possible to detect later on whether the Config file // has set Foo_FOUND to FALSE itself: this->Makefile->RemoveDefinition(foundVar); } this->Makefile->RemoveDefinition(notFoundMessageVar); // Set the version variables before loading the config file. // It may override them. this->StoreVersionFound(); // Parse the configuration file. if (this->ReadListFile(this->FileFound.c_str(), DoPolicyScope)) { // The package has been found. found = true; // Check whether the Config file has set Foo_FOUND to FALSE: if (this->Makefile->IsDefinitionSet(foundVar) && !this->Makefile->IsOn(foundVar)) { // we get here if the Config file has set Foo_FOUND actively to FALSE found = false; configFileSetFOUNDFalse = true; notFoundMessage = this->Makefile->GetSafeDefinition(notFoundMessageVar); } } else { // The configuration file is invalid. result = false; } } // package not found if (result && !found) { // warn if package required or neither quiet nor in config mode if (this->Required || !(this->Quiet || (this->UseConfigFiles && !this->UseFindModules && this->ConsideredConfigs.empty()))) { // The variable is not set. std::ostringstream e; std::ostringstream aw; if (configFileSetFOUNDFalse) { /* clang-format off */ e << "Found package configuration file:\n" " " << this->FileFound << "\n" "but it set " << foundVar << " to FALSE so package \"" << this->Name << "\" is considered to be NOT FOUND."; /* clang-format on */ if (!notFoundMessage.empty()) { e << " Reason given by package: \n" << notFoundMessage << "\n"; } } // If there are files in ConsideredConfigs, it means that FooConfig.cmake // have been found, but they didn't have appropriate versions. else if (!this->ConsideredConfigs.empty()) { std::vector::const_iterator duplicate_end = cmRemoveDuplicates(this->ConsideredConfigs); e << "Could not find a configuration file for package \"" << this->Name << "\" that " << (this->VersionExact ? "exactly matches" : "is compatible with") << " requested version \"" << this->Version << "\".\n" << "The following configuration files were considered but not " "accepted:\n"; for (std::vector::const_iterator i = this->ConsideredConfigs.begin(); i != duplicate_end; ++i) { e << " " << i->filename << ", version: " << i->version << "\n"; } } else { std::string requestedVersionString; if (!this->Version.empty()) { requestedVersionString = " (requested version "; requestedVersionString += this->Version; requestedVersionString += ")"; } if (this->UseConfigFiles) { if (this->UseFindModules) { e << "By not providing \"Find" << this->Name << ".cmake\" in " "CMAKE_MODULE_PATH this project has asked CMake to find a " "package configuration file provided by \"" << this->Name << "\", " "but CMake did not find one.\n"; } if (this->Configs.size() == 1) { e << "Could not find a package configuration file named \"" << this->Configs[0] << "\" provided by package \"" << this->Name << "\"" << requestedVersionString << ".\n"; } else { e << "Could not find a package configuration file provided by \"" << this->Name << "\"" << requestedVersionString << " with any of the following names:\n" << cmWrap(" ", this->Configs, "", "\n") << "\n"; } e << "Add the installation prefix of \"" << this->Name << "\" to " "CMAKE_PREFIX_PATH or set \"" << this->Variable << "\" to a " "directory containing one of the above files. " "If \"" << this->Name << "\" provides a separate development " "package or SDK, be sure it has been installed."; } else // if(!this->UseFindModules && !this->UseConfigFiles) { e << "No \"Find" << this->Name << ".cmake\" found in " << "CMAKE_MODULE_PATH."; aw << "Find" << this->Name << ".cmake must either be part of this " "project itself, in this case adjust CMAKE_MODULE_PATH so that " "it points to the correct location inside its source tree.\n" "Or it must be installed by a package which has already been " "found via find_package(). In this case make sure that " "package has indeed been found and adjust CMAKE_MODULE_PATH to " "contain the location where that package has installed " "Find" << this->Name << ".cmake. This must be a location " "provided by that package. This error in general means that " "the buildsystem of this project is relying on a Find-module " "without ensuring that it is actually available.\n"; } } this->Makefile->IssueMessage( this->Required ? cmake::FATAL_ERROR : cmake::WARNING, e.str()); if (this->Required) { cmSystemTools::SetFatalErrorOccured(); } if (!aw.str().empty()) { this->Makefile->IssueMessage(cmake::AUTHOR_WARNING, aw.str()); } } // output result if in config mode but not in quiet mode else if (!this->Quiet) { std::ostringstream aw; aw << "Could NOT find " << this->Name << " (missing: " << this->Name << "_DIR)"; this->Makefile->DisplayStatus(aw.str().c_str(), -1); } } // Set a variable marking whether the package was found. this->Makefile->AddDefinition(foundVar, found ? "1" : "0"); // Set a variable naming the configuration file that was found. std::string fileVar = this->Name; fileVar += "_CONFIG"; if (found) { this->Makefile->AddDefinition(fileVar, this->FileFound.c_str()); } else { this->Makefile->RemoveDefinition(fileVar); } std::string consideredConfigsVar = this->Name; consideredConfigsVar += "_CONSIDERED_CONFIGS"; std::string consideredVersionsVar = this->Name; consideredVersionsVar += "_CONSIDERED_VERSIONS"; std::string consideredConfigFiles; std::string consideredVersions; const char* sep = ""; for (ConfigFileInfo const& i : this->ConsideredConfigs) { consideredConfigFiles += sep; consideredVersions += sep; consideredConfigFiles += i.filename; consideredVersions += i.version; sep = ";"; } this->Makefile->AddDefinition(consideredConfigsVar, consideredConfigFiles.c_str()); this->Makefile->AddDefinition(consideredVersionsVar, consideredVersions.c_str()); return result; } bool cmFindPackageCommand::FindConfig() { // Compute the set of search prefixes. this->ComputePrefixes(); // Look for the project's configuration file. bool found = false; // Search for frameworks. if (!found && (this->SearchFrameworkFirst || this->SearchFrameworkOnly)) { found = this->FindFrameworkConfig(); } // Search for apps. if (!found && (this->SearchAppBundleFirst || this->SearchAppBundleOnly)) { found = this->FindAppBundleConfig(); } // Search prefixes. if (!found && !(this->SearchFrameworkOnly || this->SearchAppBundleOnly)) { found = this->FindPrefixedConfig(); } // Search for frameworks. if (!found && this->SearchFrameworkLast) { found = this->FindFrameworkConfig(); } // Search for apps. if (!found && this->SearchAppBundleLast) { found = this->FindAppBundleConfig(); } // Store the entry in the cache so it can be set by the user. std::string init; if (found) { init = cmSystemTools::GetFilenamePath(this->FileFound); } else { init = this->Variable + "-NOTFOUND"; } std::string help = "The directory containing a CMake configuration file for "; help += this->Name; help += "."; // We force the value since we do not get here if it was already set. this->Makefile->AddCacheDefinition(this->Variable, init.c_str(), help.c_str(), cmStateEnums::PATH, true); return found; } bool cmFindPackageCommand::FindPrefixedConfig() { std::vector const& prefixes = this->SearchPaths; for (std::string const& p : prefixes) { if (this->SearchPrefix(p)) { return true; } } return false; } bool cmFindPackageCommand::FindFrameworkConfig() { std::vector const& prefixes = this->SearchPaths; for (std::string const& p : prefixes) { if (this->SearchFrameworkPrefix(p)) { return true; } } return false; } bool cmFindPackageCommand::FindAppBundleConfig() { std::vector const& prefixes = this->SearchPaths; for (std::string const& p : prefixes) { if (this->SearchAppBundlePrefix(p)) { return true; } } return false; } bool cmFindPackageCommand::ReadListFile(const char* f, PolicyScopeRule psr) { const bool noPolicyScope = !this->PolicyScope || psr == NoPolicyScope; if (this->Makefile->ReadDependentFile(f, noPolicyScope)) { return true; } std::string e = "Error reading CMake code from \""; e += f; e += "\"."; this->SetError(e); return false; } void cmFindPackageCommand::AppendToFoundProperty(bool found) { std::vector foundContents; const char* foundProp = this->Makefile->GetState()->GetGlobalProperty("PACKAGES_FOUND"); if (foundProp && *foundProp) { std::string tmp = foundProp; cmSystemTools::ExpandListArgument(tmp, foundContents, false); std::vector::iterator nameIt = std::find(foundContents.begin(), foundContents.end(), this->Name); if (nameIt != foundContents.end()) { foundContents.erase(nameIt); } } std::vector notFoundContents; const char* notFoundProp = this->Makefile->GetState()->GetGlobalProperty("PACKAGES_NOT_FOUND"); if (notFoundProp && *notFoundProp) { std::string tmp = notFoundProp; cmSystemTools::ExpandListArgument(tmp, notFoundContents, false); std::vector::iterator nameIt = std::find(notFoundContents.begin(), notFoundContents.end(), this->Name); if (nameIt != notFoundContents.end()) { notFoundContents.erase(nameIt); } } if (found) { foundContents.push_back(this->Name); } else { notFoundContents.push_back(this->Name); } std::string tmp = cmJoin(foundContents, ";"); this->Makefile->GetState()->SetGlobalProperty("PACKAGES_FOUND", tmp.c_str()); tmp = cmJoin(notFoundContents, ";"); this->Makefile->GetState()->SetGlobalProperty("PACKAGES_NOT_FOUND", tmp.c_str()); } void cmFindPackageCommand::AppendSuccessInformation() { { std::string transitivePropName = "_CMAKE_"; transitivePropName += this->Name + "_TRANSITIVE_DEPENDENCY"; this->Makefile->GetState()->SetGlobalProperty(transitivePropName, "False"); } std::string found = this->Name; found += "_FOUND"; std::string upperFound = cmSystemTools::UpperCase(found); const char* upperResult = this->Makefile->GetDefinition(upperFound); const char* result = this->Makefile->GetDefinition(found); bool packageFound = ((cmSystemTools::IsOn(result)) || (cmSystemTools::IsOn(upperResult))); this->AppendToFoundProperty(packageFound); // Record whether the find was quiet or not, so this can be used // e.g. in FeatureSummary.cmake std::string quietInfoPropName = "_CMAKE_"; quietInfoPropName += this->Name; quietInfoPropName += "_QUIET"; this->Makefile->GetState()->SetGlobalProperty( quietInfoPropName, this->Quiet ? "TRUE" : "FALSE"); // set a global property to record the required version of this package std::string versionInfoPropName = "_CMAKE_"; versionInfoPropName += this->Name; versionInfoPropName += "_REQUIRED_VERSION"; std::string versionInfo; if (!this->Version.empty()) { versionInfo = this->VersionExact ? "==" : ">="; versionInfo += " "; versionInfo += this->Version; } this->Makefile->GetState()->SetGlobalProperty(versionInfoPropName, versionInfo.c_str()); if (this->Required) { std::string requiredInfoPropName = "_CMAKE_"; requiredInfoPropName += this->Name; requiredInfoPropName += "_TYPE"; this->Makefile->GetState()->SetGlobalProperty(requiredInfoPropName, "REQUIRED"); } // Restore original state of "_FIND_" variables we set. this->RestoreFindDefinitions(); // Pop the package stack this->Makefile->FindPackageRootPathStack.pop_back(); } void cmFindPackageCommand::ComputePrefixes() { if (!this->NoDefaultPath) { if (!this->NoPackageRootPath) { this->FillPrefixesPackageRoot(); } if (!this->NoCMakePath) { this->FillPrefixesCMakeVariable(); } if (!this->NoCMakeEnvironmentPath) { this->FillPrefixesCMakeEnvironment(); } } this->FillPrefixesUserHints(); if (!this->NoDefaultPath) { if (!this->NoSystemEnvironmentPath) { this->FillPrefixesSystemEnvironment(); } if (!this->NoUserRegistry) { this->FillPrefixesUserRegistry(); } if (!this->NoCMakeSystemPath) { this->FillPrefixesCMakeSystemVariable(); } if (!this->NoSystemRegistry) { this->FillPrefixesSystemRegistry(); } } this->FillPrefixesUserGuess(); this->ComputeFinalPaths(); } void cmFindPackageCommand::FillPrefixesPackageRoot() { cmSearchPath& paths = this->LabeledPaths[PathLabel::PackageRoot]; // Add the PACKAGE_ROOT_PATH from each enclosing find_package call. for (std::deque>::const_reverse_iterator pkgPaths = this->Makefile->FindPackageRootPathStack.rbegin(); pkgPaths != this->Makefile->FindPackageRootPathStack.rend(); ++pkgPaths) { for (std::string const& path : *pkgPaths) { paths.AddPath(path); } } } void cmFindPackageCommand::FillPrefixesCMakeEnvironment() { cmSearchPath& paths = this->LabeledPaths[PathLabel::CMakeEnvironment]; // Check the environment variable with the same name as the cache // entry. paths.AddEnvPath(this->Variable); // And now the general CMake environment variables paths.AddEnvPath("CMAKE_PREFIX_PATH"); paths.AddEnvPath("CMAKE_FRAMEWORK_PATH"); paths.AddEnvPath("CMAKE_APPBUNDLE_PATH"); } void cmFindPackageCommand::FillPrefixesCMakeVariable() { cmSearchPath& paths = this->LabeledPaths[PathLabel::CMake]; paths.AddCMakePath("CMAKE_PREFIX_PATH"); paths.AddCMakePath("CMAKE_FRAMEWORK_PATH"); paths.AddCMakePath("CMAKE_APPBUNDLE_PATH"); } void cmFindPackageCommand::FillPrefixesSystemEnvironment() { cmSearchPath& paths = this->LabeledPaths[PathLabel::SystemEnvironment]; // Use the system search path to generate prefixes. // Relative paths are interpreted with respect to the current // working directory. std::vector tmp; cmSystemTools::GetPath(tmp); for (std::string const& i : tmp) { // If the path is a PREFIX/bin case then add its parent instead. if ((cmHasLiteralSuffix(i, "/bin")) || (cmHasLiteralSuffix(i, "/sbin"))) { paths.AddPath(cmSystemTools::GetFilenamePath(i)); } else { paths.AddPath(i); } } } void cmFindPackageCommand::FillPrefixesUserRegistry() { #if defined(_WIN32) && !defined(__CYGWIN__) this->LoadPackageRegistryWinUser(); #elif defined(__HAIKU__) char dir[B_PATH_NAME_LENGTH]; if (find_directory(B_USER_SETTINGS_DIRECTORY, -1, false, dir, sizeof(dir)) == B_OK) { std::string fname = dir; fname += "/cmake/packages/"; fname += Name; this->LoadPackageRegistryDir(fname, this->LabeledPaths[PathLabel::UserRegistry]); } #else std::string dir; if (cmSystemTools::GetEnv("HOME", dir)) { dir += "/.cmake/packages/"; dir += this->Name; this->LoadPackageRegistryDir(dir, this->LabeledPaths[PathLabel::UserRegistry]); } #endif } void cmFindPackageCommand::FillPrefixesSystemRegistry() { if (this->NoSystemRegistry || this->NoDefaultPath) { return; } #if defined(_WIN32) && !defined(__CYGWIN__) this->LoadPackageRegistryWinSystem(); #endif } #if defined(_WIN32) && !defined(__CYGWIN__) # include // http://msdn.microsoft.com/en-us/library/aa384253%28v=vs.85%29.aspx # if !defined(KEY_WOW64_32KEY) # define KEY_WOW64_32KEY 0x0200 # endif # if !defined(KEY_WOW64_64KEY) # define KEY_WOW64_64KEY 0x0100 # endif void cmFindPackageCommand::LoadPackageRegistryWinUser() { // HKEY_CURRENT_USER\\Software shares 32-bit and 64-bit views. this->LoadPackageRegistryWin(true, 0, this->LabeledPaths[PathLabel::UserRegistry]); } void cmFindPackageCommand::LoadPackageRegistryWinSystem() { cmSearchPath& paths = this->LabeledPaths[PathLabel::SystemRegistry]; // HKEY_LOCAL_MACHINE\\SOFTWARE has separate 32-bit and 64-bit views. // Prefer the target platform view first. if (this->Makefile->PlatformIs64Bit()) { this->LoadPackageRegistryWin(false, KEY_WOW64_64KEY, paths); this->LoadPackageRegistryWin(false, KEY_WOW64_32KEY, paths); } else { this->LoadPackageRegistryWin(false, KEY_WOW64_32KEY, paths); this->LoadPackageRegistryWin(false, KEY_WOW64_64KEY, paths); } } void cmFindPackageCommand::LoadPackageRegistryWin(bool user, unsigned int view, cmSearchPath& outPaths) { std::wstring key = L"Software\\Kitware\\CMake\\Packages\\"; key += cmsys::Encoding::ToWide(this->Name); std::set bad; HKEY hKey; if (RegOpenKeyExW(user ? HKEY_CURRENT_USER : HKEY_LOCAL_MACHINE, key.c_str(), 0, KEY_QUERY_VALUE | view, &hKey) == ERROR_SUCCESS) { DWORD valueType = REG_NONE; wchar_t name[16383]; // RegEnumValue docs limit name to 32767 _bytes_ std::vector data(512); bool done = false; DWORD index = 0; while (!done) { DWORD nameSize = static_cast(sizeof(name)); DWORD dataSize = static_cast(data.size() * sizeof(data[0])); switch (RegEnumValueW(hKey, index, name, &nameSize, 0, &valueType, (BYTE*)&data[0], &dataSize)) { case ERROR_SUCCESS: ++index; if (valueType == REG_SZ) { data[dataSize] = 0; if (!this->CheckPackageRegistryEntry( cmsys::Encoding::ToNarrow(&data[0]), outPaths)) { // The entry is invalid. bad.insert(name); } } break; case ERROR_MORE_DATA: data.resize((dataSize + sizeof(data[0]) - 1) / sizeof(data[0])); break; case ERROR_NO_MORE_ITEMS: default: done = true; break; } } RegCloseKey(hKey); } // Remove bad values if possible. if (user && !bad.empty() && RegOpenKeyExW(HKEY_CURRENT_USER, key.c_str(), 0, KEY_SET_VALUE | view, &hKey) == ERROR_SUCCESS) { for (std::wstring const& v : bad) { RegDeleteValueW(hKey, v.c_str()); } RegCloseKey(hKey); } } #else class cmFindPackageCommandHoldFile { const char* File; public: cmFindPackageCommandHoldFile(const char* f) : File(f) { } ~cmFindPackageCommandHoldFile() { if (this->File) { cmSystemTools::RemoveFile(this->File); } } void Release() { this->File = nullptr; } }; void cmFindPackageCommand::LoadPackageRegistryDir(std::string const& dir, cmSearchPath& outPaths) { cmsys::Directory files; if (!files.Load(dir)) { return; } std::string fname; for (unsigned long i = 0; i < files.GetNumberOfFiles(); ++i) { fname = dir; fname += "/"; fname += files.GetFile(i); if (!cmSystemTools::FileIsDirectory(fname)) { // Hold this file hostage until it behaves. cmFindPackageCommandHoldFile holdFile(fname.c_str()); // Load the file. cmsys::ifstream fin(fname.c_str(), std::ios::in | std::ios::binary); std::string fentry; if (fin && cmSystemTools::GetLineFromStream(fin, fentry) && this->CheckPackageRegistryEntry(fentry, outPaths)) { // The file references an existing package, so release it. holdFile.Release(); } } } // TODO: Wipe out the directory if it is empty. } #endif bool cmFindPackageCommand::CheckPackageRegistryEntry(const std::string& fname, cmSearchPath& outPaths) { // Parse the content of one package registry entry. if (cmSystemTools::FileIsFullPath(fname)) { // The first line in the stream is the full path to a file or // directory containing the package. if (cmSystemTools::FileExists(fname)) { // The path exists. Look for the package here. if (!cmSystemTools::FileIsDirectory(fname)) { outPaths.AddPath(cmSystemTools::GetFilenamePath(fname)); } else { outPaths.AddPath(fname); } return true; } // The path does not exist. Assume the stream content is // associated with an old package that no longer exists, and // delete it to keep the package registry clean. return false; } // The first line in the stream is not the full path to a file or // directory. Assume the stream content was created by a future // version of CMake that uses a different format, and leave it. return true; } void cmFindPackageCommand::FillPrefixesCMakeSystemVariable() { cmSearchPath& paths = this->LabeledPaths[PathLabel::CMakeSystem]; paths.AddCMakePath("CMAKE_SYSTEM_PREFIX_PATH"); paths.AddCMakePath("CMAKE_SYSTEM_FRAMEWORK_PATH"); paths.AddCMakePath("CMAKE_SYSTEM_APPBUNDLE_PATH"); } void cmFindPackageCommand::FillPrefixesUserGuess() { cmSearchPath& paths = this->LabeledPaths[PathLabel::Guess]; for (std::string const& p : this->UserGuessArgs) { paths.AddUserPath(p); } } void cmFindPackageCommand::FillPrefixesUserHints() { cmSearchPath& paths = this->LabeledPaths[PathLabel::Hints]; for (std::string const& p : this->UserHintsArgs) { paths.AddUserPath(p); } } bool cmFindPackageCommand::SearchDirectory(std::string const& dir) { assert(!dir.empty() && dir.back() == '/'); // Check each path suffix on this directory. for (std::string const& s : this->SearchPathSuffixes) { std::string d = dir; if (!s.empty()) { d += s; d += "/"; } if (this->CheckDirectory(d)) { return true; } } return false; } bool cmFindPackageCommand::CheckDirectory(std::string const& dir) { assert(!dir.empty() && dir.back() == '/'); // Look for the file in this directory. std::string d = dir.substr(0, dir.size() - 1); if (this->FindConfigFile(d, this->FileFound)) { // Remove duplicate slashes. cmSystemTools::ConvertToUnixSlashes(this->FileFound); return true; } return false; } bool cmFindPackageCommand::FindConfigFile(std::string const& dir, std::string& file) { if (this->IgnoredPaths.count(dir)) { return false; } for (std::string const& c : this->Configs) { file = dir; file += "/"; file += c; if (this->DebugMode) { fprintf(stderr, "Checking file [%s]\n", file.c_str()); } if (cmSystemTools::FileExists(file, true) && this->CheckVersion(file)) { return true; } } return false; } bool cmFindPackageCommand::CheckVersion(std::string const& config_file) { bool result = false; // by default, assume the version is not ok. bool haveResult = false; std::string version = "unknown"; // Get the filename without the .cmake extension. std::string::size_type pos = config_file.rfind('.'); std::string version_file_base = config_file.substr(0, pos); // Look for foo-config-version.cmake std::string version_file = version_file_base; version_file += "-version.cmake"; if (!haveResult && cmSystemTools::FileExists(version_file, true)) { result = this->CheckVersionFile(version_file, version); haveResult = true; } // Look for fooConfigVersion.cmake version_file = version_file_base; version_file += "Version.cmake"; if (!haveResult && cmSystemTools::FileExists(version_file, true)) { result = this->CheckVersionFile(version_file, version); haveResult = true; } // If no version was requested a versionless package is acceptable. if (!haveResult && this->Version.empty()) { result = true; } ConfigFileInfo configFileInfo; configFileInfo.filename = config_file; configFileInfo.version = version; this->ConsideredConfigs.push_back(std::move(configFileInfo)); return result; } bool cmFindPackageCommand::CheckVersionFile(std::string const& version_file, std::string& result_version) { // The version file will be loaded in an isolated scope. cmMakefile::ScopePushPop varScope(this->Makefile); cmMakefile::PolicyPushPop polScope(this->Makefile); static_cast(varScope); static_cast(polScope); // Clear the output variables. this->Makefile->RemoveDefinition("PACKAGE_VERSION"); this->Makefile->RemoveDefinition("PACKAGE_VERSION_UNSUITABLE"); this->Makefile->RemoveDefinition("PACKAGE_VERSION_COMPATIBLE"); this->Makefile->RemoveDefinition("PACKAGE_VERSION_EXACT"); // Set the input variables. this->Makefile->AddDefinition("PACKAGE_FIND_NAME", this->Name.c_str()); this->Makefile->AddDefinition("PACKAGE_FIND_VERSION", this->Version.c_str()); char buf[64]; sprintf(buf, "%u", this->VersionMajor); this->Makefile->AddDefinition("PACKAGE_FIND_VERSION_MAJOR", buf); sprintf(buf, "%u", this->VersionMinor); this->Makefile->AddDefinition("PACKAGE_FIND_VERSION_MINOR", buf); sprintf(buf, "%u", this->VersionPatch); this->Makefile->AddDefinition("PACKAGE_FIND_VERSION_PATCH", buf); sprintf(buf, "%u", this->VersionTweak); this->Makefile->AddDefinition("PACKAGE_FIND_VERSION_TWEAK", buf); sprintf(buf, "%u", this->VersionCount); this->Makefile->AddDefinition("PACKAGE_FIND_VERSION_COUNT", buf); // Load the version check file. Pass NoPolicyScope because we do // our own policy push/pop independent of CMP0011. bool suitable = false; if (this->ReadListFile(version_file.c_str(), NoPolicyScope)) { // Check the output variables. bool okay = this->Makefile->IsOn("PACKAGE_VERSION_EXACT"); bool unsuitable = this->Makefile->IsOn("PACKAGE_VERSION_UNSUITABLE"); if (!okay && !this->VersionExact) { okay = this->Makefile->IsOn("PACKAGE_VERSION_COMPATIBLE"); } // The package is suitable if the version is okay and not // explicitly unsuitable. suitable = !unsuitable && (okay || this->Version.empty()); if (suitable) { // Get the version found. this->VersionFound = this->Makefile->GetSafeDefinition("PACKAGE_VERSION"); // Try to parse the version number and store the results that were // successfully parsed. unsigned int parsed_major; unsigned int parsed_minor; unsigned int parsed_patch; unsigned int parsed_tweak; this->VersionFoundCount = sscanf(this->VersionFound.c_str(), "%u.%u.%u.%u", &parsed_major, &parsed_minor, &parsed_patch, &parsed_tweak); switch (this->VersionFoundCount) { case 4: this->VersionFoundTweak = parsed_tweak; CM_FALLTHROUGH; case 3: this->VersionFoundPatch = parsed_patch; CM_FALLTHROUGH; case 2: this->VersionFoundMinor = parsed_minor; CM_FALLTHROUGH; case 1: this->VersionFoundMajor = parsed_major; CM_FALLTHROUGH; default: break; } } } result_version = this->Makefile->GetSafeDefinition("PACKAGE_VERSION"); if (result_version.empty()) { result_version = "unknown"; } // Succeed if the version is suitable. return suitable; } void cmFindPackageCommand::StoreVersionFound() { // Store the whole version string. std::string ver = this->Name; ver += "_VERSION"; if (this->VersionFound.empty()) { this->Makefile->RemoveDefinition(ver); } else { this->Makefile->AddDefinition(ver, this->VersionFound.c_str()); } // Store the version components. char buf[64]; sprintf(buf, "%u", this->VersionFoundMajor); this->Makefile->AddDefinition(ver + "_MAJOR", buf); sprintf(buf, "%u", this->VersionFoundMinor); this->Makefile->AddDefinition(ver + "_MINOR", buf); sprintf(buf, "%u", this->VersionFoundPatch); this->Makefile->AddDefinition(ver + "_PATCH", buf); sprintf(buf, "%u", this->VersionFoundTweak); this->Makefile->AddDefinition(ver + "_TWEAK", buf); sprintf(buf, "%u", this->VersionFoundCount); this->Makefile->AddDefinition(ver + "_COUNT", buf); } class cmFileListGeneratorBase { public: virtual ~cmFileListGeneratorBase() {} protected: bool Consider(std::string const& fullPath, cmFileList& listing); private: bool Search(cmFileList&); virtual bool Search(std::string const& parent, cmFileList&) = 0; virtual std::unique_ptr Clone() const = 0; friend class cmFileList; cmFileListGeneratorBase* SetNext(cmFileListGeneratorBase const& next); std::unique_ptr Next; }; class cmFileList { public: cmFileList() {} virtual ~cmFileList() {} cmFileList& operator/(cmFileListGeneratorBase const& rhs) { if (this->Last) { this->Last = this->Last->SetNext(rhs); } else { this->First = rhs.Clone(); this->Last = this->First.get(); } return *this; } bool Search() { if (this->First) { return this->First->Search(*this); } return false; } private: virtual bool Visit(std::string const& fullPath) = 0; friend class cmFileListGeneratorBase; std::unique_ptr First; cmFileListGeneratorBase* Last = nullptr; }; class cmFindPackageFileList : public cmFileList { public: cmFindPackageFileList(cmFindPackageCommand* fpc, bool use_suffixes = true) : FPC(fpc) , UseSuffixes(use_suffixes) { } private: bool Visit(std::string const& fullPath) override { if (this->UseSuffixes) { return this->FPC->SearchDirectory(fullPath); } return this->FPC->CheckDirectory(fullPath); } cmFindPackageCommand* FPC; bool UseSuffixes; }; bool cmFileListGeneratorBase::Search(cmFileList& listing) { return this->Search("", listing); } cmFileListGeneratorBase* cmFileListGeneratorBase::SetNext( cmFileListGeneratorBase const& next) { this->Next = next.Clone(); return this->Next.get(); } bool cmFileListGeneratorBase::Consider(std::string const& fullPath, cmFileList& listing) { if (this->Next) { return this->Next->Search(fullPath + "/", listing); } return listing.Visit(fullPath + "/"); } class cmFileListGeneratorFixed : public cmFileListGeneratorBase { public: cmFileListGeneratorFixed(std::string const& str) : String(str) { } cmFileListGeneratorFixed(cmFileListGeneratorFixed const& r) : String(r.String) { } private: std::string String; bool Search(std::string const& parent, cmFileList& lister) override { std::string fullPath = parent + this->String; return this->Consider(fullPath, lister); } std::unique_ptr Clone() const override { std::unique_ptr g( new cmFileListGeneratorFixed(*this)); return g; } }; class cmFileListGeneratorEnumerate : public cmFileListGeneratorBase { public: cmFileListGeneratorEnumerate(std::vector const& v) : Vector(v) { } cmFileListGeneratorEnumerate(cmFileListGeneratorEnumerate const& r) : Vector(r.Vector) { } private: std::vector const& Vector; bool Search(std::string const& parent, cmFileList& lister) override { for (std::string const& i : this->Vector) { if (this->Consider(parent + i, lister)) { return true; } } return false; } std::unique_ptr Clone() const override { std::unique_ptr g( new cmFileListGeneratorEnumerate(*this)); return g; } }; class cmFileListGeneratorProject : public cmFileListGeneratorBase { public: cmFileListGeneratorProject(std::vector const& names, cmFindPackageCommand::SortOrderType so, cmFindPackageCommand::SortDirectionType sd) : Names(names) { this->SetSort(so, sd); } cmFileListGeneratorProject(cmFileListGeneratorProject const& r) : Names(r.Names) { this->SetSort(r.SortOrder, r.SortDirection); } void SetSort(cmFindPackageCommand::SortOrderType o, cmFindPackageCommand::SortDirectionType d) { SortOrder = o; SortDirection = d; } protected: // sort parameters cmFindPackageCommand::SortOrderType SortOrder; cmFindPackageCommand::SortDirectionType SortDirection; private: std::vector const& Names; bool Search(std::string const& parent, cmFileList& lister) override { // Construct a list of matches. std::vector matches; cmsys::Directory d; d.Load(parent); for (unsigned long i = 0; i < d.GetNumberOfFiles(); ++i) { const char* fname = d.GetFile(i); if (strcmp(fname, ".") == 0 || strcmp(fname, "..") == 0) { continue; } for (std::string const& n : this->Names) { if (cmsysString_strncasecmp(fname, n.c_str(), n.length()) == 0) { matches.push_back(fname); } } } // before testing the matches check if there is a specific sorting order to // perform if (this->SortOrder != cmFindPackageCommand::None) { cmFindPackageCommand::Sort(matches.begin(), matches.end(), SortOrder, SortDirection); } for (std::string const& i : matches) { if (this->Consider(parent + i, lister)) { return true; } } return false; } std::unique_ptr Clone() const override { std::unique_ptr g( new cmFileListGeneratorProject(*this)); return g; } }; class cmFileListGeneratorMacProject : public cmFileListGeneratorBase { public: cmFileListGeneratorMacProject(std::vector const& names, const char* ext) : Names(names) , Extension(ext) { } cmFileListGeneratorMacProject(cmFileListGeneratorMacProject const& r) : Names(r.Names) , Extension(r.Extension) { } private: std::vector const& Names; std::string Extension; bool Search(std::string const& parent, cmFileList& lister) override { // Construct a list of matches. std::vector matches; cmsys::Directory d; d.Load(parent); for (unsigned long i = 0; i < d.GetNumberOfFiles(); ++i) { const char* fname = d.GetFile(i); if (strcmp(fname, ".") == 0 || strcmp(fname, "..") == 0) { continue; } for (std::string name : this->Names) { name += this->Extension; if (cmsysString_strcasecmp(fname, name.c_str()) == 0) { matches.push_back(fname); } } } for (std::string const& i : matches) { if (this->Consider(parent + i, lister)) { return true; } } return false; } std::unique_ptr Clone() const override { std::unique_ptr g( new cmFileListGeneratorMacProject(*this)); return g; } }; class cmFileListGeneratorCaseInsensitive : public cmFileListGeneratorBase { public: cmFileListGeneratorCaseInsensitive(std::string const& str) : String(str) { } cmFileListGeneratorCaseInsensitive( cmFileListGeneratorCaseInsensitive const& r) : String(r.String) { } private: std::string String; bool Search(std::string const& parent, cmFileList& lister) override { // Look for matching files. std::vector matches; cmsys::Directory d; d.Load(parent); for (unsigned long i = 0; i < d.GetNumberOfFiles(); ++i) { const char* fname = d.GetFile(i); if (strcmp(fname, ".") == 0 || strcmp(fname, "..") == 0) { continue; } if (cmsysString_strcasecmp(fname, this->String.c_str()) == 0) { if (this->Consider(parent + fname, lister)) { return true; } } } return false; } std::unique_ptr Clone() const override { std::unique_ptr g( new cmFileListGeneratorCaseInsensitive(*this)); return g; } }; class cmFileListGeneratorGlob : public cmFileListGeneratorBase { public: cmFileListGeneratorGlob(std::string const& str) : Pattern(str) { } cmFileListGeneratorGlob(cmFileListGeneratorGlob const& r) : Pattern(r.Pattern) { } private: std::string Pattern; bool Search(std::string const& parent, cmFileList& lister) override { // Glob the set of matching files. std::string expr = parent; expr += this->Pattern; cmsys::Glob g; if (!g.FindFiles(expr)) { return false; } std::vector const& files = g.GetFiles(); // Look for directories among the matches. for (std::string const& f : files) { if (cmSystemTools::FileIsDirectory(f)) { if (this->Consider(f, lister)) { return true; } } } return false; } std::unique_ptr Clone() const override { return cm::make_unique(*this); } }; bool cmFindPackageCommand::SearchPrefix(std::string const& prefix_in) { assert(!prefix_in.empty() && prefix_in.back() == '/'); if (this->DebugMode) { fprintf(stderr, "Checking prefix [%s]\n", prefix_in.c_str()); } // Skip this if the prefix does not exist. if (!cmSystemTools::FileIsDirectory(prefix_in)) { return false; } // PREFIX/ (useful on windows or in build trees) if (this->SearchDirectory(prefix_in)) { return true; } // Strip the trailing slash because the path generator is about to // add one. std::string prefix = prefix_in.substr(0, prefix_in.size() - 1); // PREFIX/(cmake|CMake)/ (useful on windows or in build trees) { cmFindPackageFileList lister(this); lister / cmFileListGeneratorFixed(prefix) / cmFileListGeneratorCaseInsensitive("cmake"); if (lister.Search()) { return true; } } // PREFIX/(Foo|foo|FOO).*/ { cmFindPackageFileList lister(this); lister / cmFileListGeneratorFixed(prefix) / cmFileListGeneratorProject(this->Names, this->SortOrder, this->SortDirection); if (lister.Search()) { return true; } } // PREFIX/(Foo|foo|FOO).*/(cmake|CMake)/ { cmFindPackageFileList lister(this); lister / cmFileListGeneratorFixed(prefix) / cmFileListGeneratorProject(this->Names, this->SortOrder, this->SortDirection) / cmFileListGeneratorCaseInsensitive("cmake"); if (lister.Search()) { return true; } } // Construct list of common install locations (lib and share). std::vector common; if (!this->LibraryArchitecture.empty()) { common.push_back("lib/" + this->LibraryArchitecture); } if (this->UseLib32Paths) { common.push_back("lib32"); } if (this->UseLib64Paths) { common.push_back("lib64"); } if (this->UseLibx32Paths) { common.push_back("libx32"); } common.push_back("lib"); common.push_back("share"); // PREFIX/(lib/ARCH|lib*|share)/cmake/(Foo|foo|FOO).*/ { cmFindPackageFileList lister(this); lister / cmFileListGeneratorFixed(prefix) / cmFileListGeneratorEnumerate(common) / cmFileListGeneratorFixed("cmake") / cmFileListGeneratorProject(this->Names, this->SortOrder, this->SortDirection); if (lister.Search()) { return true; } } // PREFIX/(lib/ARCH|lib*|share)/(Foo|foo|FOO).*/ { cmFindPackageFileList lister(this); lister / cmFileListGeneratorFixed(prefix) / cmFileListGeneratorEnumerate(common) / cmFileListGeneratorProject(this->Names, this->SortOrder, this->SortDirection); if (lister.Search()) { return true; } } // PREFIX/(lib/ARCH|lib*|share)/(Foo|foo|FOO).*/(cmake|CMake)/ { cmFindPackageFileList lister(this); lister / cmFileListGeneratorFixed(prefix) / cmFileListGeneratorEnumerate(common) / cmFileListGeneratorProject(this->Names, this->SortOrder, this->SortDirection) / cmFileListGeneratorCaseInsensitive("cmake"); if (lister.Search()) { return true; } } // PREFIX/(Foo|foo|FOO).*/(lib/ARCH|lib*|share)/cmake/(Foo|foo|FOO).*/ { cmFindPackageFileList lister(this); lister / cmFileListGeneratorFixed(prefix) / cmFileListGeneratorProject(this->Names, this->SortOrder, this->SortDirection) / cmFileListGeneratorEnumerate(common) / cmFileListGeneratorFixed("cmake") / cmFileListGeneratorProject(this->Names, this->SortOrder, this->SortDirection); if (lister.Search()) { return true; } } // PREFIX/(Foo|foo|FOO).*/(lib/ARCH|lib*|share)/(Foo|foo|FOO).*/ { cmFindPackageFileList lister(this); lister / cmFileListGeneratorFixed(prefix) / cmFileListGeneratorProject(this->Names, this->SortOrder, this->SortDirection) / cmFileListGeneratorEnumerate(common) / cmFileListGeneratorProject(this->Names, this->SortOrder, this->SortDirection); if (lister.Search()) { return true; } } // PREFIX/(Foo|foo|FOO).*/(lib/ARCH|lib*|share)/(Foo|foo|FOO).*/(cmake|CMake)/ { cmFindPackageFileList lister(this); lister / cmFileListGeneratorFixed(prefix) / cmFileListGeneratorProject(this->Names, this->SortOrder, this->SortDirection) / cmFileListGeneratorEnumerate(common) / cmFileListGeneratorProject(this->Names, this->SortOrder, this->SortDirection) / cmFileListGeneratorCaseInsensitive("cmake"); if (lister.Search()) { return true; } } return false; } bool cmFindPackageCommand::SearchFrameworkPrefix(std::string const& prefix_in) { assert(!prefix_in.empty() && prefix_in.back() == '/'); if (this->DebugMode) { fprintf(stderr, "Checking framework prefix [%s]\n", prefix_in.c_str()); } // Strip the trailing slash because the path generator is about to // add one. std::string prefix = prefix_in.substr(0, prefix_in.size() - 1); // /Foo.framework/Resources/ { cmFindPackageFileList lister(this); lister / cmFileListGeneratorFixed(prefix) / cmFileListGeneratorMacProject(this->Names, ".framework") / cmFileListGeneratorFixed("Resources"); if (lister.Search()) { return true; } } // /Foo.framework/Resources/CMake/ { cmFindPackageFileList lister(this); lister / cmFileListGeneratorFixed(prefix) / cmFileListGeneratorMacProject(this->Names, ".framework") / cmFileListGeneratorFixed("Resources") / cmFileListGeneratorCaseInsensitive("cmake"); if (lister.Search()) { return true; } } // /Foo.framework/Versions/*/Resources/ { cmFindPackageFileList lister(this); lister / cmFileListGeneratorFixed(prefix) / cmFileListGeneratorMacProject(this->Names, ".framework") / cmFileListGeneratorFixed("Versions") / cmFileListGeneratorGlob("*/Resources"); if (lister.Search()) { return true; } } // /Foo.framework/Versions/*/Resources/CMake/ { cmFindPackageFileList lister(this); lister / cmFileListGeneratorFixed(prefix) / cmFileListGeneratorMacProject(this->Names, ".framework") / cmFileListGeneratorFixed("Versions") / cmFileListGeneratorGlob("*/Resources") / cmFileListGeneratorCaseInsensitive("cmake"); if (lister.Search()) { return true; } } return false; } bool cmFindPackageCommand::SearchAppBundlePrefix(std::string const& prefix_in) { assert(!prefix_in.empty() && prefix_in.back() == '/'); if (this->DebugMode) { fprintf(stderr, "Checking bundle prefix [%s]\n", prefix_in.c_str()); } // Strip the trailing slash because the path generator is about to // add one. std::string prefix = prefix_in.substr(0, prefix_in.size() - 1); // /Foo.app/Contents/Resources { cmFindPackageFileList lister(this); lister / cmFileListGeneratorFixed(prefix) / cmFileListGeneratorMacProject(this->Names, ".app") / cmFileListGeneratorFixed("Contents/Resources"); if (lister.Search()) { return true; } } // /Foo.app/Contents/Resources/CMake { cmFindPackageFileList lister(this); lister / cmFileListGeneratorFixed(prefix) / cmFileListGeneratorMacProject(this->Names, ".app") / cmFileListGeneratorFixed("Contents/Resources") / cmFileListGeneratorCaseInsensitive("cmake"); if (lister.Search()) { return true; } } return false; } // TODO: Debug cmsys::Glob double slash problem.