/**************************************************************************** ** ** Copyright (C) 2021 Ivan Komissarov (abbapoh@gmail.com) ** Contact: https://www.qt.io/licensing/ ** ** This file is part of Qbs. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. For further ** information use the contact form at https://www.qt.io/contact-us. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 3 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL3 included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 3 requirements ** will be met: https://www.gnu.org/licenses/lgpl-3.0.html. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 2.0 or (at your option) the GNU General ** Public license version 3 or any later version approved by the KDE Free ** Qt Foundation. The licenses are as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL2 and LICENSE.GPL3 ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-2.0.html and ** https://www.gnu.org/licenses/gpl-3.0.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "pkgconfig.h" #include "pcparser.h" #if HAS_STD_FILESYSTEM # if __has_include() # include # else # include // We need the alias from std::experimental::filesystem to std::filesystem namespace std { namespace filesystem = experimental::filesystem; } # endif #else # include # include #endif #include #include namespace qbs { namespace { std::string varToEnvVar(std::string_view pkg, std::string_view var) { auto result = std::string("PKG_CONFIG_"); result += pkg; result += '_'; result += var; for (char &p : result) { int c = std::toupper(p); if (!std::isalnum(c)) c = '_'; p = char(c); } return result; } std::vector split(std::string_view str, const char delim) { std::vector result; size_t prev = 0; size_t pos = 0; do { pos = str.find(delim, prev); if (pos == std::string::npos) pos = str.length(); std::string token(str.substr(prev, pos - prev)); if (!token.empty()) result.push_back(token); prev = pos + 1; } while (pos < str.length() && prev < str.length()); return result; } constexpr inline char listSeparator() noexcept { #if defined(WIN32) return ';'; #else return ':'; #endif } // based on https://stackoverflow.com/a/33135699/295518 int compareVersions(std::string_view v1, std::string_view v2) { for (size_t i = 0, j = 0; i < v1.length() || j < v2.length(); ) { size_t acc1 = 0; size_t acc2 = 0; while (i < v1.length() && v1[i] != '.') { acc1 = acc1 * 10 + (v1[i] - '0'); i++; } while (j < v2.length() && v2[j] != '.') { acc2 = acc2 * 10 + (v2[j] - '0'); j++; } if (acc1 < acc2) return -1; if (acc1 > acc2) return +1; ++i; ++j; } return 0; } using ComparisonType = PcPackage::RequiredVersion::ComparisonType; bool versionTest(ComparisonType comparison, std::string_view a, std::string_view b) { switch (comparison) { case ComparisonType::LessThan: return compareVersions(a, b) < 0; case ComparisonType::GreaterThan: return compareVersions(a, b) > 0; case ComparisonType::LessThanEqual: return compareVersions(a, b) <= 0; case ComparisonType::GreaterThanEqual: return compareVersions(a, b) >= 0; case ComparisonType::Equal: return compareVersions(a, b) == 0; case ComparisonType::NotEqual: return compareVersions(a, b) != 0; case ComparisonType::AlwaysMatch: return true; } return false; } [[noreturn]] void raizeUnknownPackageException(std::string_view package) { std::string message; message += "Can't find package '"; message += package; message += "'"; throw PcException(message); } template C &operator<<(C &container, const C &other) { container.insert(container.end(), other.cbegin(), other.cend()); return container; } } // namespace PkgConfig::PkgConfig() : PkgConfig(Options()) { } PkgConfig::PkgConfig(Options options) : m_options(std::move(options)) { if (m_options.libDirs.empty()) m_options.libDirs = split(PKG_CONFIG_PC_PATH, listSeparator()); if (m_options.topBuildDir.empty()) m_options.topBuildDir = "$(top_builddir)"; // pkg-config sets this for automake =) if (m_options.systemLibraryPaths.empty()) m_options.systemLibraryPaths = split(PKG_CONFIG_SYSTEM_LIBRARY_PATH, ':'); // this is weird on Windows, but that's what pkg-config does if (m_options.sysroot.empty()) m_options.globalVariables["pc_sysrootdir"] = "/"; else m_options.globalVariables["pc_sysrootdir"] = m_options.sysroot; m_options.globalVariables["pc_top_builddir"] = m_options.topBuildDir; m_packages = findPackages(); } const PcPackageVariant &PkgConfig::getPackage(std::string_view baseFileName) const { // heterogeneous comparator so we can search the package using string_view const auto lessThan = [](const PcPackageVariant &package, const std::string_view &name) { return package.visit([name](auto &&value) noexcept { return value.baseFileName < name; }); }; const auto testPackage = [baseFileName](const PcPackageVariant &package) { return package.visit([baseFileName](auto &&value) noexcept { return baseFileName != value.baseFileName; }); }; const auto it = std::lower_bound(m_packages.begin(), m_packages.end(), baseFileName, lessThan); if (it == m_packages.end() || testPackage(*it)) raizeUnknownPackageException(baseFileName); return *it; } std::optional PkgConfig::packageGetVariable( const PcPackage &pkg, std::string_view var) const { std::optional result; if (var.empty()) return result; const auto &globals = m_options.globalVariables; if (auto it = globals.find(var); it != globals.end()) result = it->second; // Allow overriding specific variables using an environment variable of the // form PKG_CONFIG_$PACKAGENAME_$VARIABLE if (!pkg.baseFileName.empty()) { const std::string envVariable = varToEnvVar(pkg.baseFileName, var); const auto it = m_options.systemVariables.find(envVariable); if (it != m_options.systemVariables.end()) result = it->second; } if (!result) { if (const auto it = pkg.variables.find(var); it != pkg.variables.end()) result = it->second; } return result; } #if HAS_STD_FILESYSTEM std::vector getPcFilePaths(const std::vector &searchPaths) { std::vector paths; for (const auto &searchPath : searchPaths) { if (!std::filesystem::exists(std::filesystem::directory_entry(searchPath).status())) continue; const auto dir = std::filesystem::directory_iterator(searchPath); std::copy_if( std::filesystem::begin(dir), std::filesystem::end(dir), std::back_inserter(paths), [](const auto &entry) { return entry.path().extension() == ".pc"; } ); } std::vector result; std::transform( std::begin(paths), std::end(paths), std::back_inserter(result), [](const auto &path) { return path.generic_string(); } ); return result; } #else std::vector getPcFilePaths(const std::vector &searchPaths) { std::vector result; for (const auto &path : searchPaths) { QDir dir(QString::fromStdString(path)); const auto paths = dir.entryList({QStringLiteral("*.pc")}); std::transform( std::begin(paths), std::end(paths), std::back_inserter(result), [&dir](const auto &path) { return dir.filePath(path).toStdString(); } ); } return result; } #endif PcBrokenPackage makeMissingDependency( const PcPackage &package, const PcPackage::RequiredVersion &depVersion) { std::string message; message += "Package "; message += package.name; message += " requires package "; message += depVersion.name; message += " but it is not found"; return PcBrokenPackage{ package.filePath, package.baseFileName, std::move(message)}; } PcBrokenPackage makeBrokenDependency( const PcPackage &package, const PcPackage::RequiredVersion &depVersion) { std::string message; message += "Package "; message += package.name; message += " requires package "; message += depVersion.name; message += " but it is broken"; return PcBrokenPackage{ package.filePath, package.baseFileName, std::move(message)}; } PcBrokenPackage makeVersionMismatchDependency( const PcPackage &package, const PcPackage &depPackage, const PcPackage::RequiredVersion &depVersion) { std::string message; message += "Package "; message += package.name; message += " requires version "; message += PcPackage::RequiredVersion::comparisonToString( depVersion.comparison); message += depVersion.version; message += " but "; message += depPackage.version; message += " is present"; return PcBrokenPackage{ package.filePath, package.baseFileName, std::move(message)}; } PkgConfig::Packages PkgConfig::mergeDependencies(const PkgConfig::Packages &packages) const { std::unordered_map packageHash; struct MergedHashEntry { PcPackageVariant package; // merged package or broken package std::vector deps; // unmerged transitive deps, including Package itself }; std::unordered_map mergedHash; for (const auto &package: packages) packageHash[package.getBaseFileName()] = &package; auto func = [&](const PcPackageVariant &package, auto &f) -> const MergedHashEntry & { const auto it = mergedHash.find(package.getBaseFileName()); if (it != mergedHash.end()) return it->second; auto &entry = mergedHash[package.getBaseFileName()]; auto visitor = [&](auto &&package) -> PcPackageVariant { using T = std::decay_t; if constexpr (std::is_same_v) { // NOLINT using Flags = std::vector; // returns true if multiple copies of the flag can present in the same package // we can't properly merge flags that have multiple parameters except for // -framework which we handle correctly. auto canHaveDuplicates = [](const PcPackage::Flag::Type &type) { return type == PcPackage::Flag::Type::LinkerFlag || type == PcPackage::Flag::Type::CompilerFlag; }; std::unordered_set visitedFlags; // appends only those flags to the target that were not seen before (except for // ones that can have duplicates) auto mergeFlags = [&](Flags &target, const Flags &source) { for (const auto &flag: source) { if (canHaveDuplicates(flag.type) || visitedFlags.insert(flag).second) target.push_back(flag); } }; std::unordered_set visitedDeps; PcPackage result; // copy only meta info for now result.filePath = package.filePath; result.baseFileName = package.baseFileName; result.name = package.name; result.version = package.version; result.description = package.description; result.url = package.url; result.variables = package.variables; auto allDependencies = package.requiresPublic; if (m_options.staticMode) allDependencies << package.requiresPrivate; for (const auto &dependency: allDependencies) { const auto it = packageHash.find(dependency.name); if (it == packageHash.end()) return makeMissingDependency(result, dependency); const auto childEntry = f(*it->second, f); if (childEntry.package.isBroken()) return makeBrokenDependency(result, dependency); const auto &mergedPackage = childEntry.package.asPackage(); const bool versionOk = versionTest( dependency.comparison, mergedPackage.version, dependency.version); if (!versionOk) return makeVersionMismatchDependency(result, mergedPackage, dependency); for (const auto *dep: childEntry.deps) { if (visitedDeps.insert(dep).second) entry.deps.push_back(dep); } } entry.deps.push_back(&package); for (const auto *dep: entry.deps) { mergeFlags(result.libs, dep->libs); mergeFlags(result.cflags, dep->cflags); } return result; } return package; }; entry.package = package.visit(visitor); return entry; }; for (const auto &package: packages) func(package, func); Packages result; for (auto &[key, value]: mergedHash) result.push_back(std::move(value.package)); return result; } PkgConfig::Packages PkgConfig::findPackages() const { Packages result; PcParser parser(*this); const auto systemLibraryPaths = !m_options.allowSystemLibraryPaths ? std::unordered_set( m_options.systemLibraryPaths.begin(), m_options.systemLibraryPaths.end()) : std::unordered_set(); auto allSearchPaths = m_options.extraPaths; allSearchPaths.insert( allSearchPaths.end(), m_options.libDirs.begin(), m_options.libDirs.end()); const auto pcFilePaths = getPcFilePaths(allSearchPaths); for (const auto &pcFilePath : pcFilePaths) { if (m_options.disableUninstalled) { if (pcFilePath.find("-uninstalled.pc") != std::string::npos) continue; } auto pkg = parser.parsePackageFile(pcFilePath); pkg.visit([&](auto &value) { using T = std::decay_t; if constexpr (std::is_same_v) { // NOLINT value = std::move(value) // Weird, but pkg-config removes libs first and only then appends // sysroot. Looks like sysroot has to be used with // allowSystemLibraryPaths: true .removeSystemLibraryPaths(systemLibraryPaths) .prependSysroot(m_options.sysroot); } }); result.emplace_back(std::move(pkg)); } if (m_options.mergeDependencies) result = mergeDependencies(result); const auto lessThanPackage = [](const PcPackageVariant &lhs, const PcPackageVariant &rhs) { return lhs.getBaseFileName() < rhs.getBaseFileName(); }; std::sort(result.begin(), result.end(), lessThanPackage); return result; } } // namespace qbs