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|
/* 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 <algorithm>
#include <cassert>
#include <cstdio>
#include <deque>
#include <functional>
#include <iterator>
#include <sstream>
#include <utility>
#include <cm/optional>
#include <cmext/string_view>
#include "cmsys/Directory.hxx"
#include "cmsys/FStream.hxx"
#include "cmsys/Glob.hxx"
#include "cmsys/RegularExpression.hxx"
#include "cmsys/String.h"
#include "cmAlgorithms.h"
#include "cmDependencyProvider.h"
#include "cmList.h"
#include "cmListFileCache.h"
#include "cmMakefile.h"
#include "cmMessageType.h"
#include "cmPolicies.h"
#include "cmRange.h"
#include "cmSearchPath.h"
#include "cmState.h"
#include "cmStateTypes.h"
#include "cmStringAlgorithms.h"
#include "cmSystemTools.h"
#include "cmValue.h"
#include "cmVersion.h"
#include "cmWindowsRegistry.h"
#if defined(__HAIKU__)
# include <FindDirectory.h>
# include <StorageDefs.h>
#endif
#if defined(_WIN32) && !defined(__CYGWIN__)
# include <windows.h>
// 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
#endif
class cmExecutionStatus;
namespace {
template <template <typename> class Op>
struct StrverscmpOp
{
bool operator()(const std::string& lhs, const std::string& rhs) const
{
return Op<int>()(cmSystemTools::strverscmp(lhs, rhs), 0);
}
};
std::size_t collectPathsForDebug(std::string& buffer,
cmSearchPath const& searchPath,
std::size_t const startIndex = 0)
{
const auto& paths = searchPath.GetPaths();
if (paths.empty()) {
buffer += " none\n";
return 0;
}
for (auto i = startIndex; i < paths.size(); i++) {
buffer += " " + paths[i].Path + "\n";
}
return paths.size();
}
#if !(defined(_WIN32) && !defined(__CYGWIN__))
class cmFindPackageCommandHoldFile
{
const char* File;
public:
cmFindPackageCommandHoldFile(const char* const f)
: File(f)
{
}
~cmFindPackageCommandHoldFile()
{
if (this->File) {
cmSystemTools::RemoveFile(this->File);
}
}
cmFindPackageCommandHoldFile(const cmFindPackageCommandHoldFile&) = delete;
cmFindPackageCommandHoldFile& operator=(
const cmFindPackageCommandHoldFile&) = delete;
void Release() { this->File = nullptr; }
};
#endif
bool isDirentryToIgnore(const char* const fname)
{
assert(fname != nullptr);
assert(fname[0] != 0);
return fname[0] == '.' &&
(fname[1] == 0 || (fname[1] == '.' && fname[2] == 0));
}
class cmAppendPathSegmentGenerator
{
public:
cmAppendPathSegmentGenerator(cm::string_view dirName)
: DirName{ dirName }
{
}
std::string GetNextCandidate(const std::string& parent)
{
if (this->NeedReset) {
return {};
}
this->NeedReset = true;
return cmStrCat(parent, '/', this->DirName);
}
void Reset() { this->NeedReset = false; }
private:
const cm::string_view DirName;
bool NeedReset = false;
};
class cmEnumPathSegmentsGenerator
{
public:
cmEnumPathSegmentsGenerator(const std::vector<cm::string_view>& init)
: Names{ init }
, Current{ this->Names.get().cbegin() }
{
}
std::string GetNextCandidate(const std::string& parent)
{
if (this->Current != this->Names.get().cend()) {
return cmStrCat(parent, '/', *this->Current++);
}
return {};
}
void Reset() { this->Current = this->Names.get().cbegin(); }
private:
std::reference_wrapper<const std::vector<cm::string_view>> Names;
std::vector<cm::string_view>::const_iterator Current;
};
class cmCaseInsensitiveDirectoryListGenerator
{
public:
cmCaseInsensitiveDirectoryListGenerator(cm::string_view name)
: DirectoryLister{}
, DirName{ name }
{
}
std::string GetNextCandidate(const std::string& parent)
{
if (!this->Loaded) {
this->CurrentIdx = 0ul;
this->Loaded = true;
if (!this->DirectoryLister.Load(parent)) {
return {};
}
}
while (this->CurrentIdx < this->DirectoryLister.GetNumberOfFiles()) {
const char* const fname =
this->DirectoryLister.GetFile(this->CurrentIdx++);
if (isDirentryToIgnore(fname)) {
continue;
}
if (cmsysString_strcasecmp(fname, this->DirName.data()) == 0) {
auto candidate = cmStrCat(parent, '/', fname);
if (cmSystemTools::FileIsDirectory(candidate)) {
return candidate;
}
}
}
return {};
}
void Reset() { this->Loaded = false; }
private:
cmsys::Directory DirectoryLister;
const cm::string_view DirName;
unsigned long CurrentIdx = 0ul;
bool Loaded = false;
};
class cmDirectoryListGenerator
{
public:
cmDirectoryListGenerator(std::vector<std::string> const& names)
: Names{ names }
, Matches{}
, Current{ this->Matches.cbegin() }
{
}
virtual ~cmDirectoryListGenerator() = default;
std::string GetNextCandidate(const std::string& parent)
{
// Construct a list of matches if not yet
if (this->Matches.empty()) {
cmsys::Directory directoryLister;
// ALERT `Directory::Load()` keeps only names
// internally and LOST entry type from `dirent`.
// So, `Directory::FileIsDirectory` gonna use
// `SystemTools::FileIsDirectory()` and waste a syscall.
// TODO Need to enhance the `Directory` class.
directoryLister.Load(parent);
// ATTENTION Is it guaranteed that first two entries are
// `.` and `..`?
// TODO If so, just start with index 2 and drop the
// `isDirentryToIgnore(i)` condition to check.
for (auto i = 0ul; i < directoryLister.GetNumberOfFiles(); ++i) {
const char* const fname = directoryLister.GetFile(i);
if (isDirentryToIgnore(fname)) {
continue;
}
for (const auto& n : this->Names.get()) {
// NOTE Customization point for `cmMacProjectDirectoryListGenerator`
const auto name = this->TransformNameBeforeCmp(n);
// Skip entries that don't match and non-directories.
// ATTENTION BTW, original code also didn't check if it's a symlink
// to a directory!
const auto equal =
(cmsysString_strncasecmp(fname, name.c_str(), name.length()) == 0);
if (equal && directoryLister.FileIsDirectory(i)) {
this->Matches.emplace_back(fname);
}
}
}
// NOTE Customization point for `cmProjectDirectoryListGenerator`
this->OnMatchesLoaded();
this->Current = this->Matches.cbegin();
}
if (this->Current != this->Matches.cend()) {
auto candidate = cmStrCat(parent, '/', *this->Current++);
return candidate;
}
return {};
}
void Reset()
{
this->Matches.clear();
this->Current = this->Matches.cbegin();
}
protected:
virtual void OnMatchesLoaded() {}
virtual std::string TransformNameBeforeCmp(std::string same) { return same; }
std::reference_wrapper<const std::vector<std::string>> Names;
std::vector<std::string> Matches;
std::vector<std::string>::const_iterator Current;
};
class cmProjectDirectoryListGenerator : public cmDirectoryListGenerator
{
public:
cmProjectDirectoryListGenerator(std::vector<std::string> const& names,
cmFindPackageCommand::SortOrderType so,
cmFindPackageCommand::SortDirectionType sd)
: cmDirectoryListGenerator{ names }
, SortOrder{ so }
, SortDirection{ sd }
{
}
protected:
void OnMatchesLoaded() override
{
// check if there is a specific sorting order to perform
if (this->SortOrder != cmFindPackageCommand::None) {
cmFindPackageCommand::Sort(this->Matches.begin(), this->Matches.end(),
this->SortOrder, this->SortDirection);
}
}
private:
// sort parameters
const cmFindPackageCommand::SortOrderType SortOrder;
const cmFindPackageCommand::SortDirectionType SortDirection;
};
class cmMacProjectDirectoryListGenerator : public cmDirectoryListGenerator
{
public:
cmMacProjectDirectoryListGenerator(const std::vector<std::string>& names,
cm::string_view ext)
: cmDirectoryListGenerator{ names }
, Extension{ ext }
{
}
protected:
std::string TransformNameBeforeCmp(std::string name) override
{
return cmStrCat(name, this->Extension);
}
private:
const cm::string_view Extension;
};
class cmFileListGeneratorGlob
{
public:
cmFileListGeneratorGlob(cm::string_view pattern)
: Pattern(pattern)
, Files{}
, Current{}
{
}
std::string GetNextCandidate(const std::string& parent)
{
if (this->Files.empty()) {
// Glob the set of matching files.
std::string expr = cmStrCat(parent, this->Pattern);
cmsys::Glob g;
if (!g.FindFiles(expr)) {
return {};
}
this->Files = g.GetFiles();
this->Current = this->Files.cbegin();
}
// Skip non-directories
for (; this->Current != this->Files.cend() &&
!cmSystemTools::FileIsDirectory(*this->Current);
++this->Current) {
}
return (this->Current != this->Files.cend()) ? *this->Current++
: std::string{};
}
void Reset()
{
this->Files.clear();
this->Current = this->Files.cbegin();
}
private:
cm::string_view Pattern;
std::vector<std::string> Files;
std::vector<std::string>::const_iterator Current;
};
#if defined(__LCC__)
# define CM_LCC_DIAG_SUPPRESS_1222
# pragma diag_suppress 1222 // invalid error number (3288, but works anyway)
# define CM_LCC_DIAG_SUPPRESS_3288
# pragma diag_suppress 3288 // parameter was declared but never referenced
# define CM_LCC_DIAG_SUPPRESS_3301
# pragma diag_suppress 3301 // parameter was declared but never referenced
# define CM_LCC_DIAG_SUPPRESS_3308
# pragma diag_suppress 3308 // parameter was declared but never referenced
#endif
void ResetGenerator()
{
}
template <typename Generator>
void ResetGenerator(Generator&& generator)
{
std::forward<Generator&&>(generator).Reset();
}
template <typename Generator, typename... Generators>
void ResetGenerator(Generator&& generator, Generators&&... generators)
{
ResetGenerator(std::forward<Generator&&>(generator));
ResetGenerator(std::forward<Generators&&>(generators)...);
}
template <typename CallbackFn>
bool TryGeneratedPaths(CallbackFn&& filesCollector,
const std::string& fullPath)
{
assert(!fullPath.empty() && fullPath.back() != '/');
return std::forward<CallbackFn&&>(filesCollector)(fullPath + '/');
}
template <typename CallbackFn, typename Generator, typename... Rest>
bool TryGeneratedPaths(CallbackFn&& filesCollector,
const std::string& startPath, Generator&& gen,
Rest&&... tail)
{
ResetGenerator(std::forward<Generator&&>(gen));
for (auto path = gen.GetNextCandidate(startPath); !path.empty();
path = gen.GetNextCandidate(startPath)) {
ResetGenerator(std::forward<Rest&&>(tail)...);
if (TryGeneratedPaths(std::forward<CallbackFn&&>(filesCollector), path,
std::forward<Rest&&>(tail)...)) {
return true;
}
}
return false;
}
#ifdef CM_LCC_DIAG_SUPPRESS_3308
# undef CM_LCC_DIAG_SUPPRESS_3308
# pragma diag_default 3308
#endif
#ifdef CM_LCC_DIAG_SUPPRESS_3301
# undef CM_LCC_DIAG_SUPPRESS_3301
# pragma diag_default 3301
#endif
#ifdef CM_LCC_DIAG_SUPPRESS_3288
# undef CM_LCC_DIAG_SUPPRESS_3288
# pragma diag_default 3288
#endif
#ifdef CM_LCC_DIAG_SUPPRESS_1222
# undef CM_LCC_DIAG_SUPPRESS_1222
# pragma diag_default 1222
#endif
// Parse the version number and store the results that were
// successfully parsed.
int parseVersion(const std::string& version, unsigned int& major,
unsigned int& minor, unsigned int& patch, unsigned int& tweak)
{
return std::sscanf(version.c_str(), "%u.%u.%u.%u", &major, &minor, &patch,
&tweak);
}
} // anonymous namespace
class cmFindPackageCommand::FlushDebugBufferOnExit
{
cmFindPackageCommand& Command;
public:
FlushDebugBufferOnExit(cmFindPackageCommand& command)
: Command(command)
{
}
~FlushDebugBufferOnExit()
{
if (!Command.DebugBuffer.empty()) {
Command.DebugMessage(Command.DebugBuffer);
}
}
};
class cmFindPackageCommand::PushPopRootPathStack
{
cmFindPackageCommand& Command;
public:
PushPopRootPathStack(cmFindPackageCommand& command)
: Command(command)
{
Command.PushFindPackageRootPathStack();
}
~PushPopRootPathStack() { Command.PopFindPackageRootPathStack(); }
};
class cmFindPackageCommand::SetRestoreFindDefinitions
{
cmFindPackageCommand& Command;
public:
SetRestoreFindDefinitions(
cmFindPackageCommand& command, const std::string& components,
const std::vector<std::pair<std::string, const char*>>& componentVarDefs)
: Command(command)
{
Command.SetModuleVariables(components, componentVarDefs);
}
~SetRestoreFindDefinitions() { Command.RestoreFindDefinitions(); }
};
cmFindPackageCommand::PathLabel
cmFindPackageCommand::PathLabel::PackageRedirect("PACKAGE_REDIRECT");
cmFindPackageCommand::PathLabel cmFindPackageCommand::PathLabel::UserRegistry(
"PACKAGE_REGISTRY");
cmFindPackageCommand::PathLabel cmFindPackageCommand::PathLabel::Builds(
"BUILDS");
cmFindPackageCommand::PathLabel
cmFindPackageCommand::PathLabel::SystemRegistry("SYSTEM_PACKAGE_REGISTRY");
const cm::string_view cmFindPackageCommand::VERSION_ENDPOINT_INCLUDED(
"INCLUDE");
const cm::string_view cmFindPackageCommand::VERSION_ENDPOINT_EXCLUDED(
"EXCLUDE");
void cmFindPackageCommand::Sort(std::vector<std::string>::iterator begin,
std::vector<std::string>::iterator end,
SortOrderType const order,
SortDirectionType const dir)
{
if (order == Name_order) {
if (dir == Dec) {
std::sort(begin, end, std::greater<std::string>());
} 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, StrverscmpOp<std::greater>());
} else {
std::sort(begin, end, StrverscmpOp<std::less>());
}
}
// else do not sort
}
cmFindPackageCommand::cmFindPackageCommand(cmExecutionStatus& status)
: cmFindCommon(status)
, VersionRangeMin(VERSION_ENDPOINT_INCLUDED)
, VersionRangeMax(VERSION_ENDPOINT_INCLUDED)
{
this->CMakePathName = "PACKAGE";
this->DebugMode = false;
this->AppendSearchPathGroups();
this->DeprecatedFindModules["CUDA"] = cmPolicies::CMP0146;
this->DeprecatedFindModules["Dart"] = cmPolicies::CMP0145;
this->DeprecatedFindModules["PythonInterp"] = cmPolicies::CMP0148;
this->DeprecatedFindModules["PythonLibs"] = cmPolicies::CMP0148;
this->DeprecatedFindModules["Qt"] = cmPolicies::CMP0084;
}
void cmFindPackageCommand::AppendSearchPathGroups()
{
// Update the All group with new paths. Note that package redirection must
// take precedence over everything else, so it has to be first in the array.
std::vector<cmFindCommon::PathLabel>* const labels =
&this->PathGroupLabelMap[PathGroup::All];
labels->insert(labels->begin(), PathLabel::PackageRedirect);
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::PackageRedirect, cmSearchPath(this)));
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<std::string> const& args)
{
if (args.empty()) {
this->SetError("called with incorrect number of arguments");
return false;
}
// Lookup required version of CMake.
if (cmValue const rv =
this->Makefile->GetDefinition("CMAKE_MINIMUM_REQUIRED_VERSION")) {
unsigned int v[3] = { 0, 0, 0 };
std::sscanf(rv->c_str(), "%u.%u.%u", &v[0], &v[1], &v[2]);
this->RequiredCMakeVersion = CMake_VERSION_ENCODE(v[0], v[1], v[2]);
}
// Lookup target architecture, if any.
if (cmValue const 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
// The `CMAKE_FIND_USE_PACKAGE_REGISTRY` has
// priority over the deprecated CMAKE_FIND_PACKAGE_NO_PACKAGE_REGISTRY
if (cmValue const def =
this->Makefile->GetDefinition("CMAKE_FIND_USE_PACKAGE_REGISTRY")) {
this->NoUserRegistry = !cmIsOn(*def);
} else if (this->Makefile->IsOn("CMAKE_FIND_PACKAGE_NO_PACKAGE_REGISTRY")) {
this->NoUserRegistry = true;
}
// Check if System Package Registry should be disabled
// The `CMAKE_FIND_USE_SYSTEM_PACKAGE_REGISTRY` has
// priority over the deprecated CMAKE_FIND_PACKAGE_NO_SYSTEM_PACKAGE_REGISTRY
if (cmValue const def = this->Makefile->GetDefinition(
"CMAKE_FIND_USE_SYSTEM_PACKAGE_REGISTRY")) {
this->NoSystemRegistry = !cmIsOn(*def);
} else if (this->Makefile->IsOn(
"CMAKE_FIND_PACKAGE_NO_SYSTEM_PACKAGE_REGISTRY")) {
this->NoSystemRegistry = true;
}
// Check whether we should resolve symlinks when finding packages
if (this->Makefile->IsOn("CMAKE_FIND_PACKAGE_RESOLVE_SYMLINKS")) {
this->UseRealPath = true;
}
// Check if Sorting should be enabled
if (cmValue const so =
this->Makefile->GetDefinition("CMAKE_FIND_PACKAGE_SORT_ORDER")) {
if (*so == "NAME") {
this->SortOrder = Name_order;
} else if (*so == "NATURAL") {
this->SortOrder = Natural;
} else {
this->SortOrder = None;
}
}
if (cmValue const sd =
this->Makefile->GetDefinition("CMAKE_FIND_PACKAGE_SORT_DIRECTION")) {
this->SortDirection = (*sd == "ASC") ? Asc : Dec;
}
// Find what search path locations have been enabled/disable
this->SelectDefaultSearchModes();
// 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<std::string> requiredComponents;
std::set<std::string> optionalComponents;
std::vector<std::pair<std::string, const char*>> componentVarDefs;
bool bypassProvider = false;
// Always search directly in a generated path.
this->SearchPathSuffixes.emplace_back();
// Process debug mode
cmMakefile::DebugFindPkgRAII debugFindPkgRAII(this->Makefile, this->Name);
this->DebugMode = this->ComputeIfDebugModeWanted();
// Parse the arguments.
enum Doing
{
DoingNone,
DoingComponents,
DoingOptionalComponents,
DoingNames,
DoingPaths,
DoingPathSuffixes,
DoingConfigs,
DoingHints
};
Doing doing = DoingNone;
cmsys::RegularExpression versionRegex(
R"V(^([0-9]+(\.[0-9]+)*)(\.\.\.(<?)([0-9]+(\.[0-9]+)*))?$)V");
bool haveVersion = false;
std::vector<std::size_t> configArgs;
std::vector<std::size_t> moduleArgs;
for (std::size_t i = 1u; i < args.size(); ++i) {
if (args[i] == "QUIET") {
this->Quiet = true;
doing = DoingNone;
} else if (args[i] == "BYPASS_PROVIDER") {
bypassProvider = true;
doing = DoingNone;
} else if (args[i] == "EXACT") {
this->VersionExact = true;
doing = DoingNone;
} else if (args[i] == "GLOBAL") {
this->GlobalScope = true;
doing = DoingNone;
} else if (args[i] == "MODULE") {
moduleArgs.push_back(i);
doing = DoingNone;
// XXX(clang-tidy): https://bugs.llvm.org/show_bug.cgi?id=44165
// NOLINTNEXTLINE(bugprone-branch-clone)
} else if (args[i] == "CONFIG") {
configArgs.push_back(i);
doing = DoingNone;
// XXX(clang-tidy): https://bugs.llvm.org/show_bug.cgi?id=44165
// NOLINTNEXTLINE(bugprone-branch-clone)
} else if (args[i] == "NO_MODULE") {
configArgs.push_back(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.push_back(i);
doing = DoingNames;
} else if (args[i] == "PATHS") {
configArgs.push_back(i);
doing = DoingPaths;
} else if (args[i] == "HINTS") {
configArgs.push_back(i);
doing = DoingHints;
} else if (args[i] == "PATH_SUFFIXES") {
configArgs.push_back(i);
doing = DoingPathSuffixes;
} else if (args[i] == "CONFIGS") {
configArgs.push_back(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.push_back(i);
doing = DoingNone;
} else if (args[i] == "NO_CMAKE_SYSTEM_PACKAGE_REGISTRY") {
this->NoSystemRegistry = true;
configArgs.push_back(i);
doing = DoingNone;
// XXX(clang-tidy): https://bugs.llvm.org/show_bug.cgi?id=44165
// NOLINTNEXTLINE(bugprone-branch-clone)
} else if (args[i] == "NO_CMAKE_BUILDS_PATH") {
// Ignore legacy option.
configArgs.push_back(i);
doing = DoingNone;
} else if (args[i] == "REGISTRY_VIEW") {
if (++i == args.size()) {
this->SetError("missing required argument for \"REGISTRY_VIEW\"");
return false;
}
auto view = cmWindowsRegistry::ToView(args[i]);
if (view) {
this->RegistryView = *view;
this->RegistryViewDefined = true;
} else {
this->SetError(
cmStrCat("given invalid value for \"REGISTRY_VIEW\": ", args[i]));
return false;
}
} else if (this->CheckCommonArgument(args[i])) {
configArgs.push_back(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]);
}
componentVarDefs.emplace_back(this->Name + "_FIND_REQUIRED_" + args[i],
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") {
this->SetError(cmStrCat(
"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."));
return false;
}
this->Configs.push_back(args[i]);
} else if (!haveVersion && versionRegex.find(args[i])) {
haveVersion = true;
this->VersionComplete = args[i];
} else {
this->SetError(
cmStrCat("called with invalid argument \"", args[i], "\""));
return false;
}
}
if (!this->GlobalScope) {
cmValue value(
this->Makefile->GetDefinition("CMAKE_FIND_PACKAGE_TARGETS_GLOBAL"));
this->GlobalScope = value.IsOn();
}
std::vector<std::string> doubledComponents;
std::set_intersection(requiredComponents.begin(), requiredComponents.end(),
optionalComponents.begin(), optionalComponents.end(),
std::back_inserter(doubledComponents));
if (!doubledComponents.empty()) {
this->SetError(
cmStrCat("called with components that are both required and "
"optional:\n",
cmWrap(" ", doubledComponents, "", "\n"), "\n"));
return false;
}
// Check and eliminate search modes not allowed by the args provided
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 (auto si : moduleArgs) {
e << " " << args[si] << "\n";
}
e << "and options exclusive to Config mode:\n";
for (auto si : configArgs) {
e << " " << args[si] << "\n";
}
e << "The options are incompatible.";
this->SetError(e.str());
return false;
}
// Ignore EXACT with no version.
if (this->VersionComplete.empty() && this->VersionExact) {
this->VersionExact = false;
this->Makefile->IssueMessage(
MessageType::AUTHOR_WARNING,
"Ignoring EXACT since no version is requested.");
}
if (this->VersionComplete.empty() || components.empty()) {
// Check whether we are recursing inside "Find<name>.cmake" within
// another find_package(<name>) call.
std::string const mod = cmStrCat(this->Name, "_FIND_MODULE");
if (this->Makefile->IsOn(mod)) {
if (this->VersionComplete.empty()) {
// Get version information from the outer call if necessary.
// Requested version string.
std::string const ver = cmStrCat(this->Name, "_FIND_VERSION_COMPLETE");
this->VersionComplete = this->Makefile->GetSafeDefinition(ver);
// Whether an exact version is required.
std::string const exact = cmStrCat(this->Name, "_FIND_VERSION_EXACT");
this->VersionExact = this->Makefile->IsOn(exact);
}
if (components.empty()) {
std::string const components_var = this->Name + "_FIND_COMPONENTS";
components = this->Makefile->GetSafeDefinition(components_var);
}
}
}
// fill various parts of version specification
if (!this->VersionComplete.empty()) {
if (!versionRegex.find(this->VersionComplete)) {
this->SetError("called with invalid version specification.");
return false;
}
this->Version = versionRegex.match(1);
this->VersionMax = versionRegex.match(5);
if (versionRegex.match(4) == "<"_s) {
this->VersionRangeMax = VERSION_ENDPOINT_EXCLUDED;
}
if (!this->VersionMax.empty()) {
this->VersionRange = this->VersionComplete;
}
}
if (!this->VersionRange.empty()) {
// version range must not be empty
if ((this->VersionRangeMax == VERSION_ENDPOINT_INCLUDED &&
cmSystemTools::VersionCompareGreater(this->Version,
this->VersionMax)) ||
(this->VersionRangeMax == VERSION_ENDPOINT_EXCLUDED &&
cmSystemTools::VersionCompareGreaterEq(this->Version,
this->VersionMax))) {
this->SetError("specified version range is empty.");
return false;
}
}
if (this->VersionExact && !this->VersionRange.empty()) {
this->SetError("EXACT cannot be specified with a version range.");
return false;
}
if (!this->Version.empty()) {
this->VersionCount =
parseVersion(this->Version, this->VersionMajor, this->VersionMinor,
this->VersionPatch, this->VersionTweak);
}
if (!this->VersionMax.empty()) {
this->VersionMaxCount = parseVersion(
this->VersionMax, this->VersionMaxMajor, this->VersionMaxMinor,
this->VersionMaxPatch, this->VersionMaxTweak);
}
const std::string makePackageRequiredVar =
cmStrCat("CMAKE_REQUIRE_FIND_PACKAGE_", this->Name);
const bool makePackageRequiredSet =
this->Makefile->IsOn(makePackageRequiredVar);
if (makePackageRequiredSet) {
if (this->Required) {
this->Makefile->IssueMessage(
MessageType::WARNING,
cmStrCat("for module ", this->Name,
" already called with REQUIRED, thus ",
makePackageRequiredVar, " has no effect."));
} else {
this->Required = true;
}
}
std::string const disableFindPackageVar =
cmStrCat("CMAKE_DISABLE_FIND_PACKAGE_", this->Name);
if (this->Makefile->IsOn(disableFindPackageVar)) {
if (this->Required) {
this->SetError(
cmStrCat("for module ", this->Name,
(makePackageRequiredSet
? " was made REQUIRED with " + makePackageRequiredVar
: " called with REQUIRED, "),
" but ", disableFindPackageVar,
" is enabled. A REQUIRED package cannot be disabled."));
return false;
}
return true;
}
// Now choose what method(s) we will use to satisfy the request. Note that
// we still want all the above checking of arguments, etc. regardless of the
// method used. This will ensure ill-formed arguments are caught earlier,
// before things like dependency providers need to deal with them.
// A dependency provider (if set) gets first look before other methods.
// We do this before modifying the package root path stack because a
// provider might use methods that ignore that.
cmState* const state = this->Makefile->GetState();
cmState::Command const providerCommand = state->GetDependencyProviderCommand(
cmDependencyProvider::Method::FindPackage);
if (bypassProvider) {
if (this->DebugMode && providerCommand) {
this->DebugMessage(
"BYPASS_PROVIDER given, skipping dependency provider");
}
} else if (providerCommand) {
if (this->DebugMode) {
this->DebugMessage(cmStrCat("Trying dependency provider command: ",
state->GetDependencyProvider()->GetCommand(),
"()"));
}
std::vector<cmListFileArgument> listFileArgs(args.size() + 1);
listFileArgs[0] =
cmListFileArgument("FIND_PACKAGE", cmListFileArgument::Unquoted, 0);
std::transform(args.begin(), args.end(), listFileArgs.begin() + 1,
[](const std::string& arg) {
return cmListFileArgument(arg,
cmListFileArgument::Bracket, 0);
});
if (!providerCommand(listFileArgs, this->Status)) {
return false;
}
if (this->Makefile->IsOn(cmStrCat(this->Name, "_FOUND"))) {
if (this->DebugMode) {
this->DebugMessage("Package was found by the dependency provider");
}
this->AppendSuccessInformation();
return true;
}
}
// Limit package nesting depth well below the recursion depth limit because
// find_package nesting uses more stack space than normal recursion.
{
static std::size_t const findPackageDepthMinMax = 100;
std::size_t const findPackageDepthMax = std::max(
this->Makefile->GetRecursionDepthLimit() / 2, findPackageDepthMinMax);
std::size_t const findPackageDepth =
this->Makefile->FindPackageRootPathStack.size() + 1;
if (findPackageDepth > findPackageDepthMax) {
this->SetError(cmStrCat("maximum nesting depth of ", findPackageDepthMax,
" exceeded."));
return false;
}
}
// RAII objects to ensure we leave this function with consistent state
FlushDebugBufferOnExit flushDebugBufferOnExit(*this);
PushPopRootPathStack pushPopRootPathStack(*this);
SetRestoreFindDefinitions setRestoreFindDefinitions(*this, components,
componentVarDefs);
cmMakefile::FindPackageStackRAII findPackageStackRAII(this->Makefile,
this->Name);
// See if we have been told to delegate to FetchContent or some other
// redirected config package first. We have to check all names that
// find_package() may look for, but only need to invoke the override for the
// first one that matches.
auto overrideNames = this->Names;
if (overrideNames.empty()) {
overrideNames.push_back(this->Name);
}
bool forceConfigMode = false;
const auto redirectsDir =
this->Makefile->GetSafeDefinition("CMAKE_FIND_PACKAGE_REDIRECTS_DIR");
for (const auto& overrideName : overrideNames) {
const auto nameLower = cmSystemTools::LowerCase(overrideName);
const auto delegatePropName =
cmStrCat("_FetchContent_", nameLower, "_override_find_package");
const cmValue delegateToFetchContentProp =
this->Makefile->GetState()->GetGlobalProperty(delegatePropName);
if (delegateToFetchContentProp.IsOn()) {
// When this property is set, the FetchContent module has already been
// included at least once, so we know the FetchContent_MakeAvailable()
// command will be defined. Any future find_package() calls after this
// one for this package will by-pass this once-only delegation.
// The following call will typically create a <name>-config.cmake file
// in the redirectsDir, which we still want to process like any other
// config file to ensure we follow normal find_package() processing.
cmListFileFunction func(
"FetchContent_MakeAvailable", 0, 0,
{ cmListFileArgument(overrideName, cmListFileArgument::Unquoted, 0) });
if (!this->Makefile->ExecuteCommand(func, this->Status)) {
return false;
}
}
if (cmSystemTools::FileExists(
cmStrCat(redirectsDir, '/', nameLower, "-config.cmake")) ||
cmSystemTools::FileExists(
cmStrCat(redirectsDir, '/', overrideName, "Config.cmake"))) {
// Force the use of this redirected config package file, regardless of
// the type of find_package() call. Files in the redirectsDir must always
// take priority over everything else.
forceConfigMode = true;
this->UseConfigFiles = true;
this->UseFindModules = false;
this->Names.clear();
this->Names.emplace_back(overrideName); // Force finding this one
this->Variable = cmStrCat(this->Name, "_DIR");
this->SetConfigDirCacheVariable(redirectsDir);
break;
}
}
// See if there is a Find<PackageName>.cmake module.
bool loadedPackage = false;
if (forceConfigMode) {
loadedPackage = this->FindPackageUsingConfigMode();
} else if (this->Makefile->IsOn("CMAKE_FIND_PACKAGE_PREFER_CONFIG")) {
if (this->UseConfigFiles && this->FindPackageUsingConfigMode()) {
loadedPackage = true;
} else {
if (this->FindPackageUsingModuleMode()) {
loadedPackage = true;
} else {
// The package was not loaded. Report errors.
if (this->HandlePackageMode(HandlePackageModeType::Module)) {
loadedPackage = true;
}
}
}
} else {
if (this->UseFindModules && this->FindPackageUsingModuleMode()) {
loadedPackage = true;
} else {
// Handle CMAKE_FIND_PACKAGE_WARN_NO_MODULE (warn when CONFIG mode is
// implicitly assumed)
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(MessageType::AUTHOR_WARNING, aw.str());
}
if (this->FindPackageUsingConfigMode()) {
loadedPackage = true;
}
}
}
this->AppendSuccessInformation();
return loadedPackage;
}
bool cmFindPackageCommand::FindPackageUsingModuleMode()
{
bool foundModule = false;
if (!this->FindModule(foundModule)) {
return false;
}
return foundModule;
}
bool cmFindPackageCommand::FindPackageUsingConfigMode()
{
this->Variable = cmStrCat(this->Name, "_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 = cmStrCat(n, "Config.cmake");
this->Configs.push_back(config);
config = cmStrCat(cmSystemTools::LowerCase(n), "-config.cmake");
this->Configs.push_back(std::move(config));
}
}
// get igonored paths from vars and reroot them.
std::vector<std::string> ignored;
this->GetIgnoredPaths(ignored);
this->RerootPaths(ignored);
// Construct a set of ignored paths
this->IgnoredPaths.clear();
this->IgnoredPaths.insert(ignored.begin(), ignored.end());
// get igonored prefix paths from vars and reroot them.
std::vector<std::string> ignoredPrefixes;
this->GetIgnoredPrefixPaths(ignoredPrefixes);
this->RerootPaths(ignoredPrefixes);
// Construct a set of ignored prefix paths
this->IgnoredPrefixPaths.clear();
this->IgnoredPrefixPaths.insert(ignoredPrefixes.begin(),
ignoredPrefixes.end());
// Find and load the package.
return this->HandlePackageMode(HandlePackageModeType::Config);
}
void cmFindPackageCommand::SetVersionVariables(
const std::function<void(const std::string&, cm::string_view)>&
addDefinition,
const std::string& prefix, const std::string& version,
const unsigned int count, const unsigned int major, const unsigned int minor,
const unsigned int patch, const unsigned int tweak)
{
addDefinition(prefix, version);
char buf[64];
snprintf(buf, sizeof(buf), "%u", major);
addDefinition(prefix + "_MAJOR", buf);
snprintf(buf, sizeof(buf), "%u", minor);
addDefinition(prefix + "_MINOR", buf);
snprintf(buf, sizeof(buf), "%u", patch);
addDefinition(prefix + "_PATCH", buf);
snprintf(buf, sizeof(buf), "%u", tweak);
addDefinition(prefix + "_TWEAK", buf);
snprintf(buf, sizeof(buf), "%u", count);
addDefinition(prefix + "_COUNT", buf);
}
void cmFindPackageCommand::SetModuleVariables(
const std::string& components,
const std::vector<std::pair<std::string, const char*>>& componentVarDefs)
{
this->AddFindDefinition("CMAKE_FIND_PACKAGE_NAME", this->Name);
// Store the list of components and associated variable definitions
std::string components_var = this->Name + "_FIND_COMPONENTS";
this->AddFindDefinition(components_var, components);
for (const auto& varDef : componentVarDefs) {
this->AddFindDefinition(varDef.first, varDef.second);
}
if (this->Quiet) {
// Tell the module that is about to be read that it should find
// quietly.
std::string quietly = cmStrCat(this->Name, "_FIND_QUIETLY");
this->AddFindDefinition(quietly, "1"_s);
}
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 = cmStrCat(this->Name, "_FIND_REQUIRED");
this->AddFindDefinition(req, "1"_s);
}
if (!this->VersionComplete.empty()) {
std::string req = cmStrCat(this->Name, "_FIND_VERSION_COMPLETE");
this->AddFindDefinition(req, this->VersionComplete);
}
// Tell the module that is about to be read what version of the
// package has been requested.
auto addDefinition = [this](const std::string& variable,
cm::string_view value) {
this->AddFindDefinition(variable, value);
};
if (!this->Version.empty()) {
auto prefix = cmStrCat(this->Name, "_FIND_VERSION"_s);
this->SetVersionVariables(addDefinition, prefix, this->Version,
this->VersionCount, this->VersionMajor,
this->VersionMinor, this->VersionPatch,
this->VersionTweak);
// Tell the module whether an exact version has been requested.
auto exact = cmStrCat(this->Name, "_FIND_VERSION_EXACT");
this->AddFindDefinition(exact, this->VersionExact ? "1"_s : "0"_s);
}
if (!this->VersionRange.empty()) {
auto prefix = cmStrCat(this->Name, "_FIND_VERSION_MIN"_s);
this->SetVersionVariables(addDefinition, prefix, this->Version,
this->VersionCount, this->VersionMajor,
this->VersionMinor, this->VersionPatch,
this->VersionTweak);
prefix = cmStrCat(this->Name, "_FIND_VERSION_MAX"_s);
this->SetVersionVariables(addDefinition, prefix, this->VersionMax,
this->VersionMaxCount, this->VersionMaxMajor,
this->VersionMaxMinor, this->VersionMaxPatch,
this->VersionMaxTweak);
auto id = cmStrCat(this->Name, "_FIND_VERSION_RANGE");
this->AddFindDefinition(id, this->VersionRange);
id = cmStrCat(this->Name, "_FIND_VERSION_RANGE_MIN");
this->AddFindDefinition(id, this->VersionRangeMin);
id = cmStrCat(this->Name, "_FIND_VERSION_RANGE_MAX");
this->AddFindDefinition(id, this->VersionRangeMax);
}
if (this->RegistryViewDefined) {
this->AddFindDefinition(cmStrCat(this->Name, "_FIND_REGISTRY_VIEW"),
cmWindowsRegistry::FromView(this->RegistryView));
}
}
void cmFindPackageCommand::AddFindDefinition(const std::string& var,
const cm::string_view value)
{
if (cmValue 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, value);
}
void cmFindPackageCommand::RestoreFindDefinitions()
{
for (auto const& i : this->OriginalDefs) {
OriginalDef const& od = i.second;
if (od.exists) {
this->Makefile->AddDefinition(i.first, od.value);
} else {
this->Makefile->RemoveDefinition(i.first);
}
}
}
bool cmFindPackageCommand::FindModule(bool& found)
{
std::string moduleFileName = cmStrCat("Find", this->Name, ".cmake");
bool system = false;
std::string debugBuffer = cmStrCat(
"find_package considered the following paths for ", moduleFileName, ":\n");
std::string mfile = this->Makefile->GetModulesFile(
moduleFileName, system, this->DebugMode, debugBuffer);
if (this->DebugMode) {
if (mfile.empty()) {
debugBuffer = cmStrCat(debugBuffer, "The file was not found.\n");
} else {
debugBuffer =
cmStrCat(debugBuffer, "The file was found at\n ", mfile, "\n");
}
this->DebugBuffer = cmStrCat(this->DebugBuffer, debugBuffer);
}
if (!mfile.empty()) {
if (system) {
auto const it = this->DeprecatedFindModules.find(this->Name);
if (it != this->DeprecatedFindModules.end()) {
cmPolicies::PolicyStatus status =
this->Makefile->GetPolicyStatus(it->second);
switch (status) {
case cmPolicies::WARN: {
this->Makefile->IssueMessage(
MessageType::AUTHOR_WARNING,
cmStrCat(cmPolicies::GetPolicyWarning(it->second), "\n"));
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 "<name>_FIND_MODULE" to true
// while inside it.
found = true;
std::string const var = cmStrCat(this->Name, "_FIND_MODULE");
this->Makefile->AddDefinition(var, "1");
bool result = this->ReadListFile(mfile, DoPolicyScope);
this->Makefile->RemoveDefinition(var);
if (this->DebugMode) {
std::string const foundVar = cmStrCat(this->Name, "_FOUND");
if (this->Makefile->IsDefinitionSet(foundVar) &&
!this->Makefile->IsOn(foundVar)) {
this->DebugBuffer = cmStrCat(
this->DebugBuffer, "The module is considered not found due to ",
foundVar, " being FALSE.");
}
}
return result;
}
return true;
}
bool cmFindPackageCommand::HandlePackageMode(
const HandlePackageModeType handlePackageModeType)
{
this->ConsideredConfigs.clear();
// Try to find the config file.
cmValue def = this->Makefile->GetDefinition(this->Variable);
// Try to load the config file if the directory is known
bool fileFound = false;
if (this->UseConfigFiles) {
if (!cmIsOff(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 (cmIsOff(def) || !fileFound) {
fileFound = this->FindConfig();
}
// Sanity check.
if (fileFound && this->FileFound.empty()) {
this->Makefile->IssueMessage(
MessageType::INTERNAL_ERROR,
"fileFound is true but FileFound is empty!");
fileFound = false;
}
}
std::string const foundVar = cmStrCat(this->Name, "_FOUND");
std::string const notFoundMessageVar =
cmStrCat(this->Name, "_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, 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;
}
}
if (this->UseFindModules && !found &&
handlePackageModeType == HandlePackageModeType::Config &&
this->Makefile->IsOn("CMAKE_FIND_PACKAGE_PREFER_CONFIG")) {
// Config mode failed. Allow Module case.
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()) {
auto 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->VersionRange.empty() ? "" : "range ") << "\""
<< this->VersionComplete
<< "\".\n"
"The following configuration files were considered but not "
"accepted:\n";
for (ConfigFileInfo const& info :
cmMakeRange(this->ConsideredConfigs.cbegin(), duplicate_end)) {
e << " " << info.filename << ", version: " << info.version << "\n";
}
} else {
std::string requestedVersionString;
if (!this->VersionComplete.empty()) {
requestedVersionString =
cmStrCat(" (requested version ", this->VersionComplete, ')');
}
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 ? MessageType::FATAL_ERROR
: MessageType::WARNING,
e.str());
if (this->Required) {
cmSystemTools::SetFatalErrorOccurred();
}
if (!aw.str().empty()) {
this->Makefile->IssueMessage(MessageType::AUTHOR_WARNING, aw.str());
}
}
// output result if in config mode but not in quiet mode
else if (!this->Quiet) {
this->Makefile->DisplayStatus(cmStrCat("Could NOT find ", this->Name,
" (missing: ", this->Name,
"_DIR)"),
-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 const fileVar = cmStrCat(this->Name, "_CONFIG");
if (found) {
this->Makefile->AddDefinition(fileVar, this->FileFound);
} else {
this->Makefile->RemoveDefinition(fileVar);
}
std::string const consideredConfigsVar =
cmStrCat(this->Name, "_CONSIDERED_CONFIGS");
std::string const consideredVersionsVar =
cmStrCat(this->Name, "_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);
this->Makefile->AddDefinition(consideredVersionsVar, consideredVersions);
return result;
}
bool cmFindPackageCommand::FindConfig()
{
// Compute the set of search prefixes.
this->ComputePrefixes();
// Look for the project's configuration file.
bool found = false;
if (this->DebugMode) {
this->DebugBuffer = cmStrCat(this->DebugBuffer,
"find_package considered the following "
"locations for ",
this->Name, "'s Config module:\n");
}
// 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();
}
if (this->DebugMode) {
if (found) {
this->DebugBuffer = cmStrCat(
this->DebugBuffer, "The file was found at\n ", this->FileFound, "\n");
} else {
this->DebugBuffer =
cmStrCat(this->DebugBuffer, "The file was not found.\n");
}
}
// 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";
}
// We force the value since we do not get here if it was already set.
this->SetConfigDirCacheVariable(init);
return found;
}
void cmFindPackageCommand::SetConfigDirCacheVariable(const std::string& value)
{
std::string const help =
cmStrCat("The directory containing a CMake configuration file for ",
this->Name, '.');
this->Makefile->AddCacheDefinition(this->Variable, value, help,
cmStateEnums::PATH, true);
if (this->Makefile->GetPolicyStatus(cmPolicies::CMP0126) ==
cmPolicies::NEW &&
this->Makefile->IsNormalDefinitionSet(this->Variable)) {
this->Makefile->AddDefinition(this->Variable, value);
}
}
bool cmFindPackageCommand::FindPrefixedConfig()
{
std::vector<std::string> const& prefixes = this->SearchPaths;
return std::any_of(
prefixes.begin(), prefixes.end(),
[this](std::string const& p) -> bool { return this->SearchPrefix(p); });
}
bool cmFindPackageCommand::FindFrameworkConfig()
{
std::vector<std::string> const& prefixes = this->SearchPaths;
return std::any_of(prefixes.begin(), prefixes.end(),
[this](std::string const& p) -> bool {
return this->SearchFrameworkPrefix(p);
});
}
bool cmFindPackageCommand::FindAppBundleConfig()
{
std::vector<std::string> const& prefixes = this->SearchPaths;
return std::any_of(prefixes.begin(), prefixes.end(),
[this](std::string const& p) -> bool {
return this->SearchAppBundlePrefix(p);
});
}
bool cmFindPackageCommand::ReadListFile(const std::string& f,
const PolicyScopeRule psr)
{
const bool noPolicyScope = !this->PolicyScope || psr == NoPolicyScope;
using ITScope = cmMakefile::ImportedTargetScope;
ITScope scope = this->GlobalScope ? ITScope::Global : ITScope::Local;
cmMakefile::SetGlobalTargetImportScope globScope(this->Makefile, scope);
if (this->Makefile->ReadDependentFile(f, noPolicyScope)) {
return true;
}
std::string const e = cmStrCat("Error reading CMake code from \"", f, "\".");
this->SetError(e);
return false;
}
void cmFindPackageCommand::AppendToFoundProperty(const bool found)
{
cmList foundContents;
cmValue foundProp =
this->Makefile->GetState()->GetGlobalProperty("PACKAGES_FOUND");
if (!foundProp.IsEmpty()) {
foundContents.assign(*foundProp);
foundContents.remove_items({ this->Name });
}
cmList notFoundContents;
cmValue notFoundProp =
this->Makefile->GetState()->GetGlobalProperty("PACKAGES_NOT_FOUND");
if (!notFoundProp.IsEmpty()) {
notFoundContents.assign(*notFoundProp);
notFoundContents.remove_items({ this->Name });
}
if (found) {
foundContents.push_back(this->Name);
} else {
notFoundContents.push_back(this->Name);
}
this->Makefile->GetState()->SetGlobalProperty("PACKAGES_FOUND",
foundContents.to_string());
this->Makefile->GetState()->SetGlobalProperty("PACKAGES_NOT_FOUND",
notFoundContents.to_string());
}
void cmFindPackageCommand::AppendSuccessInformation()
{
{
std::string const transitivePropName =
cmStrCat("_CMAKE_", this->Name, "_TRANSITIVE_DEPENDENCY");
this->Makefile->GetState()->SetGlobalProperty(transitivePropName, "False");
}
std::string const found = cmStrCat(this->Name, "_FOUND");
std::string const upperFound = cmSystemTools::UpperCase(found);
bool const upperResult = this->Makefile->IsOn(upperFound);
bool const result = this->Makefile->IsOn(found);
bool const packageFound = (result || upperResult);
this->AppendToFoundProperty(packageFound);
// Record whether the find was quiet or not, so this can be used
// e.g. in FeatureSummary.cmake
std::string const quietInfoPropName =
cmStrCat("_CMAKE_", this->Name, "_QUIET");
this->Makefile->GetState()->SetGlobalProperty(
quietInfoPropName, this->Quiet ? "TRUE" : "FALSE");
// set a global property to record the required version of this package
std::string const versionInfoPropName =
cmStrCat("_CMAKE_", this->Name, "_REQUIRED_VERSION");
std::string versionInfo;
if (!this->VersionRange.empty()) {
versionInfo = this->VersionRange;
} else if (!this->Version.empty()) {
versionInfo =
cmStrCat(this->VersionExact ? "==" : ">=", ' ', this->Version);
}
this->Makefile->GetState()->SetGlobalProperty(versionInfoPropName,
versionInfo);
if (this->Required) {
std::string const requiredInfoPropName =
cmStrCat("_CMAKE_", this->Name, "_TYPE");
this->Makefile->GetState()->SetGlobalProperty(requiredInfoPropName,
"REQUIRED");
}
}
void cmFindPackageCommand::PushFindPackageRootPathStack()
{
// Allocate a PACKAGE_ROOT_PATH for the current find_package call.
this->Makefile->FindPackageRootPathStack.emplace_back();
std::vector<std::string>& rootPaths =
this->Makefile->FindPackageRootPathStack.back();
// Add root paths from <PackageName>_ROOT CMake and environment variables,
// subject to CMP0074.
std::string const rootVar = this->Name + "_ROOT";
cmValue rootDef = this->Makefile->GetDefinition(rootVar);
if (rootDef && rootDef.IsEmpty()) {
rootDef = nullptr;
}
cm::optional<std::string> rootEnv = cmSystemTools::GetEnvVar(rootVar);
if (rootEnv && rootEnv->empty()) {
rootEnv = cm::nullopt;
}
switch (this->Makefile->GetPolicyStatus(cmPolicies::CMP0074)) {
case cmPolicies::WARN:
this->Makefile->MaybeWarnCMP0074(rootVar, rootDef, rootEnv);
CM_FALLTHROUGH;
case cmPolicies::OLD:
// OLD behavior is to ignore the <PackageName>_ROOT variables.
return;
case cmPolicies::REQUIRED_IF_USED:
case cmPolicies::REQUIRED_ALWAYS:
this->Makefile->IssueMessage(
MessageType::FATAL_ERROR,
cmPolicies::GetRequiredPolicyError(cmPolicies::CMP0074));
return;
case cmPolicies::NEW: {
// NEW behavior is to honor the <PackageName>_ROOT variables.
} break;
}
// Add root paths from <PACKAGENAME>_ROOT CMake and environment variables,
// if they are different than <PackageName>_ROOT, and subject to CMP0144.
std::string const rootVAR = cmSystemTools::UpperCase(rootVar);
cmValue rootDEF;
cm::optional<std::string> rootENV;
if (rootVAR != rootVar) {
rootDEF = this->Makefile->GetDefinition(rootVAR);
if (rootDEF && (rootDEF.IsEmpty() || rootDEF == rootDef)) {
rootDEF = nullptr;
}
rootENV = cmSystemTools::GetEnvVar(rootVAR);
if (rootENV && (rootENV->empty() || rootENV == rootEnv)) {
rootENV = cm::nullopt;
}
}
switch (this->Makefile->GetPolicyStatus(cmPolicies::CMP0144)) {
case cmPolicies::WARN:
this->Makefile->MaybeWarnCMP0144(rootVAR, rootDEF, rootENV);
CM_FALLTHROUGH;
case cmPolicies::OLD:
// OLD behavior is to ignore the <PACKAGENAME>_ROOT variables.
rootDEF = nullptr;
rootENV = cm::nullopt;
break;
case cmPolicies::REQUIRED_IF_USED:
case cmPolicies::REQUIRED_ALWAYS:
this->Makefile->IssueMessage(
MessageType::FATAL_ERROR,
cmPolicies::GetRequiredPolicyError(cmPolicies::CMP0144));
return;
case cmPolicies::NEW: {
// NEW behavior is to honor the <PACKAGENAME>_ROOT variables.
} break;
}
if (rootDef) {
cmExpandList(*rootDef, rootPaths);
}
if (rootDEF) {
cmExpandList(*rootDEF, rootPaths);
}
if (rootEnv) {
std::vector<std::string> p = cmSystemTools::SplitEnvPath(*rootEnv);
std::move(p.begin(), p.end(), std::back_inserter(rootPaths));
}
if (rootENV) {
std::vector<std::string> p = cmSystemTools::SplitEnvPath(*rootENV);
std::move(p.begin(), p.end(), std::back_inserter(rootPaths));
}
}
void cmFindPackageCommand::PopFindPackageRootPathStack()
{
this->Makefile->FindPackageRootPathStack.pop_back();
}
void cmFindPackageCommand::ComputePrefixes()
{
this->FillPrefixesPackageRedirect();
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(IgnorePaths::No);
}
void cmFindPackageCommand::FillPrefixesPackageRedirect()
{
cmSearchPath& paths = this->LabeledPaths[PathLabel::PackageRedirect];
const auto redirectDir =
this->Makefile->GetDefinition("CMAKE_FIND_PACKAGE_REDIRECTS_DIR");
if (redirectDir && !redirectDir->empty()) {
paths.AddPath(*redirectDir);
}
if (this->DebugMode) {
std::string debugBuffer =
"The internally managed CMAKE_FIND_PACKAGE_REDIRECTS_DIR.\n";
collectPathsForDebug(debugBuffer, paths);
this->DebugBuffer = cmStrCat(this->DebugBuffer, debugBuffer);
}
}
void cmFindPackageCommand::FillPrefixesPackageRoot()
{
cmSearchPath& paths = this->LabeledPaths[PathLabel::PackageRoot];
// Add the PACKAGE_ROOT_PATH from each enclosing find_package call.
for (auto pkgPaths = this->Makefile->FindPackageRootPathStack.rbegin();
pkgPaths != this->Makefile->FindPackageRootPathStack.rend();
++pkgPaths) {
for (std::string const& path : *pkgPaths) {
paths.AddPath(path);
}
}
if (this->DebugMode) {
std::string debugBuffer = "<PackageName>_ROOT CMake variable "
"[CMAKE_FIND_USE_PACKAGE_ROOT_PATH].\n";
collectPathsForDebug(debugBuffer, paths);
this->DebugBuffer = cmStrCat(this->DebugBuffer, debugBuffer);
}
}
void cmFindPackageCommand::FillPrefixesCMakeEnvironment()
{
cmSearchPath& paths = this->LabeledPaths[PathLabel::CMakeEnvironment];
std::string debugBuffer;
std::size_t debugOffset = 0;
// Check the environment variable with the same name as the cache
// entry.
paths.AddEnvPath(this->Variable);
if (this->DebugMode) {
debugBuffer = cmStrCat("Env variable ", this->Variable,
" [CMAKE_FIND_USE_CMAKE_ENVIRONMENT_PATH].\n");
debugOffset = collectPathsForDebug(debugBuffer, paths);
}
// And now the general CMake environment variables
paths.AddEnvPath("CMAKE_PREFIX_PATH");
if (this->DebugMode) {
debugBuffer = cmStrCat(debugBuffer,
"CMAKE_PREFIX_PATH env variable "
"[CMAKE_FIND_USE_CMAKE_ENVIRONMENT_PATH].\n");
debugOffset = collectPathsForDebug(debugBuffer, paths, debugOffset);
}
paths.AddEnvPath("CMAKE_FRAMEWORK_PATH");
paths.AddEnvPath("CMAKE_APPBUNDLE_PATH");
if (this->DebugMode) {
debugBuffer =
cmStrCat(debugBuffer,
"CMAKE_FRAMEWORK_PATH and CMAKE_APPBUNDLE_PATH env "
"variables [CMAKE_FIND_USE_CMAKE_ENVIRONMENT_PATH].\n");
collectPathsForDebug(debugBuffer, paths, debugOffset);
this->DebugBuffer = cmStrCat(this->DebugBuffer, debugBuffer);
}
}
void cmFindPackageCommand::FillPrefixesCMakeVariable()
{
cmSearchPath& paths = this->LabeledPaths[PathLabel::CMake];
std::string debugBuffer;
std::size_t debugOffset = 0;
paths.AddCMakePath("CMAKE_PREFIX_PATH");
if (this->DebugMode) {
debugBuffer = "CMAKE_PREFIX_PATH variable [CMAKE_FIND_USE_CMAKE_PATH].\n";
debugOffset = collectPathsForDebug(debugBuffer, paths);
}
paths.AddCMakePath("CMAKE_FRAMEWORK_PATH");
paths.AddCMakePath("CMAKE_APPBUNDLE_PATH");
if (this->DebugMode) {
debugBuffer =
cmStrCat(debugBuffer,
"CMAKE_FRAMEWORK_PATH and CMAKE_APPBUNDLE_PATH variables "
"[CMAKE_FIND_USE_CMAKE_PATH].\n");
collectPathsForDebug(debugBuffer, paths, debugOffset);
this->DebugBuffer = cmStrCat(this->DebugBuffer, debugBuffer);
}
}
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<std::string> 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);
}
}
if (this->DebugMode) {
std::string debugBuffer = "Standard system environment variables "
"[CMAKE_FIND_USE_SYSTEM_ENVIRONMENT_PATH].\n";
collectPathsForDebug(debugBuffer, paths);
this->DebugBuffer = cmStrCat(this->DebugBuffer, debugBuffer);
}
}
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 = cmStrCat(dir, "/cmake/packages/", 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
if (this->DebugMode) {
std::string debugBuffer =
"CMake User Package Registry [CMAKE_FIND_USE_PACKAGE_REGISTRY].\n";
collectPathsForDebug(debugBuffer,
this->LabeledPaths[PathLabel::UserRegistry]);
this->DebugBuffer = cmStrCat(this->DebugBuffer, debugBuffer);
}
}
void cmFindPackageCommand::FillPrefixesSystemRegistry()
{
if (this->NoSystemRegistry || this->NoDefaultPath) {
return;
}
#if defined(_WIN32) && !defined(__CYGWIN__)
this->LoadPackageRegistryWinSystem();
#endif
if (this->DebugMode) {
std::string debugBuffer =
"CMake System Package Registry "
"[CMAKE_FIND_PACKAGE_NO_SYSTEM_PACKAGE_REGISTRY].\n";
collectPathsForDebug(debugBuffer,
this->LabeledPaths[PathLabel::SystemRegistry]);
this->DebugBuffer = cmStrCat(this->DebugBuffer, debugBuffer);
}
}
#if defined(_WIN32) && !defined(__CYGWIN__)
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(const bool user,
const unsigned int view,
cmSearchPath& outPaths)
{
std::wstring key = L"Software\\Kitware\\CMake\\Packages\\";
key += cmsys::Encoding::ToWide(this->Name);
std::set<std::wstring> 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<wchar_t> data(512);
bool done = false;
DWORD index = 0;
while (!done) {
DWORD nameSize = static_cast<DWORD>(sizeof(name));
DWORD dataSize = static_cast<DWORD>(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
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 = cmStrCat(dir, '/', 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];
const bool install_prefix_in_list =
!this->Makefile->IsOn("CMAKE_FIND_NO_INSTALL_PREFIX");
const bool remove_install_prefix = this->NoCMakeInstallPath;
const bool add_install_prefix = !this->NoCMakeInstallPath &&
this->Makefile->IsDefinitionSet("CMAKE_FIND_USE_INSTALL_PREFIX");
// We have 3 possible states for `CMAKE_SYSTEM_PREFIX_PATH` and
// `CMAKE_INSTALL_PREFIX`.
// Either we need to remove `CMAKE_INSTALL_PREFIX`, add
// `CMAKE_INSTALL_PREFIX`, or do nothing.
//
// When we need to remove `CMAKE_INSTALL_PREFIX` we remove the Nth occurrence
// of `CMAKE_INSTALL_PREFIX` from `CMAKE_SYSTEM_PREFIX_PATH`, where `N` is
// computed by `CMakeSystemSpecificInformation.cmake` while constructing
// `CMAKE_SYSTEM_PREFIX_PATH`. This ensures that if projects / toolchains
// have removed `CMAKE_INSTALL_PREFIX` from the list, we don't remove
// some other entry by mistake
long install_prefix_count = -1;
std::string install_path_to_remove;
if (cmValue to_skip = this->Makefile->GetDefinition(
"_CMAKE_SYSTEM_PREFIX_PATH_INSTALL_PREFIX_COUNT")) {
cmStrToLong(*to_skip, &install_prefix_count);
}
if (cmValue install_value = this->Makefile->GetDefinition(
"_CMAKE_SYSTEM_PREFIX_PATH_INSTALL_PREFIX_VALUE")) {
install_path_to_remove = *install_value;
}
if (remove_install_prefix && install_prefix_in_list &&
install_prefix_count > 0 && !install_path_to_remove.empty()) {
cmValue prefix_paths =
this->Makefile->GetDefinition("CMAKE_SYSTEM_PREFIX_PATH");
// remove entry from CMAKE_SYSTEM_PREFIX_PATH
cmList expanded{ *prefix_paths };
long count = 0;
for (const auto& path : expanded) {
bool const to_add =
!(path == install_path_to_remove && ++count == install_prefix_count);
if (to_add) {
paths.AddPath(path);
}
}
} else if (add_install_prefix && !install_prefix_in_list) {
paths.AddCMakePath("CMAKE_INSTALL_PREFIX");
paths.AddCMakePath("CMAKE_SYSTEM_PREFIX_PATH");
} else {
// Otherwise the current setup of `CMAKE_SYSTEM_PREFIX_PATH` is correct
paths.AddCMakePath("CMAKE_SYSTEM_PREFIX_PATH");
}
paths.AddCMakePath("CMAKE_SYSTEM_FRAMEWORK_PATH");
paths.AddCMakePath("CMAKE_SYSTEM_APPBUNDLE_PATH");
if (this->DebugMode) {
std::string debugBuffer = "CMake variables defined in the Platform file "
"[CMAKE_FIND_USE_CMAKE_SYSTEM_PATH].\n";
collectPathsForDebug(debugBuffer, paths);
this->DebugBuffer = cmStrCat(this->DebugBuffer, debugBuffer);
}
}
void cmFindPackageCommand::FillPrefixesUserGuess()
{
cmSearchPath& paths = this->LabeledPaths[PathLabel::Guess];
for (std::string const& p : this->UserGuessArgs) {
paths.AddUserPath(p);
}
if (this->DebugMode) {
std::string debugBuffer =
"Paths specified by the find_package PATHS option.\n";
collectPathsForDebug(debugBuffer, paths);
this->DebugBuffer = cmStrCat(this->DebugBuffer, debugBuffer);
}
}
void cmFindPackageCommand::FillPrefixesUserHints()
{
cmSearchPath& paths = this->LabeledPaths[PathLabel::Hints];
for (std::string const& p : this->UserHintsArgs) {
paths.AddUserPath(p);
}
if (this->DebugMode) {
std::string debugBuffer =
"Paths specified by the find_package HINTS option.\n";
collectPathsForDebug(debugBuffer, paths);
this->DebugBuffer = cmStrCat(this->DebugBuffer, debugBuffer);
}
}
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 const 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 = cmStrCat(dir, '/', c);
if (this->DebugMode) {
this->DebugBuffer = cmStrCat(this->DebugBuffer, " ", file, "\n");
}
if (cmSystemTools::FileExists(file, true) && this->CheckVersion(file)) {
// Allow resolving symlinks when the config file is found through a link
if (this->UseRealPath) {
file = cmSystemTools::GetRealPath(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 = cmStrCat(version_file_base, "-version.cmake");
if (!haveResult && cmSystemTools::FileExists(version_file, true)) {
result = this->CheckVersionFile(version_file, version);
haveResult = true;
}
// Look for fooConfigVersion.cmake
version_file = cmStrCat(version_file_base, "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 const varScope(this->Makefile);
cmMakefile::PolicyPushPop const polScope(this->Makefile);
static_cast<void>(varScope);
static_cast<void>(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);
this->Makefile->AddDefinition("PACKAGE_FIND_VERSION_COMPLETE",
this->VersionComplete);
auto addDefinition = [this](const std::string& variable,
cm::string_view value) {
this->Makefile->AddDefinition(variable, value);
};
this->SetVersionVariables(addDefinition, "PACKAGE_FIND_VERSION",
this->Version, this->VersionCount,
this->VersionMajor, this->VersionMinor,
this->VersionPatch, this->VersionTweak);
if (!this->VersionRange.empty()) {
this->SetVersionVariables(addDefinition, "PACKAGE_FIND_VERSION_MIN",
this->Version, this->VersionCount,
this->VersionMajor, this->VersionMinor,
this->VersionPatch, this->VersionTweak);
this->SetVersionVariables(addDefinition, "PACKAGE_FIND_VERSION_MAX",
this->VersionMax, this->VersionMaxCount,
this->VersionMaxMajor, this->VersionMaxMinor,
this->VersionMaxPatch, this->VersionMaxTweak);
this->Makefile->AddDefinition("PACKAGE_FIND_VERSION_RANGE",
this->VersionComplete);
this->Makefile->AddDefinition("PACKAGE_FIND_VERSION_RANGE_MIN",
this->VersionRangeMin);
this->Makefile->AddDefinition("PACKAGE_FIND_VERSION_RANGE_MAX",
this->VersionRangeMax);
}
// 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, NoPolicyScope)) {
// Check the output variables.
bool okay = this->Makefile->IsOn("PACKAGE_VERSION_EXACT");
bool const 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 =
parseVersion(this->VersionFound, 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 const ver = cmStrCat(this->Name, "_VERSION");
auto addDefinition = [this](const std::string& variable,
cm::string_view value) {
this->Makefile->AddDefinition(variable, value);
};
this->SetVersionVariables(addDefinition, ver, this->VersionFound,
this->VersionFoundCount, this->VersionFoundMajor,
this->VersionFoundMinor, this->VersionFoundPatch,
this->VersionFoundTweak);
if (this->VersionFound.empty()) {
this->Makefile->RemoveDefinition(ver);
}
}
bool cmFindPackageCommand::SearchPrefix(std::string const& prefix_in)
{
assert(!prefix_in.empty() && prefix_in.back() == '/');
// Skip this if the prefix does not exist.
if (!cmSystemTools::FileIsDirectory(prefix_in)) {
return false;
}
// Skip this if it's in ignored paths.
std::string prefixWithoutSlash = prefix_in;
if (prefixWithoutSlash != "/" && prefixWithoutSlash.back() == '/') {
prefixWithoutSlash.erase(prefixWithoutSlash.length() - 1);
}
if (this->IgnoredPaths.count(prefixWithoutSlash) ||
this->IgnoredPrefixPaths.count(prefixWithoutSlash)) {
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 const prefix = prefix_in.substr(0, prefix_in.size() - 1);
auto searchFn = [this](const std::string& fullPath) -> bool {
return this->SearchDirectory(fullPath);
};
auto iCMakeGen = cmCaseInsensitiveDirectoryListGenerator{ "cmake"_s };
auto firstPkgDirGen =
cmProjectDirectoryListGenerator{ this->Names, this->SortOrder,
this->SortDirection };
// PREFIX/(cmake|CMake)/ (useful on windows or in build trees)
if (TryGeneratedPaths(searchFn, prefix, iCMakeGen)) {
return true;
}
// PREFIX/(Foo|foo|FOO).*/
if (TryGeneratedPaths(searchFn, prefix, firstPkgDirGen)) {
return true;
}
// PREFIX/(Foo|foo|FOO).*/(cmake|CMake)/
if (TryGeneratedPaths(searchFn, prefix, firstPkgDirGen, iCMakeGen)) {
return true;
}
auto secondPkgDirGen =
cmProjectDirectoryListGenerator{ this->Names, this->SortOrder,
this->SortDirection };
// PREFIX/(Foo|foo|FOO).*/(cmake|CMake)/(Foo|foo|FOO).*/
if (TryGeneratedPaths(searchFn, prefix, firstPkgDirGen, iCMakeGen,
secondPkgDirGen)) {
return true;
}
// Construct list of common install locations (lib and share).
std::vector<cm::string_view> common;
std::string libArch;
if (!this->LibraryArchitecture.empty()) {
libArch = "lib/" + this->LibraryArchitecture;
common.emplace_back(libArch);
}
if (this->UseLib32Paths) {
common.emplace_back("lib32"_s);
}
if (this->UseLib64Paths) {
common.emplace_back("lib64"_s);
}
if (this->UseLibx32Paths) {
common.emplace_back("libx32"_s);
}
common.emplace_back("lib"_s);
common.emplace_back("share"_s);
auto cmnGen = cmEnumPathSegmentsGenerator{ common };
auto cmakeGen = cmAppendPathSegmentGenerator{ "cmake"_s };
// PREFIX/(lib/ARCH|lib*|share)/cmake/(Foo|foo|FOO).*/
if (TryGeneratedPaths(searchFn, prefix, cmnGen, cmakeGen, firstPkgDirGen)) {
return true;
}
// PREFIX/(lib/ARCH|lib*|share)/(Foo|foo|FOO).*/
if (TryGeneratedPaths(searchFn, prefix, cmnGen, firstPkgDirGen)) {
return true;
}
// PREFIX/(lib/ARCH|lib*|share)/(Foo|foo|FOO).*/(cmake|CMake)/
if (TryGeneratedPaths(searchFn, prefix, cmnGen, firstPkgDirGen, iCMakeGen)) {
return true;
}
// PREFIX/(Foo|foo|FOO).*/(lib/ARCH|lib*|share)/cmake/(Foo|foo|FOO).*/
if (TryGeneratedPaths(searchFn, prefix, firstPkgDirGen, cmnGen, cmakeGen,
secondPkgDirGen)) {
return true;
}
// PREFIX/(Foo|foo|FOO).*/(lib/ARCH|lib*|share)/(Foo|foo|FOO).*/
if (TryGeneratedPaths(searchFn, prefix, firstPkgDirGen, cmnGen,
secondPkgDirGen)) {
return true;
}
// PREFIX/(Foo|foo|FOO).*/(lib/ARCH|lib*|share)/(Foo|foo|FOO).*/(cmake|CMake)/
return TryGeneratedPaths(searchFn, prefix, firstPkgDirGen, cmnGen,
secondPkgDirGen, iCMakeGen);
}
bool cmFindPackageCommand::SearchFrameworkPrefix(std::string const& prefix_in)
{
assert(!prefix_in.empty() && prefix_in.back() == '/');
// Strip the trailing slash because the path generator is about to
// add one.
std::string const prefix = prefix_in.substr(0, prefix_in.size() - 1);
auto searchFn = [this](const std::string& fullPath) -> bool {
return this->SearchDirectory(fullPath);
};
auto iCMakeGen = cmCaseInsensitiveDirectoryListGenerator{ "cmake"_s };
auto fwGen =
cmMacProjectDirectoryListGenerator{ this->Names, ".framework"_s };
auto rGen = cmAppendPathSegmentGenerator{ "Resources"_s };
auto vGen = cmAppendPathSegmentGenerator{ "Versions"_s };
auto grGen = cmFileListGeneratorGlob{ "/*/Resources"_s };
// <prefix>/Foo.framework/Resources/
if (TryGeneratedPaths(searchFn, prefix, fwGen, rGen)) {
return true;
}
// <prefix>/Foo.framework/Resources/CMake/
if (TryGeneratedPaths(searchFn, prefix, fwGen, rGen, iCMakeGen)) {
return true;
}
// <prefix>/Foo.framework/Versions/*/Resources/
if (TryGeneratedPaths(searchFn, prefix, fwGen, vGen, grGen)) {
return true;
}
// <prefix>/Foo.framework/Versions/*/Resources/CMake/
return TryGeneratedPaths(searchFn, prefix, fwGen, vGen, grGen, iCMakeGen);
}
bool cmFindPackageCommand::SearchAppBundlePrefix(std::string const& prefix_in)
{
assert(!prefix_in.empty() && prefix_in.back() == '/');
// Strip the trailing slash because the path generator is about to
// add one.
std::string const prefix = prefix_in.substr(0, prefix_in.size() - 1);
auto searchFn = [this](const std::string& fullPath) -> bool {
return this->SearchDirectory(fullPath);
};
auto appGen = cmMacProjectDirectoryListGenerator{ this->Names, ".app"_s };
auto crGen = cmAppendPathSegmentGenerator{ "Contents/Resources"_s };
// <prefix>/Foo.app/Contents/Resources
if (TryGeneratedPaths(searchFn, prefix, appGen, crGen)) {
return true;
}
// <prefix>/Foo.app/Contents/Resources/CMake
return TryGeneratedPaths(
searchFn, prefix, appGen, crGen,
cmCaseInsensitiveDirectoryListGenerator{ "cmake"_s });
}
// TODO: Debug cmsys::Glob double slash problem.
bool cmFindPackage(std::vector<std::string> const& args,
cmExecutionStatus& status)
{
return cmFindPackageCommand(status).InitialPass(args);
}
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