/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include "cmFileMonitor.h" #include #include #include #include #include namespace { void on_directory_change(uv_fs_event_t* handle, const char* filename, int events, int status); void on_fs_close(uv_handle_t* handle); } // namespace class cmIBaseWatcher { public: cmIBaseWatcher() = default; virtual ~cmIBaseWatcher() = default; virtual void Trigger(const std::string& pathSegment, int events, int status) const = 0; virtual std::string Path() const = 0; virtual uv_loop_t* Loop() const = 0; virtual void StartWatching() = 0; virtual void StopWatching() = 0; virtual std::vector WatchedFiles() const = 0; virtual std::vector WatchedDirectories() const = 0; }; class cmVirtualDirectoryWatcher : public cmIBaseWatcher { public: ~cmVirtualDirectoryWatcher() override { for (auto i : this->Children) { delete i.second; } } cmIBaseWatcher* Find(const std::string& ps) { const auto i = this->Children.find(ps); return (i == this->Children.end()) ? nullptr : i->second; } void Trigger(const std::string& pathSegment, int events, int status) const final { if (pathSegment.empty()) { for (const auto& i : this->Children) { i.second->Trigger(std::string(), events, status); } } else { const auto i = this->Children.find(pathSegment); if (i != this->Children.end()) { i->second->Trigger(std::string(), events, status); } } } void StartWatching() override { for (const auto& i : this->Children) { i.second->StartWatching(); } } void StopWatching() override { for (const auto& i : this->Children) { i.second->StopWatching(); } } std::vector WatchedFiles() const final { std::vector result; for (const auto& i : this->Children) { for (const auto& j : i.second->WatchedFiles()) { result.push_back(j); } } return result; } std::vector WatchedDirectories() const override { std::vector result; for (const auto& i : this->Children) { for (const auto& j : i.second->WatchedDirectories()) { result.push_back(j); } } return result; } void Reset() { for (auto c : this->Children) { delete c.second; } this->Children.clear(); } void AddChildWatcher(const std::string& ps, cmIBaseWatcher* watcher) { assert(!ps.empty()); assert(this->Children.find(ps) == this->Children.end()); assert(watcher); this->Children.emplace(std::make_pair(ps, watcher)); } private: std::unordered_map Children; // owned! }; // Root of all the different (on windows!) root directories: class cmRootWatcher : public cmVirtualDirectoryWatcher { public: cmRootWatcher(uv_loop_t* loop) : mLoop(loop) { assert(loop); } std::string Path() const final { assert(false); return std::string(); } uv_loop_t* Loop() const final { return this->mLoop; } private: uv_loop_t* const mLoop; // no ownership! }; // Real directories: class cmRealDirectoryWatcher : public cmVirtualDirectoryWatcher { public: cmRealDirectoryWatcher(cmVirtualDirectoryWatcher* p, const std::string& ps) : Parent(p) , PathSegment(ps) { assert(p); assert(!ps.empty()); p->AddChildWatcher(ps, this); } ~cmRealDirectoryWatcher() override { // Handle is freed via uv_handle_close callback! } void StartWatching() final { if (!this->Handle) { this->Handle = new uv_fs_event_t; uv_fs_event_init(this->Loop(), this->Handle); this->Handle->data = this; uv_fs_event_start(this->Handle, &on_directory_change, Path().c_str(), 0); } cmVirtualDirectoryWatcher::StartWatching(); } void StopWatching() final { if (this->Handle) { uv_fs_event_stop(this->Handle); uv_close(reinterpret_cast(this->Handle), &on_fs_close); this->Handle = nullptr; } cmVirtualDirectoryWatcher::StopWatching(); } uv_loop_t* Loop() const final { return this->Parent->Loop(); } std::vector WatchedDirectories() const override { std::vector result = { Path() }; for (const auto& j : cmVirtualDirectoryWatcher::WatchedDirectories()) { result.push_back(j); } return result; } protected: cmVirtualDirectoryWatcher* const Parent; const std::string PathSegment; private: uv_fs_event_t* Handle = nullptr; // owner! }; // Root directories: class cmRootDirectoryWatcher : public cmRealDirectoryWatcher { public: cmRootDirectoryWatcher(cmRootWatcher* p, const std::string& ps) : cmRealDirectoryWatcher(p, ps) { } std::string Path() const final { return this->PathSegment; } }; // Normal directories below root: class cmDirectoryWatcher : public cmRealDirectoryWatcher { public: cmDirectoryWatcher(cmRealDirectoryWatcher* p, const std::string& ps) : cmRealDirectoryWatcher(p, ps) { } std::string Path() const final { return this->Parent->Path() + this->PathSegment + "/"; } }; class cmFileWatcher : public cmIBaseWatcher { public: cmFileWatcher(cmRealDirectoryWatcher* p, const std::string& ps, cmFileMonitor::Callback cb) : Parent(p) , PathSegment(ps) , CbList({ cb }) { assert(p); assert(!ps.empty()); p->AddChildWatcher(ps, this); } void StartWatching() final {} void StopWatching() final {} void AppendCallback(cmFileMonitor::Callback cb) { CbList.push_back(cb); } std::string Path() const final { return this->Parent->Path() + this->PathSegment; } std::vector WatchedDirectories() const final { return {}; } std::vector WatchedFiles() const final { return { this->Path() }; } void Trigger(const std::string& ps, int events, int status) const final { assert(ps.empty()); assert(status == 0); static_cast(ps); const std::string path = this->Path(); for (const auto& cb : this->CbList) { cb(path, events, status); } } uv_loop_t* Loop() const final { return this->Parent->Loop(); } private: cmRealDirectoryWatcher* Parent; const std::string PathSegment; std::vector CbList; }; namespace { void on_directory_change(uv_fs_event_t* handle, const char* filename, int events, int status) { const cmIBaseWatcher* const watcher = static_cast(handle->data); const std::string pathSegment(filename); watcher->Trigger(pathSegment, events, status); } void on_fs_close(uv_handle_t* handle) { delete reinterpret_cast(handle); } } // namespace cmFileMonitor::cmFileMonitor(uv_loop_t* l) : Root(new cmRootWatcher(l)) { } cmFileMonitor::~cmFileMonitor() { delete this->Root; } void cmFileMonitor::MonitorPaths(const std::vector& paths, Callback cb) { for (const auto& p : paths) { std::vector pathSegments; cmsys::SystemTools::SplitPath(p, pathSegments, true); const size_t segmentCount = pathSegments.size(); if (segmentCount < 2) { // Expect at least rootdir and filename continue; } cmVirtualDirectoryWatcher* currentWatcher = this->Root; for (size_t i = 0; i < segmentCount; ++i) { assert(currentWatcher); const bool fileSegment = (i == segmentCount - 1); const bool rootSegment = (i == 0); assert( !(fileSegment && rootSegment)); // Can not be both filename and root part of the path! const std::string& currentSegment = pathSegments[i]; cmIBaseWatcher* nextWatcher = currentWatcher->Find(currentSegment); if (!nextWatcher) { if (rootSegment) { // Root part assert(currentWatcher == this->Root); nextWatcher = new cmRootDirectoryWatcher(this->Root, currentSegment); assert(currentWatcher->Find(currentSegment) == nextWatcher); } else if (fileSegment) { // File part assert(currentWatcher != this->Root); nextWatcher = new cmFileWatcher( dynamic_cast(currentWatcher), currentSegment, cb); assert(currentWatcher->Find(currentSegment) == nextWatcher); } else { // Any normal directory in between nextWatcher = new cmDirectoryWatcher( dynamic_cast(currentWatcher), currentSegment); assert(currentWatcher->Find(currentSegment) == nextWatcher); } } else { if (fileSegment) { auto filePtr = dynamic_cast(nextWatcher); assert(filePtr); filePtr->AppendCallback(cb); continue; } } currentWatcher = dynamic_cast(nextWatcher); } } this->Root->StartWatching(); } void cmFileMonitor::StopMonitoring() { this->Root->StopWatching(); this->Root->Reset(); } std::vector cmFileMonitor::WatchedFiles() const { std::vector result; if (this->Root) { result = this->Root->WatchedFiles(); } return result; } std::vector cmFileMonitor::WatchedDirectories() const { std::vector result; if (this->Root) { result = this->Root->WatchedDirectories(); } return result; }