/* * Copyright 2003-2018 The Music Player Daemon Project * http://www.musicpd.org * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include "NfsStorage.hxx" #include "storage/StoragePlugin.hxx" #include "storage/StorageInterface.hxx" #include "storage/FileInfo.hxx" #include "storage/MemoryDirectoryReader.hxx" #include "lib/nfs/Blocking.hxx" #include "lib/nfs/Base.hxx" #include "lib/nfs/Lease.hxx" #include "lib/nfs/Connection.hxx" #include "lib/nfs/Glue.hxx" #include "fs/AllocatedPath.hxx" #include "thread/Mutex.hxx" #include "thread/Cond.hxx" #include "event/Loop.hxx" #include "event/Call.hxx" #include "event/DeferEvent.hxx" #include "event/TimerEvent.hxx" #include "util/ASCII.hxx" #include "util/StringCompare.hxx" extern "C" { #include #include } #include #include #include #include class NfsStorage final : public Storage, NfsLease { enum class State { INITIAL, CONNECTING, READY, DELAY, }; const std::string base; const std::string server, export_name; NfsConnection *connection; DeferEvent defer_connect; TimerEvent reconnect_timer; Mutex mutex; Cond cond; State state = State::INITIAL; std::exception_ptr last_exception; public: NfsStorage(EventLoop &_loop, const char *_base, std::string &&_server, std::string &&_export_name) :base(_base), server(std::move(_server)), export_name(std::move(_export_name)), defer_connect(_loop, BIND_THIS_METHOD(OnDeferredConnect)), reconnect_timer(_loop, BIND_THIS_METHOD(OnReconnectTimer)) { nfs_init(_loop); } ~NfsStorage() { BlockingCall(GetEventLoop(), [this](){ Disconnect(); }); nfs_finish(); } /* virtual methods from class Storage */ StorageFileInfo GetInfo(const char *uri_utf8, bool follow) override; std::unique_ptr OpenDirectory(const char *uri_utf8) override; std::string MapUTF8(const char *uri_utf8) const noexcept override; const char *MapToRelativeUTF8(const char *uri_utf8) const noexcept override; /* virtual methods from NfsLease */ void OnNfsConnectionReady() noexcept final { assert(state == State::CONNECTING); SetState(State::READY); } void OnNfsConnectionFailed(std::exception_ptr e) noexcept final { assert(state == State::CONNECTING); SetState(State::DELAY, std::move(e)); reconnect_timer.Schedule(std::chrono::minutes(1)); } void OnNfsConnectionDisconnected(std::exception_ptr e) noexcept final { assert(state == State::READY); SetState(State::DELAY, std::move(e)); reconnect_timer.Schedule(std::chrono::seconds(5)); } /* DeferEvent callback */ void OnDeferredConnect() noexcept { if (state == State::INITIAL) Connect(); } /* callback for #reconnect_timer */ void OnReconnectTimer() { assert(state == State::DELAY); Connect(); } private: EventLoop &GetEventLoop() noexcept { return defer_connect.GetEventLoop(); } void SetState(State _state) noexcept { assert(GetEventLoop().IsInside()); const std::lock_guard protect(mutex); state = _state; cond.broadcast(); } void SetState(State _state, std::exception_ptr &&e) noexcept { assert(GetEventLoop().IsInside()); const std::lock_guard protect(mutex); state = _state; last_exception = std::move(e); cond.broadcast(); } void Connect() noexcept { assert(state != State::READY); assert(GetEventLoop().IsInside()); connection = &nfs_get_connection(server.c_str(), export_name.c_str()); connection->AddLease(*this); SetState(State::CONNECTING); } void EnsureConnected() noexcept { if (state != State::READY) Connect(); } void WaitConnected() { const std::lock_guard protect(mutex); while (true) { switch (state) { case State::INITIAL: /* schedule connect */ mutex.unlock(); defer_connect.Schedule(); mutex.lock(); if (state == State::INITIAL) cond.wait(mutex); break; case State::CONNECTING: case State::READY: return; case State::DELAY: assert(last_exception); std::rethrow_exception(last_exception); } } } void Disconnect() noexcept { assert(!GetEventLoop().IsAlive() || GetEventLoop().IsInside()); switch (state) { case State::INITIAL: defer_connect.Cancel(); break; case State::CONNECTING: case State::READY: connection->RemoveLease(*this); SetState(State::INITIAL); break; case State::DELAY: reconnect_timer.Cancel(); SetState(State::INITIAL); break; } } }; static std::string UriToNfsPath(const char *_uri_utf8) { assert(_uri_utf8 != nullptr); /* libnfs paths must begin with a slash */ std::string uri_utf8("/"); uri_utf8.append(_uri_utf8); #ifdef _WIN32 /* assume UTF-8 when accessing NFS from Windows */ return uri_utf8; #else return AllocatedPath::FromUTF8Throw(uri_utf8.c_str()).Steal(); #endif } std::string NfsStorage::MapUTF8(const char *uri_utf8) const noexcept { assert(uri_utf8 != nullptr); if (StringIsEmpty(uri_utf8)) return base; return PathTraitsUTF8::Build(base.c_str(), uri_utf8); } const char * NfsStorage::MapToRelativeUTF8(const char *uri_utf8) const noexcept { return PathTraitsUTF8::Relative(base.c_str(), uri_utf8); } static void Copy(StorageFileInfo &info, const struct nfs_stat_64 &st) noexcept { if (S_ISREG(st.nfs_mode)) info.type = StorageFileInfo::Type::REGULAR; else if (S_ISDIR(st.nfs_mode)) info.type = StorageFileInfo::Type::DIRECTORY; else info.type = StorageFileInfo::Type::OTHER; info.size = st.nfs_size; info.mtime = std::chrono::system_clock::from_time_t(st.nfs_mtime); info.device = st.nfs_dev; info.inode = st.nfs_ino; } class NfsGetInfoOperation final : public BlockingNfsOperation { const char *const path; StorageFileInfo info; bool follow; public: NfsGetInfoOperation(NfsConnection &_connection, const char *_path, bool _follow) :BlockingNfsOperation(_connection), path(_path), follow(_follow) {} const StorageFileInfo &GetInfo() const { return info; } protected: void Start() override { if (follow) connection.Stat(path, *this); else connection.Lstat(path, *this); } void HandleResult(gcc_unused unsigned status, void *data) noexcept override { Copy(info, *(const struct nfs_stat_64 *)data); } }; StorageFileInfo NfsStorage::GetInfo(const char *uri_utf8, bool follow) { const std::string path = UriToNfsPath(uri_utf8); WaitConnected(); NfsGetInfoOperation operation(*connection, path.c_str(), follow); operation.Run(); return operation.GetInfo(); } gcc_pure static bool SkipNameFS(PathTraitsFS::const_pointer_type name) noexcept { return name[0] == '.' && (name[1] == 0 || (name[1] == '.' && name[2] == 0)); } static void Copy(StorageFileInfo &info, const struct nfsdirent &ent) { switch (ent.type) { case NF3REG: info.type = StorageFileInfo::Type::REGULAR; break; case NF3DIR: info.type = StorageFileInfo::Type::DIRECTORY; break; default: info.type = StorageFileInfo::Type::OTHER; break; } info.size = ent.size; info.mtime = std::chrono::system_clock::from_time_t(ent.mtime.tv_sec); info.device = 0; info.inode = ent.inode; } class NfsListDirectoryOperation final : public BlockingNfsOperation { const char *const path; MemoryStorageDirectoryReader::List entries; public: NfsListDirectoryOperation(NfsConnection &_connection, const char *_path) :BlockingNfsOperation(_connection), path(_path) {} std::unique_ptr ToReader() { return std::make_unique(std::move(entries)); } protected: void Start() override { connection.OpenDirectory(path, *this); } void HandleResult(gcc_unused unsigned status, void *data) noexcept override { struct nfsdir *const dir = (struct nfsdir *)data; CollectEntries(dir); connection.CloseDirectory(dir); } private: void CollectEntries(struct nfsdir *dir); }; inline void NfsListDirectoryOperation::CollectEntries(struct nfsdir *dir) { assert(entries.empty()); const struct nfsdirent *ent; while ((ent = connection.ReadDirectory(dir)) != nullptr) { #ifdef _WIN32 /* assume UTF-8 when accessing NFS from Windows */ const auto name_fs = AllocatedPath::FromUTF8Throw(ent->name); if (name_fs.IsNull()) continue; #else const Path name_fs = Path::FromFS(ent->name); #endif if (SkipNameFS(name_fs.c_str())) continue; try { entries.emplace_front(name_fs.ToUTF8Throw()); Copy(entries.front().info, *ent); } catch (...) { /* ignore files whose name cannot be converted to UTF-8 */ } } } std::unique_ptr NfsStorage::OpenDirectory(const char *uri_utf8) { const std::string path = UriToNfsPath(uri_utf8); WaitConnected(); NfsListDirectoryOperation operation(*connection, path.c_str()); operation.Run(); return operation.ToReader(); } static std::unique_ptr CreateNfsStorageURI(EventLoop &event_loop, const char *base) { const char *p = StringAfterPrefixCaseASCII(base, "nfs://"); if (p == nullptr) return nullptr; const char *mount = strchr(p, '/'); if (mount == nullptr) throw std::runtime_error("Malformed nfs:// URI"); const std::string server(p, mount); nfs_set_base(server.c_str(), mount); return std::make_unique(event_loop, base, server.c_str(), mount); } const StoragePlugin nfs_storage_plugin = { "nfs", CreateNfsStorageURI, };