/* vim:set ts=2 sw=2 sts=2 et: */ /** * \author Marcus Holland-Moritz (github@mhxnet.de) * \copyright Copyright (c) Marcus Holland-Moritz * * This file is part of dwarfs. * * dwarfs 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 3 of the License, or * (at your option) any later version. * * dwarfs 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 dwarfs. If not, see . */ #include #include #include #include #include #include #include #include #include #include #include #include #ifndef WIN32 #if __has_include() #define BOOST_PROCESS_VERSION 2 #include #else #define BOOST_PROCESS_VERSION 1 #include #endif #endif #include #include #include #include #include #ifndef DWARFS_FUSE_LOWLEVEL #define DWARFS_FUSE_LOWLEVEL 1 #endif #if FUSE_USE_VERSION >= 30 #if DWARFS_FUSE_LOWLEVEL #include #else #include #endif #else #include #if DWARFS_FUSE_LOWLEVEL #if __has_include() #include #else #include #endif #endif #endif #ifdef _WIN32 #include #include #define st_atime st_atim.tv_sec #define st_ctime st_ctim.tv_sec #define st_mtime st_mtim.tv_sec #define DWARFS_FSP_COMPAT #endif #include "dwarfs/error.h" #include "dwarfs/file_stat.h" #include "dwarfs/filesystem_v2.h" #include "dwarfs/fstypes.h" #include "dwarfs/iolayer.h" #include "dwarfs/iovec_read_buf.h" #include "dwarfs/library_dependencies.h" #include "dwarfs/logger.h" #include "dwarfs/metadata_v2.h" #include "dwarfs/mmap.h" #include "dwarfs/options.h" #include "dwarfs/os_access.h" #include "dwarfs/performance_monitor.h" #include "dwarfs/tool.h" #include "dwarfs/util.h" #include "dwarfs/version.h" #include "dwarfs/vfs_stat.h" #include "dwarfs_tool_main.h" namespace { #ifdef DWARFS_FSP_COMPAT using native_stat = struct ::fuse_stat; using native_statvfs = struct ::fuse_statvfs; using native_off_t = ::fuse_off_t; #else using native_stat = struct ::stat; using native_statvfs = struct ::statvfs; using native_off_t = ::off_t; #endif #ifdef _WIN32 FARPROC WINAPI delay_hook(unsigned dliNotify, PDelayLoadInfo pdli) { switch (dliNotify) { case dliFailLoadLib: std::cerr << "failed to load " << pdli->szDll << "\n"; break; case dliFailGetProc: std::cerr << "failed to load symbol from " << pdli->szDll << "\n"; break; default: return NULL; } ::exit(1); } #endif } // namespace #ifdef _WIN32 extern "C" const PfnDliHook __pfnDliFailureHook2 = delay_hook; #endif namespace dwarfs { namespace { constexpr size_t const kDefaultBlockSize{static_cast(512) << 10}; struct options { // std::string isn't standard-layout on MSVC // std::unique_ptr isn't standard-layout with libstdc++ std::shared_ptr fsimage; int seen_mountpoint{0}; char const* cachesize_str{nullptr}; // TODO: const?? -> use string? char const* blocksize_str{nullptr}; // TODO: const?? -> use string? char const* readahead_str{nullptr}; // TODO: const?? -> use string? char const* debuglevel_str{nullptr}; // TODO: const?? -> use string? char const* workers_str{nullptr}; // TODO: const?? -> use string? char const* mlock_str{nullptr}; // TODO: const?? -> use string? char const* decompress_ratio_str{nullptr}; // TODO: const?? -> use string? char const* image_offset_str{nullptr}; // TODO: const?? -> use string? char const* cache_tidy_strategy_str{nullptr}; // TODO: const?? -> use string? char const* cache_tidy_interval_str{nullptr}; // TODO: const?? -> use string? char const* cache_tidy_max_age_str{nullptr}; // TODO: const?? -> use string? #if DWARFS_PERFMON_ENABLED char const* perfmon_enabled_str{nullptr}; // TODO: const?? -> use string? #endif int enable_nlink{0}; int readonly{0}; int cache_image{0}; int cache_files{0}; size_t cachesize{0}; size_t blocksize{0}; size_t readahead{0}; size_t workers{0}; mlock_mode lock_mode{mlock_mode::NONE}; double decompress_ratio{0.0}; logger_options logopts{}; cache_tidy_strategy block_cache_tidy_strategy{cache_tidy_strategy::NONE}; std::chrono::milliseconds block_cache_tidy_interval{std::chrono::minutes(5)}; std::chrono::milliseconds block_cache_tidy_max_age{std::chrono::minutes{10}}; bool is_help{false}; #ifdef DWARFS_BUILTIN_MANPAGE bool is_man{false}; #endif }; static_assert(std::is_standard_layout_v); struct dwarfs_userdata { explicit dwarfs_userdata(iolayer const& iol) : lgr{iol.term, iol.err} , iol{iol} {} dwarfs_userdata(dwarfs_userdata const&) = delete; dwarfs_userdata& operator=(dwarfs_userdata const&) = delete; std::filesystem::path progname; options opts; stream_logger lgr; filesystem_v2 fs; iolayer const& iol; std::shared_ptr perfmon; PERFMON_EXT_PROXY_DECL PERFMON_EXT_TIMER_DECL(op_init) PERFMON_EXT_TIMER_DECL(op_lookup) PERFMON_EXT_TIMER_DECL(op_getattr) PERFMON_EXT_TIMER_DECL(op_access) PERFMON_EXT_TIMER_DECL(op_readlink) PERFMON_EXT_TIMER_DECL(op_open) PERFMON_EXT_TIMER_DECL(op_read) PERFMON_EXT_TIMER_DECL(op_readdir) PERFMON_EXT_TIMER_DECL(op_statfs) PERFMON_EXT_TIMER_DECL(op_getxattr) PERFMON_EXT_TIMER_DECL(op_listxattr) }; // TODO: better error handling #define DWARFS_OPT(t, p, v) \ { t, offsetof(struct options, p), v } constexpr struct ::fuse_opt dwarfs_opts[] = { // TODO: user, group, atime, mtime, ctime for those fs who don't have it? DWARFS_OPT("cachesize=%s", cachesize_str, 0), DWARFS_OPT("blocksize=%s", blocksize_str, 0), DWARFS_OPT("readahead=%s", readahead_str, 0), DWARFS_OPT("debuglevel=%s", debuglevel_str, 0), DWARFS_OPT("workers=%s", workers_str, 0), DWARFS_OPT("mlock=%s", mlock_str, 0), DWARFS_OPT("decratio=%s", decompress_ratio_str, 0), DWARFS_OPT("offset=%s", image_offset_str, 0), DWARFS_OPT("tidy_strategy=%s", cache_tidy_strategy_str, 0), DWARFS_OPT("tidy_interval=%s", cache_tidy_interval_str, 0), DWARFS_OPT("tidy_max_age=%s", cache_tidy_max_age_str, 0), DWARFS_OPT("enable_nlink", enable_nlink, 1), DWARFS_OPT("readonly", readonly, 1), DWARFS_OPT("cache_image", cache_image, 1), DWARFS_OPT("no_cache_image", cache_image, 0), DWARFS_OPT("cache_files", cache_files, 1), DWARFS_OPT("no_cache_files", cache_files, 0), #if DWARFS_PERFMON_ENABLED DWARFS_OPT("perfmon=%s", perfmon_enabled_str, 0), #endif FUSE_OPT_END}; std::unordered_map const cache_tidy_strategy_map{ {"none", cache_tidy_strategy::NONE}, {"time", cache_tidy_strategy::EXPIRY_TIME}, {"swap", cache_tidy_strategy::BLOCK_SWAPPED_OUT}, }; #if DWARFS_FUSE_LOWLEVEL constexpr std::string_view pid_xattr{"user.dwarfs.driver.pid"}; constexpr std::string_view perfmon_xattr{"user.dwarfs.driver.perfmon"}; constexpr std::string_view inodeinfo_xattr{"user.dwarfs.inodeinfo"}; #endif template auto checked_call(LogProxy& log_, T&& f) -> decltype(std::forward(f)()) { try { return std::forward(f)(); } catch (dwarfs::system_error const& e) { LOG_ERROR << folly::exceptionStr(e); return e.get_errno(); } catch (std::exception const& e) { LOG_ERROR << folly::exceptionStr(e); return EIO; } } #if DWARFS_FUSE_LOWLEVEL template void checked_reply_err(LogProxy& log_, fuse_req_t req, T&& f) { int err = checked_call(log_, std::forward(f)); if (err != 0) { fuse_reply_err(req, err); } } #endif #if DWARFS_FUSE_LOWLEVEL #define dUSERDATA \ auto& userdata = *reinterpret_cast(fuse_req_userdata(req)) #else #define dUSERDATA \ auto& userdata = \ *reinterpret_cast(fuse_get_context()->private_data) #endif void check_fusermount(dwarfs_userdata& userdata) { #ifndef WIN32 #if FUSE_USE_VERSION >= 30 static constexpr std::string_view const fusermount_name = "fusermount3"; static constexpr std::string_view const fuse_pkg = "fuse3"; #else static constexpr std::string_view const fusermount_name = "fusermount"; static constexpr std::string_view const fuse_pkg = "fuse/fuse2"; #endif #if BOOST_PROCESS_VERSION == 2 auto fusermount = boost::process::v2::environment::find_executable(fusermount_name); #else auto fusermount = boost::process::search_path(std::string(fusermount_name)); #endif if (fusermount.empty() || !boost::filesystem::exists(fusermount)) { LOG_PROXY(prod_logger_policy, userdata.lgr); LOG_ERROR << "Could not find `" << fusermount_name << "' in PATH"; LOG_WARN << "Do you need to install the `" << fuse_pkg << "' package?"; } #endif } template void op_init_common(void* data) { auto& userdata = *reinterpret_cast(data); PERFMON_EXT_SCOPED_SECTION(userdata, op_init) LOG_PROXY(LoggerPolicy, userdata.lgr); LOG_DEBUG << __func__; // we must do this *after* the fuse driver has forked into background userdata.fs.set_num_workers(userdata.opts.workers); cache_tidy_config tidy; tidy.strategy = userdata.opts.block_cache_tidy_strategy; tidy.interval = userdata.opts.block_cache_tidy_interval; tidy.expiry_time = userdata.opts.block_cache_tidy_max_age; // we must do this *after* the fuse driver has forked into background userdata.fs.set_cache_tidy_config(tidy); } #if DWARFS_FUSE_LOWLEVEL template void op_init(void* data, struct fuse_conn_info* /*conn*/) { op_init_common(data); } #else template void* op_init(struct fuse_conn_info* /*conn*/, struct fuse_config* /*cfg*/) { // TODO: config? auto userdata = fuse_get_context()->private_data; op_init_common(userdata); return userdata; } #endif #if DWARFS_FUSE_LOWLEVEL template void op_lookup(fuse_req_t req, fuse_ino_t parent, char const* name) { dUSERDATA; PERFMON_EXT_SCOPED_SECTION(userdata, op_lookup) LOG_PROXY(LoggerPolicy, userdata.lgr); LOG_DEBUG << __func__ << "(" << parent << ", " << name << ")"; checked_reply_err(log_, req, [&] { auto entry = userdata.fs.find(parent, name); if (!entry) { return ENOENT; } file_stat stbuf; auto err = userdata.fs.getattr(*entry, &stbuf); if (err == 0) { struct ::fuse_entry_param e; ::memset(&e.attr, 0, sizeof(e.attr)); copy_file_stat(&e.attr, stbuf); e.generation = 1; e.ino = e.attr.st_ino; e.attr_timeout = std::numeric_limits::max(); e.entry_timeout = std::numeric_limits::max(); fuse_reply_entry(req, &e); } return err; }); } #endif template int op_getattr_common(LogProxy& log_, dwarfs_userdata& userdata, native_stat* st, Find const& find) { return checked_call(log_, [&] { auto entry = find(); if (!entry) { return ENOENT; } file_stat stbuf; auto err = userdata.fs.getattr(*entry, &stbuf); if (err == 0) { ::memset(st, 0, sizeof(*st)); copy_file_stat(st, stbuf); } return err; }); } #if DWARFS_FUSE_LOWLEVEL template void op_getattr(fuse_req_t req, fuse_ino_t ino, struct fuse_file_info*) { dUSERDATA; PERFMON_EXT_SCOPED_SECTION(userdata, op_getattr) LOG_PROXY(LoggerPolicy, userdata.lgr); LOG_DEBUG << __func__ << "(" << ino << ")"; native_stat st; int err = op_getattr_common( log_, userdata, &st, [&userdata, ino] { return userdata.fs.find(ino); }); if (err == 0) { fuse_reply_attr(req, &st, std::numeric_limits::max()); } else { fuse_reply_err(req, err); } } #else template int op_getattr(char const* path, native_stat* st, struct fuse_file_info*) { dUSERDATA; PERFMON_EXT_SCOPED_SECTION(userdata, op_getattr) LOG_PROXY(LoggerPolicy, userdata.lgr); LOG_DEBUG << __func__ << "(" << path << ")"; return -op_getattr_common( log_, userdata, st, [&userdata, path] { return userdata.fs.find(path); }); } #endif template int op_access_common(LogProxy& log_, dwarfs_userdata& userdata, int mode, uid_t uid, gid_t gid, Find const& find) { return checked_call(log_, [&] { if (auto entry = find()) { return userdata.fs.access(*entry, mode, uid, gid); } return ENOENT; }); } #if DWARFS_FUSE_LOWLEVEL template void op_access(fuse_req_t req, fuse_ino_t ino, int mode) { dUSERDATA; PERFMON_EXT_SCOPED_SECTION(userdata, op_access) LOG_PROXY(LoggerPolicy, userdata.lgr); LOG_DEBUG << __func__ << "(" << ino << ")"; auto ctx = fuse_req_ctx(req); int err = op_access_common(log_, userdata, mode, ctx->uid, ctx->gid, [&userdata, ino] { return userdata.fs.find(ino); }); fuse_reply_err(req, err); } #else template int op_access(char const* path, int mode) { dUSERDATA; PERFMON_EXT_SCOPED_SECTION(userdata, op_access) LOG_PROXY(LoggerPolicy, userdata.lgr); LOG_DEBUG << __func__ << "(" << path << ")"; auto ctx = fuse_get_context(); return -op_access_common( log_, userdata, mode, ctx->uid, ctx->gid, [&userdata, path] { return userdata.fs.find(path); }); } #endif template int op_readlink_common(LogProxy& log_, dwarfs_userdata& userdata, std::string* str, Find const& find) { return checked_call(log_, [&] { if (auto entry = find()) { return userdata.fs.readlink(*entry, str, readlink_mode::unix); } return ENOENT; }); } #if DWARFS_FUSE_LOWLEVEL template void op_readlink(fuse_req_t req, fuse_ino_t ino) { dUSERDATA; PERFMON_EXT_SCOPED_SECTION(userdata, op_readlink) LOG_PROXY(LoggerPolicy, userdata.lgr); LOG_DEBUG << __func__; std::string symlink; auto err = op_readlink_common(log_, userdata, &symlink, [&userdata, ino] { return userdata.fs.find(ino); }); if (err == 0) { fuse_reply_readlink(req, symlink.c_str()); } else { fuse_reply_err(req, err); } } #else template int op_readlink(char const* path, char* buf, size_t buflen) { dUSERDATA; PERFMON_EXT_SCOPED_SECTION(userdata, op_readlink) LOG_PROXY(LoggerPolicy, userdata.lgr); LOG_DEBUG << __func__; std::string symlink; auto err = op_readlink_common(log_, userdata, &symlink, [&userdata, path] { return userdata.fs.find(path); }); if (err == 0) { #ifdef _WIN32 ::strncpy_s(buf, buflen, symlink.data(), symlink.size()); #else ::strncpy(buf, symlink.data(), buflen); #endif } return -err; } #endif #ifndef O_ACCMODE #define O_ACCMODE (O_RDONLY | O_WRONLY | O_RDWR) #endif template int op_open_common(LogProxy& log_, dwarfs_userdata& userdata, struct fuse_file_info* fi, Find const& find) { return checked_call(log_, [&] { auto entry = find(); if (!entry) { return ENOENT; } if (entry->is_directory()) { return EISDIR; } if ((fi->flags & O_ACCMODE) != O_RDONLY || (fi->flags & (O_APPEND | O_TRUNC)) != 0) { return EACCES; } fi->fh = entry->inode_num(); fi->direct_io = !userdata.opts.cache_files; fi->keep_cache = userdata.opts.cache_files; return 0; }); } #if DWARFS_FUSE_LOWLEVEL template void op_open(fuse_req_t req, fuse_ino_t ino, struct fuse_file_info* fi) { dUSERDATA; PERFMON_EXT_SCOPED_SECTION(userdata, op_open) LOG_PROXY(LoggerPolicy, userdata.lgr); LOG_DEBUG << __func__; auto err = op_open_common(log_, userdata, fi, [&userdata, ino] { return userdata.fs.find(ino); }); if (err == 0) { fuse_reply_open(req, fi); } else { fuse_reply_err(req, err); } } #else template int op_open(char const* path, struct fuse_file_info* fi) { dUSERDATA; PERFMON_EXT_SCOPED_SECTION(userdata, op_open) LOG_PROXY(LoggerPolicy, userdata.lgr); LOG_DEBUG << __func__; return -op_open_common(log_, userdata, fi, [&userdata, path] { return userdata.fs.find(path); }); } #endif #if DWARFS_FUSE_LOWLEVEL template void op_read(fuse_req_t req, fuse_ino_t ino, size_t size, file_off_t off, struct fuse_file_info* fi) { dUSERDATA; PERFMON_EXT_SCOPED_SECTION(userdata, op_read) LOG_PROXY(LoggerPolicy, userdata.lgr); LOG_DEBUG << __func__; checked_reply_err(log_, req, [&]() -> ssize_t { if (FUSE_ROOT_ID + fi->fh != ino) { return EIO; } iovec_read_buf buf; ssize_t rv = userdata.fs.readv(ino, buf, size, off); LOG_DEBUG << "readv(" << ino << ", " << size << ", " << off << ") -> " << rv << " [size = " << buf.buf.size() << "]"; if (rv < 0) { return -rv; } return -fuse_reply_iov(req, buf.buf.empty() ? nullptr : &buf.buf[0], buf.buf.size()); }); } #else template int op_read(char const* path, char* buf, size_t size, native_off_t off, struct fuse_file_info* fi) { dUSERDATA; PERFMON_EXT_SCOPED_SECTION(userdata, op_read) LOG_PROXY(LoggerPolicy, userdata.lgr); LOG_DEBUG << __func__; return -checked_call(log_, [&] { auto rv = userdata.fs.read(fi->fh, buf, size, off); LOG_DEBUG << "read(" << path << " [" << fi->fh << "], " << size << ", " << off << ") -> " << rv; return -rv; }); } #endif #if DWARFS_FUSE_LOWLEVEL class readdir_lowlevel_policy { public: readdir_lowlevel_policy(fuse_req_t req, fuse_ino_t ino, size_t size) : req_{req} , ino_{ino} { buf_.resize(size); } auto find(filesystem_v2& fs) const { return fs.find(ino_); } bool keep_going() const { return written_ < buf_.size(); } bool add_entry(std::string const& name, native_stat const& st, file_off_t off) { assert(written_ < buf_.size()); auto needed = fuse_add_direntry(req_, &buf_[written_], buf_.size() - written_, name.c_str(), &st, off + 1); if (written_ + needed > buf_.size()) { return false; } written_ += needed; return true; } void finalize() const { fuse_reply_buf(req_, written_ > 0 ? &buf_[0] : nullptr, written_); } private: fuse_req_t req_; fuse_ino_t ino_; std::vector buf_; size_t written_{0}; }; #else class readdir_policy { public: readdir_policy(char const* path, void* buf, fuse_fill_dir_t filler) : path_{path} , buf_{buf} , filler_{filler} {} auto find(filesystem_v2& fs) const { return fs.find(path_); } bool keep_going() const { return true; } bool add_entry(std::string const& name, native_stat const& st, file_off_t off) { return filler_(buf_, name.c_str(), &st, off + 1, FUSE_FILL_DIR_PLUS) == 0; } void finalize() const {} private: char const* path_; void* buf_; fuse_fill_dir_t filler_; }; #endif template int op_readdir_common(filesystem_v2& fs, Policy& policy, file_off_t off) { auto dirent = policy.find(fs); if (!dirent) { return ENOENT; } auto dir = fs.opendir(*dirent); if (!dir) { return ENOTDIR; } file_off_t lastoff = fs.dirsize(*dir); file_stat stbuf; native_stat st; ::memset(&st, 0, sizeof(st)); while (off < lastoff && policy.keep_going()) { auto res = fs.readdir(*dir, off); assert(res); auto [entry, name_view] = *res; std::string name(name_view); fs.getattr(entry, &stbuf); copy_file_stat(&st, stbuf); if (!policy.add_entry(name, st, off)) { break; } ++off; } policy.finalize(); return 0; } #if DWARFS_FUSE_LOWLEVEL template void op_readdir(fuse_req_t req, fuse_ino_t ino, size_t size, file_off_t off, struct fuse_file_info* /*fi*/) { dUSERDATA; PERFMON_EXT_SCOPED_SECTION(userdata, op_readdir) LOG_PROXY(LoggerPolicy, userdata.lgr); LOG_DEBUG << __func__ << "(" << ino << ", " << size << ", " << off << ")"; checked_reply_err(log_, req, [&] { readdir_lowlevel_policy policy{req, ino, size}; return op_readdir_common(userdata.fs, policy, off); }); } #else template int op_readdir(char const* path, void* buf, fuse_fill_dir_t filler, native_off_t off, struct fuse_file_info* /*fi*/, enum fuse_readdir_flags /*flags*/) { dUSERDATA; PERFMON_EXT_SCOPED_SECTION(userdata, op_readdir) LOG_PROXY(LoggerPolicy, userdata.lgr); LOG_DEBUG << __func__ << "(" << path << ")"; return -checked_call(log_, [&] { readdir_policy policy{path, buf, filler}; return op_readdir_common(userdata.fs, policy, off); }); } #endif template int op_statfs_common(LogProxy& log_, dwarfs_userdata& userdata, native_statvfs* st) { return checked_call(log_, [&] { vfs_stat stbuf; auto err = userdata.fs.statvfs(&stbuf); if (err == 0) { ::memset(st, 0, sizeof(*st)); copy_vfs_stat(st, stbuf); #ifndef _WIN32 if (stbuf.readonly) { st->f_flag |= ST_RDONLY; } #endif } return err; }); } #if DWARFS_FUSE_LOWLEVEL template void op_statfs(fuse_req_t req, fuse_ino_t /*ino*/) { dUSERDATA; PERFMON_EXT_SCOPED_SECTION(userdata, op_statfs) LOG_PROXY(LoggerPolicy, userdata.lgr); LOG_DEBUG << __func__; struct ::statvfs st; int err = op_statfs_common(log_, userdata, &st); if (err == 0) { fuse_reply_statfs(req, &st); } else { fuse_reply_err(req, err); } } #else template int op_statfs(char const* path, native_statvfs* st) { dUSERDATA; PERFMON_EXT_SCOPED_SECTION(userdata, op_statfs) LOG_PROXY(LoggerPolicy, userdata.lgr); LOG_DEBUG << __func__ << "(" << path << ")"; return -op_statfs_common(log_, userdata, st); } #endif #if DWARFS_FUSE_LOWLEVEL template void op_getxattr(fuse_req_t req, fuse_ino_t ino, char const* name, size_t size #ifdef __APPLE__ , uint32_t position #endif ) { dUSERDATA; PERFMON_EXT_SCOPED_SECTION(userdata, op_getxattr) LOG_PROXY(LoggerPolicy, userdata.lgr); LOG_DEBUG << __func__ << "(" << ino << ", " << name << ", " << size #ifdef __APPLE__ << ", " << position #endif << ")"; checked_reply_err(log_, req, [&] { std::ostringstream oss; size_t extra_size = 0; if (ino == FUSE_ROOT_ID) { if (name == pid_xattr) { // use to_string() to prevent locale-specific formatting oss << std::to_string(::getpid()); } else if (name == perfmon_xattr) { #if DWARFS_PERFMON_ENABLED if (userdata.perfmon) { userdata.perfmon->summarize(oss); extra_size = 4096; } else { oss << "performance monitor is disabled\n"; } #else oss << "no performance monitor support\n"; #endif } } if (name == inodeinfo_xattr) { auto entry = userdata.fs.find(ino); if (entry) { auto ii = userdata.fs.get_inode_info(*entry); oss << folly::toPrettyJson(ii) << "\n"; } else { return ENOENT; } } // TODO: figure out under which conditions we don't have ::view() #ifdef __APPLE__ auto value = oss.str(); #else auto value = oss.view(); #endif LOG_TRACE << __func__ << ": value.size=" << value.size() << ", extra_size=" << extra_size; if (value.empty()) { // Linux and macOS disagree on the error code for "attribute not found" #ifdef __APPLE__ return ENOATTR; #else return ENODATA; #endif } if (size == 0) { fuse_reply_xattr(req, value.size() + extra_size); return 0; } if (size >= value.size()) { fuse_reply_buf(req, value.data(), value.size()); return 0; } return ERANGE; }); } #else template int op_getxattr(char const* path, char const* name, char* /*value*/, size_t size) { dUSERDATA; PERFMON_EXT_SCOPED_SECTION(userdata, op_getxattr) LOG_PROXY(LoggerPolicy, userdata.lgr); LOG_DEBUG << __func__ << "(" << path << ", " << name << ", " << size << ")"; return -ENOTSUP; } #endif #if DWARFS_FUSE_LOWLEVEL template void op_listxattr(fuse_req_t req, fuse_ino_t ino, size_t size) { dUSERDATA; PERFMON_EXT_SCOPED_SECTION(userdata, op_listxattr) LOG_PROXY(LoggerPolicy, userdata.lgr); LOG_DEBUG << __func__ << "(" << ino << ", " << size << ")"; checked_reply_err(log_, req, [&] { std::ostringstream oss; if (ino == FUSE_ROOT_ID) { oss << pid_xattr << '\0'; oss << perfmon_xattr << '\0'; } oss << inodeinfo_xattr << '\0'; // TODO: figure out under which conditions we don't have ::view() #ifdef __APPLE__ auto xattrs = oss.str(); #else auto xattrs = oss.view(); #endif LOG_TRACE << __func__ << ": xattrs.size=" << xattrs.size(); if (size == 0) { fuse_reply_xattr(req, xattrs.size()); return 0; } if (size >= xattrs.size()) { fuse_reply_buf(req, xattrs.data(), xattrs.size()); return 0; } return ERANGE; }); } #else template int op_listxattr(char const* path, char* /*list*/, size_t size) { dUSERDATA; PERFMON_EXT_SCOPED_SECTION(userdata, op_listxattr) LOG_PROXY(LoggerPolicy, userdata.lgr); LOG_DEBUG << __func__ << "(" << path << ", " << size << ")"; return -ENOTSUP; } #endif #if !DWARFS_FUSE_LOWLEVEL // XXX: Not implementing this currently crashes WinFsp when a file is renamed template int op_rename(char const* from, char const* to, unsigned int flags) { dUSERDATA; LOG_PROXY(LoggerPolicy, userdata.lgr); LOG_DEBUG << __func__ << "(" << from << ", " << to << ", " << flags << ")"; return -ENOSYS; } #endif void usage(std::ostream& os, std::filesystem::path const& progname) { os << tool_header("dwarfs", fmt::format(", fuse version {}", FUSE_USE_VERSION)) << library_dependencies::common_as_string() << "\n\n" #if !DWARFS_FUSE_LOWLEVEL << "USING HIGH-LEVEL FUSE API\n\n" #endif << "Usage: " << progname.filename().string() << " [options]\n\n" << "DWARFS options:\n" << " -o cachesize=SIZE set size of block cache (512M)\n" << " -o blocksize=SIZE set file I/O block size (512K)\n" << " -o readahead=SIZE set readahead size (0)\n" << " -o workers=NUM number of worker threads (2)\n" << " -o mlock=NAME mlock mode: (none), try, must\n" << " -o decratio=NUM ratio for full decompression (0.8)\n" << " -o offset=NUM|auto filesystem image offset in bytes (0)\n" << " -o enable_nlink show correct hardlink numbers\n" << " -o readonly show read-only file system\n" << " -o (no_)cache_image (don't) keep image in kernel cache\n" << " -o (no_)cache_files (don't) keep files in kernel cache\n" << " -o debuglevel=NAME " << logger::all_level_names() << "\n" << " -o tidy_strategy=NAME (none)|time|swap\n" << " -o tidy_interval=TIME interval for cache tidying (5m)\n" << " -o tidy_max_age=TIME tidy blocks after this time (10m)\n" #if DWARFS_PERFMON_ENABLED << " -o perfmon=name[,...] enable performance monitor\n" #endif #ifdef DWARFS_BUILTIN_MANPAGE << " --man show manual page and exit\n" #endif << "\n"; #if DWARFS_FUSE_LOWLEVEL && FUSE_USE_VERSION >= 30 os << "FUSE options:\n"; fuse_cmdline_help(); #else struct fuse_args args = FUSE_ARGS_INIT(0, nullptr); fuse_opt_add_arg(&args, ""); fuse_opt_add_arg(&args, "-ho"); struct fuse_operations fsops; ::memset(&fsops, 0, sizeof(fsops)); fuse_main(args.argc, args.argv, &fsops, nullptr); fuse_opt_free_args(&args); #endif } int option_hdl(void* data, char const* arg, int key, struct fuse_args* /*outargs*/) { auto& opts = *reinterpret_cast(data); switch (key) { case FUSE_OPT_KEY_NONOPT: if (opts.seen_mountpoint) { return -1; } if (opts.fsimage) { opts.seen_mountpoint = 1; return 1; } opts.fsimage = std::make_shared(arg); return 0; case FUSE_OPT_KEY_OPT: if (::strncmp(arg, "-h", 2) == 0 || ::strncmp(arg, "--help", 6) == 0) { opts.is_help = true; return -1; } #ifdef DWARFS_BUILTIN_MANPAGE if (::strncmp(arg, "--man", 5) == 0) { opts.is_man = true; return -1; } #endif break; default: break; } return 1; } #if DWARFS_FUSE_LOWLEVEL template void init_fuse_ops(struct fuse_lowlevel_ops& ops, dwarfs_userdata const& userdata) { ops.init = &op_init; ops.lookup = &op_lookup; ops.getattr = &op_getattr; ops.access = &op_access; if (userdata.fs.has_symlinks()) { ops.readlink = &op_readlink; } ops.open = &op_open; ops.read = &op_read; ops.readdir = &op_readdir; ops.statfs = &op_statfs; ops.getxattr = &op_getxattr; ops.listxattr = &op_listxattr; } #else template void init_fuse_ops(struct fuse_operations& ops, dwarfs_userdata const& userdata) { ops.init = &op_init; ops.getattr = &op_getattr; ops.access = &op_access; if (userdata.fs.has_symlinks()) { ops.readlink = &op_readlink; } ops.open = &op_open; ops.read = &op_read; ops.readdir = &op_readdir; ops.statfs = &op_statfs; ops.getxattr = &op_getxattr; ops.listxattr = &op_listxattr; ops.rename = &op_rename; } #endif #if FUSE_USE_VERSION > 30 int run_fuse(struct fuse_args& args, #if DWARFS_FUSE_LOWLEVEL struct fuse_cmdline_opts const& fuse_opts, #endif dwarfs_userdata& userdata) { #if DWARFS_FUSE_LOWLEVEL struct fuse_lowlevel_ops fsops; #else struct fuse_operations fsops; #endif ::memset(&fsops, 0, sizeof(fsops)); if (userdata.opts.logopts.threshold >= logger::DEBUG) { init_fuse_ops(fsops, userdata); } else { init_fuse_ops(fsops, userdata); } int err = 1; #if DWARFS_FUSE_LOWLEVEL if (auto session = fuse_session_new(&args, &fsops, sizeof(fsops), &userdata)) { if (fuse_set_signal_handlers(session) == 0) { if (fuse_session_mount(session, fuse_opts.mountpoint) == 0) { if (fuse_daemonize(fuse_opts.foreground) == 0) { if (fuse_opts.singlethread) { err = fuse_session_loop(session); } else { struct fuse_loop_config config; config.clone_fd = fuse_opts.clone_fd; config.max_idle_threads = fuse_opts.max_idle_threads; err = fuse_session_loop_mt(session, &config); } } fuse_session_unmount(session); } else { check_fusermount(userdata); } fuse_remove_signal_handlers(session); } fuse_session_destroy(session); } ::free(fuse_opts.mountpoint); #else err = fuse_main(args.argc, args.argv, &fsops, &userdata); if (err != 0) { check_fusermount(userdata); } #endif fuse_opt_free_args(&args); return err; } #else int run_fuse(struct fuse_args& args, char* mountpoint, int mt, int fg, dwarfs_userdata& userdata) { struct fuse_lowlevel_ops fsops; ::memset(&fsops, 0, sizeof(fsops)); if (userdata.opts.logopts.threshold >= logger::DEBUG) { init_fuse_ops(fsops, userdata); } else { init_fuse_ops(fsops, userdata); } int err = 1; if (auto ch = fuse_mount(mountpoint, &args)) { if (auto se = fuse_lowlevel_new(&args, &fsops, sizeof(fsops), &userdata)) { if (fuse_daemonize(fg) != -1) { if (fuse_set_signal_handlers(se) != -1) { fuse_session_add_chan(se, ch); err = mt ? fuse_session_loop_mt(se) : fuse_session_loop(se); fuse_remove_signal_handlers(se); fuse_session_remove_chan(ch); } } fuse_session_destroy(se); } fuse_unmount(mountpoint, ch); } else { check_fusermount(userdata); } ::free(mountpoint); fuse_opt_free_args(&args); return err; } #endif template void load_filesystem(dwarfs_userdata& userdata) { LOG_PROXY(LoggerPolicy, userdata.lgr); constexpr int const inode_offset = #ifdef FUSE_ROOT_ID FUSE_ROOT_ID #else 0 #endif ; auto ti = LOG_TIMED_INFO; auto& opts = userdata.opts; filesystem_options fsopts; fsopts.lock_mode = opts.lock_mode; fsopts.block_cache.max_bytes = opts.cachesize; fsopts.block_cache.num_workers = opts.workers; fsopts.block_cache.decompress_ratio = opts.decompress_ratio; fsopts.block_cache.mm_release = !opts.cache_image; fsopts.block_cache.init_workers = false; fsopts.inode_reader.readahead = opts.readahead; fsopts.metadata.enable_nlink = bool(opts.enable_nlink); fsopts.metadata.readonly = bool(opts.readonly); fsopts.metadata.block_size = opts.blocksize; fsopts.inode_offset = inode_offset; if (opts.image_offset_str) { fsopts.image_offset = parse_image_offset(opts.image_offset_str); } std::unordered_set perfmon_enabled; #if DWARFS_PERFMON_ENABLED if (opts.perfmon_enabled_str) { folly::splitTo( ',', opts.perfmon_enabled_str, std::inserter(perfmon_enabled, perfmon_enabled.begin())); } #endif userdata.perfmon = performance_monitor::create(perfmon_enabled); PERFMON_EXT_PROXY_SETUP(userdata, userdata.perfmon, "fuse") PERFMON_EXT_TIMER_SETUP(userdata, op_init) PERFMON_EXT_TIMER_SETUP(userdata, op_lookup) PERFMON_EXT_TIMER_SETUP(userdata, op_getattr) PERFMON_EXT_TIMER_SETUP(userdata, op_access) PERFMON_EXT_TIMER_SETUP(userdata, op_readlink) PERFMON_EXT_TIMER_SETUP(userdata, op_open) PERFMON_EXT_TIMER_SETUP(userdata, op_read) PERFMON_EXT_TIMER_SETUP(userdata, op_readdir) PERFMON_EXT_TIMER_SETUP(userdata, op_statfs) PERFMON_EXT_TIMER_SETUP(userdata, op_getxattr) PERFMON_EXT_TIMER_SETUP(userdata, op_listxattr) auto fsimage = userdata.iol.os->canonical(std::filesystem::path( reinterpret_cast(opts.fsimage->data()))); LOG_DEBUG << "attempting to load filesystem from " << fsimage; userdata.fs = filesystem_v2(userdata.lgr, *userdata.iol.os, std::make_shared(fsimage), fsopts, userdata.perfmon); ti << "file system initialized"; } } // namespace int dwarfs_main(int argc, sys_char** argv, iolayer const& iol) { #ifdef _WIN32 std::vector argv_strings; std::vector argv_copy; argv_strings.reserve(argc); argv_copy.reserve(argc); for (int i = 0; i < argc; ++i) { argv_strings.push_back(sys_string_to_string(argv[i])); argv_copy.push_back(argv_strings.back().data()); } struct fuse_args args = FUSE_ARGS_INIT(argc, argv_copy.data()); #else struct fuse_args args = FUSE_ARGS_INIT(argc, argv); #endif dwarfs_userdata userdata(iol); auto& opts = userdata.opts; userdata.progname = std::filesystem::path(argv[0]); opts.cache_image = 0; opts.cache_files = 1; fuse_opt_parse(&args, &userdata.opts, dwarfs_opts, option_hdl); #if DWARFS_FUSE_LOWLEVEL #if FUSE_USE_VERSION >= 30 struct fuse_cmdline_opts fuse_opts; if (fuse_parse_cmdline(&args, &fuse_opts) == -1 || !fuse_opts.mountpoint) { #ifdef DWARFS_BUILTIN_MANPAGE if (userdata.opts.is_man) { show_manpage(manpage::get_dwarfs_manpage(), iol); return 0; } #endif usage(iol.out, userdata.progname); return userdata.opts.is_help ? 0 : 1; } if (fuse_opts.foreground) { folly::symbolizer::installFatalSignalHandler(); } bool foreground = fuse_opts.foreground; #else char* mountpoint = nullptr; int mt, fg; if (fuse_parse_cmdline(&args, &mountpoint, &mt, &fg) == -1 || !mountpoint) { #ifdef DWARFS_BUILTIN_MANPAGE if (userdata.opts.is_man) { show_manpage(manpage::get_dwarfs_manpage(), iol); return 0; } #endif usage(iol.out, userdata.progname); return userdata.opts.is_help ? 0 : 1; } if (fg) { folly::symbolizer::installFatalSignalHandler(); } bool foreground = fg; #endif #endif try { // TODO: foreground mode, stderr vs. syslog? if (opts.debuglevel_str) { opts.logopts.threshold = logger::parse_level(opts.debuglevel_str); } else { #if DWARFS_FUSE_LOWLEVEL opts.logopts.threshold = foreground ? logger::INFO : logger::WARN; #else opts.logopts.threshold = logger::WARN; #endif } userdata.lgr.set_threshold(opts.logopts.threshold); userdata.lgr.set_with_context(opts.logopts.threshold >= logger::DEBUG); opts.cachesize = opts.cachesize_str ? parse_size_with_unit(opts.cachesize_str) : (static_cast(512) << 20); opts.blocksize = opts.blocksize_str ? parse_size_with_unit(opts.blocksize_str) : kDefaultBlockSize; opts.readahead = opts.readahead_str ? parse_size_with_unit(opts.readahead_str) : 0; opts.workers = opts.workers_str ? folly::to(opts.workers_str) : 2; opts.lock_mode = opts.mlock_str ? parse_mlock_mode(opts.mlock_str) : mlock_mode::NONE; opts.decompress_ratio = opts.decompress_ratio_str ? folly::to(opts.decompress_ratio_str) : 0.8; if (opts.cache_tidy_strategy_str) { if (auto it = cache_tidy_strategy_map.find(opts.cache_tidy_strategy_str); it != cache_tidy_strategy_map.end()) { opts.block_cache_tidy_strategy = it->second; } else { iol.err << "error: no such cache tidy strategy: " << opts.cache_tidy_strategy_str << "\n"; return 1; } if (opts.cache_tidy_interval_str) { opts.block_cache_tidy_interval = parse_time_with_unit(opts.cache_tidy_interval_str); } if (opts.cache_tidy_max_age_str) { opts.block_cache_tidy_max_age = parse_time_with_unit(opts.cache_tidy_max_age_str); } } } catch (std::filesystem::filesystem_error const& e) { iol.err << folly::exceptionStr(e) << "\n"; return 1; } catch (std::exception const& e) { iol.err << "error: " << folly::exceptionStr(e) << "\n"; return 1; } if (opts.decompress_ratio < 0.0 || opts.decompress_ratio > 1.0) { iol.err << "error: decratio must be between 0.0 and 1.0\n"; return 1; } #ifdef DWARFS_BUILTIN_MANPAGE if (userdata.opts.is_man) { show_manpage(manpage::get_dwarfs_manpage(), iol); return 0; } #endif if (!opts.seen_mountpoint) { usage(iol.out, userdata.progname); return 1; } LOG_PROXY(debug_logger_policy, userdata.lgr); LOG_INFO << "dwarfs (" << PRJ_GIT_ID << ", fuse version " << FUSE_USE_VERSION << ")"; try { if (userdata.opts.logopts.threshold >= logger::DEBUG) { load_filesystem(userdata); } else { load_filesystem(userdata); } } catch (std::exception const& e) { LOG_ERROR << "error initializing file system: " << folly::exceptionStr(e); return 1; } SCOPE_EXIT { if (userdata.perfmon) { userdata.perfmon->summarize(iol.err); } }; #if FUSE_USE_VERSION >= 30 #if DWARFS_FUSE_LOWLEVEL return run_fuse(args, fuse_opts, userdata); #else return run_fuse(args, userdata); #endif #else return run_fuse(args, mountpoint, mt, fg, userdata); #endif } int dwarfs_main(int argc, sys_char** argv) { return dwarfs_main(argc, argv, iolayer::system_default()); } int dwarfs_main(std::span args, iolayer const& iol) { return call_sys_main_iolayer(args, iol, dwarfs_main); } int dwarfs_main(std::span args, iolayer const& iol) { return call_sys_main_iolayer(args, iol, dwarfs_main); } } // namespace dwarfs