/* * \brief Directory file system * \author Norman Feske * \author Emery Hemingway * \author Christian Helmuth * \date 2012-04-23 */ /* * Copyright (C) 2011-2017 Genode Labs GmbH * * This file is part of the Genode OS framework, which is distributed * under the terms of the GNU Affero General Public License version 3. */ #ifndef _INCLUDE__VFS__DIR_FILE_SYSTEM_H_ #define _INCLUDE__VFS__DIR_FILE_SYSTEM_H_ #include #include #include namespace Vfs { class Dir_file_system; } class Vfs::Dir_file_system : public File_system { public: enum { MAX_NAME_LEN = 128 }; private: /* * Noncopyable */ Dir_file_system(Dir_file_system const &); Dir_file_system &operator = (Dir_file_system const &); Vfs::Env &_env; /** * This instance is the root of VFS * * Additionally, the root has an empty _name. */ bool const _vfs_root { &_env.root_dir() == this }; struct Dir_vfs_handle : Vfs_handle { struct Subdir_handle_element; typedef Genode::Registry Subdir_handle_registry; struct Subdir_handle_element : Subdir_handle_registry::Element { bool synced { false }; Vfs_handle &vfs_handle; Subdir_handle_element(Subdir_handle_registry ®istry, Vfs_handle &vfs_handle) : Subdir_handle_registry::Element(registry, *this), vfs_handle(vfs_handle) { } }; Absolute_path path; Vfs_handle *queued_read_handle { nullptr }; Subdir_handle_registry subdir_handle_registry { }; Dir_vfs_handle(Directory_service &ds, File_io_service &fs, Genode::Allocator &alloc, char const *path) : Vfs_handle(ds, fs, alloc, 0), path(path) { } ~Dir_vfs_handle() { /* close all sub-handles */ auto f = [&] (Subdir_handle_element &e) { e.vfs_handle.ds().close(&e.vfs_handle); destroy(alloc(), &e); }; subdir_handle_registry.for_each(f); } private: /* * Noncopyable */ Dir_vfs_handle(Dir_vfs_handle const &); Dir_vfs_handle &operator = (Dir_vfs_handle const &); }; struct Dir_watch_handle : Vfs_watch_handle { struct Watch_handle_element; typedef Genode::Registry Watch_handle_registry; struct Watch_handle_element : Watch_handle_registry::Element { Vfs_watch_handle &watch_handle; Watch_handle_element(Watch_handle_registry ®istry, Vfs_watch_handle &handle) : Watch_handle_registry::Element(registry, *this), watch_handle(handle) { } }; Watch_handle_registry handle_registry { }; Dir_watch_handle(File_system &fs, Genode::Allocator &alloc) : Vfs_watch_handle(fs, alloc) { } ~Dir_watch_handle() { /* close all sub-handles */ auto f = [&] (Watch_handle_element &e) { e.watch_handle.fs().close(&e.watch_handle); destroy(alloc(), &e); }; handle_registry.for_each(f); } /** * Propagate the handle context to each sub-handle */ void context(Context *ctx) override { handle_registry.for_each( [&] (Watch_handle_element &elem) { elem.watch_handle.context(ctx); } ); } }; /* pointer to first child file system */ File_system *_first_file_system = nullptr; /* add new file system to the list of children */ void _append_file_system(File_system *fs) { if (!_first_file_system) { _first_file_system = fs; return; } File_system *curr = _first_file_system; while (curr->next) curr = curr->next; curr->next = fs; } /** * Directory name */ char _name[MAX_NAME_LEN]; /** * Returns if path corresponds to top directory of file system */ bool _top_dir(char const *path) const { return strcmp(path, "/") == 0; } /** * Perform operation on a file system * * \param fn functor that takes a file-system reference and * the path as arguments */ template RES _dir_op(RES const no_entry, RES const no_perm, RES const ok, char const *path, FN const &fn) { path = _sub_path(path); /* path does not match directory name */ if (!path) return no_entry; /* * Prevent operation if path equals directory name defined * via the static VFS configuration. */ if (strlen(path) == 0) return no_perm; /* * If any of the sub file systems returns a permission error and * there exists no sub file system that takes the request, we * return the permission error. */ bool permission_denied = false; /* * Keep the most meaningful error code. When using stacked file * systems, most child file systems will eventually return no * entry (or leave the error code unchanged). If any of those * file systems has anything more interesting to tell, return * this information after all file systems have been tried and * none could handle the request. */ RES error = ok; /* * The given path refers to at least one of our sub directories. * Propagate the request into all of our file systems. If at least * one operation succeeds, we return success. */ for (File_system *fs = _first_file_system; fs; fs = fs->next) { RES const err = fn(*fs, path); if (err == ok) return err; if (err != no_entry && err != no_perm) { error = err; } if (err == no_perm) permission_denied = true; } /* none of our file systems could successfully operate on the path */ return error != ok ? error : permission_denied ? no_perm : no_entry; } /** * Return portion of the path after the element corresponding to * the current directory. */ char const *_sub_path(char const *path) const { /* do not strip anything from the path when we are root */ if (_vfs_root) return path; if (_top_dir(path)) return path; /* skip heading slash in path if present */ if (path[0] == '/') path++; Genode::size_t const name_len = strlen(_name); if (strcmp(path, _name, name_len) != 0) return 0; path += name_len; /* * The first characters of the first path element are equal to * the current directory name. Let's check if the length of the * first path element matches the name length. */ if (*path != 0 && *path != '/') return 0; return path; } /* * Accumulate number of directory entries that match in any of * our sub file systems. */ file_size _sum_dirents_of_file_systems(char const *path) { file_size cnt = 0; for (File_system *fs = _first_file_system; fs; fs = fs->next) { cnt += fs->num_dirent(path); } return cnt; } bool _queue_read_of_file_systems(Dir_vfs_handle *dir_vfs_handle) { bool result = true; dir_vfs_handle->queued_read_handle = nullptr; file_offset index = dir_vfs_handle->seek() / sizeof(Dirent); char const *sub_path = _sub_path(dir_vfs_handle->path.base()); if (strlen(sub_path) == 0) sub_path = "/"; /* base of composite directory index */ int base = 0; auto f = [&] (Dir_vfs_handle::Subdir_handle_element &handle_element) { if (dir_vfs_handle->queued_read_handle) return; /* skip through */ Vfs_handle &vfs_handle = handle_element.vfs_handle; /* * Determine number of matching directory entries within * the current file system. */ int const fs_num_dirent = vfs_handle.ds().num_dirent(sub_path); /* * Query directory entry if index lies with the file * system. */ if (index - base < fs_num_dirent) { /* set this handle to be used for read completion */ dir_vfs_handle->queued_read_handle = &vfs_handle; /* seek to file-system local index */ index = index - base; vfs_handle.seek(index * sizeof(Dirent)); /* forward the handle context */ vfs_handle.context = dir_vfs_handle->context; result = vfs_handle.fs().queue_read(&vfs_handle, sizeof(Dirent)); } /* adjust base index for next file system */ base += fs_num_dirent; }; dir_vfs_handle->subdir_handle_registry.for_each(f); return result; } Read_result _complete_read_of_file_systems(Dir_vfs_handle *dir_vfs_handle, char *dst, file_size count, file_size &out_count) { if (!dir_vfs_handle->queued_read_handle) { /* * no fs was found for the given index or * fs->opendir() failed */ if (count < sizeof(Dirent)) return READ_ERR_INVALID; Dirent *dirent = (Dirent*)dst; *dirent = Dirent(); out_count = sizeof(Dirent); return READ_OK; } Read_result result = dir_vfs_handle->queued_read_handle->fs(). complete_read(dir_vfs_handle->queued_read_handle, dst, count, out_count); if (result == READ_QUEUED) return result; dir_vfs_handle->queued_read_handle = nullptr; return result; } public: Dir_file_system(Vfs::Env &env, Genode::Xml_node node, File_system_factory &fs_factory) : _env(env) { using namespace Genode; /* remember directory name */ if (node.has_type("fstab") || node.has_type("vfs")) _name[0] = 0; else node.attribute("name").value(_name, sizeof(_name)); for (unsigned i = 0; i < node.num_sub_nodes(); i++) { Xml_node sub_node = node.sub_node(i); /* traverse into nodes */ if (sub_node.has_type("dir")) { _append_file_system(new (_env.alloc()) Dir_file_system(_env, sub_node, fs_factory)); continue; } File_system * const fs = fs_factory.create(_env, sub_node); if (fs) { _append_file_system(fs); continue; } Genode::error("failed to create <", sub_node.type(), "> VFS node"); try { String<64> value; for (unsigned i = 0; i < 16; ++i) { Xml_attribute attr = sub_node.attribute(i); attr.value(&value); Genode::error("\t", attr.name(), "=\"", value, "\""); } } catch (Xml_node::Nonexistent_attribute) { } } } /********************************* ** Directory-service interface ** *********************************/ Dataspace_capability dataspace(char const *path) override { path = _sub_path(path); if (!path) return Dataspace_capability(); /* * Query sub file systems for dataspace using the path local to * the respective file system */ File_system *fs = _first_file_system; for (; fs; fs = fs->next) { Dataspace_capability ds = fs->dataspace(path); if (ds.valid()) return ds; } return Dataspace_capability(); } void release(char const *path, Dataspace_capability ds_cap) override { path = _sub_path(path); if (!path) return; for (File_system *fs = _first_file_system; fs; fs = fs->next) fs->release(path, ds_cap); } Stat_result stat(char const *path, Stat &out) override { path = _sub_path(path); /* path does not match directory name */ if (!path) return STAT_ERR_NO_ENTRY; /* * If path equals directory name, return information about the * current directory. */ if (strlen(path) == 0 || _top_dir(path)) { out.size = 0; out.mode = STAT_MODE_DIRECTORY | 0755; out.uid = 0; out.gid = 0; out.inode = 1; out.device = (Genode::addr_t)this; return STAT_OK; } /* * The given path refers to one of our sub directories. * Propagate the request into our file systems. */ for (File_system *fs = _first_file_system; fs; fs = fs->next) { Stat_result const err = fs->stat(path, out); if (err == STAT_OK) return err; if (err != STAT_ERR_NO_ENTRY) return err; } /* none of our file systems felt responsible for the path */ return STAT_ERR_NO_ENTRY; } file_size num_dirent(char const *path) override { if (_vfs_root) { return _sum_dirents_of_file_systems(path); } else { if (_top_dir(path)) return 1; /* * The path contains at least one element. Remove current * element from path. */ path = _sub_path(path); /* * If the resulting 'path' is non-null, the path lies * within our tree. In this case, determine the sum of * matching dirents of all our file systems. Otherwise, * the specified path lies outside our directory node. */ return path ? _sum_dirents_of_file_systems(*path ? path : "/") : 0; } } /** * Return true if specified path is a directory */ bool directory(char const *path) override { if (_top_dir(path)) return true; path = _sub_path(path); if (!path) return false; if (strlen(path) == 0) return true; for (File_system *fs = _first_file_system; fs; fs = fs->next) if (fs->directory(path)) return true; return false; } /** * Return true if specified path is a directory * * \noapi * \deprecated use 'directory instead */ bool is_directory(char const *path) { return directory(path); } char const *leaf_path(char const *path) override { path = _sub_path(path); if (!path) return 0; if (strlen(path) == 0) return path; for (File_system *fs = _first_file_system; fs; fs = fs->next) { char const *leaf_path = fs->leaf_path(path); if (leaf_path) return leaf_path; } return 0; } Open_result open(char const *path, unsigned mode, Vfs_handle **out_handle, Allocator &alloc) override { /* * If 'path' is a directory, we create a 'Vfs_handle' * for the root directory so that subsequent 'dirent' calls * are subjected to the stacked file-system layout. */ if (directory(path)) { try { *out_handle = new (alloc) Dir_vfs_handle(*this, *this, alloc, path); return OPEN_OK; } catch (Genode::Out_of_ram) { return OPEN_ERR_OUT_OF_RAM; } catch (Genode::Out_of_caps) { return OPEN_ERR_OUT_OF_CAPS; } } /* * If 'path' refers to a non-directory node, create a * 'Vfs_handle' local to the file system that provides the * file. */ path = _sub_path(path); /* check if path does not match directory name */ if (!path) return OPEN_ERR_UNACCESSIBLE; /* path equals directory name */ if (strlen(path) == 0) { try { *out_handle = new (alloc) Vfs_handle(*this, *this, alloc, 0); return OPEN_OK; } catch (Genode::Out_of_ram) { return OPEN_ERR_OUT_OF_RAM; } catch (Genode::Out_of_caps) { return OPEN_ERR_OUT_OF_CAPS; } } /* path refers to any of our sub file systems */ for (File_system *fs = _first_file_system; fs; fs = fs->next) { Open_result const err = fs->open(path, mode, out_handle, alloc); switch (err) { case OPEN_ERR_UNACCESSIBLE: continue; default: return err; } } /* path does not match any existing file or directory */ return OPEN_ERR_UNACCESSIBLE; } /** * Call 'opendir()' on each file system and store handles in * a registry. */ Opendir_result open_composite_dirs(char const *sub_path, Dir_vfs_handle &dir_vfs_handle) { Opendir_result res = OPENDIR_ERR_LOOKUP_FAILED; try { for (File_system *fs = _first_file_system; fs; fs = fs->next) { Vfs_handle *sub_dir_handle = nullptr; Opendir_result r = fs->opendir( sub_path, false, &sub_dir_handle, dir_vfs_handle.alloc()); switch (r) { case OPENDIR_OK: break; case OPEN_ERR_OUT_OF_RAM: case OPEN_ERR_OUT_OF_CAPS: return r; default: continue; } new (dir_vfs_handle.alloc()) Dir_vfs_handle::Subdir_handle_element( dir_vfs_handle.subdir_handle_registry, *sub_dir_handle); /* return OK because at least one directory has been opened */ res = OPENDIR_OK; } } catch (Genode::Out_of_ram) { res = OPENDIR_ERR_OUT_OF_RAM; } catch (Genode::Out_of_caps) { res = OPENDIR_ERR_OUT_OF_CAPS; } return res; } Opendir_result opendir(char const *path, bool create, Vfs_handle **out_handle, Allocator &alloc) override { Opendir_result result = OPENDIR_OK; if (_top_dir(path)) { if (create) return OPENDIR_ERR_PERMISSION_DENIED; /* * opendir with '/' (called from 'open_composite_dirs' returns handle * only, VFS root additionally calls 'open_composite_dirs' in order to * open its file systems */ Dir_vfs_handle *root_handle; try { root_handle = new (alloc) Dir_vfs_handle(*this, *this, alloc, path); } catch (Genode::Out_of_ram) { return OPENDIR_ERR_OUT_OF_RAM; } catch (Genode::Out_of_caps) { return OPENDIR_ERR_OUT_OF_CAPS; } /* the VFS root may contain more file systems */ if (_vfs_root) result = open_composite_dirs("/", *root_handle); if (result == OPENDIR_OK) { *out_handle = root_handle; } else { /* close the root handle and the rest will follow */ close(root_handle); } return result; } char const *sub_path = _sub_path(path); if (!sub_path) return OPENDIR_ERR_LOOKUP_FAILED; if (create) { auto opendir_fn = [&] (File_system &fs, char const *path) { Vfs_handle *tmp_handle; Opendir_result opendir_result = fs.opendir(path, true, &tmp_handle, alloc); if (opendir_result == OPENDIR_OK) fs.close(tmp_handle); return opendir_result; /* return from lambda */ }; Opendir_result opendir_result = _dir_op(OPENDIR_ERR_LOOKUP_FAILED, OPENDIR_ERR_PERMISSION_DENIED, OPENDIR_OK, path, opendir_fn); if (opendir_result != OPENDIR_OK) return opendir_result; } Dir_vfs_handle *dir_vfs_handle; try { dir_vfs_handle = new (alloc) Dir_vfs_handle(*this, *this, alloc, path); } catch (Genode::Out_of_ram) { return OPENDIR_ERR_OUT_OF_RAM; } catch (Genode::Out_of_caps) { return OPENDIR_ERR_OUT_OF_CAPS; } /* path equals "/" (for reading the name of this directory) */ if (strlen(sub_path) == 0) sub_path = "/"; result = open_composite_dirs(sub_path, *dir_vfs_handle); if (result == OPENDIR_OK) { *out_handle = dir_vfs_handle; } else { /* close the master handle and the rest will follow */ close(dir_vfs_handle); } return result; } Openlink_result openlink(char const *path, bool create, Vfs_handle **out_handle, Allocator &alloc) override { auto openlink_fn = [&] (File_system &fs, char const *path) { return fs.openlink(path, create, out_handle, alloc); }; return _dir_op(OPENLINK_ERR_LOOKUP_FAILED, OPENLINK_ERR_PERMISSION_DENIED, OPENLINK_OK, path, openlink_fn); } void close(Vfs_handle *handle) override { if (handle && (&handle->ds() == this)) destroy(handle->alloc(), handle); } Watch_result watch(char const *path, Vfs_watch_handle **handle, Allocator &alloc) override { Watch_result res = WATCH_ERR_UNACCESSIBLE; Dir_watch_handle *meta_handle = nullptr; char const *sub_path = _sub_path(path); if (!sub_path) return res; for (File_system *fs = _first_file_system; fs; fs = fs->next) { Vfs_watch_handle *sub_handle; if (fs->watch(sub_path, &sub_handle, alloc) == WATCH_OK) { if (meta_handle == nullptr) { /* at least one non-static FS, allocate handle */ meta_handle = new (alloc) Dir_watch_handle(*this, alloc); *handle = meta_handle; res = WATCH_OK; } /* attach child FS handle to returned handle */ new (alloc) Dir_watch_handle::Watch_handle_element( meta_handle->handle_registry, *sub_handle); } } return res; } void close(Vfs_watch_handle *handle) override { if (handle && (&handle->fs() == this)) destroy(handle->alloc(), handle); } Unlink_result unlink(char const *path) override { auto unlink_fn = [] (File_system &fs, char const *path) { return fs.unlink(path); }; return _dir_op(UNLINK_ERR_NO_ENTRY, UNLINK_ERR_NO_PERM, UNLINK_OK, path, unlink_fn); } Rename_result rename(char const *from_path, char const *to_path) override { from_path = _sub_path(from_path); to_path = _sub_path(to_path); /* path does not match directory name */ if (!from_path) return RENAME_ERR_NO_ENTRY; /* * Cannot rename a path in the static VFS configuration. */ if (strlen(from_path) == 0) return RENAME_ERR_NO_PERM; /* * Check if destination path resides within the same file * system instance as the source path. */ if (!to_path) return RENAME_ERR_CROSS_FS; Rename_result final = RENAME_ERR_NO_ENTRY; for (File_system *fs = _first_file_system; fs; fs = fs->next) { switch (fs->rename(from_path, to_path)) { case RENAME_OK: return RENAME_OK; case RENAME_ERR_NO_ENTRY: continue; case RENAME_ERR_NO_PERM: return RENAME_ERR_NO_PERM; case RENAME_ERR_CROSS_FS: final = RENAME_ERR_CROSS_FS; } } return final; } /*************************** ** File_system interface ** ***************************/ char const *name() const { return "dir"; } char const *type() override { return "dir"; } void apply_config(Genode::Xml_node const &node) override { using namespace Genode; File_system *curr = _first_file_system; for (unsigned i = 0; i < node.num_sub_nodes(); i++, curr = curr->next) { Xml_node const &sub_node = node.sub_node(i); /* check if type of XML node matches current file-system type */ if (sub_node.has_type(curr->type()) == false) { Genode::error("VFS config update failed (node type '", sub_node.type(), "' != fs type '", curr->type(),"')"); return; } curr->apply_config(node.sub_node(i)); } } /******************************** ** File I/O service interface ** ********************************/ Write_result write(Vfs_handle *, char const *, file_size, file_size &) override { return WRITE_ERR_INVALID; } bool queue_read(Vfs_handle *vfs_handle, file_size) override { Dir_vfs_handle *dir_vfs_handle = static_cast(vfs_handle); if (_vfs_root) return _queue_read_of_file_systems(dir_vfs_handle); if (_top_dir(dir_vfs_handle->path.base())) return true; return _queue_read_of_file_systems(dir_vfs_handle); } Read_result complete_read(Vfs_handle *vfs_handle, char *dst, file_size count, file_size &out_count) override { out_count = 0; if (count < sizeof(Dirent)) return READ_ERR_INVALID; Dir_vfs_handle *dir_vfs_handle = static_cast(vfs_handle); if (_vfs_root) return _complete_read_of_file_systems(dir_vfs_handle, dst, count, out_count); if (_top_dir(dir_vfs_handle->path.base())) { Dirent *dirent = (Dirent*)dst; file_offset index = vfs_handle->seek() / sizeof(Dirent); if (index == 0) { strncpy(dirent->name, _name, sizeof(dirent->name)); dirent->type = DIRENT_TYPE_DIRECTORY; dirent->fileno = 1; } else { dirent->type = DIRENT_TYPE_END; } out_count = sizeof(Dirent); return READ_OK; } return _complete_read_of_file_systems(dir_vfs_handle, dst, count, out_count); } Ftruncate_result ftruncate(Vfs_handle *, file_size) override { return FTRUNCATE_ERR_NO_PERM; } bool read_ready(Vfs_handle *handle) override { if (&handle->fs() == this) return true; return handle->fs().read_ready(handle); } bool notify_read_ready(Vfs_handle *handle) override { if (&handle->fs() == this) return true; return handle->fs().notify_read_ready(handle); } bool queue_sync(Vfs_handle *vfs_handle) override { bool result = true; Dir_vfs_handle *dir_vfs_handle = static_cast(vfs_handle); auto f = [&result, dir_vfs_handle] (Dir_vfs_handle::Subdir_handle_element &e) { /* forward the handle context */ e.vfs_handle.context = dir_vfs_handle->context; e.synced = false; if (!e.vfs_handle.fs().queue_sync(&e.vfs_handle)) { result = false; } }; dir_vfs_handle->subdir_handle_registry.for_each(f); return result; } Sync_result complete_sync(Vfs_handle *vfs_handle) override { Sync_result result = SYNC_OK; Dir_vfs_handle *dir_vfs_handle = static_cast(vfs_handle); auto f = [&result, dir_vfs_handle] (Dir_vfs_handle::Subdir_handle_element &e) { if (e.synced) return; Sync_result r = e.vfs_handle.fs().complete_sync(&e.vfs_handle); if (r != SYNC_OK) result = r; else e.synced = true; }; dir_vfs_handle->subdir_handle_registry.for_each(f); return result; } }; #endif /* _INCLUDE__VFS__DIR_FILE_SYSTEM_H_ */