/** * \brief RUMP file system interface implementation * \author Christian Helmuth * \author Sebastian Sumpf * \date 2014-01-14 */ /* * Copyright (C) 2014 Genode Labs GmbH * * This file is part of the Genode OS framework, which is distributed * under the terms of the GNU General Public License version 2. */ /* Genode includes */ #include #include "undef.h" #include #include #include #include #include #include "file_system.h" #include "directory.h" namespace File_system { struct Main; struct Root; struct Session_component; } class File_system::Session_component : public Session_rpc_object { private: Allocator &_md_alloc; Directory &_root; Node_handle_registry _handle_registry; bool _writable; Signal_rpc_member _process_packet_dispatcher; /****************************** ** Packet-stream processing ** ******************************/ /** * Perform packet operation * * \return true on success, false on failure */ void _process_packet_op(Packet_descriptor &packet, Node &node) { void * const content = tx_sink()->packet_content(packet); size_t const length = packet.length(); seek_off_t const offset = packet.position(); if (!content || (packet.length() > packet.size())) { packet.succeeded(false); return; } /* resulting length */ size_t res_length = 0; switch (packet.operation()) { case Packet_descriptor::READ: res_length = node.read((char *)content, length, offset); break; case Packet_descriptor::WRITE: res_length = node.write((char const *)content, length, offset); break; } packet.length(res_length); packet.succeeded(res_length > 0); } void _process_packet() { Packet_descriptor packet = tx_sink()->get_packet(); /* assume failure by default */ packet.succeeded(false); try { Node *node = _handle_registry.lookup(packet.handle()); _process_packet_op(packet, *node); } catch (Invalid_handle) { PERR("Invalid_handle"); } catch (Size_limit_reached) { PERR("Size_limit_reached"); } /* * The 'acknowledge_packet' function cannot block because we * checked for 'ready_to_ack' in '_process_packets'. */ tx_sink()->acknowledge_packet(packet); } /** * Called by signal dispatcher, executed in the context of the main * thread (not serialized with the RPC functions) */ void _process_packets(unsigned) { while (tx_sink()->packet_avail()) { /* * Make sure that the '_process_packet' function does not * block. * * If the acknowledgement queue is full, we defer packet * processing until the client processed pending * acknowledgements and thereby emitted a ready-to-ack * signal. Otherwise, the call of 'acknowledge_packet()' * in '_process_packet' would infinitely block the context * of the main thread. The main thread is however needed * for receiving any subsequent 'ready-to-ack' signals. */ if (!tx_sink()->ready_to_ack()) return; _process_packet(); } } /** * Check if string represents a valid path (must start with '/') */ static void _assert_valid_path(char const *path) { if (!path || path[0] != '/') { PWRN("malformed path '%s'", path); throw Lookup_failed(); } } public: /** * Constructor */ Session_component(size_t tx_buf_size, Server::Entrypoint &ep, char const *root_dir, bool writeable, Allocator &md_alloc) : Session_rpc_object(env()->ram_session()->alloc(tx_buf_size), ep.rpc_ep()), _md_alloc(md_alloc), _root(*new (&_md_alloc) Directory(_md_alloc, root_dir, false)), _writable(writeable), _process_packet_dispatcher(ep, *this, &Session_component::_process_packets) { /* * Register '_process_packets' dispatch function as signal * handler for packet-avail and ready-to-ack signals. */ _tx.sigh_packet_avail(_process_packet_dispatcher); _tx.sigh_ready_to_ack(_process_packet_dispatcher); } /** * Destructor */ ~Session_component() { Dataspace_capability ds = tx_sink()->dataspace(); env()->ram_session()->free(static_cap_cast(ds)); destroy(&_md_alloc, &_root); } /*************************** ** File_system interface ** ***************************/ File_handle file(Dir_handle dir_handle, Name const &name, Mode mode, bool create) { if (!valid_name(name.string())) throw Invalid_name(); Directory *dir = _handle_registry.lookup(dir_handle); if (!_writable) if (create || (mode != STAT_ONLY && mode != READ_ONLY)) throw Permission_denied(); File *file = dir->file(name.string(), mode, create); return _handle_registry.alloc(file); } Symlink_handle symlink(Dir_handle dir_handle, Name const &name, bool create) { if (!File_system::supports_symlinks()) throw Permission_denied(); if (!valid_name(name.string())) throw Invalid_name(); Directory *dir = _handle_registry.lookup(dir_handle); if (create && !_writable) throw Permission_denied(); Symlink *link = dir->symlink(name.string(), create); return _handle_registry.alloc(link); } Dir_handle dir(Path const &path, bool create) { char const *path_str = path.string(); _assert_valid_path(path_str); /* skip leading '/' */ path_str++; if (!_writable && create) throw Permission_denied(); if (!path.is_valid_string()) throw Name_too_long(); Directory *dir = _root.subdir(path_str, create); return _handle_registry.alloc(dir); } Node_handle node(Path const &path) { char const *path_str = path.string(); _assert_valid_path(path_str); Node *node = _root.node(path_str + 1); Node_handle h = _handle_registry.alloc(node); return h; } void close(Node_handle handle) { Node *node = 0; try { node = _handle_registry.lookup(handle); } catch (Invalid_handle) { return; } _handle_registry.free(handle); /* destruct node */ if (node) destroy(&_md_alloc, node); } Status status(Node_handle node_handle) { Node *node = _handle_registry.lookup(node_handle); Status s; s.inode = node->inode(); s.size = 0; s.mode = 0; File *file = dynamic_cast(node); if (file) { s.size = file->length(); s.mode = File_system::Status::MODE_FILE; return s; } Directory *dir = dynamic_cast(node); if (dir) { s.size = dir->num_entries()*sizeof(Directory_entry); s.mode = File_system::Status::MODE_DIRECTORY; return s; } Symlink *link = dynamic_cast(node); if (link) { s.size = link->length(); s.mode = File_system::Status::MODE_SYMLINK; return s; } return Status(); } void control(Node_handle, Control) { PERR("%s not implemented", __func__); } void unlink(Dir_handle dir_handle, Name const &name) { if (!valid_name(name.string())) throw Invalid_name(); if (!_writable) throw Permission_denied(); Directory *dir = _handle_registry.lookup(dir_handle); dir->unlink(name.string()); } void truncate(File_handle file_handle, file_size_t size) { if (!_writable) throw Permission_denied(); File *file = _handle_registry.lookup(file_handle); file->truncate(size); } void move(Dir_handle from_dir_handle, Name const &from_name, Dir_handle to_dir_handle, Name const &to_name) { if (!_writable) throw Permission_denied(); char const *from_str = from_name.string(); char const *to_str = to_name.string(); if (!(valid_name(from_str) && valid_name(to_str))) throw Lookup_failed(); Directory *from_dir = _handle_registry.lookup(from_dir_handle); Directory *to_dir = _handle_registry.lookup( to_dir_handle); if (rump_sys_renameat(from_dir->fd(), from_str, to_dir->fd(), to_str) == 0) { from_dir->mark_as_updated(); from_dir->notify_listeners(); if (!_handle_registry.refer_to_same_node(from_dir_handle, to_dir_handle)) { to_dir->mark_as_updated(); to_dir->notify_listeners(); } return; } switch (errno) { case ENOTEMPTY: throw Node_already_exists(); case ENOENT: throw Lookup_failed(); } PWRN("renameat produced unhandled error %x %s %s", errno, from_str, to_str); throw Permission_denied(); } void sigh(Node_handle node_handle, Signal_context_capability sigh) { _handle_registry.sigh(node_handle, sigh); } void sync(Node_handle) override { rump_sys_sync(); } }; class File_system::Root : public Root_component { private: Server::Entrypoint &_ep; protected: Session_component *_create_session(const char *args) { /* * Determine client-specific policy defined implicitly by * the client's label. */ char const *root_dir = "."; bool writeable = false; enum { ROOT_MAX_LEN = 256 }; char root[ROOT_MAX_LEN]; root[0] = 0; Session_label label(args); try { Session_policy policy(label); /* * Determine directory that is used as root directory of * the session. */ try { policy.attribute("root").value(root, sizeof(root)); /* * Make sure the root path is specified with a * leading path delimiter. For performing the * lookup, we skip the first character. */ if (root[0] != '/') throw Lookup_failed(); root_dir = root; } catch (Xml_node::Nonexistent_attribute) { PERR("Missing \"root\" attribute in policy definition"); throw Root::Unavailable(); } catch (Lookup_failed) { PERR("Session root directory \"%s\" does not exist", root); throw Root::Unavailable(); } /* * Determine if write access is permitted for the session. */ try { writeable = policy.attribute("writeable").has_value("yes"); } catch (Xml_node::Nonexistent_attribute) { } } catch (Session_policy::No_policy_defined) { PERR("Invalid session request, no matching policy"); throw Root::Unavailable(); } size_t ram_quota = Arg_string::find_arg(args, "ram_quota" ).ulong_value(0); size_t tx_buf_size = Arg_string::find_arg(args, "tx_buf_size").ulong_value(0); if (!tx_buf_size) { PERR("%s requested a session with a zero length transmission buffer", label.string()); throw Root::Invalid_args(); } /* * Check if donated ram quota suffices for session data, * and communication buffer. */ size_t session_size = sizeof(Session_component) + tx_buf_size; if (max((size_t)4096, session_size) > ram_quota) { PERR("insufficient 'ram_quota', got %zd, need %zd", ram_quota, session_size); throw Root::Quota_exceeded(); } try { return new (md_alloc()) Session_component(tx_buf_size, _ep, root_dir, writeable, *md_alloc()); } catch (Lookup_failed) { PERR("File system root directory \"%s\" does not exist", root_dir); throw Root::Unavailable(); } } public: /** * Constructor * * \param ep entrypoint * \param sig_rec signal receiver used for handling the * data-flow signals of packet streams * \param md_alloc meta-data allocator */ Root(Server::Entrypoint &ep, Allocator &md_alloc) : Root_component(&ep.rpc_ep(), &md_alloc), _ep(ep) { } }; struct File_system::Main { Server::Entrypoint &ep; Server::Signal_rpc_member
resource_dispatcher; /* * Initialize root interface */ Sliced_heap sliced_heap = { env()->ram_session(), env()->rm_session() }; Root fs_root = { ep, sliced_heap }; /* return immediately from resource requests */ void resource_handler(unsigned) { } Main(Server::Entrypoint &ep) : ep(ep), resource_dispatcher(ep, *this, &Main::resource_handler) { File_system::init(ep); env()->parent()->announce(ep.manage(fs_root)); env()->parent()->resource_avail_sigh(resource_dispatcher); } }; /********************** ** Server framework ** **********************/ char const * Server::name() { return "rump_fs_ep"; } Genode::size_t Server::stack_size() { return 4 * 1024 * sizeof(long); } void Server::construct(Server::Entrypoint &ep) { static File_system::Main inst(ep); }