#pragma once #include #include #include #include #include // common header // How to use : // - When using a filesystem : never call the operations in fs_*_ops_t directly, use // the functions defined bellow in section "public functions"; // Users of the VFS should not manipulate directly fs_node_t items, only fs_t and fs_handle_t // - When programming a filesystem : don't worry about allocating the fs_handle_t and fs_t, // it is done automatically // - The three types defined below (filesystem, fs node, file handle) are reference-counters to // some data managed by the underlying filesystem. The following types are aliases to void*, // but are used to disambiguate the different types of void* : fs_handle_ptr, fs_node_ptr, fs_ptr // Conventions : // - ioctl returns negative values on error. null or positives are valid return values from underlying // driver // About thread safety : // - The VFS implements a locking mechanism on FS nodes so that only one operation is executed // at the same time on a given node (including: open, stat, walk, delete, move, create, ioctl) // - The VFS does not implement locks on handles : several simultaneous read/writes are possible, and // it is the driver's responsiblity to prevent that if necessary // - The VFS does not lock nodes that have a handle open to them : it is the FS code's responsibility // to refuse some commands if neccessary on a node that is open. // - The VFS does not implement any locking mechanism on filesystems themselves (e.g. the add_source // implementation must have its own locking system) typedef void* fs_node_ptr; typedef void* fs_ptr; // usefull forward declarations struct fs; struct fs_node; typedef struct user_region user_region_t; typedef struct fs_node_ops fs_node_ops_t; // ------------------------------------------- // Structure defining a handle to an open file // This structure is entirely managed by the VFS, the underlying filesystem does not see it // For IPC structures (sockets, channels), fs is null, but a node object is nevertheless // created by the IPC code. typedef struct fs_handle { struct fs *fs; struct fs_node *node; int refs; int mode; // TODO : keep a position in the file for sequential-append access and such // (as it is this structure is quite useless) } fs_handle_t; // ------------------------------------------- // Structure defining a filesystem node // In the future this is where FS-level cache may be implemented : calls to dispose() are not // executed immediately when refcount falls to zero but only when we need to free memory // Remarks : // - fs_node_t not to be used in public interface // - nodes keep a reference to their parent // - a FS node is either in memory (after one call to walk() on its parent), or not in memory // it can be in memory only once : if it is in memory, walk() cannot be called on the parent again // - delete() is expected to unlink the node from its parent (make it inaccessible) and delete // the corresponding data. It is guaranteed that delete() is never called on a node that // is currently in use. (different from posix semantics !) // - move() may be called on a node that is currently in use // - the root node of a filesystem is created when the filesystem is created // - dispose() is not called on the root node when a filesystem is shutdown // - delete() is not expected to delete recursively : it should fail on a non-empty directory typedef struct fs_node_ops { bool (*open)(fs_node_ptr n, int mode); size_t (*read)(fs_handle_t *f, size_t offset, size_t len, char* buf); size_t (*write)(fs_handle_t *f, size_t offset, size_t len, const char* buf); bool (*readdir)(fs_handle_t *f, size_t ent_no, dirent_t *d); int (*poll)(fs_handle_t *f, void** out_wait_obj); void (*close)(fs_handle_t *f); bool (*stat)(fs_node_ptr n, stat_t *st); int (*ioctl)(fs_node_ptr f, int command, void* data); bool (*walk)(fs_node_ptr n, const char* file, struct fs_node *node_d); bool (*delete)(fs_node_ptr n, const char* file); bool (*move)(fs_node_ptr dir, const char* old_name, struct fs_node *new_parent, const char *new_name); bool (*create)(fs_node_ptr n, const char* name, int type); // create sub-node in directory void (*dispose)(fs_node_ptr n); } fs_node_ops_t; typedef struct fs_node { // These fields are filled by the VFS's generic walk() code int refs; mutex_t lock; char* name; // name in parent struct fs *fs; hashtbl_t *children; // not all children, only those in memory struct fs_node *parent; // These fields are filled by the FS's specific walk() code fs_node_ops_t *ops; fs_node_ptr data; } fs_node_t; // ------------------------------------------- // Structure defining a filesystem typedef struct { bool (*add_source)(fs_ptr fs, fs_handle_t* source, const char* opts); void (*shutdown)(fs_ptr fs); } fs_ops_t; typedef struct fs { // Filled by VFS's make_fs() int refs; struct fs *from_fs; int ok_modes; // Filled by FS's specific make() - all zero in the case of a subfs fs_ops_t *ops; fs_ptr data; // Filled by both according to what is specified for fs_node_t fs_node_t *root; } fs_t; // ------------------------------------------- // Structure defining a filesystem driver typedef struct { bool (*make)(fs_handle_t *source, const char* opts, fs_t *d); } fs_driver_ops_t; // ------------------------------------------- // All functions that return a fs_node_t*, fs_t* or fs_handle_t* return an object // that will have to be dereferenced when not used anymore. // (on fs_handle_t*, dereferencing is like closing, only that the actual closing happens // when refcount falls to zero) // Internals void ref_fs_node(fs_node_t *n); void unref_fs_node(fs_node_t *n); fs_node_t* fs_walk_one(fs_node_t* from, const char *file); fs_node_t* fs_walk_path(fs_node_t* from, const char *p); fs_node_t* fs_walk_path_except_last(fs_node_t* from, const char *p, char* last_file_buf); // Public functions void register_fs_driver(const char* name, fs_driver_ops_t *ops); fs_t* make_fs(const char* driver, fs_handle_t *source, const char* opts); fs_t* fs_subfs(fs_t *fs, const char *root, int ok_modes); bool fs_add_source(fs_t *fs, fs_handle_t *source, const char* opts); void ref_fs(fs_t *fs); void unref_fs(fs_t *fs); bool fs_create(fs_t *fs, const char* file, int type); bool fs_delete(fs_t *fs, const char* file); bool fs_move(fs_t *fs, const char* from, const char* to); bool fs_stat(fs_t *fs, const char* file, stat_t *st); fs_handle_t* fs_open(fs_t *fs, const char* file, int mode); void ref_file(fs_handle_t *file); void unref_file(fs_handle_t *file); int file_get_mode(fs_handle_t *f); bool file_stat(fs_handle_t *f, stat_t *st); size_t file_read(fs_handle_t *f, size_t offset, size_t len, char* buf); size_t file_write(fs_handle_t *f, size_t offset, size_t len, const char* buf); int file_ioctl(fs_handle_t *f, int command, void* data); bool file_readdir(fs_handle_t *f, size_t ent_no, dirent_t *d); int file_poll(fs_handle_t *f, void** out_wait_obj); // just polls the file & returns a mask of SEL_* (see ) /* vim: set ts=4 sw=4 tw=0 noet :*/