7 * \brief Acess VFS Layer
9 * The Acess Virtual File System (VFS) provides abstraction of multiple
10 * physical filesystems, network storage and devices (both hardware and
11 * virtual) to the user.
13 * The core of the VFS is the concept of a \ref tVFS_Node "VFS Node".
14 * A VFS Node represents a "file" in the VFS tree, this can be any sort
15 * of file (an ordinary file, a directory, a symbolic link or a device)
16 * depending on the bits set in the \ref tVFS_Node.Flags Flags field.
17 * - For more information see "VFS Node Flags"
25 * \name tVFS_Node Flags
26 * \brief Flag values for tVFS_Node.Flags
29 //! \todo Is this still needed
30 #define VFS_FFLAG_READONLY 0x01 //!< Readonly File
32 * \brief Directory Flag
34 * This flag marks the tVFS_Node as describing a directory, and says
35 * that the tVFS_Node.FindDir, tVFS_Node.ReadDir, tVFS_Node.MkNod and
36 * tVFS_Node.Relink function pointers are valid.
37 * For a directory the tVFS_Node.Size field contains the number of files
38 * within the directory, or -1 for undetermined.
40 #define VFS_FFLAG_DIRECTORY 0x02
42 * \brief Symbolic Link Flag
44 * Marks a file as a symbolic link
46 #define VFS_FFLAG_SYMLINK 0x04
48 * \brief Set User ID Flag
50 * Allows an executable file to change it's executing user to the file's
52 * In the case of a directory, it means that all immediate children will
53 * inherit the UID of the parent.
55 #define VFS_FFLAG_SETUID 0x08
57 * \brief Set Group ID Flag
59 * Allows an executable file to change it's executing group to the file's
61 * In the case of a directory, it means that all immediate children will
62 * inherit the GID of the parent.
64 #define VFS_FFLAG_SETGID 0x10
72 * This structure provides the VFS with the functions required to read/write
73 * the file (or directory) that it represents.
75 typedef struct sVFS_Node
79 * \brief Fields used by the driver to identify what data this node
83 Uint64 Inode; //!< Inode ID (Essentially another ImplInt)
84 Uint ImplInt; //!< Implementation Usable Integer
85 void *ImplPtr; //!< Implementation Usable Pointer
92 * \brief Stores the misc information about the node
95 int ReferenceCount; //!< Number of times the node is used
97 Uint64 Size; //!< File Size
99 Uint32 Flags; //!< File Flags
102 * Pointer to cached data (FS Specific)
103 * \note Inode_* will free when the node is uncached this if needed
114 Sint64 ATime; //!< Last Accessed Time
115 Sint64 MTime; //!< Last Modified Time
116 Sint64 CTime; //!< Creation Time
122 * \name Access controll
125 tUID UID; //!< ID of Owning User
126 tGID GID; //!< ID of Owning Group
128 int NumACLs; //!< Number of ACL entries
129 tVFS_ACL *ACLs; //!< Access Controll List pointer
135 * \name Common Functions
136 * \brief Functions that are used no matter the value of .Flags
140 * \brief Reference the node
141 * \param Node Pointer to this node
143 void (*Reference)(struct sVFS_Node *Node);
145 * \brief Close (dereference) the node
146 * \param Node Pointer to this node
148 * Usually .Close is used to write any changes to the node back to
149 * the persistent storage.
151 void (*Close)(struct sVFS_Node *Node);
154 * \brief Send an IO Control
155 * \param Node Pointer to this node
156 * \param Id IOCtl call number
157 * \param Data Pointer to data to pass to the driver
158 * \return Implementation defined
160 int (*IOCtl)(struct sVFS_Node *Node, int Id, void *Data);
167 * \name Buffer Functions
168 * \brief Functions for accessing a buffer-type file (normal file or
174 * \brief Read from the file
175 * \param Node Pointer to this node
176 * \param Offset Byte offset in the file
177 * \param Length Number of bytes to read
178 * \param Buffer Destination for read data
179 * \return Number of bytes read
181 Uint64 (*Read)(struct sVFS_Node *Node, Uint64 Offset, Uint64 Length, void *Buffer);
183 * \brief Write to the file
184 * \param Node Pointer to this node
185 * \param Offset Byte offser in the file
186 * \param Length Number of bytes to write
187 * \param Buffer Source of written data
188 * \return Number of bytes read
190 Uint64 (*Write)(struct sVFS_Node *Node, Uint64 Offset, Uint64 Length, void *Buffer);
197 * \name Directory Functions
201 * \brief Find an directory entry by name
202 * \param Node Pointer to this node
203 * \param Name Name of the file wanted
204 * \return Pointer to the requested node or NULL if it cannot be found
205 * \note The node returned must be accessable until ::tVFS_Node.Close
206 * is called and ReferenceCount reaches zero.
208 struct sVFS_Node *(*FindDir)(struct sVFS_Node *Node, char *Name);
211 * \brief Read from a directory
212 * \param Node Pointer to this node
213 * \param Pos Offset in the directory
214 * \return Pointer to the name of the item on the heap (will be freed
215 * by the caller). If the directory end has been reached, NULL
217 * If an item is required to be skipped either &::NULLNode,
218 * ::VFS_SKIP or ::VFS_SKIPN(0...1023) will be returned.
220 char *(*ReadDir)(struct sVFS_Node *Node, int Pos);
223 * \brief Create a node in a directory
224 * \param Node Pointer to this node
225 * \param Name Name of the new child
226 * \param Flags Flags to apply to the new child (directory or symlink)
227 * \return Boolean success
229 int (*MkNod)(struct sVFS_Node *Node, char *Name, Uint Flags);
232 * \brief Relink (Rename/Remove) a file/directory
233 * \param Node Pointer to this node
234 * \param OldName Name of the item to move/delete
235 * \param NewName New name (or NULL if unlinking is wanted)
236 * \return Zero on Success, non-zero on error (see errno.h)
238 int (*Relink)(struct sVFS_Node *Node, char *OldName, char *NewName);
246 * \brief VFS Driver (Filesystem) Definition
248 typedef struct sVFS_Driver
250 //! \brief Unique Identifier for this filesystem type
252 //! \brief Flags applying to this driver
255 //! \brief Callback to mount a device
256 tVFS_Node *(*InitDevice)(char *Device, char **Options);
257 //! \brief Callback to unmount a device
258 void (*Unmount)(tVFS_Node *Node);
259 //! \brief Used internally (next driver in the chain)
260 struct sVFS_Driver *Next;
264 //! \brief Maximum number of elements that can be skipped in one return
265 #define VFS_MAXSKIP ((void*)1024)
266 //! \brief Skip a single entry in readdir
267 #define VFS_SKIP ((void*)1)
268 //! \brief Skip \a n entries in readdir
269 #define VFS_SKIPN(n) ((void*)(n))
271 extern tVFS_Node NULLNode; //!< NULL VFS Node (Ignored/Skipped)
274 * \brief Simple ACLs to aid writing drivers
277 extern tVFS_ACL gVFS_ACL_EveryoneRWX; //!< Everyone Read/Write/Execute
278 extern tVFS_ACL gVFS_ACL_EveryoneRW; //!< Everyone Read/Write
279 extern tVFS_ACL gVFS_ACL_EveryoneRX; //!< Everyone Read/Execute
280 extern tVFS_ACL gVFS_ACL_EveryoneRO; //!< Everyone Read only
287 * \fn int VFS_AddDriver(tVFS_Driver *Info)
288 * \brief Registers the driver with the DevFS layer
289 * \param Info Driver information structure
291 extern int VFS_AddDriver(tVFS_Driver *Info);
293 * \fn tVFS_Driver *VFS_GetFSByName(char *Name)
294 * \brief Get the information structure of a driver given its name
295 * \param Name Name of filesystem driver to find
297 extern tVFS_Driver *VFS_GetFSByName(char *Name);
299 * \fn tVFS_ACL *VFS_UnixToAcessACL(Uint Mode, Uint Owner, Uint Group)
300 * \brief Transforms Unix Permssions into Acess ACLs
301 * \param Mode Unix RWXrwxRWX mask
302 * \param Owner UID of the file's owner
303 * \param Group GID of the file's owning group
304 * \return An array of 3 Acess ACLs
306 extern tVFS_ACL *VFS_UnixToAcessACL(Uint Mode, Uint Owner, Uint Group);
311 * \brief Functions to allow a node to be cached in memory by the VFS
313 * These functions store a node for the driver, to prevent it from having
314 * to re-generate the node on each call to FindDir. It also allows for
315 * fast cleanup when a filesystem is unmounted.
319 * \fn int Inode_GetHandle()
320 * \brief Gets a unique handle to the Node Cache
321 * \return A unique handle for use for the rest of the Inode_* functions
323 extern int Inode_GetHandle();
325 * \fn tVFS_Node *Inode_GetCache(int Handle, Uint64 Inode)
326 * \brief Gets an inode from the node cache
327 * \param Handle A handle returned by Inode_GetHandle()
328 * \param Inode Value of the Inode field of the ::tVFS_Node you want
329 * \return A pointer to the cached node
331 extern tVFS_Node *Inode_GetCache(int Handle, Uint64 Inode);
333 * \fn tVFS_Node *Inode_CacheNode(int Handle, tVFS_Node *Node)
334 * \brief Caches a node in the Node Cache
335 * \param Handle A handle returned by Inode_GetHandle()
336 * \param Node A pointer to the node to be cached (a copy is taken)
337 * \return A pointer to the node in the node cache
339 extern tVFS_Node *Inode_CacheNode(int Handle, tVFS_Node *Node);
341 * \fn int Inode_UncacheNode(int Handle, Uint64 Inode)
342 * \brief Dereferences (and removes if needed) a node from the cache
343 * \param Handle A handle returned by Inode_GetHandle()
344 * \param Inode Value of the Inode field of the ::tVFS_Node you want to remove
346 extern void Inode_UncacheNode(int Handle, Uint64 Inode);
348 * \fn void Inode_ClearCache(int Handle)
349 * \brief Clears the cache for a handle
350 * \param Handle A handle returned by Inode_GetHandle()
352 extern void Inode_ClearCache(int Handle);