haiku/headers/os/drivers/fs_interface.h
Axel Dörfler 9f6ae76f02 * Added acquire_vnode() call that you can use to get another reference to an
inode - unlike get_vnode() the busy flag won't prevent you from getting that
  reference.
* Changed put_vnode() to return an error in case the vnode couldn't be found.


git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@26713 a95241bf-73f2-0310-859d-f6bbb57e9c96
2008-08-01 09:59:19 +00:00

360 lines
14 KiB
C

/*
* Copyright 2004-2008, Haiku Inc. All Rights Reserved.
* Distributed under the terms of the MIT License.
*/
#ifndef _FS_INTERFACE_H
#define _FS_INTERFACE_H
/*! File System Interface Layer Definition */
#include <OS.h>
#include <Select.h>
#include <module.h>
#include <disk_device_manager.h>
#include <sys/uio.h>
struct dirent;
struct stat;
struct fs_info;
struct select_sync;
typedef struct IORequest io_request;
/* additional flags passed to write_stat() (see NodeMonitor.h for the others) */
// NOTE: Changing the constants here or in NodeMonitor.h will break
// src/kits/storage/LibBeAdapter.cpp:_kern_write_stat().
#define B_STAT_SIZE_INSECURE 0x2000
// TODO: this should be faded out once BFS supports sparse files
/* passed to write_fs_info() */
#define FS_WRITE_FSINFO_NAME 0x0001
struct file_io_vec {
off_t offset;
off_t length;
};
#define B_CURRENT_FS_API_VERSION "/v1"
// flags for publish_vnode() and fs_volume_ops::get_vnode()
#define B_VNODE_PUBLISH_REMOVED 0x01
#define B_VNODE_DONT_CREATE_SPECIAL_SUB_NODE 0x02
#ifdef __cplusplus
extern "C" {
#endif
typedef struct fs_volume fs_volume;
typedef struct fs_volume_ops fs_volume_ops;
typedef struct fs_vnode fs_vnode;
typedef struct fs_vnode_ops fs_vnode_ops;
struct fs_volume {
dev_t id;
partition_id partition;
int32 layer;
void* private_volume;
fs_volume_ops* ops;
fs_volume* sub_volume;
fs_volume* super_volume;
};
struct fs_vnode {
void* private_node;
fs_vnode_ops* ops;
};
struct fs_volume_ops {
status_t (*unmount)(fs_volume *volume);
status_t (*read_fs_info)(fs_volume *volume, struct fs_info *info);
status_t (*write_fs_info)(fs_volume *volume, const struct fs_info *info,
uint32 mask);
status_t (*sync)(fs_volume *volume);
status_t (*get_vnode)(fs_volume *volume, ino_t id, fs_vnode *vnode,
int *_type, uint32 *_flags, bool reenter);
/* index directory & index operations */
status_t (*open_index_dir)(fs_volume *volume, void **cookie);
status_t (*close_index_dir)(fs_volume *volume, void *cookie);
status_t (*free_index_dir_cookie)(fs_volume *volume, void *cookie);
status_t (*read_index_dir)(fs_volume *volume, void *cookie,
struct dirent *buffer, size_t bufferSize, uint32 *_num);
status_t (*rewind_index_dir)(fs_volume *volume, void *cookie);
status_t (*create_index)(fs_volume *volume, const char *name, uint32 type,
uint32 flags);
status_t (*remove_index)(fs_volume *volume, const char *name);
status_t (*read_index_stat)(fs_volume *volume, const char *name,
struct stat *stat);
/* query operations */
status_t (*open_query)(fs_volume *volume, const char *query, uint32 flags,
port_id port, uint32 token, void **_cookie);
status_t (*close_query)(fs_volume *volume, void *cookie);
status_t (*free_query_cookie)(fs_volume *volume, void *cookie);
status_t (*read_query)(fs_volume *volume, void *cookie,
struct dirent *buffer, size_t bufferSize, uint32 *_num);
status_t (*rewind_query)(fs_volume *volume, void *cookie);
/* support for FS layers */
status_t (*create_sub_vnode)(fs_volume *volume, ino_t id, fs_vnode *vnode);
status_t (*delete_sub_vnode)(fs_volume *volume, fs_vnode *vnode);
};
struct fs_vnode_ops {
/* vnode operations */
status_t (*lookup)(fs_volume *volume, fs_vnode *dir, const char *name,
ino_t *_id);
status_t (*get_vnode_name)(fs_volume *volume, fs_vnode *vnode, char *buffer,
size_t bufferSize);
status_t (*put_vnode)(fs_volume *volume, fs_vnode *vnode, bool reenter);
status_t (*remove_vnode)(fs_volume *volume, fs_vnode *vnode, bool reenter);
/* VM file access */
bool (*can_page)(fs_volume *volume, fs_vnode *vnode, void *cookie);
status_t (*read_pages)(fs_volume *volume, fs_vnode *vnode, void *cookie,
off_t pos, const iovec *vecs, size_t count, size_t *_numBytes);
status_t (*write_pages)(fs_volume *volume, fs_vnode *vnode,
void *cookie, off_t pos, const iovec *vecs, size_t count,
size_t *_numBytes);
/* asynchronous I/O */
status_t (*io)(fs_volume *volume, fs_vnode *vnode, void *cookie,
io_request *request);
status_t (*cancel_io)(fs_volume *volume, fs_vnode *vnode, void *cookie,
io_request *request);
/* cache file access */
status_t (*get_file_map)(fs_volume *volume, fs_vnode *vnode, off_t offset,
size_t size, struct file_io_vec *vecs, size_t *_count);
/* common operations */
status_t (*ioctl)(fs_volume *volume, fs_vnode *vnode, void *cookie,
ulong op, void *buffer, size_t length);
status_t (*set_flags)(fs_volume *volume, fs_vnode *vnode, void *cookie,
int flags);
status_t (*select)(fs_volume *volume, fs_vnode *vnode, void *cookie,
uint8 event, selectsync *sync);
status_t (*deselect)(fs_volume *volume, fs_vnode *vnode, void *cookie,
uint8 event, selectsync *sync);
status_t (*fsync)(fs_volume *volume, fs_vnode *vnode);
status_t (*read_symlink)(fs_volume *volume, fs_vnode *link, char *buffer,
size_t *_bufferSize);
status_t (*create_symlink)(fs_volume *volume, fs_vnode *dir,
const char *name, const char *path, int mode);
status_t (*link)(fs_volume *volume, fs_vnode *dir, const char *name,
fs_vnode *vnode);
status_t (*unlink)(fs_volume *volume, fs_vnode *dir, const char *name);
status_t (*rename)(fs_volume *volume, fs_vnode *fromDir,
const char *fromName, fs_vnode *toDir, const char *toName);
status_t (*access)(fs_volume *volume, fs_vnode *vnode, int mode);
status_t (*read_stat)(fs_volume *volume, fs_vnode *vnode,
struct stat *stat);
status_t (*write_stat)(fs_volume *volume, fs_vnode *vnode,
const struct stat *stat, uint32 statMask);
/* file operations */
status_t (*create)(fs_volume *volume, fs_vnode *dir, const char *name,
int openMode, int perms, void **_cookie,
ino_t *_newVnodeID);
status_t (*open)(fs_volume *volume, fs_vnode *vnode, int openMode,
void **_cookie);
status_t (*close)(fs_volume *volume, fs_vnode *vnode, void *cookie);
status_t (*free_cookie)(fs_volume *volume, fs_vnode *vnode,
void *cookie);
status_t (*read)(fs_volume *volume, fs_vnode *vnode, void *cookie,
off_t pos, void *buffer, size_t *length);
status_t (*write)(fs_volume *volume, fs_vnode *vnode, void *cookie,
off_t pos, const void *buffer, size_t *length);
/* directory operations */
status_t (*create_dir)(fs_volume *volume, fs_vnode *parent,
const char *name, int perms, ino_t *_newVnodeID);
status_t (*remove_dir)(fs_volume *volume, fs_vnode *parent,
const char *name);
status_t (*open_dir)(fs_volume *volume, fs_vnode *vnode,
void **_cookie);
status_t (*close_dir)(fs_volume *volume, fs_vnode *vnode, void *cookie);
status_t (*free_dir_cookie)(fs_volume *volume, fs_vnode *vnode,
void *cookie);
status_t (*read_dir)(fs_volume *volume, fs_vnode *vnode, void *cookie,
struct dirent *buffer, size_t bufferSize, uint32 *_num);
status_t (*rewind_dir)(fs_volume *volume, fs_vnode *vnode,
void *cookie);
/* attribute directory operations */
status_t (*open_attr_dir)(fs_volume *volume, fs_vnode *vnode,
void **_cookie);
status_t (*close_attr_dir)(fs_volume *volume, fs_vnode *vnode,
void *cookie);
status_t (*free_attr_dir_cookie)(fs_volume *volume, fs_vnode *vnode,
void *cookie);
status_t (*read_attr_dir)(fs_volume *volume, fs_vnode *vnode,
void *cookie, struct dirent *buffer, size_t bufferSize,
uint32 *_num);
status_t (*rewind_attr_dir)(fs_volume *volume, fs_vnode *vnode,
void *cookie);
/* attribute operations */
status_t (*create_attr)(fs_volume *volume, fs_vnode *vnode,
const char *name, uint32 type, int openMode,
void **_cookie);
status_t (*open_attr)(fs_volume *volume, fs_vnode *vnode, const char *name,
int openMode, void **_cookie);
status_t (*close_attr)(fs_volume *volume, fs_vnode *vnode,
void *cookie);
status_t (*free_attr_cookie)(fs_volume *volume, fs_vnode *vnode,
void *cookie);
status_t (*read_attr)(fs_volume *volume, fs_vnode *vnode, void *cookie,
off_t pos, void *buffer, size_t *length);
status_t (*write_attr)(fs_volume *volume, fs_vnode *vnode, void *cookie,
off_t pos, const void *buffer, size_t *length);
status_t (*read_attr_stat)(fs_volume *volume, fs_vnode *vnode,
void *cookie, struct stat *stat);
status_t (*write_attr_stat)(fs_volume *volume, fs_vnode *vnode,
void *cookie, const struct stat *stat, int statMask);
status_t (*rename_attr)(fs_volume *volume, fs_vnode *fromVnode,
const char *fromName, fs_vnode *toVnode, const char *toName);
status_t (*remove_attr)(fs_volume *volume, fs_vnode *vnode,
const char *name);
/* support for node and FS layers */
status_t (*create_special_node)(fs_volume *volume, fs_vnode *dir,
const char *name, fs_vnode *subVnode, mode_t mode, uint32 flags,
fs_vnode *_superVnode, ino_t *_nodeID);
status_t (*get_super_vnode)(fs_volume *volume, fs_vnode *vnode,
fs_volume *superVolume, fs_vnode *superVnode);
};
typedef struct file_system_module_info {
struct module_info info;
const char* short_name;
const char* pretty_name;
uint32 flags; // DDM flags
/* scanning (the device is write locked) */
float (*identify_partition)(int fd, partition_data *partition,
void **cookie);
status_t (*scan_partition)(int fd, partition_data *partition,
void *cookie);
void (*free_identify_partition_cookie)(partition_data *partition,
void *cookie);
void (*free_partition_content_cookie)(partition_data *partition);
/* general operations */
status_t (*mount)(fs_volume *volume, const char *device, uint32 flags,
const char *args, ino_t *_rootVnodeID);
/* capability querying (the device is read locked) */
uint32 (*get_supported_operations)(partition_data* partition, uint32 mask);
bool (*validate_resize)(partition_data *partition, off_t *size);
bool (*validate_move)(partition_data *partition, off_t *start);
bool (*validate_set_content_name)(partition_data *partition,
char *name);
bool (*validate_set_content_parameters)(partition_data *partition,
const char *parameters);
bool (*validate_initialize)(partition_data *partition, char *name,
const char *parameters);
/* shadow partition modification (device is write locked) */
status_t (*shadow_changed)(partition_data *partition,
partition_data *child, uint32 operation);
/* writing (the device is NOT locked) */
status_t (*defragment)(int fd, partition_id partition,
disk_job_id job);
status_t (*repair)(int fd, partition_id partition, bool checkOnly,
disk_job_id job);
status_t (*resize)(int fd, partition_id partition, off_t size,
disk_job_id job);
status_t (*move)(int fd, partition_id partition, off_t offset,
disk_job_id job);
status_t (*set_content_name)(int fd, partition_id partition,
const char *name, disk_job_id job);
status_t (*set_content_parameters)(int fd, partition_id partition,
const char *parameters, disk_job_id job);
status_t (*initialize)(int fd, partition_id partition, const char *name,
const char *parameters, off_t partitionSize, disk_job_id job);
} file_system_module_info;
/* file system add-ons only prototypes */
// callbacks for do_iterative_fd_io()
typedef status_t (*iterative_io_get_vecs)(void *cookie, io_request* request,
off_t offset, size_t size, struct file_io_vec *vecs,
size_t *_count);
typedef status_t (*iterative_io_finished)(void* cookie, io_request* request,
status_t status, bool partialTransfer, size_t bytesTransferred);
extern status_t new_vnode(fs_volume *volume, ino_t vnodeID, void *privateNode,
fs_vnode_ops *ops);
extern status_t publish_vnode(fs_volume *volume, ino_t vnodeID,
void *privateNode, fs_vnode_ops *ops, int type,
uint32 flags);
extern status_t get_vnode(fs_volume *volume, ino_t vnodeID,
void **_privateNode);
extern status_t put_vnode(fs_volume *volume, ino_t vnodeID);
extern status_t acquire_vnode(fs_volume *volume, ino_t vnodeID);
extern status_t remove_vnode(fs_volume *volume, ino_t vnodeID);
extern status_t unremove_vnode(fs_volume *volume, ino_t vnodeID);
extern status_t get_vnode_removed(fs_volume *volume, ino_t vnodeID,
bool *removed);
extern fs_volume* volume_for_vnode(fs_vnode *vnode);
extern status_t read_pages(int fd, off_t pos, const struct iovec *vecs,
size_t count, size_t *_numBytes);
extern status_t write_pages(int fd, off_t pos, const struct iovec *vecs,
size_t count, size_t *_numBytes);
extern status_t read_file_io_vec_pages(int fd,
const struct file_io_vec *fileVecs, size_t fileVecCount,
const struct iovec *vecs, size_t vecCount,
uint32 *_vecIndex, size_t *_vecOffset, size_t *_bytes);
extern status_t write_file_io_vec_pages(int fd,
const struct file_io_vec *fileVecs, size_t fileVecCount,
const struct iovec *vecs, size_t vecCount,
uint32 *_vecIndex, size_t *_vecOffset, size_t *_bytes);
extern status_t do_fd_io(int fd, io_request *request);
extern status_t do_iterative_fd_io(int fd, io_request *request,
iterative_io_get_vecs getVecs,
iterative_io_finished finished, void *cookie);
extern status_t notify_entry_created(dev_t device, ino_t directory,
const char *name, ino_t node);
extern status_t notify_entry_removed(dev_t device, ino_t directory,
const char *name, ino_t node);
extern status_t notify_entry_moved(dev_t device, ino_t fromDirectory,
const char *fromName, ino_t toDirectory,
const char *toName, ino_t node);
extern status_t notify_stat_changed(dev_t device, ino_t node,
uint32 statFields);
extern status_t notify_attribute_changed(dev_t device, ino_t node,
const char *attribute, int32 cause);
extern status_t notify_query_entry_created(port_id port, int32 token,
dev_t device, ino_t directory, const char *name,
ino_t node);
extern status_t notify_query_entry_removed(port_id port, int32 token,
dev_t device, ino_t directory, const char *name,
ino_t node);
#ifdef __cplusplus
}
#endif
#endif /* _FS_INTERFACE_H */