/* * Copyright 2004-2010, 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 #include #include #include #include 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; typedef struct file_system_module_info file_system_module_info; 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; file_system_module_info* file_system; char* file_system_name; }; 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 (*all_layers_mounted)(fs_volume* volume); 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, uint32 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); status_t (*preallocate)(fs_volume* volume, fs_vnode* vnode, off_t pos, off_t length); /* 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); 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); }; 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); status_t (*uninitialize)(int fd, partition_id partition, off_t partitionSize, uint32 blockSize, disk_job_id job); }; /* 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); extern status_t notify_query_attr_changed(port_id port, int32 token, dev_t device, ino_t directory, const char* name, ino_t node); #ifdef __cplusplus } #endif #endif /* _FS_INTERFACE_H */