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// Copyright 2015 Google Inc. All Rights Reserved.
// Author: jacobsa@google.com (Aaron Jacobs)
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package fuse
import (
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bazilfuse "bazil.org/fuse"
// An interface that must be implemented by file systems to be mounted with
// FUSE. See also the comments on request and response structs.
// Not all methods need to have interesting implementations. Embed a field of
// type NotImplementedFileSystem to inherit defaults that return ENOSYS to the
// kernel.
// Must be safe for concurrent access via all methods.
type FileSystem interface {
// Look up a child by name within a parent directory. The kernel calls this
// when resolving user paths to dentry structs, which are then cached.
ctx context.Context,
req *LookupRequest) (*LookupResponse, error)
// Forget an inode ID previously issued (e.g. by Lookup). The kernel calls
// this when removing an inode from its internal caches.
// The kernel guarantees that the node ID will not be used in further calls
// to the file system (unless it is reissued by the file system).
ctx context.Context,
req *ForgetInodeRequest) (*ForgetInodeResponse, error)
// Open a directory inode. The kernel calls this method when setting up a
// struct file for a particular inode with type directory, usually in
// response to an open(2) call from a user-space process.
ctx context.Context,
req *OpenDirRequest) (*OpenDirResponse, error)
// XXX: Comments
ctx context.Context,
req *ReleaseHandleRequest) (*ReleaseHandleResponse, error)
// Simple types
// A 64-bit number used to uniquely identify a file or directory in the file
// system. File systems may mint inode IDs with any value except for
// RootInodeID.
// This corresponds to struct inode::i_no in the VFS layer.
// (Cf. http://goo.gl/tvYyQt)
type InodeID uint64
// A distinguished inode ID that identifies the root of the file system, e.g.
// in a request to OpenDir or Lookup. Unlike all other inode IDs, which are
// minted by the file system, the FUSE VFS layer may send a request for this ID
// without the file system ever having referenced it in a previous response.
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const RootInodeID InodeID = InodeID(bazilfuse.RootID)
// A generation number for an inode. Irrelevant for file systems that won't be
// exported over NFS. For those that will and that reuse inode IDs when they
// become free, the generation number must change when an ID is reused.
// This corresponds to struct inode::i_generation in the VFS layer.
// (Cf. http://goo.gl/tvYyQt)
// Some related reading:
// http://fuse.sourceforge.net/doxygen/structfuse__entry__param.html
// http://stackoverflow.com/q/11071996/1505451
// http://goo.gl/CqvwyX
// http://julipedia.meroh.net/2005/09/nfs-file-handles.html
// http://goo.gl/wvo3MB
type GenerationNumber uint64
// Attributes for a file or directory inode. Corresponds to struct inode (cf.
// http://goo.gl/tvYyQt).
type InodeAttributes struct {
// The size of the file in bytes.
Size uint64
// Requests and responses
type OpenDirRequest struct {
// The ID of the inode to be opened.
Inode InodeID
// Mode and options flags.
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Flags bazilfuse.OpenFlags
type OpenDirResponse struct {
// An opaque ID that will be echoed in follow-up calls for this directory
// using the same struct file in the kernel. In practice this usually means
// follow-up calls using the file descriptor returned by open(2).
// The file system must ensure this ID remains valid until a later call to
// ReleaseHandle.
Handle HandleID
type LookupRequest struct {
// The ID of the directory inode to which the child belongs.
Parent InodeID
// The name of the child of interest, relative to the parent. For example, in
// this directory structure:
// foo/
// bar/
// baz
// the file system may receive a request to look up the child named "bar" for
// the parent foo/.
Name string
type LookupResponse struct {
// The ID of the child inode. The file system must ensure that the returned
// inode ID remains valid until a later call to ForgetInode.
Child InodeID
// A generation number for this incarnation of the inode with the given ID.
// See comments on type GenerationNumber for more.
Generation GenerationNumber
// Current ttributes for the child inode.
Attributes InodeAttributes
// The FUSE VFS layer in the kernel maintains a cache of file attributes,
// used whenever up to date information about size, mode, etc. is needed.
// For example, this is the abridged call chain for fstat(2):
// * (http://goo.gl/tKBH1p) fstat calls vfs_fstat.
// * (http://goo.gl/3HeITq) vfs_fstat eventuall calls vfs_getattr_nosec.
// * (http://goo.gl/DccFQr) vfs_getattr_nosec calls i_op->getattr.
// * (http://goo.gl/dpKkst) fuse_getattr calls fuse_update_attributes.
// * (http://goo.gl/yNlqPw) fuse_update_attributes uses the values in the
// struct inode if allowed, otherwise calling out to the user-space code.
// In addition to obvious cases like fstat, this is also used in more subtle
// cases like updating size information before seeking (http://goo.gl/2nnMFa)
// or reading (http://goo.gl/FQSWs8).
// Most 'real' file systems do not set inode_operations::getattr, and
// therefore vfs_getattr_nosec calls generic_fillattr which simply grabs the
// information from the inode struct. This makes sense because these file
// systems cannot spontaneously change; all modifications go through the
// kernel which can update the inode struct as appropriate.
// In contrast, a FUSE file system may have spontaneous changes, so it calls
// out to user space to fetch attributes. However this is expensive, so the
// FUSE layer in the kernel caches the attributes if requested.
// This field controls when the attributes returned in this response and
// stashed in the struct inode should be re-queried. Leave at the zero value
// to disable caching.
// More reading:
// http://stackoverflow.com/q/21540315/1505451
AttributesExpiration time.Time
// The time until which the kernel may maintain an entry for this name to
// inode mapping in its dentry cache. After this time, it will revalidate the
// dentry.
// As in the discussion of attribute caching above, unlike real file systems,
// FUSE file systems may spontaneously change their name -> inode mapping.
// Therefore the FUSE VFS layer uses dentry_operations::d_revalidate
// (http://goo.gl/dVea0h) to intercept lookups and revalidate by calling the
// user-space Lookup method. However the latter may be slow, so it caches the
// entries until the time defined by this field.
// Example code walk:
// * (http://goo.gl/M2G3tO) lookup_dcache calls d_revalidate if enabled.
// * (http://goo.gl/ef0Elu) fuse_dentry_revalidate just uses the dentry's
// inode if fuse_dentry_time(entry) hasn't passed. Otherwise it sends a
// lookup request.
// Leave at the zero value to disable caching.
EntryExpiration time.Time
type ForgetInodeRequest struct {
// The inode to be forgotten. The kernel guarantees that the node ID will not
// be used in further calls to the file system (unless it is reissued by the
// file system).
ID InodeID
type ForgetInodeResponse struct {