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177 lines
7.9 KiB
Text
177 lines
7.9 KiB
Text
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Making Filesystems Exportable
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=============================
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Most filesystem operations require a dentry (or two) as a starting
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point. Local applications have a reference-counted hold on suitable
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dentrys via open file descriptors or cwd/root. However remote
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applications that access a filesystem via a remote filesystem protocol
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such as NFS may not be able to hold such a reference, and so need a
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different way to refer to a particular dentry. As the alternative
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form of reference needs to be stable across renames, truncates, and
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server-reboot (among other things, though these tend to be the most
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problematic), there is no simple answer like 'filename'.
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The mechanism discussed here allows each filesystem implementation to
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specify how to generate an opaque (out side of the filesystem) byte
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string for any dentry, and how to find an appropriate dentry for any
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given opaque byte string.
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This byte string will be called a "filehandle fragment" as it
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corresponds to part of an NFS filehandle.
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A filesystem which supports the mapping between filehandle fragments
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and dentrys will be termed "exportable".
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Dcache Issues
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-------------
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The dcache normally contains a proper prefix of any given filesystem
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tree. This means that if any filesystem object is in the dcache, then
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all of the ancestors of that filesystem object are also in the dcache.
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As normal access is by filename this prefix is created naturally and
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maintained easily (by each object maintaining a reference count on
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its parent).
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However when objects are included into the dcache by interpreting a
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filehandle fragment, there is no automatic creation of a path prefix
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for the object. This leads to two related but distinct features of
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the dcache that are not needed for normal filesystem access.
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1/ The dcache must sometimes contain objects that are not part of the
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proper prefix. i.e that are not connected to the root.
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2/ The dcache must be prepared for a newly found (via ->lookup) directory
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to already have a (non-connected) dentry, and must be able to move
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that dentry into place (based on the parent and name in the
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->lookup). This is particularly needed for directories as
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it is a dcache invariant that directories only have one dentry.
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To implement these features, the dcache has:
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a/ A dentry flag DCACHE_DISCONNECTED which is set on
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any dentry that might not be part of the proper prefix.
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This is set when anonymous dentries are created, and cleared when a
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dentry is noticed to be a child of a dentry which is in the proper
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prefix.
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b/ A per-superblock list "s_anon" of dentries which are the roots of
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subtrees that are not in the proper prefix. These dentries, as
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well as the proper prefix, need to be released at unmount time. As
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these dentries will not be hashed, they are linked together on the
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d_hash list_head.
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c/ Helper routines to allocate anonymous dentries, and to help attach
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loose directory dentries at lookup time. They are:
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d_alloc_anon(inode) will return a dentry for the given inode.
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If the inode already has a dentry, one of those is returned.
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If it doesn't, a new anonymous (IS_ROOT and
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DCACHE_DISCONNECTED) dentry is allocated and attached.
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In the case of a directory, care is taken that only one dentry
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can ever be attached.
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d_splice_alias(inode, dentry) will make sure that there is a
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dentry with the same name and parent as the given dentry, and
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which refers to the given inode.
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If the inode is a directory and already has a dentry, then that
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dentry is d_moved over the given dentry.
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If the passed dentry gets attached, care is taken that this is
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mutually exclusive to a d_alloc_anon operation.
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If the passed dentry is used, NULL is returned, else the used
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dentry is returned. This corresponds to the calling pattern of
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->lookup.
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Filesystem Issues
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-----------------
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For a filesystem to be exportable it must:
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1/ provide the filehandle fragment routines described below.
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2/ make sure that d_splice_alias is used rather than d_add
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when ->lookup finds an inode for a given parent and name.
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Typically the ->lookup routine will end:
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if (inode)
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return d_splice(inode, dentry);
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d_add(dentry, inode);
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return NULL;
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}
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A file system implementation declares that instances of the filesystem
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are exportable by setting the s_export_op field in the struct
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super_block. This field must point to a "struct export_operations"
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struct which could potentially be full of NULLs, though normally at
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least get_parent will be set.
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The primary operations are decode_fh and encode_fh.
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decode_fh takes a filehandle fragment and tries to find or create a
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dentry for the object referred to by the filehandle.
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encode_fh takes a dentry and creates a filehandle fragment which can
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later be used to find/create a dentry for the same object.
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decode_fh will probably make use of "find_exported_dentry".
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This function lives in the "exportfs" module which a filesystem does
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not need unless it is being exported. So rather that calling
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find_exported_dentry directly, each filesystem should call it through
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the find_exported_dentry pointer in it's export_operations table.
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This field is set correctly by the exporting agent (e.g. nfsd) when a
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filesystem is exported, and before any export operations are called.
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find_exported_dentry needs three support functions from the
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filesystem:
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get_name. When given a parent dentry and a child dentry, this
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should find a name in the directory identified by the parent
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dentry, which leads to the object identified by the child dentry.
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If no get_name function is supplied, a default implementation is
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provided which uses vfs_readdir to find potential names, and
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matches inode numbers to find the correct match.
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get_parent. When given a dentry for a directory, this should return
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a dentry for the parent. Quite possibly the parent dentry will
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have been allocated by d_alloc_anon.
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The default get_parent function just returns an error so any
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filehandle lookup that requires finding a parent will fail.
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->lookup("..") is *not* used as a default as it can leave ".."
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entries in the dcache which are too messy to work with.
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get_dentry. When given an opaque datum, this should find the
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implied object and create a dentry for it (possibly with
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d_alloc_anon).
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The opaque datum is whatever is passed down by the decode_fh
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function, and is often simply a fragment of the filehandle
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fragment.
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decode_fh passes two datums through find_exported_dentry. One that
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should be used to identify the target object, and one that can be
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used to identify the object's parent, should that be necessary.
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The default get_dentry function assumes that the datum contains an
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inode number and a generation number, and it attempts to get the
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inode using "iget" and check it's validity by matching the
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generation number. A filesystem should only depend on the default
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if iget can safely be used this way.
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If decode_fh and/or encode_fh are left as NULL, then default
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implementations are used. These defaults are suitable for ext2 and
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extremely similar filesystems (like ext3).
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The default encode_fh creates a filehandle fragment from the inode
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number and generation number of the target together with the inode
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number and generation number of the parent (if the parent is
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required).
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The default decode_fh extract the target and parent datums from the
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filehandle assuming the format used by the default encode_fh and
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passed them to find_exported_dentry.
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A filehandle fragment consists of an array of 1 or more 4byte words,
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together with a one byte "type".
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The decode_fh routine should not depend on the stated size that is
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passed to it. This size may be larger than the original filehandle
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generated by encode_fh, in which case it will have been padded with
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nuls. Rather, the encode_fh routine should choose a "type" which
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indicates the decode_fh how much of the filehandle is valid, and how
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it should be interpreted.
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