mirror of https://gitee.com/openkylin/linux.git
Documentation: update path-lookup.md for parallel lookups
Since this document was written, i_mutex has been replace with i_rwsem, and shared locks are utilized to allow lookups in the one directory to happen in parallel. So replace i_mutex with i_rwsem, and explain how this is used for parallel lookups. Signed-off-by: NeilBrown <neilb@suse.com> Signed-off-by: Jonathan Corbet <corbet@lwn.net>
This commit is contained in:
NeilBrown
Jonathan Corbet
parent
806654a966
commit
1428cc0e0c
|
|
@ -12,6 +12,10 @@ This write-up is based on three articles published at lwn.net:
|
|||
- <https://lwn.net/Articles/650786/> A walk among the symlinks
|
||||
|
||||
Written by Neil Brown with help from Al Viro and Jon Corbet.
|
||||
It has subsequently been updated to reflect changes in the kernel
|
||||
including:
|
||||
|
||||
- per-directory parallel name lookup.
|
||||
|
||||
Introduction
|
||||
------------
|
||||
|
|
@ -231,37 +235,80 @@ renamed. If `d_lookup` finds that a rename happened while it
|
|||
unsuccessfully scanned a chain in the hash table, it simply tries
|
||||
again.
|
||||
|
||||
### inode->i_mutex ###
|
||||
### inode->i_rwsem ###
|
||||
|
||||
`i_mutex` is a mutex that serializes all changes to a particular
|
||||
`i_rwsem` is a read/write semaphore that serializes all changes to a particular
|
||||
directory. This ensures that, for example, an `unlink()` and a `rename()`
|
||||
cannot both happen at the same time. It also keeps the directory
|
||||
stable while the filesystem is asked to look up a name that is not
|
||||
currently in the dcache.
|
||||
currently in the dcache or, optionally, when the list of entries in a
|
||||
directory is being retrieved with `readdir()`.
|
||||
|
||||
This has a complementary role to that of `d_lock`: `i_mutex` on a
|
||||
This has a complementary role to that of `d_lock`: `i_rwsem` on a
|
||||
directory protects all of the names in that directory, while `d_lock`
|
||||
on a name protects just one name in a directory. Most changes to the
|
||||
dcache hold `i_mutex` on the relevant directory inode and briefly take
|
||||
dcache hold `i_rwsem` on the relevant directory inode and briefly take
|
||||
`d_lock` on one or more the dentries while the change happens. One
|
||||
exception is when idle dentries are removed from the dcache due to
|
||||
memory pressure. This uses `d_lock`, but `i_mutex` plays no role.
|
||||
memory pressure. This uses `d_lock`, but `i_rwsem` plays no role.
|
||||
|
||||
The mutex affects pathname lookup in two distinct ways. Firstly it
|
||||
serializes lookup of a name in a directory. `walk_component()` uses
|
||||
The semaphore affects pathname lookup in two distinct ways. Firstly it
|
||||
prevents changes during lookup of a name in a directory. `walk_component()` uses
|
||||
`lookup_fast()` first which, in turn, checks to see if the name is in the cache,
|
||||
using only `d_lock` locking. If the name isn't found, then `walk_component()`
|
||||
falls back to `lookup_slow()` which takes `i_mutex`, checks again that
|
||||
falls back to `lookup_slow()` which takes a shared lock on `i_rwsem`, checks again that
|
||||
the name isn't in the cache, and then calls in to the filesystem to get a
|
||||
definitive answer. A new dentry will be added to the cache regardless of
|
||||
the result.
|
||||
|
||||
Secondly, when pathname lookup reaches the final component, it will
|
||||
sometimes need to take `i_mutex` before performing the last lookup so
|
||||
sometimes need to take an exclusive lock on `i_rwsem` before performing the last lookup so
|
||||
that the required exclusion can be achieved. How path lookup chooses
|
||||
to take, or not take, `i_mutex` is one of the
|
||||
to take, or not take, `i_rwsem` is one of the
|
||||
issues addressed in a subsequent section.
|
||||
|
||||
If two threads attempt to look up the same name at the same time - a
|
||||
name that is not yet in the dcache - the shared lock on `i_rwsem` will
|
||||
not prevent them both adding new dentries with the same name. As this
|
||||
would result in confusion an extra level of interlocking is used,
|
||||
based around a secondary hash table (`in_lookup_hashtable`) and a
|
||||
per-dentry flag bit (`DCACHE_PAR_LOOKUP`).
|
||||
|
||||
To add a new dentry to the cache while only holding a shared lock on
|
||||
`i_rwsem`, a thread must call `d_alloc_parallel()`. This allocates a
|
||||
dentry, stores the required name and parent in it, checks if there
|
||||
is already a matching dentry in the primary or secondary hash
|
||||
tables, and if not, stores the newly allocated dentry in the secondary
|
||||
hash table, with `DCACHE_PAR_LOOKUP` set.
|
||||
|
||||
If a matching dentry was found in the primary hash table then that is
|
||||
returned and the caller can know that it lost a race with some other
|
||||
thread adding the entry. If no matching dentry is found in either
|
||||
cache, the newly allocated dentry is returned and the caller can
|
||||
detect this from the presence of `DCACHE_PAR_LOOKUP`. In this case it
|
||||
knows that it has won any race and now is responsible for asking the
|
||||
filesystem to perform the lookup and find the matching inode. When
|
||||
the lookup is complete, it must call `d_lookup_done()` which clears
|
||||
the flag and does some other house keeping, including removing the
|
||||
dentry from the secondary hash table - it will normally have been
|
||||
added to the primary hash table already. Note that a `struct
|
||||
waitqueue_head` is passed to `d_alloc_parallel()`, and
|
||||
`d_lookup_done()` must be called while this `waitqueue_head` is still
|
||||
in scope.
|
||||
|
||||
If a matching dentry is found in the secondary hash table,
|
||||
`d_alloc_parallel()` has a little more work to do. It first waits for
|
||||
`DCACHE_PAR_LOOKUP` to be cleared, using a wait_queue that was passed
|
||||
to the instance of `d_alloc_parallel()` that won the race and that
|
||||
will be woken by the call to `d_lookup_done()`. It then checks to see
|
||||
if the dentry has now been added to the primary hash table. If it
|
||||
has, the dentry is returned and the caller just sees that it lost any
|
||||
race. If it hasn't been added to the primary hash table, the most
|
||||
likely explanation is that some other dentry was added instead using
|
||||
`d_splice_alias()`. In any case, `d_alloc_parallel()` repeats all the
|
||||
look ups from the start and will normally return something from the
|
||||
primary hash table.
|
||||
|
||||
### mnt->mnt_count ###
|
||||
|
||||
`mnt_count` is a per-CPU reference counter on "`mount`" structures.
|
||||
|
|
@ -376,7 +423,7 @@ described. If it finds a `LAST_NORM` component it first calls
|
|||
"`lookup_fast()`" which only looks in the dcache, but will ask the
|
||||
filesystem to revalidate the result if it is that sort of filesystem.
|
||||
If that doesn't get a good result, it calls "`lookup_slow()`" which
|
||||
takes the `i_mutex`, rechecks the cache, and then asks the filesystem
|
||||
takes `i_rwsem`, rechecks the cache, and then asks the filesystem
|
||||
to find a definitive answer. Each of these will call
|
||||
`follow_managed()` (as described below) to handle any mount points.
|
||||
|
||||
|
|
@ -408,7 +455,7 @@ of housekeeping around `link_path_walk()` and returns the parent
|
|||
directory and final component to the caller. The caller will be either
|
||||
aiming to create a name (via `filename_create()`) or remove or rename
|
||||
a name (in which case `user_path_parent()` is used). They will use
|
||||
`i_mutex` to exclude other changes while they validate and then
|
||||
`i_rwsem` to exclude other changes while they validate and then
|
||||
perform their operation.
|
||||
|
||||
`path_lookupat()` is nearly as simple - it is used when an existing
|
||||
|
|
@ -429,7 +476,7 @@ complexity needed to handle the different subtleties of O_CREAT (with
|
|||
or without O_EXCL), final "`/`" characters, and trailing symbolic
|
||||
links. We will revisit this in the final part of this series, which
|
||||
focuses on those symbolic links. "`do_last()`" will sometimes, but
|
||||
not always, take `i_mutex`, depending on what it finds.
|
||||
not always, take `i_rwsem`, depending on what it finds.
|
||||
|
||||
Each of these, or the functions which call them, need to be alert to
|
||||
the possibility that the final component is not `LAST_NORM`. If the
|
||||
|
|
@ -728,12 +775,12 @@ checking the `seq` number of the old exactly mirrors the process of
|
|||
getting a counted reference to the new dentry before dropping that for
|
||||
the old dentry which we saw in REF-walk.
|
||||
|
||||
### No `inode->i_mutex` or even `rename_lock` ###
|
||||
### No `inode->i_rwsem` or even `rename_lock` ###
|
||||
|
||||
A mutex is a fairly heavyweight lock that can only be taken when it is
|
||||
A semaphore is a fairly heavyweight lock that can only be taken when it is
|
||||
permissible to sleep. As `rcu_read_lock()` forbids sleeping,
|
||||
`inode->i_mutex` plays no role in RCU-walk. If some other thread does
|
||||
take `i_mutex` and modifies the directory in a way that RCU-walk needs
|
||||
`inode->i_rwsem` plays no role in RCU-walk. If some other thread does
|
||||
take `i_rwsem` and modifies the directory in a way that RCU-walk needs
|
||||
to notice, the result will be either that RCU-walk fails to find the
|
||||
dentry that it is looking for, or it will find a dentry which
|
||||
`read_seqretry()` won't validate. In either case it will drop down to
|
||||
|
|
@ -1134,7 +1181,7 @@ and `do_last()`, each of which use the same convention as
|
|||
to be followed.
|
||||
|
||||
Of these, `do_last()` is the most interesting as it is used for
|
||||
opening a file. Part of `do_last()` runs with `i_mutex` held and this
|
||||
opening a file. Part of `do_last()` runs with `i_rwsem` held and this
|
||||
part is in a separate function: `lookup_open()`.
|
||||
|
||||
Explaining `do_last()` completely is beyond the scope of this article,
|
||||
|
|
|
|||
Loading…
Reference in New Issue