Commit f0bf8a98 authored by Daniel W. S. Almeida's avatar Daniel W. S. Almeida Committed by Jonathan Corbet

Documentation: nfs: rpc-cache: convert to ReST

Convert rpc-cache.txt to ReST. Changes aim to improve presentation
but the content itself remains mostly the same.
Signed-off-by: default avatarDaniel W. S. Almeida <dwlsalmeida@gmail.com>
Link: https://lore.kernel.org/r/20200129044917.566906-3-dwlsalmeida@gmail.comSigned-off-by: default avatarJonathan Corbet <corbet@lwn.net>
parent 34e75cf4
......@@ -7,3 +7,4 @@ NFS
:maxdepth: 1
pnfs
rpc-cache
This document gives a brief introduction to the caching
=========
RPC Cache
=========
This document gives a brief introduction to the caching
mechanisms in the sunrpc layer that is used, in particular,
for NFS authentication.
CACHES
Caches
======
The caching replaces the old exports table and allows for
a wide variety of values to be caches.
......@@ -12,6 +17,7 @@ quite possibly very different in content and use. There is a corpus
of common code for managing these caches.
Examples of caches that are likely to be needed are:
- mapping from IP address to client name
- mapping from client name and filesystem to export options
- mapping from UID to list of GIDs, to work around NFS's limitation
......@@ -21,6 +27,7 @@ Examples of caches that are likely to be needed are:
- mapping from network identify to public key for crypto authentication.
The common code handles such things as:
- general cache lookup with correct locking
- supporting 'NEGATIVE' as well as positive entries
- allowing an EXPIRED time on cache items, and removing
......@@ -35,60 +42,66 @@ The common code handles such things as:
Creating a Cache
----------------
1/ A cache needs a datum to store. This is in the form of a
structure definition that must contain a
struct cache_head
- A cache needs a datum to store. This is in the form of a
structure definition that must contain a struct cache_head
as an element, usually the first.
It will also contain a key and some content.
Each cache element is reference counted and contains
expiry and update times for use in cache management.
2/ A cache needs a "cache_detail" structure that
- A cache needs a "cache_detail" structure that
describes the cache. This stores the hash table, some
parameters for cache management, and some operations detailing how
to work with particular cache items.
The operations requires are:
struct cache_head *alloc(void)
This simply allocates appropriate memory and returns
a pointer to the cache_detail embedded within the
structure
void cache_put(struct kref *)
This is called when the last reference to an item is
dropped. The pointer passed is to the 'ref' field
in the cache_head. cache_put should release any
references create by 'cache_init' and, if CACHE_VALID
is set, any references created by cache_update.
It should then release the memory allocated by
'alloc'.
int match(struct cache_head *orig, struct cache_head *new)
test if the keys in the two structures match. Return
1 if they do, 0 if they don't.
void init(struct cache_head *orig, struct cache_head *new)
Set the 'key' fields in 'new' from 'orig'. This may
include taking references to shared objects.
void update(struct cache_head *orig, struct cache_head *new)
Set the 'content' fileds in 'new' from 'orig'.
int cache_show(struct seq_file *m, struct cache_detail *cd,
struct cache_head *h)
Optional. Used to provide a /proc file that lists the
contents of a cache. This should show one item,
usually on just one line.
int cache_request(struct cache_detail *cd, struct cache_head *h,
char **bpp, int *blen)
Format a request to be send to user-space for an item
to be instantiated. *bpp is a buffer of size *blen.
bpp should be moved forward over the encoded message,
and *blen should be reduced to show how much free
space remains. Return 0 on success or <0 if not
enough room or other problem.
int cache_parse(struct cache_detail *cd, char *buf, int len)
A message from user space has arrived to fill out a
cache entry. It is in 'buf' of length 'len'.
cache_parse should parse this, find the item in the
cache with sunrpc_cache_lookup_rcu, and update the item
with sunrpc_cache_update.
3/ A cache needs to be registered using cache_register(). This
The operations are:
struct cache_head \*alloc(void)
This simply allocates appropriate memory and returns
a pointer to the cache_detail embedded within the
structure
void cache_put(struct kref \*)
This is called when the last reference to an item is
dropped. The pointer passed is to the 'ref' field
in the cache_head. cache_put should release any
references create by 'cache_init' and, if CACHE_VALID
is set, any references created by cache_update.
It should then release the memory allocated by
'alloc'.
int match(struct cache_head \*orig, struct cache_head \*new)
test if the keys in the two structures match. Return
1 if they do, 0 if they don't.
void init(struct cache_head \*orig, struct cache_head \*new)
Set the 'key' fields in 'new' from 'orig'. This may
include taking references to shared objects.
void update(struct cache_head \*orig, struct cache_head \*new)
Set the 'content' fileds in 'new' from 'orig'.
int cache_show(struct seq_file \*m, struct cache_detail \*cd, struct cache_head \*h)
Optional. Used to provide a /proc file that lists the
contents of a cache. This should show one item,
usually on just one line.
int cache_request(struct cache_detail \*cd, struct cache_head \*h, char \*\*bpp, int \*blen)
Format a request to be send to user-space for an item
to be instantiated. \*bpp is a buffer of size \*blen.
bpp should be moved forward over the encoded message,
and \*blen should be reduced to show how much free
space remains. Return 0 on success or <0 if not
enough room or other problem.
int cache_parse(struct cache_detail \*cd, char \*buf, int len)
A message from user space has arrived to fill out a
cache entry. It is in 'buf' of length 'len'.
cache_parse should parse this, find the item in the
cache with sunrpc_cache_lookup_rcu, and update the item
with sunrpc_cache_update.
- A cache needs to be registered using cache_register(). This
includes it on a list of caches that will be regularly
cleaned to discard old data.
......@@ -107,7 +120,7 @@ cache_check will return -ENOENT in the entry is negative or if an up
call is needed but not possible, -EAGAIN if an upcall is pending,
or 0 if the data is valid;
cache_check can be passed a "struct cache_req *". This structure is
cache_check can be passed a "struct cache_req\*". This structure is
typically embedded in the actual request and can be used to create a
deferred copy of the request (struct cache_deferred_req). This is
done when the found cache item is not uptodate, but the is reason to
......@@ -139,9 +152,11 @@ The 'channel' works a bit like a datagram socket. Each 'write' is
passed as a whole to the cache for parsing and interpretation.
Each cache can treat the write requests differently, but it is
expected that a message written will contain:
- a key
- an expiry time
- a content.
with the intention that an item in the cache with the give key
should be create or updated to have the given content, and the
expiry time should be set on that item.
......@@ -156,7 +171,8 @@ If there are no more requests to return, read will return EOF, but a
select or poll for read will block waiting for another request to be
added.
Thus a user-space helper is likely to:
Thus a user-space helper is likely to::
open the channel.
select for readable
read a request
......@@ -175,12 +191,13 @@ Each cache should also define a "cache_request" method which
takes a cache item and encodes a request into the buffer
provided.
Note: If a cache has no active readers on the channel, and has had not
active readers for more than 60 seconds, further requests will not be
added to the channel but instead all lookups that do not find a valid
entry will fail. This is partly for backward compatibility: The
previous nfs exports table was deemed to be authoritative and a
failed lookup meant a definite 'no'.
.. note::
If a cache has no active readers on the channel, and has had not
active readers for more than 60 seconds, further requests will not be
added to the channel but instead all lookups that do not find a valid
entry will fail. This is partly for backward compatibility: The
previous nfs exports table was deemed to be authoritative and a
failed lookup meant a definite 'no'.
request/response format
-----------------------
......@@ -193,10 +210,11 @@ with precisely one newline character which should be at the end.
Fields within the record should be separated by spaces, normally one.
If spaces, newlines, or nul characters are needed in a field they
much be quoted. two mechanisms are available:
1/ If a field begins '\x' then it must contain an even number of
- If a field begins '\x' then it must contain an even number of
hex digits, and pairs of these digits provide the bytes in the
field.
2/ otherwise a \ in the field must be followed by 3 octal digits
- otherwise a \ in the field must be followed by 3 octal digits
which give the code for a byte. Other characters are treated
as them selves. At the very least, space, newline, nul, and
'\' must be quoted in this way.
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