Hash :
0c7f49dd
Author :
Date :
2017-06-30T13:39:01
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/*
* Copyright (C) the libgit2 contributors. All rights reserved.
*
* This file is part of libgit2, distributed under the GNU GPL v2 with
* a Linking Exception. For full terms see the included COPYING file.
*/
#ifndef INCLUDE_sorted_cache_h__
#define INCLUDE_sorted_cache_h__
#include "common.h"
#include "util.h"
#include "fileops.h"
#include "vector.h"
#include "thread-utils.h"
#include "pool.h"
#include "strmap.h"
#include <stddef.h>
/*
* The purpose of this data structure is to cache the parsed contents of a
* file (a.k.a. the backing file) where each item in the file can be
* identified by a key string and you want to both look them up by name
* and traverse them in sorted order. Each item is assumed to itself end
* in a GIT_FLEX_ARRAY.
*/
typedef void (*git_sortedcache_free_item_fn)(void *payload, void *item);
typedef struct {
git_refcount rc;
git_rwlock lock;
size_t item_path_offset;
git_sortedcache_free_item_fn free_item;
void *free_item_payload;
git_pool pool;
git_vector items;
git_strmap *map;
git_futils_filestamp stamp;
char path[GIT_FLEX_ARRAY];
} git_sortedcache;
/* Create a new sortedcache
*
* Even though every sortedcache stores items with a GIT_FLEX_ARRAY at
* the end containing their key string, you have to provide the item_cmp
* sorting function because the sorting function doesn't get a payload
* and therefore can't know the offset to the item key string. :-(
*
* @param out The allocated git_sortedcache
* @param item_path_offset Offset to the GIT_FLEX_ARRAY item key in the
* struct - use offsetof(struct mine, key-field) to get this
* @param free_item Optional callback to free each item
* @param free_item_payload Optional payload passed to free_item callback
* @param item_cmp Compare the keys of two items
* @param path The path to the backing store file for this cache; this
* may be NULL. The cache makes it easy to load this and check
* if it has been modified since the last load and/or write.
*/
int git_sortedcache_new(
git_sortedcache **out,
size_t item_path_offset, /* use offsetof(struct, path-field) macro */
git_sortedcache_free_item_fn free_item,
void *free_item_payload,
git_vector_cmp item_cmp,
const char *path);
/* Copy a sorted cache
*
* - `copy_item` can be NULL to just use memcpy
* - if `lock`, grabs read lock on `src` during copy and releases after
*/
int git_sortedcache_copy(
git_sortedcache **out,
git_sortedcache *src,
bool lock,
int (*copy_item)(void *payload, void *tgt_item, void *src_item),
void *payload);
/* Free sorted cache (first calling `free_item` callbacks)
*
* Don't call on a locked collection - it may acquire a write lock
*/
void git_sortedcache_free(git_sortedcache *sc);
/* Increment reference count - balance with call to free */
void git_sortedcache_incref(git_sortedcache *sc);
/* Get the pathname associated with this cache at creation time */
const char *git_sortedcache_path(git_sortedcache *sc);
/*
* CACHE WRITE FUNCTIONS
*
* The following functions require you to have a writer lock to make the
* modification. Some of the functions take a `wlock` parameter and
* will optionally lock and unlock for you if that is passed as true.
*
*/
/* Lock sortedcache for write */
int git_sortedcache_wlock(git_sortedcache *sc);
/* Unlock sorted cache when done with write */
void git_sortedcache_wunlock(git_sortedcache *sc);
/* Lock cache and load backing file into a buffer.
*
* This grabs a write lock on the cache then looks at the modification
* time and size of the file on disk.
*
* If the file appears to have changed, this loads the file contents into
* the buffer and returns a positive value leaving the cache locked - the
* caller should parse the file content, update the cache as needed, then
* release the lock. NOTE: In this case, the caller MUST unlock the cache.
*
* If the file appears to be unchanged, then this automatically releases
* the lock on the cache, clears the buffer, and returns 0.
*
* @return 0 if up-to-date, 1 if out-of-date, <0 on error
*/
int git_sortedcache_lockandload(git_sortedcache *sc, git_buf *buf);
/* Refresh file timestamp after write completes
* You should already be holding the write lock when you call this.
*/
void git_sortedcache_updated(git_sortedcache *sc);
/* Release all items in sorted cache
*
* If `wlock` is true, grabs write lock and releases when done, otherwise
* you should already be holding a write lock when you call this.
*/
int git_sortedcache_clear(git_sortedcache *sc, bool wlock);
/* Find and/or insert item, returning pointer to item data.
* You should already be holding the write lock when you call this.
*/
int git_sortedcache_upsert(
void **out, git_sortedcache *sc, const char *key);
/* Removes entry at pos from cache
* You should already be holding the write lock when you call this.
*/
int git_sortedcache_remove(git_sortedcache *sc, size_t pos);
/*
* CACHE READ FUNCTIONS
*
* The following functions access items in the cache. To prevent the
* results from being invalidated before they can be used, you should be
* holding either a read lock or a write lock when using these functions.
*
*/
/* Lock sortedcache for read */
int git_sortedcache_rlock(git_sortedcache *sc);
/* Unlock sorted cache when done with read */
void git_sortedcache_runlock(git_sortedcache *sc);
/* Lookup item by key - returns NULL if not found */
void *git_sortedcache_lookup(const git_sortedcache *sc, const char *key);
/* Get how many items are in the cache
*
* You can call this function without holding a lock, but be aware
* that it may change before you use it.
*/
size_t git_sortedcache_entrycount(const git_sortedcache *sc);
/* Lookup item by index - returns NULL if out of range */
void *git_sortedcache_entry(git_sortedcache *sc, size_t pos);
/* Lookup index of item by key - returns GIT_ENOTFOUND if not found */
int git_sortedcache_lookup_index(
size_t *out, git_sortedcache *sc, const char *key);
#endif