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c33fa871a5
At times, we may already know that a path represented by a cache_entry ce has no changes via some out-of-line means, like fsmonitor, and yet need the control to go through a codepath that requires us to have "struct stat" obtained by lstat() on the path, for various purposes (e.g. "ie_match_stat()" wants cached stat-info is still current wrt "struct stat", "diff" wants to know st_mode). The callers of lstat() on a tracked file, when its cache_entry knows it is up-to-date, can instead call this helper to pretend that it called lstat() by faking the "struct stat" information. Signed-off-by: Junio C Hamano <gitster@pobox.com>
489 lines
17 KiB
C
489 lines
17 KiB
C
#ifndef READ_CACHE_LL_H
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#define READ_CACHE_LL_H
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#include "hash-ll.h"
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#include "hashmap.h"
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#include "statinfo.h"
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/*
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* Basic data structures for the directory cache
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*/
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#define CACHE_SIGNATURE 0x44495243 /* "DIRC" */
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struct cache_header {
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uint32_t hdr_signature;
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uint32_t hdr_version;
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uint32_t hdr_entries;
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};
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#define INDEX_FORMAT_LB 2
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#define INDEX_FORMAT_UB 4
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struct cache_entry {
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struct hashmap_entry ent;
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struct stat_data ce_stat_data;
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unsigned int ce_mode;
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unsigned int ce_flags;
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unsigned int mem_pool_allocated;
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unsigned int ce_namelen;
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unsigned int index; /* for link extension */
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struct object_id oid;
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char name[FLEX_ARRAY]; /* more */
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};
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#define CE_STAGEMASK (0x3000)
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#define CE_EXTENDED (0x4000)
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#define CE_VALID (0x8000)
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#define CE_STAGESHIFT 12
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/*
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* Range 0xFFFF0FFF in ce_flags is divided into
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* two parts: in-memory flags and on-disk ones.
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* Flags in CE_EXTENDED_FLAGS will get saved on-disk
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* if you want to save a new flag, add it in
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* CE_EXTENDED_FLAGS
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*
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* In-memory only flags
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*/
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#define CE_UPDATE (1 << 16)
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#define CE_REMOVE (1 << 17)
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#define CE_UPTODATE (1 << 18)
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#define CE_ADDED (1 << 19)
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#define CE_HASHED (1 << 20)
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#define CE_FSMONITOR_VALID (1 << 21)
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#define CE_WT_REMOVE (1 << 22) /* remove in work directory */
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#define CE_CONFLICTED (1 << 23)
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#define CE_UNPACKED (1 << 24)
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#define CE_NEW_SKIP_WORKTREE (1 << 25)
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/* used to temporarily mark paths matched by pathspecs */
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#define CE_MATCHED (1 << 26)
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#define CE_UPDATE_IN_BASE (1 << 27)
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#define CE_STRIP_NAME (1 << 28)
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/*
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* Extended on-disk flags
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*/
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#define CE_INTENT_TO_ADD (1 << 29)
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#define CE_SKIP_WORKTREE (1 << 30)
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/* CE_EXTENDED2 is for future extension */
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#define CE_EXTENDED2 (1U << 31)
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#define CE_EXTENDED_FLAGS (CE_INTENT_TO_ADD | CE_SKIP_WORKTREE)
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/*
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* Safeguard to avoid saving wrong flags:
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* - CE_EXTENDED2 won't get saved until its semantic is known
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* - Bits in 0x0000FFFF have been saved in ce_flags already
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* - Bits in 0x003F0000 are currently in-memory flags
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*/
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#if CE_EXTENDED_FLAGS & 0x803FFFFF
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#error "CE_EXTENDED_FLAGS out of range"
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#endif
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/* Forward structure decls */
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struct pathspec;
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struct tree;
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/*
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* Copy the sha1 and stat state of a cache entry from one to
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* another. But we never change the name, or the hash state!
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*/
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static inline void copy_cache_entry(struct cache_entry *dst,
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const struct cache_entry *src)
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{
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unsigned int state = dst->ce_flags & CE_HASHED;
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int mem_pool_allocated = dst->mem_pool_allocated;
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/* Don't copy hash chain and name */
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memcpy(&dst->ce_stat_data, &src->ce_stat_data,
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offsetof(struct cache_entry, name) -
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offsetof(struct cache_entry, ce_stat_data));
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/* Restore the hash state */
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dst->ce_flags = (dst->ce_flags & ~CE_HASHED) | state;
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/* Restore the mem_pool_allocated flag */
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dst->mem_pool_allocated = mem_pool_allocated;
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}
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static inline unsigned create_ce_flags(unsigned stage)
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{
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return (stage << CE_STAGESHIFT);
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}
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#define ce_namelen(ce) ((ce)->ce_namelen)
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#define ce_size(ce) cache_entry_size(ce_namelen(ce))
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#define ce_stage(ce) ((CE_STAGEMASK & (ce)->ce_flags) >> CE_STAGESHIFT)
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#define ce_uptodate(ce) ((ce)->ce_flags & CE_UPTODATE)
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#define ce_skip_worktree(ce) ((ce)->ce_flags & CE_SKIP_WORKTREE)
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#define ce_mark_uptodate(ce) ((ce)->ce_flags |= CE_UPTODATE)
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#define ce_intent_to_add(ce) ((ce)->ce_flags & CE_INTENT_TO_ADD)
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#define cache_entry_size(len) (offsetof(struct cache_entry,name) + (len) + 1)
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#define SOMETHING_CHANGED (1 << 0) /* unclassified changes go here */
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#define CE_ENTRY_CHANGED (1 << 1)
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#define CE_ENTRY_REMOVED (1 << 2)
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#define CE_ENTRY_ADDED (1 << 3)
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#define RESOLVE_UNDO_CHANGED (1 << 4)
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#define CACHE_TREE_CHANGED (1 << 5)
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#define SPLIT_INDEX_ORDERED (1 << 6)
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#define UNTRACKED_CHANGED (1 << 7)
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#define FSMONITOR_CHANGED (1 << 8)
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struct split_index;
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struct untracked_cache;
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struct progress;
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struct pattern_list;
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enum sparse_index_mode {
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/*
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* There are no sparse directories in the index at all.
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*
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* Repositories that don't use cone-mode sparse-checkout will
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* always have their indexes in this mode.
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*/
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INDEX_EXPANDED = 0,
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/*
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* The index has already been collapsed to sparse directories
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* whereever possible.
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*/
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INDEX_COLLAPSED,
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/*
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* The sparse directories that exist are outside the
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* sparse-checkout boundary, but it is possible that some file
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* entries could collapse to sparse directory entries.
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*/
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INDEX_PARTIALLY_SPARSE,
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};
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struct index_state {
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struct cache_entry **cache;
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unsigned int version;
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unsigned int cache_nr, cache_alloc, cache_changed;
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struct string_list *resolve_undo;
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struct cache_tree *cache_tree;
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struct split_index *split_index;
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struct cache_time timestamp;
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unsigned name_hash_initialized : 1,
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initialized : 1,
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drop_cache_tree : 1,
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updated_workdir : 1,
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updated_skipworktree : 1,
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fsmonitor_has_run_once : 1;
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enum sparse_index_mode sparse_index;
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struct hashmap name_hash;
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struct hashmap dir_hash;
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struct object_id oid;
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struct untracked_cache *untracked;
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char *fsmonitor_last_update;
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struct ewah_bitmap *fsmonitor_dirty;
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struct mem_pool *ce_mem_pool;
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struct progress *progress;
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struct repository *repo;
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struct pattern_list *sparse_checkout_patterns;
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};
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/**
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* A "struct index_state istate" must be initialized with
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* INDEX_STATE_INIT or the corresponding index_state_init().
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*
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* If the variable won't be used again, use release_index() to free()
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* its resources. If it needs to be used again use discard_index(),
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* which does the same thing, but will use use index_state_init() at
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* the end. The discard_index() will use its own "istate->repo" as the
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* "r" argument to index_state_init() in that case.
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*/
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#define INDEX_STATE_INIT(r) { \
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.repo = (r), \
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}
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void index_state_init(struct index_state *istate, struct repository *r);
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void release_index(struct index_state *istate);
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/* Cache entry creation and cleanup */
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/*
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* Create cache_entry intended for use in the specified index. Caller
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* is responsible for discarding the cache_entry with
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* `discard_cache_entry`.
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*/
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struct cache_entry *make_cache_entry(struct index_state *istate,
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unsigned int mode,
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const struct object_id *oid,
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const char *path,
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int stage,
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unsigned int refresh_options);
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struct cache_entry *make_empty_cache_entry(struct index_state *istate,
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size_t name_len);
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/*
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* Create a cache_entry that is not intended to be added to an index. If
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* `ce_mem_pool` is not NULL, the entry is allocated within the given memory
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* pool. Caller is responsible for discarding "loose" entries with
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* `discard_cache_entry()` and the memory pool with
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* `mem_pool_discard(ce_mem_pool, should_validate_cache_entries())`.
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*/
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struct cache_entry *make_transient_cache_entry(unsigned int mode,
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const struct object_id *oid,
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const char *path,
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int stage,
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struct mem_pool *ce_mem_pool);
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struct cache_entry *make_empty_transient_cache_entry(size_t len,
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struct mem_pool *ce_mem_pool);
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/*
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* Discard cache entry.
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*/
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void discard_cache_entry(struct cache_entry *ce);
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/*
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* Check configuration if we should perform extra validation on cache
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* entries.
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*/
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int should_validate_cache_entries(void);
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/*
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* Duplicate a cache_entry. Allocate memory for the new entry from a
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* memory_pool. Takes into account cache_entry fields that are meant
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* for managing the underlying memory allocation of the cache_entry.
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*/
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struct cache_entry *dup_cache_entry(const struct cache_entry *ce, struct index_state *istate);
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/*
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* Validate the cache entries in the index. This is an internal
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* consistency check that the cache_entry structs are allocated from
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* the expected memory pool.
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*/
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void validate_cache_entries(const struct index_state *istate);
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/*
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* Bulk prefetch all missing cache entries that are not GITLINKs and that match
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* the given predicate. This function should only be called if
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* repo_has_promisor_remote() returns true.
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*/
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typedef int (*must_prefetch_predicate)(const struct cache_entry *);
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void prefetch_cache_entries(const struct index_state *istate,
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must_prefetch_predicate must_prefetch);
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/* Initialize and use the cache information */
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struct lock_file;
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int do_read_index(struct index_state *istate, const char *path,
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int must_exist); /* for testting only! */
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int read_index_from(struct index_state *, const char *path,
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const char *gitdir);
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int is_index_unborn(struct index_state *);
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/* For use with `write_locked_index()`. */
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#define COMMIT_LOCK (1 << 0)
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#define SKIP_IF_UNCHANGED (1 << 1)
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/*
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* Write the index while holding an already-taken lock. Close the lock,
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* and if `COMMIT_LOCK` is given, commit it.
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*
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* Unless a split index is in use, write the index into the lockfile.
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*
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* With a split index, write the shared index to a temporary file,
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* adjust its permissions and rename it into place, then write the
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* split index to the lockfile. If the temporary file for the shared
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* index cannot be created, fall back to the behavior described in
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* the previous paragraph.
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*
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* With `COMMIT_LOCK`, the lock is always committed or rolled back.
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* Without it, the lock is closed, but neither committed nor rolled
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* back.
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*
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* If `SKIP_IF_UNCHANGED` is given and the index is unchanged, nothing
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* is written (and the lock is rolled back if `COMMIT_LOCK` is given).
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*/
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int write_locked_index(struct index_state *, struct lock_file *lock, unsigned flags);
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void discard_index(struct index_state *);
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void move_index_extensions(struct index_state *dst, struct index_state *src);
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int unmerged_index(const struct index_state *);
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/**
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* Returns 1 if istate differs from tree, 0 otherwise. If tree is NULL,
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* compares istate to HEAD. If tree is NULL and on an unborn branch,
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* returns 1 if there are entries in istate, 0 otherwise. If an strbuf is
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* provided, the space-separated list of files that differ will be appended
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* to it.
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*/
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int repo_index_has_changes(struct repository *repo,
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struct tree *tree,
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struct strbuf *sb);
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int verify_path(const char *path, unsigned mode);
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int strcmp_offset(const char *s1, const char *s2, size_t *first_change);
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/*
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* Searches for an entry defined by name and namelen in the given index.
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* If the return value is positive (including 0) it is the position of an
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* exact match. If the return value is negative, the negated value minus 1
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* is the position where the entry would be inserted.
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* Example: The current index consists of these files and its stages:
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*
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* b#0, d#0, f#1, f#3
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*
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* index_name_pos(&index, "a", 1) -> -1
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* index_name_pos(&index, "b", 1) -> 0
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* index_name_pos(&index, "c", 1) -> -2
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* index_name_pos(&index, "d", 1) -> 1
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* index_name_pos(&index, "e", 1) -> -3
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* index_name_pos(&index, "f", 1) -> -3
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* index_name_pos(&index, "g", 1) -> -5
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*/
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int index_name_pos(struct index_state *, const char *name, int namelen);
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/*
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* Like index_name_pos, returns the position of an entry of the given name in
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* the index if one exists, otherwise returns a negative value where the negated
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* value minus 1 is the position where the index entry would be inserted. Unlike
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* index_name_pos, however, a sparse index is not expanded to find an entry
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* inside a sparse directory.
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*/
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int index_name_pos_sparse(struct index_state *, const char *name, int namelen);
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/*
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* Determines whether an entry with the given name exists within the
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* given index. The return value is 1 if an exact match is found, otherwise
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* it is 0. Note that, unlike index_name_pos, this function does not expand
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* the index if it is sparse. If an item exists within the full index but it
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* is contained within a sparse directory (and not in the sparse index), 0 is
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* returned.
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*/
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int index_entry_exists(struct index_state *, const char *name, int namelen);
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/*
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* Some functions return the negative complement of an insert position when a
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* precise match was not found but a position was found where the entry would
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* need to be inserted. This helper protects that logic from any integer
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* underflow.
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*/
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static inline int index_pos_to_insert_pos(uintmax_t pos)
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{
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if (pos > INT_MAX)
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die("overflow: -1 - %"PRIuMAX, pos);
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return -1 - (int)pos;
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}
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#define ADD_CACHE_OK_TO_ADD 1 /* Ok to add */
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#define ADD_CACHE_OK_TO_REPLACE 2 /* Ok to replace file/directory */
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#define ADD_CACHE_SKIP_DFCHECK 4 /* Ok to skip DF conflict checks */
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#define ADD_CACHE_JUST_APPEND 8 /* Append only */
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#define ADD_CACHE_NEW_ONLY 16 /* Do not replace existing ones */
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#define ADD_CACHE_KEEP_CACHE_TREE 32 /* Do not invalidate cache-tree */
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#define ADD_CACHE_RENORMALIZE 64 /* Pass along HASH_RENORMALIZE */
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int add_index_entry(struct index_state *, struct cache_entry *ce, int option);
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void rename_index_entry_at(struct index_state *, int pos, const char *new_name);
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/* Remove entry, return true if there are more entries to go. */
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int remove_index_entry_at(struct index_state *, int pos);
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void remove_marked_cache_entries(struct index_state *istate, int invalidate);
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int remove_file_from_index(struct index_state *, const char *path);
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#define ADD_CACHE_VERBOSE 1
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#define ADD_CACHE_PRETEND 2
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#define ADD_CACHE_IGNORE_ERRORS 4
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#define ADD_CACHE_IGNORE_REMOVAL 8
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#define ADD_CACHE_INTENT 16
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/*
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* These two are used to add the contents of the file at path
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* to the index, marking the working tree up-to-date by storing
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* the cached stat info in the resulting cache entry. A caller
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* that has already run lstat(2) on the path can call
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* add_to_index(), and all others can call add_file_to_index();
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* the latter will do necessary lstat(2) internally before
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* calling the former.
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*/
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int add_to_index(struct index_state *, const char *path, struct stat *, int flags);
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int add_file_to_index(struct index_state *, const char *path, int flags);
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int chmod_index_entry(struct index_state *, struct cache_entry *ce, char flip);
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int ce_same_name(const struct cache_entry *a, const struct cache_entry *b);
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void set_object_name_for_intent_to_add_entry(struct cache_entry *ce);
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int index_name_is_other(struct index_state *, const char *, int);
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void *read_blob_data_from_index(struct index_state *, const char *, unsigned long *);
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/* do stat comparison even if CE_VALID is true */
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#define CE_MATCH_IGNORE_VALID 01
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/* do not check the contents but report dirty on racily-clean entries */
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#define CE_MATCH_RACY_IS_DIRTY 02
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/* do stat comparison even if CE_SKIP_WORKTREE is true */
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#define CE_MATCH_IGNORE_SKIP_WORKTREE 04
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/* ignore non-existent files during stat update */
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#define CE_MATCH_IGNORE_MISSING 0x08
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/* enable stat refresh */
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#define CE_MATCH_REFRESH 0x10
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/* don't refresh_fsmonitor state or do stat comparison even if CE_FSMONITOR_VALID is true */
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#define CE_MATCH_IGNORE_FSMONITOR 0X20
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int is_racy_timestamp(const struct index_state *istate,
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const struct cache_entry *ce);
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int has_racy_timestamp(struct index_state *istate);
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int ie_match_stat(struct index_state *, const struct cache_entry *, struct stat *, unsigned int);
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int ie_modified(struct index_state *, const struct cache_entry *, struct stat *, unsigned int);
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int match_stat_data_racy(const struct index_state *istate,
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const struct stat_data *sd, struct stat *st);
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void fill_stat_cache_info(struct index_state *istate, struct cache_entry *ce, struct stat *st);
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/*
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* Fill members of st by members of sd enough to convince match_stat()
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* to consider that they match. It should be usable as a replacement
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* for lstat() for a tracked path that is known to be up-to-date via
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* some out-of-line means (like fsmonitor).
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*/
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int fake_lstat(const struct cache_entry *ce, struct stat *st);
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#define REFRESH_REALLY (1 << 0) /* ignore_valid */
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#define REFRESH_UNMERGED (1 << 1) /* allow unmerged */
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#define REFRESH_QUIET (1 << 2) /* be quiet about it */
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#define REFRESH_IGNORE_MISSING (1 << 3) /* ignore non-existent */
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#define REFRESH_IGNORE_SUBMODULES (1 << 4) /* ignore submodules */
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#define REFRESH_IN_PORCELAIN (1 << 5) /* user friendly output, not "needs update" */
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#define REFRESH_PROGRESS (1 << 6) /* show progress bar if stderr is tty */
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#define REFRESH_IGNORE_SKIP_WORKTREE (1 << 7) /* ignore skip_worktree entries */
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int refresh_index(struct index_state *, unsigned int flags, const struct pathspec *pathspec, char *seen, const char *header_msg);
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/*
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* Refresh the index and write it to disk.
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*
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* 'refresh_flags' is passed directly to 'refresh_index()', while
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* 'COMMIT_LOCK | write_flags' is passed to 'write_locked_index()', so
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* the lockfile is always either committed or rolled back.
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*
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* If 'gentle' is passed, errors locking the index are ignored.
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*
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* Return 1 if refreshing the index returns an error, -1 if writing
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* the index to disk fails, 0 on success.
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*
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* Note that if refreshing the index returns an error, we still write
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* out the index (unless locking fails).
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*/
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int repo_refresh_and_write_index(struct repository*, unsigned int refresh_flags, unsigned int write_flags, int gentle, const struct pathspec *, char *seen, const char *header_msg);
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struct cache_entry *refresh_cache_entry(struct index_state *, struct cache_entry *, unsigned int);
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void set_alternate_index_output(const char *);
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extern int verify_index_checksum;
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extern int verify_ce_order;
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int cmp_cache_name_compare(const void *a_, const void *b_);
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int add_files_to_cache(struct repository *repo, const char *prefix,
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const struct pathspec *pathspec, int include_sparse,
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int flags);
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void overlay_tree_on_index(struct index_state *istate,
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const char *tree_name, const char *prefix);
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#endif /* READ_CACHE_LL_H */
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