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git/dir.c
Junio C Hamano dc89c34d9e Merge branch 'ds/sparse-index-ignored-files' 
In cone mode, the sparse-index code path learned to remove ignored
files (like build artifacts) outside the sparse cone, allowing the
entire directory outside the sparse cone to be removed, which is
especially useful when the sparse patterns change.

* ds/sparse-index-ignored-files:
  sparse-checkout: clear tracked sparse dirs
  sparse-index: add SPARSE_INDEX_MEMORY_ONLY flag
  attr: be careful about sparse directories
  sparse-checkout: create helper methods
  sparse-index: use WRITE_TREE_MISSING_OK
  sparse-index: silently return when cache tree fails
  unpack-trees: fix nested sparse-dir search
  sparse-index: silently return when not using cone-mode patterns
  t7519: rewrite sparse index test
2021-09-20 15:20:44 -07:00

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/*
* This handles recursive filename detection with exclude
* files, index knowledge etc..
*
* Copyright (C) Linus Torvalds, 2005-2006
* Junio Hamano, 2005-2006
*/
#include "cache.h"
#include "config.h"
#include "dir.h"
#include "object-store.h"
#include "attr.h"
#include "refs.h"
#include "wildmatch.h"
#include "pathspec.h"
#include "utf8.h"
#include "varint.h"
#include "ewah/ewok.h"
#include "fsmonitor.h"
#include "submodule-config.h"
/*
* Tells read_directory_recursive how a file or directory should be treated.
* Values are ordered by significance, e.g. if a directory contains both
* excluded and untracked files, it is listed as untracked because
* path_untracked > path_excluded.
*/
enum path_treatment {
path_none = 0,
path_recurse,
path_excluded,
path_untracked
};
/*
* Support data structure for our opendir/readdir/closedir wrappers
*/
struct cached_dir {
DIR *fdir;
struct untracked_cache_dir *untracked;
int nr_files;
int nr_dirs;
const char *d_name;
int d_type;
const char *file;
struct untracked_cache_dir *ucd;
};
static enum path_treatment read_directory_recursive(struct dir_struct *dir,
struct index_state *istate, const char *path, int len,
struct untracked_cache_dir *untracked,
int check_only, int stop_at_first_file, const struct pathspec *pathspec);
static int resolve_dtype(int dtype, struct index_state *istate,
const char *path, int len);
struct dirent *readdir_skip_dot_and_dotdot(DIR *dirp)
{
struct dirent *e;
while ((e = readdir(dirp)) != NULL) {
if (!is_dot_or_dotdot(e->d_name))
break;
}
return e;
}
int count_slashes(const char *s)
{
int cnt = 0;
while (*s)
if (*s++ == '/')
cnt++;
return cnt;
}
int fspathcmp(const char *a, const char *b)
{
return ignore_case ? strcasecmp(a, b) : strcmp(a, b);
}
int fspatheq(const char *a, const char *b)
{
return !fspathcmp(a, b);
}
int fspathncmp(const char *a, const char *b, size_t count)
{
return ignore_case ? strncasecmp(a, b, count) : strncmp(a, b, count);
}
unsigned int fspathhash(const char *str)
{
return ignore_case ? strihash(str) : strhash(str);
}
int git_fnmatch(const struct pathspec_item *item,
const char *pattern, const char *string,
int prefix)
{
if (prefix > 0) {
if (ps_strncmp(item, pattern, string, prefix))
return WM_NOMATCH;
pattern += prefix;
string += prefix;
}
if (item->flags & PATHSPEC_ONESTAR) {
int pattern_len = strlen(++pattern);
int string_len = strlen(string);
return string_len < pattern_len ||
ps_strcmp(item, pattern,
string + string_len - pattern_len);
}
if (item->magic & PATHSPEC_GLOB)
return wildmatch(pattern, string,
WM_PATHNAME |
(item->magic & PATHSPEC_ICASE ? WM_CASEFOLD : 0));
else
/* wildmatch has not learned no FNM_PATHNAME mode yet */
return wildmatch(pattern, string,
item->magic & PATHSPEC_ICASE ? WM_CASEFOLD : 0);
}
static int fnmatch_icase_mem(const char *pattern, int patternlen,
const char *string, int stringlen,
int flags)
{
int match_status;
struct strbuf pat_buf = STRBUF_INIT;
struct strbuf str_buf = STRBUF_INIT;
const char *use_pat = pattern;
const char *use_str = string;
if (pattern[patternlen]) {
strbuf_add(&pat_buf, pattern, patternlen);
use_pat = pat_buf.buf;
}
if (string[stringlen]) {
strbuf_add(&str_buf, string, stringlen);
use_str = str_buf.buf;
}
if (ignore_case)
flags |= WM_CASEFOLD;
match_status = wildmatch(use_pat, use_str, flags);
strbuf_release(&pat_buf);
strbuf_release(&str_buf);
return match_status;
}
static size_t common_prefix_len(const struct pathspec *pathspec)
{
int n;
size_t max = 0;
/*
* ":(icase)path" is treated as a pathspec full of
* wildcard. In other words, only prefix is considered common
* prefix. If the pathspec is abc/foo abc/bar, running in
* subdir xyz, the common prefix is still xyz, not xyz/abc as
* in non-:(icase).
*/
GUARD_PATHSPEC(pathspec,
PATHSPEC_FROMTOP |
PATHSPEC_MAXDEPTH |
PATHSPEC_LITERAL |
PATHSPEC_GLOB |
PATHSPEC_ICASE |
PATHSPEC_EXCLUDE |
PATHSPEC_ATTR);
for (n = 0; n < pathspec->nr; n++) {
size_t i = 0, len = 0, item_len;
if (pathspec->items[n].magic & PATHSPEC_EXCLUDE)
continue;
if (pathspec->items[n].magic & PATHSPEC_ICASE)
item_len = pathspec->items[n].prefix;
else
item_len = pathspec->items[n].nowildcard_len;
while (i < item_len && (n == 0 || i < max)) {
char c = pathspec->items[n].match[i];
if (c != pathspec->items[0].match[i])
break;
if (c == '/')
len = i + 1;
i++;
}
if (n == 0 || len < max) {
max = len;
if (!max)
break;
}
}
return max;
}
/*
* Returns a copy of the longest leading path common among all
* pathspecs.
*/
char *common_prefix(const struct pathspec *pathspec)
{
unsigned long len = common_prefix_len(pathspec);
return len ? xmemdupz(pathspec->items[0].match, len) : NULL;
}
int fill_directory(struct dir_struct *dir,
struct index_state *istate,
const struct pathspec *pathspec)
{
const char *prefix;
size_t prefix_len;
unsigned exclusive_flags = DIR_SHOW_IGNORED | DIR_SHOW_IGNORED_TOO;
if ((dir->flags & exclusive_flags) == exclusive_flags)
BUG("DIR_SHOW_IGNORED and DIR_SHOW_IGNORED_TOO are exclusive");
/*
* Calculate common prefix for the pathspec, and
* use that to optimize the directory walk
*/
prefix_len = common_prefix_len(pathspec);
prefix = prefix_len ? pathspec->items[0].match : "";
/* Read the directory and prune it */
read_directory(dir, istate, prefix, prefix_len, pathspec);
return prefix_len;
}
int within_depth(const char *name, int namelen,
int depth, int max_depth)
{
const char *cp = name, *cpe = name + namelen;
while (cp < cpe) {
if (*cp++ != '/')
continue;
depth++;
if (depth > max_depth)
return 0;
}
return 1;
}
/*
* Read the contents of the blob with the given OID into a buffer.
* Append a trailing LF to the end if the last line doesn't have one.
*
* Returns:
* -1 when the OID is invalid or unknown or does not refer to a blob.
* 0 when the blob is empty.
* 1 along with { data, size } of the (possibly augmented) buffer
* when successful.
*
* Optionally updates the given oid_stat with the given OID (when valid).
*/
static int do_read_blob(const struct object_id *oid, struct oid_stat *oid_stat,
size_t *size_out, char **data_out)
{
enum object_type type;
unsigned long sz;
char *data;
*size_out = 0;
*data_out = NULL;
data = read_object_file(oid, &type, &sz);
if (!data || type != OBJ_BLOB) {
free(data);
return -1;
}
if (oid_stat) {
memset(&oid_stat->stat, 0, sizeof(oid_stat->stat));
oidcpy(&oid_stat->oid, oid);
}
if (sz == 0) {
free(data);
return 0;
}
if (data[sz - 1] != '\n') {
data = xrealloc(data, st_add(sz, 1));
data[sz++] = '\n';
}
*size_out = xsize_t(sz);
*data_out = data;
return 1;
}
#define DO_MATCH_EXCLUDE (1<<0)
#define DO_MATCH_DIRECTORY (1<<1)
#define DO_MATCH_LEADING_PATHSPEC (1<<2)
/*
* Does the given pathspec match the given name? A match is found if
*
* (1) the pathspec string is leading directory of 'name' ("RECURSIVELY"), or
* (2) the pathspec string has a leading part matching 'name' ("LEADING"), or
* (3) the pathspec string is a wildcard and matches 'name' ("WILDCARD"), or
* (4) the pathspec string is exactly the same as 'name' ("EXACT").
*
* Return value tells which case it was (1-4), or 0 when there is no match.
*
* It may be instructive to look at a small table of concrete examples
* to understand the differences between 1, 2, and 4:
*
* Pathspecs
* | a/b | a/b/ | a/b/c
* ------+-----------+-----------+------------
* a/b | EXACT | EXACT[1] | LEADING[2]
* Names a/b/ | RECURSIVE | EXACT | LEADING[2]
* a/b/c | RECURSIVE | RECURSIVE | EXACT
*
* [1] Only if DO_MATCH_DIRECTORY is passed; otherwise, this is NOT a match.
* [2] Only if DO_MATCH_LEADING_PATHSPEC is passed; otherwise, not a match.
*/
static int match_pathspec_item(struct index_state *istate,
const struct pathspec_item *item, int prefix,
const char *name, int namelen, unsigned flags)
{
/* name/namelen has prefix cut off by caller */
const char *match = item->match + prefix;
int matchlen = item->len - prefix;
/*
* The normal call pattern is:
* 1. prefix = common_prefix_len(ps);
* 2. prune something, or fill_directory
* 3. match_pathspec()
*
* 'prefix' at #1 may be shorter than the command's prefix and
* it's ok for #2 to match extra files. Those extras will be
* trimmed at #3.
*
* Suppose the pathspec is 'foo' and '../bar' running from
* subdir 'xyz'. The common prefix at #1 will be empty, thanks
* to "../". We may have xyz/foo _and_ XYZ/foo after #2. The
* user does not want XYZ/foo, only the "foo" part should be
* case-insensitive. We need to filter out XYZ/foo here. In
* other words, we do not trust the caller on comparing the
* prefix part when :(icase) is involved. We do exact
* comparison ourselves.
*
* Normally the caller (common_prefix_len() in fact) does
* _exact_ matching on name[-prefix+1..-1] and we do not need
* to check that part. Be defensive and check it anyway, in
* case common_prefix_len is changed, or a new caller is
* introduced that does not use common_prefix_len.
*
* If the penalty turns out too high when prefix is really
* long, maybe change it to
* strncmp(match, name, item->prefix - prefix)
*/
if (item->prefix && (item->magic & PATHSPEC_ICASE) &&
strncmp(item->match, name - prefix, item->prefix))
return 0;
if (item->attr_match_nr &&
!match_pathspec_attrs(istate, name, namelen, item))
return 0;
/* If the match was just the prefix, we matched */
if (!*match)
return MATCHED_RECURSIVELY;
if (matchlen <= namelen && !ps_strncmp(item, match, name, matchlen)) {
if (matchlen == namelen)
return MATCHED_EXACTLY;
if (match[matchlen-1] == '/' || name[matchlen] == '/')
return MATCHED_RECURSIVELY;
} else if ((flags & DO_MATCH_DIRECTORY) &&
match[matchlen - 1] == '/' &&
namelen == matchlen - 1 &&
!ps_strncmp(item, match, name, namelen))
return MATCHED_EXACTLY;
if (item->nowildcard_len < item->len &&
!git_fnmatch(item, match, name,
item->nowildcard_len - prefix))
return MATCHED_FNMATCH;
/* Perform checks to see if "name" is a leading string of the pathspec */
if ( (flags & DO_MATCH_LEADING_PATHSPEC) &&
!(flags & DO_MATCH_EXCLUDE)) {
/* name is a literal prefix of the pathspec */
int offset = name[namelen-1] == '/' ? 1 : 0;
if ((namelen < matchlen) &&
(match[namelen-offset] == '/') &&
!ps_strncmp(item, match, name, namelen))
return MATCHED_RECURSIVELY_LEADING_PATHSPEC;
/* name doesn't match up to the first wild character */
if (item->nowildcard_len < item->len &&
ps_strncmp(item, match, name,
item->nowildcard_len - prefix))
return 0;
/*
* name has no wildcard, and it didn't match as a leading
* pathspec so return.
*/
if (item->nowildcard_len == item->len)
return 0;
/*
* Here is where we would perform a wildmatch to check if
* "name" can be matched as a directory (or a prefix) against
* the pathspec. Since wildmatch doesn't have this capability
* at the present we have to punt and say that it is a match,
* potentially returning a false positive
* The submodules themselves will be able to perform more
* accurate matching to determine if the pathspec matches.
*/
return MATCHED_RECURSIVELY_LEADING_PATHSPEC;
}
return 0;
}
/*
* do_match_pathspec() is meant to ONLY be called by
* match_pathspec_with_flags(); calling it directly risks pathspecs
* like ':!unwanted_path' being ignored.
*
* Given a name and a list of pathspecs, returns the nature of the
* closest (i.e. most specific) match of the name to any of the
* pathspecs.
*
* The caller typically calls this multiple times with the same
* pathspec and seen[] array but with different name/namelen
* (e.g. entries from the index) and is interested in seeing if and
* how each pathspec matches all the names it calls this function
* with. A mark is left in the seen[] array for each pathspec element
* indicating the closest type of match that element achieved, so if
* seen[n] remains zero after multiple invocations, that means the nth
* pathspec did not match any names, which could indicate that the
* user mistyped the nth pathspec.
*/
static int do_match_pathspec(struct index_state *istate,
const struct pathspec *ps,
const char *name, int namelen,
int prefix, char *seen,
unsigned flags)
{
int i, retval = 0, exclude = flags & DO_MATCH_EXCLUDE;
GUARD_PATHSPEC(ps,
PATHSPEC_FROMTOP |
PATHSPEC_MAXDEPTH |
PATHSPEC_LITERAL |
PATHSPEC_GLOB |
PATHSPEC_ICASE |
PATHSPEC_EXCLUDE |
PATHSPEC_ATTR);
if (!ps->nr) {
if (!ps->recursive ||
!(ps->magic & PATHSPEC_MAXDEPTH) ||
ps->max_depth == -1)
return MATCHED_RECURSIVELY;
if (within_depth(name, namelen, 0, ps->max_depth))
return MATCHED_EXACTLY;
else
return 0;
}
name += prefix;
namelen -= prefix;
for (i = ps->nr - 1; i >= 0; i--) {
int how;
if ((!exclude && ps->items[i].magic & PATHSPEC_EXCLUDE) ||
( exclude && !(ps->items[i].magic & PATHSPEC_EXCLUDE)))
continue;
if (seen && seen[i] == MATCHED_EXACTLY)
continue;
/*
* Make exclude patterns optional and never report
* "pathspec ':(exclude)foo' matches no files"
*/
if (seen && ps->items[i].magic & PATHSPEC_EXCLUDE)
seen[i] = MATCHED_FNMATCH;
how = match_pathspec_item(istate, ps->items+i, prefix, name,
namelen, flags);
if (ps->recursive &&
(ps->magic & PATHSPEC_MAXDEPTH) &&
ps->max_depth != -1 &&
how && how != MATCHED_FNMATCH) {
int len = ps->items[i].len;
if (name[len] == '/')
len++;
if (within_depth(name+len, namelen-len, 0, ps->max_depth))
how = MATCHED_EXACTLY;
else
how = 0;
}
if (how) {
if (retval < how)
retval = how;
if (seen && seen[i] < how)
seen[i] = how;
}
}
return retval;
}
static int match_pathspec_with_flags(struct index_state *istate,
const struct pathspec *ps,
const char *name, int namelen,
int prefix, char *seen, unsigned flags)
{
int positive, negative;
positive = do_match_pathspec(istate, ps, name, namelen,
prefix, seen, flags);
if (!(ps->magic & PATHSPEC_EXCLUDE) || !positive)
return positive;
negative = do_match_pathspec(istate, ps, name, namelen,
prefix, seen,
flags | DO_MATCH_EXCLUDE);
return negative ? 0 : positive;
}
int match_pathspec(struct index_state *istate,
const struct pathspec *ps,
const char *name, int namelen,
int prefix, char *seen, int is_dir)
{
unsigned flags = is_dir ? DO_MATCH_DIRECTORY : 0;
return match_pathspec_with_flags(istate, ps, name, namelen,
prefix, seen, flags);
}
/**
* Check if a submodule is a superset of the pathspec
*/
int submodule_path_match(struct index_state *istate,
const struct pathspec *ps,
const char *submodule_name,
char *seen)
{
int matched = match_pathspec_with_flags(istate, ps, submodule_name,
strlen(submodule_name),
0, seen,
DO_MATCH_DIRECTORY |
DO_MATCH_LEADING_PATHSPEC);
return matched;
}
int report_path_error(const char *ps_matched,
const struct pathspec *pathspec)
{
/*
* Make sure all pathspec matched; otherwise it is an error.
*/
int num, errors = 0;
for (num = 0; num < pathspec->nr; num++) {
int other, found_dup;
if (ps_matched[num])
continue;
/*
* The caller might have fed identical pathspec
* twice. Do not barf on such a mistake.
* FIXME: parse_pathspec should have eliminated
* duplicate pathspec.
*/
for (found_dup = other = 0;
!found_dup && other < pathspec->nr;
other++) {
if (other == num || !ps_matched[other])
continue;
if (!strcmp(pathspec->items[other].original,
pathspec->items[num].original))
/*
* Ok, we have a match already.
*/
found_dup = 1;
}
if (found_dup)
continue;
error(_("pathspec '%s' did not match any file(s) known to git"),
pathspec->items[num].original);
errors++;
}
return errors;
}
/*
* Return the length of the "simple" part of a path match limiter.
*/
int simple_length(const char *match)
{
int len = -1;
for (;;) {
unsigned char c = *match++;
len++;
if (c == '\0' || is_glob_special(c))
return len;
}
}
int no_wildcard(const char *string)
{
return string[simple_length(string)] == '\0';
}
void parse_path_pattern(const char **pattern,
int *patternlen,
unsigned *flags,
int *nowildcardlen)
{
const char *p = *pattern;
size_t i, len;
*flags = 0;
if (*p == '!') {
*flags |= PATTERN_FLAG_NEGATIVE;
p++;
}
len = strlen(p);
if (len && p[len - 1] == '/') {
len--;
*flags |= PATTERN_FLAG_MUSTBEDIR;
}
for (i = 0; i < len; i++) {
if (p[i] == '/')
break;
}
if (i == len)
*flags |= PATTERN_FLAG_NODIR;
*nowildcardlen = simple_length(p);
/*
* we should have excluded the trailing slash from 'p' too,
* but that's one more allocation. Instead just make sure
* nowildcardlen does not exceed real patternlen
*/
if (*nowildcardlen > len)
*nowildcardlen = len;
if (*p == '*' && no_wildcard(p + 1))
*flags |= PATTERN_FLAG_ENDSWITH;
*pattern = p;
*patternlen = len;
}
int pl_hashmap_cmp(const void *unused_cmp_data,
const struct hashmap_entry *a,
const struct hashmap_entry *b,
const void *key)
{
const struct pattern_entry *ee1 =
container_of(a, struct pattern_entry, ent);
const struct pattern_entry *ee2 =
container_of(b, struct pattern_entry, ent);
size_t min_len = ee1->patternlen <= ee2->patternlen
? ee1->patternlen
: ee2->patternlen;
if (ignore_case)
return strncasecmp(ee1->pattern, ee2->pattern, min_len);
return strncmp(ee1->pattern, ee2->pattern, min_len);
}
static char *dup_and_filter_pattern(const char *pattern)
{
char *set, *read;
size_t count = 0;
char *result = xstrdup(pattern);
set = result;
read = result;
while (*read) {
/* skip escape characters (once) */
if (*read == '\\')
read++;
*set = *read;
set++;
read++;
count++;
}
*set = 0;
if (count > 2 &&
*(set - 1) == '*' &&
*(set - 2) == '/')
*(set - 2) = 0;
return result;
}
static void add_pattern_to_hashsets(struct pattern_list *pl, struct path_pattern *given)
{
struct pattern_entry *translated;
char *truncated;
char *data = NULL;
const char *prev, *cur, *next;
if (!pl->use_cone_patterns)
return;
if (given->flags & PATTERN_FLAG_NEGATIVE &&
given->flags & PATTERN_FLAG_MUSTBEDIR &&
!strcmp(given->pattern, "/*")) {
pl->full_cone = 0;
return;
}
if (!given->flags && !strcmp(given->pattern, "/*")) {
pl->full_cone = 1;
return;
}
if (given->patternlen < 2 ||
*given->pattern == '*' ||
strstr(given->pattern, "**")) {
/* Not a cone pattern. */
warning(_("unrecognized pattern: '%s'"), given->pattern);
goto clear_hashmaps;
}
prev = given->pattern;
cur = given->pattern + 1;
next = given->pattern + 2;
while (*cur) {
/* Watch for glob characters '*', '\', '[', '?' */
if (!is_glob_special(*cur))
goto increment;
/* But only if *prev != '\\' */
if (*prev == '\\')
goto increment;
/* But allow the initial '\' */
if (*cur == '\\' &&
is_glob_special(*next))
goto increment;
/* But a trailing '/' then '*' is fine */
if (*prev == '/' &&
*cur == '*' &&
*next == 0)
goto increment;
/* Not a cone pattern. */
warning(_("unrecognized pattern: '%s'"), given->pattern);
goto clear_hashmaps;
increment:
prev++;
cur++;
next++;
}
if (given->patternlen > 2 &&
!strcmp(given->pattern + given->patternlen - 2, "/*")) {
if (!(given->flags & PATTERN_FLAG_NEGATIVE)) {
/* Not a cone pattern. */
warning(_("unrecognized pattern: '%s'"), given->pattern);
goto clear_hashmaps;
}
truncated = dup_and_filter_pattern(given->pattern);
translated = xmalloc(sizeof(struct pattern_entry));
translated->pattern = truncated;
translated->patternlen = given->patternlen - 2;
hashmap_entry_init(&translated->ent,
fspathhash(translated->pattern));
if (!hashmap_get_entry(&pl->recursive_hashmap,
translated, ent, NULL)) {
/* We did not see the "parent" included */
warning(_("unrecognized negative pattern: '%s'"),
given->pattern);
free(truncated);
free(translated);
goto clear_hashmaps;
}
hashmap_add(&pl->parent_hashmap, &translated->ent);
hashmap_remove(&pl->recursive_hashmap, &translated->ent, &data);
free(data);
return;
}
if (given->flags & PATTERN_FLAG_NEGATIVE) {
warning(_("unrecognized negative pattern: '%s'"),
given->pattern);
goto clear_hashmaps;
}
translated = xmalloc(sizeof(struct pattern_entry));
translated->pattern = dup_and_filter_pattern(given->pattern);
translated->patternlen = given->patternlen;
hashmap_entry_init(&translated->ent,
fspathhash(translated->pattern));
hashmap_add(&pl->recursive_hashmap, &translated->ent);
if (hashmap_get_entry(&pl->parent_hashmap, translated, ent, NULL)) {
/* we already included this at the parent level */
warning(_("your sparse-checkout file may have issues: pattern '%s' is repeated"),
given->pattern);
hashmap_remove(&pl->parent_hashmap, &translated->ent, &data);
free(data);
free(translated);
}
return;
clear_hashmaps:
warning(_("disabling cone pattern matching"));
hashmap_clear_and_free(&pl->parent_hashmap, struct pattern_entry, ent);
hashmap_clear_and_free(&pl->recursive_hashmap, struct pattern_entry, ent);
pl->use_cone_patterns = 0;
}
static int hashmap_contains_path(struct hashmap *map,
struct strbuf *pattern)
{
struct pattern_entry p;
/* Check straight mapping */
p.pattern = pattern->buf;
p.patternlen = pattern->len;
hashmap_entry_init(&p.ent, fspathhash(p.pattern));
return !!hashmap_get_entry(map, &p, ent, NULL);
}
int hashmap_contains_parent(struct hashmap *map,
const char *path,
struct strbuf *buffer)
{
char *slash_pos;
strbuf_setlen(buffer, 0);
if (path[0] != '/')
strbuf_addch(buffer, '/');
strbuf_addstr(buffer, path);
slash_pos = strrchr(buffer->buf, '/');
while (slash_pos > buffer->buf) {
strbuf_setlen(buffer, slash_pos - buffer->buf);
if (hashmap_contains_path(map, buffer))
return 1;
slash_pos = strrchr(buffer->buf, '/');
}
return 0;
}
void add_pattern(const char *string, const char *base,
int baselen, struct pattern_list *pl, int srcpos)
{
struct path_pattern *pattern;
int patternlen;
unsigned flags;
int nowildcardlen;
parse_path_pattern(&string, &patternlen, &flags, &nowildcardlen);
if (flags & PATTERN_FLAG_MUSTBEDIR) {
FLEXPTR_ALLOC_MEM(pattern, pattern, string, patternlen);
} else {
pattern = xmalloc(sizeof(*pattern));
pattern->pattern = string;
}
pattern->patternlen = patternlen;
pattern->nowildcardlen = nowildcardlen;
pattern->base = base;
pattern->baselen = baselen;
pattern->flags = flags;
pattern->srcpos = srcpos;
ALLOC_GROW(pl->patterns, pl->nr + 1, pl->alloc);
pl->patterns[pl->nr++] = pattern;
pattern->pl = pl;
add_pattern_to_hashsets(pl, pattern);
}
static int read_skip_worktree_file_from_index(struct index_state *istate,
const char *path,
size_t *size_out, char **data_out,
struct oid_stat *oid_stat)
{
int pos, len;
len = strlen(path);
pos = index_name_pos(istate, path, len);
if (pos < 0)
return -1;
if (!ce_skip_worktree(istate->cache[pos]))
return -1;
return do_read_blob(&istate->cache[pos]->oid, oid_stat, size_out, data_out);
}
/*
* Frees memory within pl which was allocated for exclude patterns and
* the file buffer. Does not free pl itself.
*/
void clear_pattern_list(struct pattern_list *pl)
{
int i;
for (i = 0; i < pl->nr; i++)
free(pl->patterns[i]);
free(pl->patterns);
free(pl->filebuf);
hashmap_clear_and_free(&pl->recursive_hashmap, struct pattern_entry, ent);
hashmap_clear_and_free(&pl->parent_hashmap, struct pattern_entry, ent);
memset(pl, 0, sizeof(*pl));
}
static void trim_trailing_spaces(char *buf)
{
char *p, *last_space = NULL;
for (p = buf; *p; p++)
switch (*p) {
case ' ':
if (!last_space)
last_space = p;
break;
case '\\':
p++;
if (!*p)
return;
/* fallthrough */
default:
last_space = NULL;
}
if (last_space)
*last_space = '\0';
}
/*
* Given a subdirectory name and "dir" of the current directory,
* search the subdir in "dir" and return it, or create a new one if it
* does not exist in "dir".
*
* If "name" has the trailing slash, it'll be excluded in the search.
*/
static struct untracked_cache_dir *lookup_untracked(struct untracked_cache *uc,
struct untracked_cache_dir *dir,
const char *name, int len)
{
int first, last;
struct untracked_cache_dir *d;
if (!dir)
return NULL;
if (len && name[len - 1] == '/')
len--;
first = 0;
last = dir->dirs_nr;
while (last > first) {
int cmp, next = first + ((last - first) >> 1);
d = dir->dirs[next];
cmp = strncmp(name, d->name, len);
if (!cmp && strlen(d->name) > len)
cmp = -1;
if (!cmp)
return d;
if (cmp < 0) {
last = next;
continue;
}
first = next+1;
}
uc->dir_created++;
FLEX_ALLOC_MEM(d, name, name, len);
ALLOC_GROW(dir->dirs, dir->dirs_nr + 1, dir->dirs_alloc);
MOVE_ARRAY(dir->dirs + first + 1, dir->dirs + first,
dir->dirs_nr - first);
dir->dirs_nr++;
dir->dirs[first] = d;
return d;
}
static void do_invalidate_gitignore(struct untracked_cache_dir *dir)
{
int i;
dir->valid = 0;
dir->untracked_nr = 0;
for (i = 0; i < dir->dirs_nr; i++)
do_invalidate_gitignore(dir->dirs[i]);
}
static void invalidate_gitignore(struct untracked_cache *uc,
struct untracked_cache_dir *dir)
{
uc->gitignore_invalidated++;
do_invalidate_gitignore(dir);
}
static void invalidate_directory(struct untracked_cache *uc,
struct untracked_cache_dir *dir)
{
int i;
/*
* Invalidation increment here is just roughly correct. If
* untracked_nr or any of dirs[].recurse is non-zero, we
* should increment dir_invalidated too. But that's more
* expensive to do.
*/
if (dir->valid)
uc->dir_invalidated++;
dir->valid = 0;
dir->untracked_nr = 0;
for (i = 0; i < dir->dirs_nr; i++)
dir->dirs[i]->recurse = 0;
}
static int add_patterns_from_buffer(char *buf, size_t size,
const char *base, int baselen,
struct pattern_list *pl);
/* Flags for add_patterns() */
#define PATTERN_NOFOLLOW (1<<0)
/*
* Given a file with name "fname", read it (either from disk, or from
* an index if 'istate' is non-null), parse it and store the
* exclude rules in "pl".
*
* If "oid_stat" is not NULL, compute oid of the exclude file and fill
* stat data from disk (only valid if add_patterns returns zero). If
* oid_stat.valid is non-zero, "oid_stat" must contain good value as input.
*/
static int add_patterns(const char *fname, const char *base, int baselen,
struct pattern_list *pl, struct index_state *istate,
unsigned flags, struct oid_stat *oid_stat)
{
struct stat st;
int r;
int fd;
size_t size = 0;
char *buf;
if (flags & PATTERN_NOFOLLOW)
fd = open_nofollow(fname, O_RDONLY);
else
fd = open(fname, O_RDONLY);
if (fd < 0 || fstat(fd, &st) < 0) {
if (fd < 0)
warn_on_fopen_errors(fname);
else
close(fd);
if (!istate)
return -1;
r = read_skip_worktree_file_from_index(istate, fname,
&size, &buf,
oid_stat);
if (r != 1)
return r;
} else {
size = xsize_t(st.st_size);
if (size == 0) {
if (oid_stat) {
fill_stat_data(&oid_stat->stat, &st);
oidcpy(&oid_stat->oid, the_hash_algo->empty_blob);
oid_stat->valid = 1;
}
close(fd);
return 0;
}
buf = xmallocz(size);
if (read_in_full(fd, buf, size) != size) {
free(buf);
close(fd);
return -1;
}
buf[size++] = '\n';
close(fd);
if (oid_stat) {
int pos;
if (oid_stat->valid &&
!match_stat_data_racy(istate, &oid_stat->stat, &st))
; /* no content change, oid_stat->oid still good */
else if (istate &&
(pos = index_name_pos(istate, fname, strlen(fname))) >= 0 &&
!ce_stage(istate->cache[pos]) &&
ce_uptodate(istate->cache[pos]) &&
!would_convert_to_git(istate, fname))
oidcpy(&oid_stat->oid,
&istate->cache[pos]->oid);
else
hash_object_file(the_hash_algo, buf, size,
"blob", &oid_stat->oid);
fill_stat_data(&oid_stat->stat, &st);
oid_stat->valid = 1;
}
}
add_patterns_from_buffer(buf, size, base, baselen, pl);
return 0;
}
static int add_patterns_from_buffer(char *buf, size_t size,
const char *base, int baselen,
struct pattern_list *pl)
{
int i, lineno = 1;
char *entry;
hashmap_init(&pl->recursive_hashmap, pl_hashmap_cmp, NULL, 0);
hashmap_init(&pl->parent_hashmap, pl_hashmap_cmp, NULL, 0);
pl->filebuf = buf;
if (skip_utf8_bom(&buf, size))
size -= buf - pl->filebuf;
entry = buf;
for (i = 0; i < size; i++) {
if (buf[i] == '\n') {
if (entry != buf + i && entry[0] != '#') {
buf[i - (i && buf[i-1] == '\r')] = 0;
trim_trailing_spaces(entry);
add_pattern(entry, base, baselen, pl, lineno);
}
lineno++;
entry = buf + i + 1;
}
}
return 0;
}
int add_patterns_from_file_to_list(const char *fname, const char *base,
int baselen, struct pattern_list *pl,
struct index_state *istate,
unsigned flags)
{
return add_patterns(fname, base, baselen, pl, istate, flags, NULL);
}
int add_patterns_from_blob_to_list(
struct object_id *oid,
const char *base, int baselen,
struct pattern_list *pl)
{
char *buf;
size_t size;
int r;
r = do_read_blob(oid, NULL, &size, &buf);
if (r != 1)
return r;
add_patterns_from_buffer(buf, size, base, baselen, pl);
return 0;
}
struct pattern_list *add_pattern_list(struct dir_struct *dir,
int group_type, const char *src)
{
struct pattern_list *pl;
struct exclude_list_group *group;
group = &dir->exclude_list_group[group_type];
ALLOC_GROW(group->pl, group->nr + 1, group->alloc);
pl = &group->pl[group->nr++];
memset(pl, 0, sizeof(*pl));
pl->src = src;
return pl;
}
/*
* Used to set up core.excludesfile and .git/info/exclude lists.
*/
static void add_patterns_from_file_1(struct dir_struct *dir, const char *fname,
struct oid_stat *oid_stat)
{
struct pattern_list *pl;
/*
* catch setup_standard_excludes() that's called before
* dir->untracked is assigned. That function behaves
* differently when dir->untracked is non-NULL.
*/
if (!dir->untracked)
dir->unmanaged_exclude_files++;
pl = add_pattern_list(dir, EXC_FILE, fname);
if (add_patterns(fname, "", 0, pl, NULL, 0, oid_stat) < 0)
die(_("cannot use %s as an exclude file"), fname);
}
void add_patterns_from_file(struct dir_struct *dir, const char *fname)
{
dir->unmanaged_exclude_files++; /* see validate_untracked_cache() */
add_patterns_from_file_1(dir, fname, NULL);
}
int match_basename(const char *basename, int basenamelen,
const char *pattern, int prefix, int patternlen,
unsigned flags)
{
if (prefix == patternlen) {
if (patternlen == basenamelen &&
!fspathncmp(pattern, basename, basenamelen))
return 1;
} else if (flags & PATTERN_FLAG_ENDSWITH) {
/* "*literal" matching against "fooliteral" */
if (patternlen - 1 <= basenamelen &&
!fspathncmp(pattern + 1,
basename + basenamelen - (patternlen - 1),
patternlen - 1))
return 1;
} else {
if (fnmatch_icase_mem(pattern, patternlen,
basename, basenamelen,
0) == 0)
return 1;
}
return 0;
}
int match_pathname(const char *pathname, int pathlen,
const char *base, int baselen,
const char *pattern, int prefix, int patternlen,
unsigned flags)
{
const char *name;
int namelen;
/*
* match with FNM_PATHNAME; the pattern has base implicitly
* in front of it.
*/
if (*pattern == '/') {
pattern++;
patternlen--;
prefix--;
}
/*
* baselen does not count the trailing slash. base[] may or
* may not end with a trailing slash though.
*/
if (pathlen < baselen + 1 ||
(baselen && pathname[baselen] != '/') ||
fspathncmp(pathname, base, baselen))
return 0;
namelen = baselen ? pathlen - baselen - 1 : pathlen;
name = pathname + pathlen - namelen;
if (prefix) {
/*
* if the non-wildcard part is longer than the
* remaining pathname, surely it cannot match.
*/
if (prefix > namelen)
return 0;
if (fspathncmp(pattern, name, prefix))
return 0;
pattern += prefix;
patternlen -= prefix;
name += prefix;
namelen -= prefix;
/*
* If the whole pattern did not have a wildcard,
* then our prefix match is all we need; we
* do not need to call fnmatch at all.
*/
if (!patternlen && !namelen)
return 1;
}
return fnmatch_icase_mem(pattern, patternlen,
name, namelen,
WM_PATHNAME) == 0;
}
/*
* Scan the given exclude list in reverse to see whether pathname
* should be ignored. The first match (i.e. the last on the list), if
* any, determines the fate. Returns the exclude_list element which
* matched, or NULL for undecided.
*/
static struct path_pattern *last_matching_pattern_from_list(const char *pathname,
int pathlen,
const char *basename,
int *dtype,
struct pattern_list *pl,
struct index_state *istate)
{
struct path_pattern *res = NULL; /* undecided */
int i;
if (!pl->nr)
return NULL; /* undefined */
for (i = pl->nr - 1; 0 <= i; i--) {
struct path_pattern *pattern = pl->patterns[i];
const char *exclude = pattern->pattern;
int prefix = pattern->nowildcardlen;
if (pattern->flags & PATTERN_FLAG_MUSTBEDIR) {
*dtype = resolve_dtype(*dtype, istate, pathname, pathlen);
if (*dtype != DT_DIR)
continue;
}
if (pattern->flags & PATTERN_FLAG_NODIR) {
if (match_basename(basename,
pathlen - (basename - pathname),
exclude, prefix, pattern->patternlen,
pattern->flags)) {
res = pattern;
break;
}
continue;
}
assert(pattern->baselen == 0 ||
pattern->base[pattern->baselen - 1] == '/');
if (match_pathname(pathname, pathlen,
pattern->base,
pattern->baselen ? pattern->baselen - 1 : 0,
exclude, prefix, pattern->patternlen,
pattern->flags)) {
res = pattern;
break;
}
}
return res;
}
/*
* Scan the list of patterns to determine if the ordered list
* of patterns matches on 'pathname'.
*
* Return 1 for a match, 0 for not matched and -1 for undecided.
*/
enum pattern_match_result path_matches_pattern_list(
const char *pathname, int pathlen,
const char *basename, int *dtype,
struct pattern_list *pl,
struct index_state *istate)
{
struct path_pattern *pattern;
struct strbuf parent_pathname = STRBUF_INIT;
int result = NOT_MATCHED;
size_t slash_pos;
if (!pl->use_cone_patterns) {
pattern = last_matching_pattern_from_list(pathname, pathlen, basename,
dtype, pl, istate);
if (pattern) {
if (pattern->flags & PATTERN_FLAG_NEGATIVE)
return NOT_MATCHED;
else
return MATCHED;
}
return UNDECIDED;
}
if (pl->full_cone)
return MATCHED;
strbuf_addch(&parent_pathname, '/');
strbuf_add(&parent_pathname, pathname, pathlen);
/*
* Directory entries are matched if and only if a file
* contained immediately within them is matched. For the
* case of a directory entry, modify the path to create
* a fake filename within this directory, allowing us to
* use the file-base matching logic in an equivalent way.
*/
if (parent_pathname.len > 0 &&
parent_pathname.buf[parent_pathname.len - 1] == '/') {
slash_pos = parent_pathname.len - 1;
strbuf_add(&parent_pathname, "-", 1);
} else {
const char *slash_ptr = strrchr(parent_pathname.buf, '/');
slash_pos = slash_ptr ? slash_ptr - parent_pathname.buf : 0;
}
if (hashmap_contains_path(&pl->recursive_hashmap,
&parent_pathname)) {
result = MATCHED_RECURSIVE;
goto done;
}
if (!slash_pos) {
/* include every file in root */
result = MATCHED;
goto done;
}
strbuf_setlen(&parent_pathname, slash_pos);
if (hashmap_contains_path(&pl->parent_hashmap, &parent_pathname)) {
result = MATCHED;
goto done;
}
if (hashmap_contains_parent(&pl->recursive_hashmap,
pathname,
&parent_pathname))
result = MATCHED_RECURSIVE;
done:
strbuf_release(&parent_pathname);
return result;
}
int init_sparse_checkout_patterns(struct index_state *istate)
{
if (!core_apply_sparse_checkout)
return 1;
if (istate->sparse_checkout_patterns)
return 0;
CALLOC_ARRAY(istate->sparse_checkout_patterns, 1);
if (get_sparse_checkout_patterns(istate->sparse_checkout_patterns) < 0) {
FREE_AND_NULL(istate->sparse_checkout_patterns);
return -1;
}
return 0;
}
static int path_in_sparse_checkout_1(const char *path,
struct index_state *istate,
int require_cone_mode)
{
const char *base;
int dtype = DT_REG;
/*
* We default to accepting a path if there are no patterns or
* they are of the wrong type.
*/
if (init_sparse_checkout_patterns(istate) ||
(require_cone_mode &&
!istate->sparse_checkout_patterns->use_cone_patterns))
return 1;
base = strrchr(path, '/');
return path_matches_pattern_list(path, strlen(path), base ? base + 1 : path,
&dtype,
istate->sparse_checkout_patterns,
istate) > 0;
}
int path_in_sparse_checkout(const char *path,
struct index_state *istate)
{
return path_in_sparse_checkout_1(path, istate, 0);
}
int path_in_cone_mode_sparse_checkout(const char *path,
struct index_state *istate)
{
return path_in_sparse_checkout_1(path, istate, 1);
}
static struct path_pattern *last_matching_pattern_from_lists(
struct dir_struct *dir, struct index_state *istate,
const char *pathname, int pathlen,
const char *basename, int *dtype_p)
{
int i, j;
struct exclude_list_group *group;
struct path_pattern *pattern;
for (i = EXC_CMDL; i <= EXC_FILE; i++) {
group = &dir->exclude_list_group[i];
for (j = group->nr - 1; j >= 0; j--) {
pattern = last_matching_pattern_from_list(
pathname, pathlen, basename, dtype_p,
&group->pl[j], istate);
if (pattern)
return pattern;
}
}
return NULL;
}
/*
* Loads the per-directory exclude list for the substring of base
* which has a char length of baselen.
*/
static void prep_exclude(struct dir_struct *dir,
struct index_state *istate,
const char *base, int baselen)
{
struct exclude_list_group *group;
struct pattern_list *pl;
struct exclude_stack *stk = NULL;
struct untracked_cache_dir *untracked;
int current;
group = &dir->exclude_list_group[EXC_DIRS];
/*
* Pop the exclude lists from the EXCL_DIRS exclude_list_group
* which originate from directories not in the prefix of the
* path being checked.
*/
while ((stk = dir->exclude_stack) != NULL) {
if (stk->baselen <= baselen &&
!strncmp(dir->basebuf.buf, base, stk->baselen))
break;
pl = &group->pl[dir->exclude_stack->exclude_ix];
dir->exclude_stack = stk->prev;
dir->pattern = NULL;
free((char *)pl->src); /* see strbuf_detach() below */
clear_pattern_list(pl);
free(stk);
group->nr--;
}
/* Skip traversing into sub directories if the parent is excluded */
if (dir->pattern)
return;
/*
* Lazy initialization. All call sites currently just
* memset(dir, 0, sizeof(*dir)) before use. Changing all of
* them seems lots of work for little benefit.
*/
if (!dir->basebuf.buf)
strbuf_init(&dir->basebuf, PATH_MAX);
/* Read from the parent directories and push them down. */
current = stk ? stk->baselen : -1;
strbuf_setlen(&dir->basebuf, current < 0 ? 0 : current);
if (dir->untracked)
untracked = stk ? stk->ucd : dir->untracked->root;
else
untracked = NULL;
while (current < baselen) {
const char *cp;
struct oid_stat oid_stat;
CALLOC_ARRAY(stk, 1);
if (current < 0) {
cp = base;
current = 0;
} else {
cp = strchr(base + current + 1, '/');
if (!cp)
die("oops in prep_exclude");
cp++;
untracked =
lookup_untracked(dir->untracked, untracked,
base + current,
cp - base - current);
}
stk->prev = dir->exclude_stack;
stk->baselen = cp - base;
stk->exclude_ix = group->nr;
stk->ucd = untracked;
pl = add_pattern_list(dir, EXC_DIRS, NULL);
strbuf_add(&dir->basebuf, base + current, stk->baselen - current);
assert(stk->baselen == dir->basebuf.len);
/* Abort if the directory is excluded */
if (stk->baselen) {
int dt = DT_DIR;
dir->basebuf.buf[stk->baselen - 1] = 0;
dir->pattern = last_matching_pattern_from_lists(dir,
istate,
dir->basebuf.buf, stk->baselen - 1,
dir->basebuf.buf + current, &dt);
dir->basebuf.buf[stk->baselen - 1] = '/';
if (dir->pattern &&
dir->pattern->flags & PATTERN_FLAG_NEGATIVE)
dir->pattern = NULL;
if (dir->pattern) {
dir->exclude_stack = stk;
return;
}
}
/* Try to read per-directory file */
oidclr(&oid_stat.oid);
oid_stat.valid = 0;
if (dir->exclude_per_dir &&
/*
* If we know that no files have been added in
* this directory (i.e. valid_cached_dir() has
* been executed and set untracked->valid) ..
*/
(!untracked || !untracked->valid ||
/*
* .. and .gitignore does not exist before
* (i.e. null exclude_oid). Then we can skip
* loading .gitignore, which would result in
* ENOENT anyway.
*/
!is_null_oid(&untracked->exclude_oid))) {
/*
* dir->basebuf gets reused by the traversal, but we
* need fname to remain unchanged to ensure the src
* member of each struct path_pattern correctly
* back-references its source file. Other invocations
* of add_pattern_list provide stable strings, so we
* strbuf_detach() and free() here in the caller.
*/
struct strbuf sb = STRBUF_INIT;
strbuf_addbuf(&sb, &dir->basebuf);
strbuf_addstr(&sb, dir->exclude_per_dir);
pl->src = strbuf_detach(&sb, NULL);
add_patterns(pl->src, pl->src, stk->baselen, pl, istate,
PATTERN_NOFOLLOW,
untracked ? &oid_stat : NULL);
}
/*
* NEEDSWORK: when untracked cache is enabled, prep_exclude()
* will first be called in valid_cached_dir() then maybe many
* times more in last_matching_pattern(). When the cache is
* used, last_matching_pattern() will not be called and
* reading .gitignore content will be a waste.
*
* So when it's called by valid_cached_dir() and we can get
* .gitignore SHA-1 from the index (i.e. .gitignore is not
* modified on work tree), we could delay reading the
* .gitignore content until we absolutely need it in
* last_matching_pattern(). Be careful about ignore rule
* order, though, if you do that.
*/
if (untracked &&
!oideq(&oid_stat.oid, &untracked->exclude_oid)) {
invalidate_gitignore(dir->untracked, untracked);
oidcpy(&untracked->exclude_oid, &oid_stat.oid);
}
dir->exclude_stack = stk;
current = stk->baselen;
}
strbuf_setlen(&dir->basebuf, baselen);
}
/*
* Loads the exclude lists for the directory containing pathname, then
* scans all exclude lists to determine whether pathname is excluded.
* Returns the exclude_list element which matched, or NULL for
* undecided.
*/
struct path_pattern *last_matching_pattern(struct dir_struct *dir,
struct index_state *istate,
const char *pathname,
int *dtype_p)
{
int pathlen = strlen(pathname);
const char *basename = strrchr(pathname, '/');
basename = (basename) ? basename+1 : pathname;
prep_exclude(dir, istate, pathname, basename-pathname);
if (dir->pattern)
return dir->pattern;
return last_matching_pattern_from_lists(dir, istate, pathname, pathlen,
basename, dtype_p);
}
/*
* Loads the exclude lists for the directory containing pathname, then
* scans all exclude lists to determine whether pathname is excluded.
* Returns 1 if true, otherwise 0.
*/
int is_excluded(struct dir_struct *dir, struct index_state *istate,
const char *pathname, int *dtype_p)
{
struct path_pattern *pattern =
last_matching_pattern(dir, istate, pathname, dtype_p);
if (pattern)
return pattern->flags & PATTERN_FLAG_NEGATIVE ? 0 : 1;
return 0;
}
static struct dir_entry *dir_entry_new(const char *pathname, int len)
{
struct dir_entry *ent;
FLEX_ALLOC_MEM(ent, name, pathname, len);
ent->len = len;
return ent;
}
static struct dir_entry *dir_add_name(struct dir_struct *dir,
struct index_state *istate,
const char *pathname, int len)
{
if (index_file_exists(istate, pathname, len, ignore_case))
return NULL;
ALLOC_GROW(dir->entries, dir->nr+1, dir->alloc);
return dir->entries[dir->nr++] = dir_entry_new(pathname, len);
}
struct dir_entry *dir_add_ignored(struct dir_struct *dir,
struct index_state *istate,
const char *pathname, int len)
{
if (!index_name_is_other(istate, pathname, len))
return NULL;
ALLOC_GROW(dir->ignored, dir->ignored_nr+1, dir->ignored_alloc);
return dir->ignored[dir->ignored_nr++] = dir_entry_new(pathname, len);
}
enum exist_status {
index_nonexistent = 0,
index_directory,
index_gitdir
};
/*
* Do not use the alphabetically sorted index to look up
* the directory name; instead, use the case insensitive
* directory hash.
*/
static enum exist_status directory_exists_in_index_icase(struct index_state *istate,
const char *dirname, int len)
{
struct cache_entry *ce;
if (index_dir_exists(istate, dirname, len))
return index_directory;
ce = index_file_exists(istate, dirname, len, ignore_case);
if (ce && S_ISGITLINK(ce->ce_mode))
return index_gitdir;
return index_nonexistent;
}
/*
* The index sorts alphabetically by entry name, which
* means that a gitlink sorts as '\0' at the end, while
* a directory (which is defined not as an entry, but as
* the files it contains) will sort with the '/' at the
* end.
*/
static enum exist_status directory_exists_in_index(struct index_state *istate,
const char *dirname, int len)
{
int pos;
if (ignore_case)
return directory_exists_in_index_icase(istate, dirname, len);
pos = index_name_pos(istate, dirname, len);
if (pos < 0)
pos = -pos-1;
while (pos < istate->cache_nr) {
const struct cache_entry *ce = istate->cache[pos++];
unsigned char endchar;
if (strncmp(ce->name, dirname, len))
break;
endchar = ce->name[len];
if (endchar > '/')
break;
if (endchar == '/')
return index_directory;
if (!endchar && S_ISGITLINK(ce->ce_mode))
return index_gitdir;
}
return index_nonexistent;
}
/*
* When we find a directory when traversing the filesystem, we
* have three distinct cases:
*
* - ignore it
* - see it as a directory
* - recurse into it
*
* and which one we choose depends on a combination of existing
* git index contents and the flags passed into the directory
* traversal routine.
*
* Case 1: If we *already* have entries in the index under that
* directory name, we always recurse into the directory to see
* all the files.
*
* Case 2: If we *already* have that directory name as a gitlink,
* we always continue to see it as a gitlink, regardless of whether
* there is an actual git directory there or not (it might not
* be checked out as a subproject!)
*
* Case 3: if we didn't have it in the index previously, we
* have a few sub-cases:
*
* (a) if DIR_SHOW_OTHER_DIRECTORIES flag is set, we show it as
* just a directory, unless DIR_HIDE_EMPTY_DIRECTORIES is
* also true, in which case we need to check if it contains any
* untracked and / or ignored files.
* (b) if it looks like a git directory and we don't have the
* DIR_NO_GITLINKS flag, then we treat it as a gitlink, and
* show it as a directory.
* (c) otherwise, we recurse into it.
*/
static enum path_treatment treat_directory(struct dir_struct *dir,
struct index_state *istate,
struct untracked_cache_dir *untracked,
const char *dirname, int len, int baselen, int excluded,
const struct pathspec *pathspec)
{
/*
* WARNING: From this function, you can return path_recurse or you
* can call read_directory_recursive() (or neither), but
* you CAN'T DO BOTH.
*/
enum path_treatment state;
int matches_how = 0;
int nested_repo = 0, check_only, stop_early;
int old_ignored_nr, old_untracked_nr;
/* The "len-1" is to strip the final '/' */
enum exist_status status = directory_exists_in_index(istate, dirname, len-1);
if (status == index_directory)
return path_recurse;
if (status == index_gitdir)
return path_none;
if (status != index_nonexistent)
BUG("Unhandled value for directory_exists_in_index: %d\n", status);
/*
* We don't want to descend into paths that don't match the necessary
* patterns. Clearly, if we don't have a pathspec, then we can't check
* for matching patterns. Also, if (excluded) then we know we matched
* the exclusion patterns so as an optimization we can skip checking
* for matching patterns.
*/
if (pathspec && !excluded) {
matches_how = match_pathspec_with_flags(istate, pathspec,
dirname, len,
0 /* prefix */,
NULL /* seen */,
DO_MATCH_LEADING_PATHSPEC);
if (!matches_how)
return path_none;
}
if ((dir->flags & DIR_SKIP_NESTED_GIT) ||
!(dir->flags & DIR_NO_GITLINKS)) {
struct strbuf sb = STRBUF_INIT;
strbuf_addstr(&sb, dirname);
nested_repo = is_nonbare_repository_dir(&sb);
strbuf_release(&sb);
}
if (nested_repo) {
if ((dir->flags & DIR_SKIP_NESTED_GIT) ||
(matches_how == MATCHED_RECURSIVELY_LEADING_PATHSPEC))
return path_none;
return excluded ? path_excluded : path_untracked;
}
if (!(dir->flags & DIR_SHOW_OTHER_DIRECTORIES)) {
if (excluded &&
(dir->flags & DIR_SHOW_IGNORED_TOO) &&
(dir->flags & DIR_SHOW_IGNORED_TOO_MODE_MATCHING)) {
/*
* This is an excluded directory and we are
* showing ignored paths that match an exclude
* pattern. (e.g. show directory as ignored
* only if it matches an exclude pattern).
* This path will either be 'path_excluded`
* (if we are showing empty directories or if
* the directory is not empty), or will be
* 'path_none' (empty directory, and we are
* not showing empty directories).
*/
if (!(dir->flags & DIR_HIDE_EMPTY_DIRECTORIES))
return path_excluded;
if (read_directory_recursive(dir, istate, dirname, len,
untracked, 1, 1, pathspec) == path_excluded)
return path_excluded;
return path_none;
}
return path_recurse;
}
assert(dir->flags & DIR_SHOW_OTHER_DIRECTORIES);
/*
* If we have a pathspec which could match something _below_ this
* directory (e.g. when checking 'subdir/' having a pathspec like
* 'subdir/some/deep/path/file' or 'subdir/widget-*.c'), then we
* need to recurse.
*/
if (matches_how == MATCHED_RECURSIVELY_LEADING_PATHSPEC)
return path_recurse;
/* Special cases for where this directory is excluded/ignored */
if (excluded) {
/*
* If DIR_SHOW_OTHER_DIRECTORIES is set and we're not
* hiding empty directories, there is no need to
* recurse into an ignored directory.
*/
if (!(dir->flags & DIR_HIDE_EMPTY_DIRECTORIES))
return path_excluded;
/*
* Even if we are hiding empty directories, we can still avoid
* recursing into ignored directories for DIR_SHOW_IGNORED_TOO
* if DIR_SHOW_IGNORED_TOO_MODE_MATCHING is also set.
*/
if ((dir->flags & DIR_SHOW_IGNORED_TOO) &&
(dir->flags & DIR_SHOW_IGNORED_TOO_MODE_MATCHING))
return path_excluded;
}
/*
* Other than the path_recurse case above, we only need to
* recurse into untracked directories if any of the following
* bits is set:
* - DIR_SHOW_IGNORED (because then we need to determine if
* there are ignored entries below)
* - DIR_SHOW_IGNORED_TOO (same as above)
* - DIR_HIDE_EMPTY_DIRECTORIES (because we have to determine if
* the directory is empty)
*/
if (!excluded &&
!(dir->flags & (DIR_SHOW_IGNORED |
DIR_SHOW_IGNORED_TOO |
DIR_HIDE_EMPTY_DIRECTORIES))) {
return path_untracked;
}
/*
* Even if we don't want to know all the paths under an untracked or
* ignored directory, we may still need to go into the directory to
* determine if it is empty (because with DIR_HIDE_EMPTY_DIRECTORIES,
* an empty directory should be path_none instead of path_excluded or
* path_untracked).
*/
check_only = ((dir->flags & DIR_HIDE_EMPTY_DIRECTORIES) &&
!(dir->flags & DIR_SHOW_IGNORED_TOO));
/*
* However, there's another optimization possible as a subset of
* check_only, based on the cases we have to consider:
* A) Directory matches no exclude patterns:
* * Directory is empty => path_none
* * Directory has an untracked file under it => path_untracked
* * Directory has only ignored files under it => path_excluded
* B) Directory matches an exclude pattern:
* * Directory is empty => path_none
* * Directory has an untracked file under it => path_excluded
* * Directory has only ignored files under it => path_excluded
* In case A, we can exit as soon as we've found an untracked
* file but otherwise have to walk all files. In case B, though,
* we can stop at the first file we find under the directory.
*/
stop_early = check_only && excluded;
/*
* If /every/ file within an untracked directory is ignored, then
* we want to treat the directory as ignored (for e.g. status
* --porcelain), without listing the individual ignored files
* underneath. To do so, we'll save the current ignored_nr, and
* pop all the ones added after it if it turns out the entire
* directory is ignored. Also, when DIR_SHOW_IGNORED_TOO and
* !DIR_KEEP_UNTRACKED_CONTENTS then we don't want to show
* untracked paths so will need to pop all those off the last
* after we traverse.
*/
old_ignored_nr = dir->ignored_nr;
old_untracked_nr = dir->nr;
/* Actually recurse into dirname now, we'll fixup the state later. */
untracked = lookup_untracked(dir->untracked, untracked,
dirname + baselen, len - baselen);
state = read_directory_recursive(dir, istate, dirname, len, untracked,
check_only, stop_early, pathspec);
/* There are a variety of reasons we may need to fixup the state... */
if (state == path_excluded) {
/* state == path_excluded implies all paths under
* dirname were ignored...
*
* if running e.g. `git status --porcelain --ignored=matching`,
* then we want to see the subpaths that are ignored.
*
* if running e.g. just `git status --porcelain`, then
* we just want the directory itself to be listed as ignored
* and not the individual paths underneath.
*/
int want_ignored_subpaths =
((dir->flags & DIR_SHOW_IGNORED_TOO) &&
(dir->flags & DIR_SHOW_IGNORED_TOO_MODE_MATCHING));
if (want_ignored_subpaths) {
/*
* with --ignored=matching, we want the subpaths
* INSTEAD of the directory itself.
*/
state = path_none;
} else {
int i;
for (i = old_ignored_nr + 1; i<dir->ignored_nr; ++i)
FREE_AND_NULL(dir->ignored[i]);
dir->ignored_nr = old_ignored_nr;
}
}
/*
* We may need to ignore some of the untracked paths we found while
* traversing subdirectories.
*/
if ((dir->flags & DIR_SHOW_IGNORED_TOO) &&
!(dir->flags & DIR_KEEP_UNTRACKED_CONTENTS)) {
int i;
for (i = old_untracked_nr + 1; i<dir->nr; ++i)
FREE_AND_NULL(dir->entries[i]);
dir->nr = old_untracked_nr;
}
/*
* If there is nothing under the current directory and we are not
* hiding empty directories, then we need to report on the
* untracked or ignored status of the directory itself.
*/
if (state == path_none && !(dir->flags & DIR_HIDE_EMPTY_DIRECTORIES))
state = excluded ? path_excluded : path_untracked;
return state;
}
/*
* This is an inexact early pruning of any recursive directory
* reading - if the path cannot possibly be in the pathspec,
* return true, and we'll skip it early.
*/
static int simplify_away(const char *path, int pathlen,
const struct pathspec *pathspec)
{
int i;
if (!pathspec || !pathspec->nr)
return 0;
GUARD_PATHSPEC(pathspec,
PATHSPEC_FROMTOP |
PATHSPEC_MAXDEPTH |
PATHSPEC_LITERAL |
PATHSPEC_GLOB |
PATHSPEC_ICASE |
PATHSPEC_EXCLUDE |
PATHSPEC_ATTR);
for (i = 0; i < pathspec->nr; i++) {
const struct pathspec_item *item = &pathspec->items[i];
int len = item->nowildcard_len;
if (len > pathlen)
len = pathlen;
if (!ps_strncmp(item, item->match, path, len))
return 0;
}
return 1;
}
/*
* This function tells us whether an excluded path matches a
* list of "interesting" pathspecs. That is, whether a path matched
* by any of the pathspecs could possibly be ignored by excluding
* the specified path. This can happen if:
*
* 1. the path is mentioned explicitly in the pathspec
*
* 2. the path is a directory prefix of some element in the
* pathspec
*/
static int exclude_matches_pathspec(const char *path, int pathlen,
const struct pathspec *pathspec)
{
int i;
if (!pathspec || !pathspec->nr)
return 0;
GUARD_PATHSPEC(pathspec,
PATHSPEC_FROMTOP |
PATHSPEC_MAXDEPTH |
PATHSPEC_LITERAL |
PATHSPEC_GLOB |
PATHSPEC_ICASE |
PATHSPEC_EXCLUDE);
for (i = 0; i < pathspec->nr; i++) {
const struct pathspec_item *item = &pathspec->items[i];
int len = item->nowildcard_len;
if (len == pathlen &&
!ps_strncmp(item, item->match, path, pathlen))
return 1;
if (len > pathlen &&
item->match[pathlen] == '/' &&
!ps_strncmp(item, item->match, path, pathlen))
return 1;
}
return 0;
}
static int get_index_dtype(struct index_state *istate,
const char *path, int len)
{
int pos;
const struct cache_entry *ce;
ce = index_file_exists(istate, path, len, 0);
if (ce) {
if (!ce_uptodate(ce))
return DT_UNKNOWN;
if (S_ISGITLINK(ce->ce_mode))
return DT_DIR;
/*
* Nobody actually cares about the
* difference between DT_LNK and DT_REG
*/
return DT_REG;
}
/* Try to look it up as a directory */
pos = index_name_pos(istate, path, len);
if (pos >= 0)
return DT_UNKNOWN;
pos = -pos-1;
while (pos < istate->cache_nr) {
ce = istate->cache[pos++];
if (strncmp(ce->name, path, len))
break;
if (ce->name[len] > '/')
break;
if (ce->name[len] < '/')
continue;
if (!ce_uptodate(ce))
break; /* continue? */
return DT_DIR;
}
return DT_UNKNOWN;
}
static int resolve_dtype(int dtype, struct index_state *istate,
const char *path, int len)
{
struct stat st;
if (dtype != DT_UNKNOWN)
return dtype;
dtype = get_index_dtype(istate, path, len);
if (dtype != DT_UNKNOWN)
return dtype;
if (lstat(path, &st))
return dtype;
if (S_ISREG(st.st_mode))
return DT_REG;
if (S_ISDIR(st.st_mode))
return DT_DIR;
if (S_ISLNK(st.st_mode))
return DT_LNK;
return dtype;
}
static enum path_treatment treat_path_fast(struct dir_struct *dir,
struct cached_dir *cdir,
struct index_state *istate,
struct strbuf *path,
int baselen,
const struct pathspec *pathspec)
{
/*
* WARNING: From this function, you can return path_recurse or you
* can call read_directory_recursive() (or neither), but
* you CAN'T DO BOTH.
*/
strbuf_setlen(path, baselen);
if (!cdir->ucd) {
strbuf_addstr(path, cdir->file);
return path_untracked;
}
strbuf_addstr(path, cdir->ucd->name);
/* treat_one_path() does this before it calls treat_directory() */
strbuf_complete(path, '/');
if (cdir->ucd->check_only)
/*
* check_only is set as a result of treat_directory() getting
* to its bottom. Verify again the same set of directories
* with check_only set.
*/
return read_directory_recursive(dir, istate, path->buf, path->len,
cdir->ucd, 1, 0, pathspec);
/*
* We get path_recurse in the first run when
* directory_exists_in_index() returns index_nonexistent. We
* are sure that new changes in the index does not impact the
* outcome. Return now.
*/
return path_recurse;
}
static enum path_treatment treat_path(struct dir_struct *dir,
struct untracked_cache_dir *untracked,
struct cached_dir *cdir,
struct index_state *istate,
struct strbuf *path,
int baselen,
const struct pathspec *pathspec)
{
int has_path_in_index, dtype, excluded;
if (!cdir->d_name)
return treat_path_fast(dir, cdir, istate, path,
baselen, pathspec);
if (is_dot_or_dotdot(cdir->d_name) || !fspathcmp(cdir->d_name, ".git"))
return path_none;
strbuf_setlen(path, baselen);
strbuf_addstr(path, cdir->d_name);
if (simplify_away(path->buf, path->len, pathspec))
return path_none;
dtype = resolve_dtype(cdir->d_type, istate, path->buf, path->len);
/* Always exclude indexed files */
has_path_in_index = !!index_file_exists(istate, path->buf, path->len,
ignore_case);
if (dtype != DT_DIR && has_path_in_index)
return path_none;
/*
* When we are looking at a directory P in the working tree,
* there are three cases:
*
* (1) P exists in the index. Everything inside the directory P in
* the working tree needs to go when P is checked out from the
* index.
*
* (2) P does not exist in the index, but there is P/Q in the index.
* We know P will stay a directory when we check out the contents
* of the index, but we do not know yet if there is a directory
* P/Q in the working tree to be killed, so we need to recurse.
*
* (3) P does not exist in the index, and there is no P/Q in the index
* to require P to be a directory, either. Only in this case, we
* know that everything inside P will not be killed without
* recursing.
*/
if ((dir->flags & DIR_COLLECT_KILLED_ONLY) &&
(dtype == DT_DIR) &&
!has_path_in_index &&
(directory_exists_in_index(istate, path->buf, path->len) == index_nonexistent))
return path_none;
excluded = is_excluded(dir, istate, path->buf, &dtype);
/*
* Excluded? If we don't explicitly want to show
* ignored files, ignore it
*/
if (excluded && !(dir->flags & (DIR_SHOW_IGNORED|DIR_SHOW_IGNORED_TOO)))
return path_excluded;
switch (dtype) {
default:
return path_none;
case DT_DIR:
/*
* WARNING: Do not ignore/amend the return value from
* treat_directory(), and especially do not change it to return
* path_recurse as that can cause exponential slowdown.
* Instead, modify treat_directory() to return the right value.
*/
strbuf_addch(path, '/');
return treat_directory(dir, istate, untracked,
path->buf, path->len,
baselen, excluded, pathspec);
case DT_REG:
case DT_LNK:
if (pathspec &&
!match_pathspec(istate, pathspec, path->buf, path->len,
0 /* prefix */, NULL /* seen */,
0 /* is_dir */))
return path_none;
if (excluded)
return path_excluded;
return path_untracked;
}
}
static void add_untracked(struct untracked_cache_dir *dir, const char *name)
{
if (!dir)
return;
ALLOC_GROW(dir->untracked, dir->untracked_nr + 1,
dir->untracked_alloc);
dir->untracked[dir->untracked_nr++] = xstrdup(name);
}
static int valid_cached_dir(struct dir_struct *dir,
struct untracked_cache_dir *untracked,
struct index_state *istate,
struct strbuf *path,
int check_only)
{
struct stat st;
if (!untracked)
return 0;
/*
* With fsmonitor, we can trust the untracked cache's valid field.
*/
refresh_fsmonitor(istate);
if (!(dir->untracked->use_fsmonitor && untracked->valid)) {
if (lstat(path->len ? path->buf : ".", &st)) {
memset(&untracked->stat_data, 0, sizeof(untracked->stat_data));
return 0;
}
if (!untracked->valid ||
match_stat_data_racy(istate, &untracked->stat_data, &st)) {
fill_stat_data(&untracked->stat_data, &st);
return 0;
}
}
if (untracked->check_only != !!check_only)
return 0;
/*
* prep_exclude will be called eventually on this directory,
* but it's called much later in last_matching_pattern(). We
* need it now to determine the validity of the cache for this
* path. The next calls will be nearly no-op, the way
* prep_exclude() is designed.
*/
if (path->len && path->buf[path->len - 1] != '/') {
strbuf_addch(path, '/');
prep_exclude(dir, istate, path->buf, path->len);
strbuf_setlen(path, path->len - 1);
} else
prep_exclude(dir, istate, path->buf, path->len);
/* hopefully prep_exclude() haven't invalidated this entry... */
return untracked->valid;
}
static int open_cached_dir(struct cached_dir *cdir,
struct dir_struct *dir,
struct untracked_cache_dir *untracked,
struct index_state *istate,
struct strbuf *path,
int check_only)
{
const char *c_path;
memset(cdir, 0, sizeof(*cdir));
cdir->untracked = untracked;
if (valid_cached_dir(dir, untracked, istate, path, check_only))
return 0;
c_path = path->len ? path->buf : ".";
cdir->fdir = opendir(c_path);
if (!cdir->fdir)
warning_errno(_("could not open directory '%s'"), c_path);
if (dir->untracked) {
invalidate_directory(dir->untracked, untracked);
dir->untracked->dir_opened++;
}
if (!cdir->fdir)
return -1;
return 0;
}
static int read_cached_dir(struct cached_dir *cdir)
{
struct dirent *de;
if (cdir->fdir) {
de = readdir_skip_dot_and_dotdot(cdir->fdir);
if (!de) {
cdir->d_name = NULL;
cdir->d_type = DT_UNKNOWN;
return -1;
}
cdir->d_name = de->d_name;
cdir->d_type = DTYPE(de);
return 0;
}
while (cdir->nr_dirs < cdir->untracked->dirs_nr) {
struct untracked_cache_dir *d = cdir->untracked->dirs[cdir->nr_dirs];
if (!d->recurse) {
cdir->nr_dirs++;
continue;
}
cdir->ucd = d;
cdir->nr_dirs++;
return 0;
}
cdir->ucd = NULL;
if (cdir->nr_files < cdir->untracked->untracked_nr) {
struct untracked_cache_dir *d = cdir->untracked;
cdir->file = d->untracked[cdir->nr_files++];
return 0;
}
return -1;
}
static void close_cached_dir(struct cached_dir *cdir)
{
if (cdir->fdir)
closedir(cdir->fdir);
/*
* We have gone through this directory and found no untracked
* entries. Mark it valid.
*/
if (cdir->untracked) {
cdir->untracked->valid = 1;
cdir->untracked->recurse = 1;
}
}
static void add_path_to_appropriate_result_list(struct dir_struct *dir,
struct untracked_cache_dir *untracked,
struct cached_dir *cdir,
struct index_state *istate,
struct strbuf *path,
int baselen,
const struct pathspec *pathspec,
enum path_treatment state)
{
/* add the path to the appropriate result list */
switch (state) {
case path_excluded:
if (dir->flags & DIR_SHOW_IGNORED)
dir_add_name(dir, istate, path->buf, path->len);
else if ((dir->flags & DIR_SHOW_IGNORED_TOO) ||
((dir->flags & DIR_COLLECT_IGNORED) &&
exclude_matches_pathspec(path->buf, path->len,
pathspec)))
dir_add_ignored(dir, istate, path->buf, path->len);
break;
case path_untracked:
if (dir->flags & DIR_SHOW_IGNORED)
break;
dir_add_name(dir, istate, path->buf, path->len);
if (cdir->fdir)
add_untracked(untracked, path->buf + baselen);
break;
default:
break;
}
}
/*
* Read a directory tree. We currently ignore anything but
* directories, regular files and symlinks. That's because git
* doesn't handle them at all yet. Maybe that will change some
* day.
*
* Also, we ignore the name ".git" (even if it is not a directory).
* That likely will not change.
*
* If 'stop_at_first_file' is specified, 'path_excluded' is returned
* to signal that a file was found. This is the least significant value that
* indicates that a file was encountered that does not depend on the order of
* whether an untracked or excluded path was encountered first.
*
* Returns the most significant path_treatment value encountered in the scan.
* If 'stop_at_first_file' is specified, `path_excluded` is the most
* significant path_treatment value that will be returned.
*/
static enum path_treatment read_directory_recursive(struct dir_struct *dir,
struct index_state *istate, const char *base, int baselen,
struct untracked_cache_dir *untracked, int check_only,
int stop_at_first_file, const struct pathspec *pathspec)
{
/*
* WARNING: Do NOT recurse unless path_recurse is returned from
* treat_path(). Recursing on any other return value
* can result in exponential slowdown.
*/
struct cached_dir cdir;
enum path_treatment state, subdir_state, dir_state = path_none;
struct strbuf path = STRBUF_INIT;
strbuf_add(&path, base, baselen);
if (open_cached_dir(&cdir, dir, untracked, istate, &path, check_only))
goto out;
dir->visited_directories++;
if (untracked)
untracked->check_only = !!check_only;
while (!read_cached_dir(&cdir)) {
/* check how the file or directory should be treated */
state = treat_path(dir, untracked, &cdir, istate, &path,
baselen, pathspec);
dir->visited_paths++;
if (state > dir_state)
dir_state = state;
/* recurse into subdir if instructed by treat_path */
if (state == path_recurse) {
struct untracked_cache_dir *ud;
ud = lookup_untracked(dir->untracked, untracked,
path.buf + baselen,
path.len - baselen);
subdir_state =
read_directory_recursive(dir, istate, path.buf,
path.len, ud,
check_only, stop_at_first_file, pathspec);
if (subdir_state > dir_state)
dir_state = subdir_state;
if (pathspec &&
!match_pathspec(istate, pathspec, path.buf, path.len,
0 /* prefix */, NULL,
0 /* do NOT special case dirs */))
state = path_none;
}
if (check_only) {
if (stop_at_first_file) {
/*
* If stopping at first file, then
* signal that a file was found by
* returning `path_excluded`. This is
* to return a consistent value
* regardless of whether an ignored or
* excluded file happened to be
* encountered 1st.
*
* In current usage, the
* `stop_at_first_file` is passed when
* an ancestor directory has matched
* an exclude pattern, so any found
* files will be excluded.
*/
if (dir_state >= path_excluded) {
dir_state = path_excluded;
break;
}
}
/* abort early if maximum state has been reached */
if (dir_state == path_untracked) {
if (cdir.fdir)
add_untracked(untracked, path.buf + baselen);
break;
}
/* skip the add_path_to_appropriate_result_list() */
continue;
}
add_path_to_appropriate_result_list(dir, untracked, &cdir,
istate, &path, baselen,
pathspec, state);
}
close_cached_dir(&cdir);
out:
strbuf_release(&path);
return dir_state;
}
int cmp_dir_entry(const void *p1, const void *p2)
{
const struct dir_entry *e1 = *(const struct dir_entry **)p1;
const struct dir_entry *e2 = *(const struct dir_entry **)p2;
return name_compare(e1->name, e1->len, e2->name, e2->len);
}
/* check if *out lexically strictly contains *in */
int check_dir_entry_contains(const struct dir_entry *out, const struct dir_entry *in)
{
return (out->len < in->len) &&
(out->name[out->len - 1] == '/') &&
!memcmp(out->name, in->name, out->len);
}
static int treat_leading_path(struct dir_struct *dir,
struct index_state *istate,
const char *path, int len,
const struct pathspec *pathspec)
{
struct strbuf sb = STRBUF_INIT;
struct strbuf subdir = STRBUF_INIT;
int prevlen, baselen;
const char *cp;
struct cached_dir cdir;
enum path_treatment state = path_none;
/*
* For each directory component of path, we are going to check whether
* that path is relevant given the pathspec. For example, if path is
* foo/bar/baz/
* then we will ask treat_path() whether we should go into foo, then
* whether we should go into bar, then whether baz is relevant.
* Checking each is important because e.g. if path is
* .git/info/
* then we need to check .git to know we shouldn't traverse it.
* If the return from treat_path() is:
* * path_none, for any path, we return false.
* * path_recurse, for all path components, we return true
* * <anything else> for some intermediate component, we make sure
* to add that path to the relevant list but return false
* signifying that we shouldn't recurse into it.
*/
while (len && path[len - 1] == '/')
len--;
if (!len)
return 1;
memset(&cdir, 0, sizeof(cdir));
cdir.d_type = DT_DIR;
baselen = 0;
prevlen = 0;
while (1) {
prevlen = baselen + !!baselen;
cp = path + prevlen;
cp = memchr(cp, '/', path + len - cp);
if (!cp)
baselen = len;
else
baselen = cp - path;
strbuf_reset(&sb);
strbuf_add(&sb, path, baselen);
if (!is_directory(sb.buf))
break;
strbuf_reset(&sb);
strbuf_add(&sb, path, prevlen);
strbuf_reset(&subdir);
strbuf_add(&subdir, path+prevlen, baselen-prevlen);
cdir.d_name = subdir.buf;
state = treat_path(dir, NULL, &cdir, istate, &sb, prevlen, pathspec);
if (state != path_recurse)
break; /* do not recurse into it */
if (len <= baselen)
break; /* finished checking */
}
add_path_to_appropriate_result_list(dir, NULL, &cdir, istate,
&sb, baselen, pathspec,
state);
strbuf_release(&subdir);
strbuf_release(&sb);
return state == path_recurse;
}
static const char *get_ident_string(void)
{
static struct strbuf sb = STRBUF_INIT;
struct utsname uts;
if (sb.len)
return sb.buf;
if (uname(&uts) < 0)
die_errno(_("failed to get kernel name and information"));
strbuf_addf(&sb, "Location %s, system %s", get_git_work_tree(),
uts.sysname);
return sb.buf;
}
static int ident_in_untracked(const struct untracked_cache *uc)
{
/*
* Previous git versions may have saved many NUL separated
* strings in the "ident" field, but it is insane to manage
* many locations, so just take care of the first one.
*/
return !strcmp(uc->ident.buf, get_ident_string());
}
static void set_untracked_ident(struct untracked_cache *uc)
{
strbuf_reset(&uc->ident);
strbuf_addstr(&uc->ident, get_ident_string());
/*
* This strbuf used to contain a list of NUL separated
* strings, so save NUL too for backward compatibility.
*/
strbuf_addch(&uc->ident, 0);
}
static void new_untracked_cache(struct index_state *istate)
{
struct untracked_cache *uc = xcalloc(1, sizeof(*uc));
strbuf_init(&uc->ident, 100);
uc->exclude_per_dir = ".gitignore";
/* should be the same flags used by git-status */
uc->dir_flags = DIR_SHOW_OTHER_DIRECTORIES | DIR_HIDE_EMPTY_DIRECTORIES;
set_untracked_ident(uc);
istate->untracked = uc;
istate->cache_changed |= UNTRACKED_CHANGED;
}
void add_untracked_cache(struct index_state *istate)
{
if (!istate->untracked) {
new_untracked_cache(istate);
} else {
if (!ident_in_untracked(istate->untracked)) {
free_untracked_cache(istate->untracked);
new_untracked_cache(istate);
}
}
}
void remove_untracked_cache(struct index_state *istate)
{
if (istate->untracked) {
free_untracked_cache(istate->untracked);
istate->untracked = NULL;
istate->cache_changed |= UNTRACKED_CHANGED;
}
}
static struct untracked_cache_dir *validate_untracked_cache(struct dir_struct *dir,
int base_len,
const struct pathspec *pathspec)
{
struct untracked_cache_dir *root;
static int untracked_cache_disabled = -1;
if (!dir->untracked)
return NULL;
if (untracked_cache_disabled < 0)
untracked_cache_disabled = git_env_bool("GIT_DISABLE_UNTRACKED_CACHE", 0);
if (untracked_cache_disabled)
return NULL;
/*
* We only support $GIT_DIR/info/exclude and core.excludesfile
* as the global ignore rule files. Any other additions
* (e.g. from command line) invalidate the cache. This
* condition also catches running setup_standard_excludes()
* before setting dir->untracked!
*/
if (dir->unmanaged_exclude_files)
return NULL;
/*
* Optimize for the main use case only: whole-tree git
* status. More work involved in treat_leading_path() if we
* use cache on just a subset of the worktree. pathspec
* support could make the matter even worse.
*/
if (base_len || (pathspec && pathspec->nr))
return NULL;
/* Different set of flags may produce different results */
if (dir->flags != dir->untracked->dir_flags ||
/*
* See treat_directory(), case index_nonexistent. Without
* this flag, we may need to also cache .git file content
* for the resolve_gitlink_ref() call, which we don't.
*/
!(dir->flags & DIR_SHOW_OTHER_DIRECTORIES) ||
/* We don't support collecting ignore files */
(dir->flags & (DIR_SHOW_IGNORED | DIR_SHOW_IGNORED_TOO |
DIR_COLLECT_IGNORED)))
return NULL;
/*
* If we use .gitignore in the cache and now you change it to
* .gitexclude, everything will go wrong.
*/
if (dir->exclude_per_dir != dir->untracked->exclude_per_dir &&
strcmp(dir->exclude_per_dir, dir->untracked->exclude_per_dir))
return NULL;
/*
* EXC_CMDL is not considered in the cache. If people set it,
* skip the cache.
*/
if (dir->exclude_list_group[EXC_CMDL].nr)
return NULL;
if (!ident_in_untracked(dir->untracked)) {
warning(_("untracked cache is disabled on this system or location"));
return NULL;
}
if (!dir->untracked->root)
FLEX_ALLOC_STR(dir->untracked->root, name, "");
/* Validate $GIT_DIR/info/exclude and core.excludesfile */
root = dir->untracked->root;
if (!oideq(&dir->ss_info_exclude.oid,
&dir->untracked->ss_info_exclude.oid)) {
invalidate_gitignore(dir->untracked, root);
dir->untracked->ss_info_exclude = dir->ss_info_exclude;
}
if (!oideq(&dir->ss_excludes_file.oid,
&dir->untracked->ss_excludes_file.oid)) {
invalidate_gitignore(dir->untracked, root);
dir->untracked->ss_excludes_file = dir->ss_excludes_file;
}
/* Make sure this directory is not dropped out at saving phase */
root->recurse = 1;
return root;
}
static void emit_traversal_statistics(struct dir_struct *dir,
struct repository *repo,
const char *path,
int path_len)
{
if (!trace2_is_enabled())
return;
if (!path_len) {
trace2_data_string("read_directory", repo, "path", "");
} else {
struct strbuf tmp = STRBUF_INIT;
strbuf_add(&tmp, path, path_len);
trace2_data_string("read_directory", repo, "path", tmp.buf);
strbuf_release(&tmp);
}
trace2_data_intmax("read_directory", repo,
"directories-visited", dir->visited_directories);
trace2_data_intmax("read_directory", repo,
"paths-visited", dir->visited_paths);
if (!dir->untracked)
return;
trace2_data_intmax("read_directory", repo,
"node-creation", dir->untracked->dir_created);
trace2_data_intmax("read_directory", repo,
"gitignore-invalidation",
dir->untracked->gitignore_invalidated);
trace2_data_intmax("read_directory", repo,
"directory-invalidation",
dir->untracked->dir_invalidated);
trace2_data_intmax("read_directory", repo,
"opendir", dir->untracked->dir_opened);
}
int read_directory(struct dir_struct *dir, struct index_state *istate,
const char *path, int len, const struct pathspec *pathspec)
{
struct untracked_cache_dir *untracked;
trace2_region_enter("dir", "read_directory", istate->repo);
dir->visited_paths = 0;
dir->visited_directories = 0;
if (has_symlink_leading_path(path, len)) {
trace2_region_leave("dir", "read_directory", istate->repo);
return dir->nr;
}
untracked = validate_untracked_cache(dir, len, pathspec);
if (!untracked)
/*
* make sure untracked cache code path is disabled,
* e.g. prep_exclude()
*/
dir->untracked = NULL;
if (!len || treat_leading_path(dir, istate, path, len, pathspec))
read_directory_recursive(dir, istate, path, len, untracked, 0, 0, pathspec);
QSORT(dir->entries, dir->nr, cmp_dir_entry);
QSORT(dir->ignored, dir->ignored_nr, cmp_dir_entry);
emit_traversal_statistics(dir, istate->repo, path, len);
trace2_region_leave("dir", "read_directory", istate->repo);
if (dir->untracked) {
static int force_untracked_cache = -1;
if (force_untracked_cache < 0)
force_untracked_cache =
git_env_bool("GIT_FORCE_UNTRACKED_CACHE", 0);
if (force_untracked_cache &&
dir->untracked == istate->untracked &&
(dir->untracked->dir_opened ||
dir->untracked->gitignore_invalidated ||
dir->untracked->dir_invalidated))
istate->cache_changed |= UNTRACKED_CHANGED;
if (dir->untracked != istate->untracked) {
FREE_AND_NULL(dir->untracked);
}
}
return dir->nr;
}
int file_exists(const char *f)
{
struct stat sb;
return lstat(f, &sb) == 0;
}
int repo_file_exists(struct repository *repo, const char *path)
{
if (repo != the_repository)
BUG("do not know how to check file existence in arbitrary repo");
return file_exists(path);
}
static int cmp_icase(char a, char b)
{
if (a == b)
return 0;
if (ignore_case)
return toupper(a) - toupper(b);
return a - b;
}
/*
* Given two normalized paths (a trailing slash is ok), if subdir is
* outside dir, return -1. Otherwise return the offset in subdir that
* can be used as relative path to dir.
*/
int dir_inside_of(const char *subdir, const char *dir)
{
int offset = 0;
assert(dir && subdir && *dir && *subdir);
while (*dir && *subdir && !cmp_icase(*dir, *subdir)) {
dir++;
subdir++;
offset++;
}
/* hel[p]/me vs hel[l]/yeah */
if (*dir && *subdir)
return -1;
if (!*subdir)
return !*dir ? offset : -1; /* same dir */
/* foo/[b]ar vs foo/[] */
if (is_dir_sep(dir[-1]))
return is_dir_sep(subdir[-1]) ? offset : -1;
/* foo[/]bar vs foo[] */
return is_dir_sep(*subdir) ? offset + 1 : -1;
}
int is_inside_dir(const char *dir)
{
char *cwd;
int rc;
if (!dir)
return 0;
cwd = xgetcwd();
rc = (dir_inside_of(cwd, dir) >= 0);
free(cwd);
return rc;
}
int is_empty_dir(const char *path)
{
DIR *dir = opendir(path);
struct dirent *e;
int ret = 1;
if (!dir)
return 0;
e = readdir_skip_dot_and_dotdot(dir);
if (e)
ret = 0;
closedir(dir);
return ret;
}
char *git_url_basename(const char *repo, int is_bundle, int is_bare)
{
const char *end = repo + strlen(repo), *start, *ptr;
size_t len;
char *dir;
/*
* Skip scheme.
*/
start = strstr(repo, "://");
if (start == NULL)
start = repo;
else
start += 3;
/*
* Skip authentication data. The stripping does happen
* greedily, such that we strip up to the last '@' inside
* the host part.
*/
for (ptr = start; ptr < end && !is_dir_sep(*ptr); ptr++) {
if (*ptr == '@')
start = ptr + 1;
}
/*
* Strip trailing spaces, slashes and /.git
*/
while (start < end && (is_dir_sep(end[-1]) || isspace(end[-1])))
end--;
if (end - start > 5 && is_dir_sep(end[-5]) &&
!strncmp(end - 4, ".git", 4)) {
end -= 5;
while (start < end && is_dir_sep(end[-1]))
end--;
}
/*
* Strip trailing port number if we've got only a
* hostname (that is, there is no dir separator but a
* colon). This check is required such that we do not
* strip URI's like '/foo/bar:2222.git', which should
* result in a dir '2222' being guessed due to backwards
* compatibility.
*/
if (memchr(start, '/', end - start) == NULL
&& memchr(start, ':', end - start) != NULL) {
ptr = end;
while (start < ptr && isdigit(ptr[-1]) && ptr[-1] != ':')
ptr--;
if (start < ptr && ptr[-1] == ':')
end = ptr - 1;
}
/*
* Find last component. To remain backwards compatible we
* also regard colons as path separators, such that
* cloning a repository 'foo:bar.git' would result in a
* directory 'bar' being guessed.
*/
ptr = end;
while (start < ptr && !is_dir_sep(ptr[-1]) && ptr[-1] != ':')
ptr--;
start = ptr;
/*
* Strip .{bundle,git}.
*/
len = end - start;
strip_suffix_mem(start, &len, is_bundle ? ".bundle" : ".git");
if (!len || (len == 1 && *start == '/'))
die(_("No directory name could be guessed.\n"
"Please specify a directory on the command line"));
if (is_bare)
dir = xstrfmt("%.*s.git", (int)len, start);
else
dir = xstrndup(start, len);
/*
* Replace sequences of 'control' characters and whitespace
* with one ascii space, remove leading and trailing spaces.
*/
if (*dir) {
char *out = dir;
int prev_space = 1 /* strip leading whitespace */;
for (end = dir; *end; ++end) {
char ch = *end;
if ((unsigned char)ch < '\x20')
ch = '\x20';
if (isspace(ch)) {
if (prev_space)
continue;
prev_space = 1;
} else
prev_space = 0;
*out++ = ch;
}
*out = '\0';
if (out > dir && prev_space)
out[-1] = '\0';
}
return dir;
}
void strip_dir_trailing_slashes(char *dir)
{
char *end = dir + strlen(dir);
while (dir < end - 1 && is_dir_sep(end[-1]))
end--;
*end = '\0';
}
static int remove_dir_recurse(struct strbuf *path, int flag, int *kept_up)
{
DIR *dir;
struct dirent *e;
int ret = 0, original_len = path->len, len, kept_down = 0;
int only_empty = (flag & REMOVE_DIR_EMPTY_ONLY);
int keep_toplevel = (flag & REMOVE_DIR_KEEP_TOPLEVEL);
struct object_id submodule_head;
if ((flag & REMOVE_DIR_KEEP_NESTED_GIT) &&
!resolve_gitlink_ref(path->buf, "HEAD", &submodule_head)) {
/* Do not descend and nuke a nested git work tree. */
if (kept_up)
*kept_up = 1;
return 0;
}
flag &= ~REMOVE_DIR_KEEP_TOPLEVEL;
dir = opendir(path->buf);
if (!dir) {
if (errno == ENOENT)
return keep_toplevel ? -1 : 0;
else if (errno == EACCES && !keep_toplevel)
/*
* An empty dir could be removable even if it
* is unreadable:
*/
return rmdir(path->buf);
else
return -1;
}
strbuf_complete(path, '/');
len = path->len;
while ((e = readdir_skip_dot_and_dotdot(dir)) != NULL) {
struct stat st;
strbuf_setlen(path, len);
strbuf_addstr(path, e->d_name);
if (lstat(path->buf, &st)) {
if (errno == ENOENT)
/*
* file disappeared, which is what we
* wanted anyway
*/
continue;
/* fall through */
} else if (S_ISDIR(st.st_mode)) {
if (!remove_dir_recurse(path, flag, &kept_down))
continue; /* happy */
} else if (!only_empty &&
(!unlink(path->buf) || errno == ENOENT)) {
continue; /* happy, too */
}
/* path too long, stat fails, or non-directory still exists */
ret = -1;
break;
}
closedir(dir);
strbuf_setlen(path, original_len);
if (!ret && !keep_toplevel && !kept_down)
ret = (!rmdir(path->buf) || errno == ENOENT) ? 0 : -1;
else if (kept_up)
/*
* report the uplevel that it is not an error that we
* did not rmdir() our directory.
*/
*kept_up = !ret;
return ret;
}
int remove_dir_recursively(struct strbuf *path, int flag)
{
return remove_dir_recurse(path, flag, NULL);
}
static GIT_PATH_FUNC(git_path_info_exclude, "info/exclude")
void setup_standard_excludes(struct dir_struct *dir)
{
dir->exclude_per_dir = ".gitignore";
/* core.excludesfile defaulting to $XDG_CONFIG_HOME/git/ignore */
if (!excludes_file)
excludes_file = xdg_config_home("ignore");
if (excludes_file && !access_or_warn(excludes_file, R_OK, 0))
add_patterns_from_file_1(dir, excludes_file,
dir->untracked ? &dir->ss_excludes_file : NULL);
/* per repository user preference */
if (startup_info->have_repository) {
const char *path = git_path_info_exclude();
if (!access_or_warn(path, R_OK, 0))
add_patterns_from_file_1(dir, path,
dir->untracked ? &dir->ss_info_exclude : NULL);
}
}
char *get_sparse_checkout_filename(void)
{
return git_pathdup("info/sparse-checkout");
}
int get_sparse_checkout_patterns(struct pattern_list *pl)
{
int res;
char *sparse_filename = get_sparse_checkout_filename();
pl->use_cone_patterns = core_sparse_checkout_cone;
res = add_patterns_from_file_to_list(sparse_filename, "", 0, pl, NULL, 0);
free(sparse_filename);
return res;
}
int remove_path(const char *name)
{
char *slash;
if (unlink(name) && !is_missing_file_error(errno))
return -1;
slash = strrchr(name, '/');
if (slash) {
char *dirs = xstrdup(name);
slash = dirs + (slash - name);
do {
*slash = '\0';
} while (rmdir(dirs) == 0 && (slash = strrchr(dirs, '/')));
free(dirs);
}
return 0;
}
/*
* Frees memory within dir which was allocated, and resets fields for further
* use. Does not free dir itself.
*/
void dir_clear(struct dir_struct *dir)
{
int i, j;
struct exclude_list_group *group;
struct pattern_list *pl;
struct exclude_stack *stk;
struct dir_struct new = DIR_INIT;
for (i = EXC_CMDL; i <= EXC_FILE; i++) {
group = &dir->exclude_list_group[i];
for (j = 0; j < group->nr; j++) {
pl = &group->pl[j];
if (i == EXC_DIRS)
free((char *)pl->src);
clear_pattern_list(pl);
}
free(group->pl);
}
for (i = 0; i < dir->ignored_nr; i++)
free(dir->ignored[i]);
for (i = 0; i < dir->nr; i++)
free(dir->entries[i]);
free(dir->ignored);
free(dir->entries);
stk = dir->exclude_stack;
while (stk) {
struct exclude_stack *prev = stk->prev;
free(stk);
stk = prev;
}
strbuf_release(&dir->basebuf);
memcpy(dir, &new, sizeof(*dir));
}
struct ondisk_untracked_cache {
struct stat_data info_exclude_stat;
struct stat_data excludes_file_stat;
uint32_t dir_flags;
};
#define ouc_offset(x) offsetof(struct ondisk_untracked_cache, x)
struct write_data {
int index; /* number of written untracked_cache_dir */
struct ewah_bitmap *check_only; /* from untracked_cache_dir */
struct ewah_bitmap *valid; /* from untracked_cache_dir */
struct ewah_bitmap *sha1_valid; /* set if exclude_sha1 is not null */
struct strbuf out;
struct strbuf sb_stat;
struct strbuf sb_sha1;
};
static void stat_data_to_disk(struct stat_data *to, const struct stat_data *from)
{
to->sd_ctime.sec = htonl(from->sd_ctime.sec);
to->sd_ctime.nsec = htonl(from->sd_ctime.nsec);
to->sd_mtime.sec = htonl(from->sd_mtime.sec);
to->sd_mtime.nsec = htonl(from->sd_mtime.nsec);
to->sd_dev = htonl(from->sd_dev);
to->sd_ino = htonl(from->sd_ino);
to->sd_uid = htonl(from->sd_uid);
to->sd_gid = htonl(from->sd_gid);
to->sd_size = htonl(from->sd_size);
}
static void write_one_dir(struct untracked_cache_dir *untracked,
struct write_data *wd)
{
struct stat_data stat_data;
struct strbuf *out = &wd->out;
unsigned char intbuf[16];
unsigned int intlen, value;
int i = wd->index++;
/*
* untracked_nr should be reset whenever valid is clear, but
* for safety..
*/
if (!untracked->valid) {
untracked->untracked_nr = 0;
untracked->check_only = 0;
}
if (untracked->check_only)
ewah_set(wd->check_only, i);
if (untracked->valid) {
ewah_set(wd->valid, i);
stat_data_to_disk(&stat_data, &untracked->stat_data);
strbuf_add(&wd->sb_stat, &stat_data, sizeof(stat_data));
}
if (!is_null_oid(&untracked->exclude_oid)) {
ewah_set(wd->sha1_valid, i);
strbuf_add(&wd->sb_sha1, untracked->exclude_oid.hash,
the_hash_algo->rawsz);
}
intlen = encode_varint(untracked->untracked_nr, intbuf);
strbuf_add(out, intbuf, intlen);
/* skip non-recurse directories */
for (i = 0, value = 0; i < untracked->dirs_nr; i++)
if (untracked->dirs[i]->recurse)
value++;
intlen = encode_varint(value, intbuf);
strbuf_add(out, intbuf, intlen);
strbuf_add(out, untracked->name, strlen(untracked->name) + 1);
for (i = 0; i < untracked->untracked_nr; i++)
strbuf_add(out, untracked->untracked[i],
strlen(untracked->untracked[i]) + 1);
for (i = 0; i < untracked->dirs_nr; i++)
if (untracked->dirs[i]->recurse)
write_one_dir(untracked->dirs[i], wd);
}
void write_untracked_extension(struct strbuf *out, struct untracked_cache *untracked)
{
struct ondisk_untracked_cache *ouc;
struct write_data wd;
unsigned char varbuf[16];
int varint_len;
const unsigned hashsz = the_hash_algo->rawsz;
CALLOC_ARRAY(ouc, 1);
stat_data_to_disk(&ouc->info_exclude_stat, &untracked->ss_info_exclude.stat);
stat_data_to_disk(&ouc->excludes_file_stat, &untracked->ss_excludes_file.stat);
ouc->dir_flags = htonl(untracked->dir_flags);
varint_len = encode_varint(untracked->ident.len, varbuf);
strbuf_add(out, varbuf, varint_len);
strbuf_addbuf(out, &untracked->ident);
strbuf_add(out, ouc, sizeof(*ouc));
strbuf_add(out, untracked->ss_info_exclude.oid.hash, hashsz);
strbuf_add(out, untracked->ss_excludes_file.oid.hash, hashsz);
strbuf_add(out, untracked->exclude_per_dir, strlen(untracked->exclude_per_dir) + 1);
FREE_AND_NULL(ouc);
if (!untracked->root) {
varint_len = encode_varint(0, varbuf);
strbuf_add(out, varbuf, varint_len);
return;
}
wd.index = 0;
wd.check_only = ewah_new();
wd.valid = ewah_new();
wd.sha1_valid = ewah_new();
strbuf_init(&wd.out, 1024);
strbuf_init(&wd.sb_stat, 1024);
strbuf_init(&wd.sb_sha1, 1024);
write_one_dir(untracked->root, &wd);
varint_len = encode_varint(wd.index, varbuf);
strbuf_add(out, varbuf, varint_len);
strbuf_addbuf(out, &wd.out);
ewah_serialize_strbuf(wd.valid, out);
ewah_serialize_strbuf(wd.check_only, out);
ewah_serialize_strbuf(wd.sha1_valid, out);
strbuf_addbuf(out, &wd.sb_stat);
strbuf_addbuf(out, &wd.sb_sha1);
strbuf_addch(out, '\0'); /* safe guard for string lists */
ewah_free(wd.valid);
ewah_free(wd.check_only);
ewah_free(wd.sha1_valid);
strbuf_release(&wd.out);
strbuf_release(&wd.sb_stat);
strbuf_release(&wd.sb_sha1);
}
static void free_untracked(struct untracked_cache_dir *ucd)
{
int i;
if (!ucd)
return;
for (i = 0; i < ucd->dirs_nr; i++)
free_untracked(ucd->dirs[i]);
for (i = 0; i < ucd->untracked_nr; i++)
free(ucd->untracked[i]);
free(ucd->untracked);
free(ucd->dirs);
free(ucd);
}
void free_untracked_cache(struct untracked_cache *uc)
{
if (uc)
free_untracked(uc->root);
free(uc);
}
struct read_data {
int index;
struct untracked_cache_dir **ucd;
struct ewah_bitmap *check_only;
struct ewah_bitmap *valid;
struct ewah_bitmap *sha1_valid;
const unsigned char *data;
const unsigned char *end;
};
static void stat_data_from_disk(struct stat_data *to, const unsigned char *data)
{
memcpy(to, data, sizeof(*to));
to->sd_ctime.sec = ntohl(to->sd_ctime.sec);
to->sd_ctime.nsec = ntohl(to->sd_ctime.nsec);
to->sd_mtime.sec = ntohl(to->sd_mtime.sec);
to->sd_mtime.nsec = ntohl(to->sd_mtime.nsec);
to->sd_dev = ntohl(to->sd_dev);
to->sd_ino = ntohl(to->sd_ino);
to->sd_uid = ntohl(to->sd_uid);
to->sd_gid = ntohl(to->sd_gid);
to->sd_size = ntohl(to->sd_size);
}
static int read_one_dir(struct untracked_cache_dir **untracked_,
struct read_data *rd)
{
struct untracked_cache_dir ud, *untracked;
const unsigned char *data = rd->data, *end = rd->end;
const unsigned char *eos;
unsigned int value;
int i;
memset(&ud, 0, sizeof(ud));
value = decode_varint(&data);
if (data > end)
return -1;
ud.recurse = 1;
ud.untracked_alloc = value;
ud.untracked_nr = value;
if (ud.untracked_nr)
ALLOC_ARRAY(ud.untracked, ud.untracked_nr);
ud.dirs_alloc = ud.dirs_nr = decode_varint(&data);
if (data > end)
return -1;
ALLOC_ARRAY(ud.dirs, ud.dirs_nr);
eos = memchr(data, '\0', end - data);
if (!eos || eos == end)
return -1;
*untracked_ = untracked = xmalloc(st_add3(sizeof(*untracked), eos - data, 1));
memcpy(untracked, &ud, sizeof(ud));
memcpy(untracked->name, data, eos - data + 1);
data = eos + 1;
for (i = 0; i < untracked->untracked_nr; i++) {
eos = memchr(data, '\0', end - data);
if (!eos || eos == end)
return -1;
untracked->untracked[i] = xmemdupz(data, eos - data);
data = eos + 1;
}
rd->ucd[rd->index++] = untracked;
rd->data = data;
for (i = 0; i < untracked->dirs_nr; i++) {
if (read_one_dir(untracked->dirs + i, rd) < 0)
return -1;
}
return 0;
}
static void set_check_only(size_t pos, void *cb)
{
struct read_data *rd = cb;
struct untracked_cache_dir *ud = rd->ucd[pos];
ud->check_only = 1;
}
static void read_stat(size_t pos, void *cb)
{
struct read_data *rd = cb;
struct untracked_cache_dir *ud = rd->ucd[pos];
if (rd->data + sizeof(struct stat_data) > rd->end) {
rd->data = rd->end + 1;
return;
}
stat_data_from_disk(&ud->stat_data, rd->data);
rd->data += sizeof(struct stat_data);
ud->valid = 1;
}
static void read_oid(size_t pos, void *cb)
{
struct read_data *rd = cb;
struct untracked_cache_dir *ud = rd->ucd[pos];
if (rd->data + the_hash_algo->rawsz > rd->end) {
rd->data = rd->end + 1;
return;
}
oidread(&ud->exclude_oid, rd->data);
rd->data += the_hash_algo->rawsz;
}
static void load_oid_stat(struct oid_stat *oid_stat, const unsigned char *data,
const unsigned char *sha1)
{
stat_data_from_disk(&oid_stat->stat, data);
oidread(&oid_stat->oid, sha1);
oid_stat->valid = 1;
}
struct untracked_cache *read_untracked_extension(const void *data, unsigned long sz)
{
struct untracked_cache *uc;
struct read_data rd;
const unsigned char *next = data, *end = (const unsigned char *)data + sz;
const char *ident;
int ident_len;
ssize_t len;
const char *exclude_per_dir;
const unsigned hashsz = the_hash_algo->rawsz;
const unsigned offset = sizeof(struct ondisk_untracked_cache);
const unsigned exclude_per_dir_offset = offset + 2 * hashsz;
if (sz <= 1 || end[-1] != '\0')
return NULL;
end--;
ident_len = decode_varint(&next);
if (next + ident_len > end)
return NULL;
ident = (const char *)next;
next += ident_len;
if (next + exclude_per_dir_offset + 1 > end)
return NULL;
CALLOC_ARRAY(uc, 1);
strbuf_init(&uc->ident, ident_len);
strbuf_add(&uc->ident, ident, ident_len);
load_oid_stat(&uc->ss_info_exclude,
next + ouc_offset(info_exclude_stat),
next + offset);
load_oid_stat(&uc->ss_excludes_file,
next + ouc_offset(excludes_file_stat),
next + offset + hashsz);
uc->dir_flags = get_be32(next + ouc_offset(dir_flags));
exclude_per_dir = (const char *)next + exclude_per_dir_offset;
uc->exclude_per_dir = xstrdup(exclude_per_dir);
/* NUL after exclude_per_dir is covered by sizeof(*ouc) */
next += exclude_per_dir_offset + strlen(exclude_per_dir) + 1;
if (next >= end)
goto done2;
len = decode_varint(&next);
if (next > end || len == 0)
goto done2;
rd.valid = ewah_new();
rd.check_only = ewah_new();
rd.sha1_valid = ewah_new();
rd.data = next;
rd.end = end;
rd.index = 0;
ALLOC_ARRAY(rd.ucd, len);
if (read_one_dir(&uc->root, &rd) || rd.index != len)
goto done;
next = rd.data;
len = ewah_read_mmap(rd.valid, next, end - next);
if (len < 0)
goto done;
next += len;
len = ewah_read_mmap(rd.check_only, next, end - next);
if (len < 0)
goto done;
next += len;
len = ewah_read_mmap(rd.sha1_valid, next, end - next);
if (len < 0)
goto done;
ewah_each_bit(rd.check_only, set_check_only, &rd);
rd.data = next + len;
ewah_each_bit(rd.valid, read_stat, &rd);
ewah_each_bit(rd.sha1_valid, read_oid, &rd);
next = rd.data;
done:
free(rd.ucd);
ewah_free(rd.valid);
ewah_free(rd.check_only);
ewah_free(rd.sha1_valid);
done2:
if (next != end) {
free_untracked_cache(uc);
uc = NULL;
}
return uc;
}
static void invalidate_one_directory(struct untracked_cache *uc,
struct untracked_cache_dir *ucd)
{
uc->dir_invalidated++;
ucd->valid = 0;
ucd->untracked_nr = 0;
}
/*
* Normally when an entry is added or removed from a directory,
* invalidating that directory is enough. No need to touch its
* ancestors. When a directory is shown as "foo/bar/" in git-status
* however, deleting or adding an entry may have cascading effect.
*
* Say the "foo/bar/file" has become untracked, we need to tell the
* untracked_cache_dir of "foo" that "bar/" is not an untracked
* directory any more (because "bar" is managed by foo as an untracked
* "file").
*
* Similarly, if "foo/bar/file" moves from untracked to tracked and it
* was the last untracked entry in the entire "foo", we should show
* "foo/" instead. Which means we have to invalidate past "bar" up to
* "foo".
*
* This function traverses all directories from root to leaf. If there
* is a chance of one of the above cases happening, we invalidate back
* to root. Otherwise we just invalidate the leaf. There may be a more
* sophisticated way than checking for SHOW_OTHER_DIRECTORIES to
* detect these cases and avoid unnecessary invalidation, for example,
* checking for the untracked entry named "bar/" in "foo", but for now
* stick to something safe and simple.
*/
static int invalidate_one_component(struct untracked_cache *uc,
struct untracked_cache_dir *dir,
const char *path, int len)
{
const char *rest = strchr(path, '/');
if (rest) {
int component_len = rest - path;
struct untracked_cache_dir *d =
lookup_untracked(uc, dir, path, component_len);
int ret =
invalidate_one_component(uc, d, rest + 1,
len - (component_len + 1));
if (ret)
invalidate_one_directory(uc, dir);
return ret;
}
invalidate_one_directory(uc, dir);
return uc->dir_flags & DIR_SHOW_OTHER_DIRECTORIES;
}
void untracked_cache_invalidate_path(struct index_state *istate,
const char *path, int safe_path)
{
if (!istate->untracked || !istate->untracked->root)
return;
if (!safe_path && !verify_path(path, 0))
return;
invalidate_one_component(istate->untracked, istate->untracked->root,
path, strlen(path));
}
void untracked_cache_remove_from_index(struct index_state *istate,
const char *path)
{
untracked_cache_invalidate_path(istate, path, 1);
}
void untracked_cache_add_to_index(struct index_state *istate,
const char *path)
{
untracked_cache_invalidate_path(istate, path, 1);
}
static void connect_wt_gitdir_in_nested(const char *sub_worktree,
const char *sub_gitdir)
{
int i;
struct repository subrepo;
struct strbuf sub_wt = STRBUF_INIT;
struct strbuf sub_gd = STRBUF_INIT;
const struct submodule *sub;
/* If the submodule has no working tree, we can ignore it. */
if (repo_init(&subrepo, sub_gitdir, sub_worktree))
return;
if (repo_read_index(&subrepo) < 0)
die(_("index file corrupt in repo %s"), subrepo.gitdir);
/* TODO: audit for interaction with sparse-index. */
ensure_full_index(subrepo.index);
for (i = 0; i < subrepo.index->cache_nr; i++) {
const struct cache_entry *ce = subrepo.index->cache[i];
if (!S_ISGITLINK(ce->ce_mode))
continue;
while (i + 1 < subrepo.index->cache_nr &&
!strcmp(ce->name, subrepo.index->cache[i + 1]->name))
/*
* Skip entries with the same name in different stages
* to make sure an entry is returned only once.
*/
i++;
sub = submodule_from_path(&subrepo, null_oid(), ce->name);
if (!sub || !is_submodule_active(&subrepo, ce->name))
/* .gitmodules broken or inactive sub */
continue;
strbuf_reset(&sub_wt);
strbuf_reset(&sub_gd);
strbuf_addf(&sub_wt, "%s/%s", sub_worktree, sub->path);
strbuf_addf(&sub_gd, "%s/modules/%s", sub_gitdir, sub->name);
connect_work_tree_and_git_dir(sub_wt.buf, sub_gd.buf, 1);
}
strbuf_release(&sub_wt);
strbuf_release(&sub_gd);
repo_clear(&subrepo);
}
void connect_work_tree_and_git_dir(const char *work_tree_,
const char *git_dir_,
int recurse_into_nested)
{
struct strbuf gitfile_sb = STRBUF_INIT;
struct strbuf cfg_sb = STRBUF_INIT;
struct strbuf rel_path = STRBUF_INIT;
char *git_dir, *work_tree;
/* Prepare .git file */
strbuf_addf(&gitfile_sb, "%s/.git", work_tree_);
if (safe_create_leading_directories_const(gitfile_sb.buf))
die(_("could not create directories for %s"), gitfile_sb.buf);
/* Prepare config file */
strbuf_addf(&cfg_sb, "%s/config", git_dir_);
if (safe_create_leading_directories_const(cfg_sb.buf))
die(_("could not create directories for %s"), cfg_sb.buf);
git_dir = real_pathdup(git_dir_, 1);
work_tree = real_pathdup(work_tree_, 1);
/* Write .git file */
write_file(gitfile_sb.buf, "gitdir: %s",
relative_path(git_dir, work_tree, &rel_path));
/* Update core.worktree setting */
git_config_set_in_file(cfg_sb.buf, "core.worktree",
relative_path(work_tree, git_dir, &rel_path));
strbuf_release(&gitfile_sb);
strbuf_release(&cfg_sb);
strbuf_release(&rel_path);
if (recurse_into_nested)
connect_wt_gitdir_in_nested(work_tree, git_dir);
free(work_tree);
free(git_dir);
}
/*
* Migrate the git directory of the given path from old_git_dir to new_git_dir.
*/
void relocate_gitdir(const char *path, const char *old_git_dir, const char *new_git_dir)
{
if (rename(old_git_dir, new_git_dir) < 0)
die_errno(_("could not migrate git directory from '%s' to '%s'"),
old_git_dir, new_git_dir);
connect_work_tree_and_git_dir(path, new_git_dir, 0);
}
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