git/attr.c
Jeff King 69c5f17f11 attr: drop DEBUG_ATTR code
Since its inception in d0bfd026a8 (Add basic infrastructure to assign
attributes to paths, 2007-04-12), the attribute code carries a little
bit of debug code that is conditionally compiled only when DEBUG_ATTR is
set. But since you have to know about it and make a special build of Git
to use it, it's not clear that it's helping anyone (and there are very
few mentions of it on the list over the years).

Meanwhile, it causes slight headaches. Since it's not built as part of a
regular compile, it's subject to bitrot. E.g., this was dealt with in
712efb1a42 (attr: make it build with DEBUG_ATTR again, 2013-01-15), and
it currently fails to build with DEVELOPER=1 since e810e06357 (attr:
tighten const correctness with git_attr and match_attr, 2017-01-27).

And it causes confusion with -Wunused-parameter; the "what" parameter of
fill_one() is unused in a normal build, but needed in a debug build.

Let's just get rid of this code (and the now-useless parameter).

Signed-off-by: Jeff King <peff@peff.net>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
2022-10-06 09:59:17 -07:00

1146 lines
28 KiB
C

/*
* Handle git attributes. See gitattributes(5) for a description of
* the file syntax, and attr.h for a description of the API.
*
* One basic design decision here is that we are not going to support
* an insanely large number of attributes.
*/
#include "cache.h"
#include "config.h"
#include "exec-cmd.h"
#include "attr.h"
#include "dir.h"
#include "utf8.h"
#include "quote.h"
#include "thread-utils.h"
const char git_attr__true[] = "(builtin)true";
const char git_attr__false[] = "\0(builtin)false";
static const char git_attr__unknown[] = "(builtin)unknown";
#define ATTR__TRUE git_attr__true
#define ATTR__FALSE git_attr__false
#define ATTR__UNSET NULL
#define ATTR__UNKNOWN git_attr__unknown
struct git_attr {
int attr_nr; /* unique attribute number */
char name[FLEX_ARRAY]; /* attribute name */
};
const char *git_attr_name(const struct git_attr *attr)
{
return attr->name;
}
struct attr_hashmap {
struct hashmap map;
pthread_mutex_t mutex;
};
static inline void hashmap_lock(struct attr_hashmap *map)
{
pthread_mutex_lock(&map->mutex);
}
static inline void hashmap_unlock(struct attr_hashmap *map)
{
pthread_mutex_unlock(&map->mutex);
}
/* The container for objects stored in "struct attr_hashmap" */
struct attr_hash_entry {
struct hashmap_entry ent;
const char *key; /* the key; memory should be owned by value */
size_t keylen; /* length of the key */
void *value; /* the stored value */
};
/* attr_hashmap comparison function */
static int attr_hash_entry_cmp(const void *cmp_data UNUSED,
const struct hashmap_entry *eptr,
const struct hashmap_entry *entry_or_key,
const void *keydata UNUSED)
{
const struct attr_hash_entry *a, *b;
a = container_of(eptr, const struct attr_hash_entry, ent);
b = container_of(entry_or_key, const struct attr_hash_entry, ent);
return (a->keylen != b->keylen) || strncmp(a->key, b->key, a->keylen);
}
/*
* The global dictionary of all interned attributes. This
* is a singleton object which is shared between threads.
* Access to this dictionary must be surrounded with a mutex.
*/
static struct attr_hashmap g_attr_hashmap = {
.map = HASHMAP_INIT(attr_hash_entry_cmp, NULL),
};
/*
* Retrieve the 'value' stored in a hashmap given the provided 'key'.
* If there is no matching entry, return NULL.
*/
static void *attr_hashmap_get(struct attr_hashmap *map,
const char *key, size_t keylen)
{
struct attr_hash_entry k;
struct attr_hash_entry *e;
hashmap_entry_init(&k.ent, memhash(key, keylen));
k.key = key;
k.keylen = keylen;
e = hashmap_get_entry(&map->map, &k, ent, NULL);
return e ? e->value : NULL;
}
/* Add 'value' to a hashmap based on the provided 'key'. */
static void attr_hashmap_add(struct attr_hashmap *map,
const char *key, size_t keylen,
void *value)
{
struct attr_hash_entry *e;
e = xmalloc(sizeof(struct attr_hash_entry));
hashmap_entry_init(&e->ent, memhash(key, keylen));
e->key = key;
e->keylen = keylen;
e->value = value;
hashmap_add(&map->map, &e->ent);
}
struct all_attrs_item {
const struct git_attr *attr;
const char *value;
/*
* If 'macro' is non-NULL, indicates that 'attr' is a macro based on
* the current attribute stack and contains a pointer to the match_attr
* definition of the macro
*/
const struct match_attr *macro;
};
/*
* Reallocate and reinitialize the array of all attributes (which is used in
* the attribute collection process) in 'check' based on the global dictionary
* of attributes.
*/
static void all_attrs_init(struct attr_hashmap *map, struct attr_check *check)
{
int i;
unsigned int size;
hashmap_lock(map);
size = hashmap_get_size(&map->map);
if (size < check->all_attrs_nr)
BUG("interned attributes shouldn't be deleted");
/*
* If the number of attributes in the global dictionary has increased
* (or this attr_check instance doesn't have an initialized all_attrs
* field), reallocate the provided attr_check instance's all_attrs
* field and fill each entry with its corresponding git_attr.
*/
if (size != check->all_attrs_nr) {
struct attr_hash_entry *e;
struct hashmap_iter iter;
REALLOC_ARRAY(check->all_attrs, size);
check->all_attrs_nr = size;
hashmap_for_each_entry(&map->map, &iter, e,
ent /* member name */) {
const struct git_attr *a = e->value;
check->all_attrs[a->attr_nr].attr = a;
}
}
hashmap_unlock(map);
/*
* Re-initialize every entry in check->all_attrs.
* This re-initialization can live outside of the locked region since
* the attribute dictionary is no longer being accessed.
*/
for (i = 0; i < check->all_attrs_nr; i++) {
check->all_attrs[i].value = ATTR__UNKNOWN;
check->all_attrs[i].macro = NULL;
}
}
static int attr_name_valid(const char *name, size_t namelen)
{
/*
* Attribute name cannot begin with '-' and must consist of
* characters from [-A-Za-z0-9_.].
*/
if (namelen <= 0 || *name == '-')
return 0;
while (namelen--) {
char ch = *name++;
if (! (ch == '-' || ch == '.' || ch == '_' ||
('0' <= ch && ch <= '9') ||
('a' <= ch && ch <= 'z') ||
('A' <= ch && ch <= 'Z')) )
return 0;
}
return 1;
}
static void report_invalid_attr(const char *name, size_t len,
const char *src, int lineno)
{
struct strbuf err = STRBUF_INIT;
strbuf_addf(&err, _("%.*s is not a valid attribute name"),
(int) len, name);
fprintf(stderr, "%s: %s:%d\n", err.buf, src, lineno);
strbuf_release(&err);
}
/*
* Given a 'name', lookup and return the corresponding attribute in the global
* dictionary. If no entry is found, create a new attribute and store it in
* the dictionary.
*/
static const struct git_attr *git_attr_internal(const char *name, int namelen)
{
struct git_attr *a;
if (!attr_name_valid(name, namelen))
return NULL;
hashmap_lock(&g_attr_hashmap);
a = attr_hashmap_get(&g_attr_hashmap, name, namelen);
if (!a) {
FLEX_ALLOC_MEM(a, name, name, namelen);
a->attr_nr = hashmap_get_size(&g_attr_hashmap.map);
attr_hashmap_add(&g_attr_hashmap, a->name, namelen, a);
assert(a->attr_nr ==
(hashmap_get_size(&g_attr_hashmap.map) - 1));
}
hashmap_unlock(&g_attr_hashmap);
return a;
}
const struct git_attr *git_attr(const char *name)
{
return git_attr_internal(name, strlen(name));
}
/* What does a matched pattern decide? */
struct attr_state {
const struct git_attr *attr;
const char *setto;
};
struct pattern {
const char *pattern;
int patternlen;
int nowildcardlen;
unsigned flags; /* PATTERN_FLAG_* */
};
/*
* One rule, as from a .gitattributes file.
*
* If is_macro is true, then u.attr is a pointer to the git_attr being
* defined.
*
* If is_macro is false, then u.pat is the filename pattern to which the
* rule applies.
*
* In either case, num_attr is the number of attributes affected by
* this rule, and state is an array listing them. The attributes are
* listed as they appear in the file (macros unexpanded).
*/
struct match_attr {
union {
struct pattern pat;
const struct git_attr *attr;
} u;
char is_macro;
unsigned num_attr;
struct attr_state state[FLEX_ARRAY];
};
static const char blank[] = " \t\r\n";
/* Flags usable in read_attr() and parse_attr_line() family of functions. */
#define READ_ATTR_MACRO_OK (1<<0)
#define READ_ATTR_NOFOLLOW (1<<1)
/*
* Parse a whitespace-delimited attribute state (i.e., "attr",
* "-attr", "!attr", or "attr=value") from the string starting at src.
* If e is not NULL, write the results to *e. Return a pointer to the
* remainder of the string (with leading whitespace removed), or NULL
* if there was an error.
*/
static const char *parse_attr(const char *src, int lineno, const char *cp,
struct attr_state *e)
{
const char *ep, *equals;
int len;
ep = cp + strcspn(cp, blank);
equals = strchr(cp, '=');
if (equals && ep < equals)
equals = NULL;
if (equals)
len = equals - cp;
else
len = ep - cp;
if (!e) {
if (*cp == '-' || *cp == '!') {
cp++;
len--;
}
if (!attr_name_valid(cp, len)) {
report_invalid_attr(cp, len, src, lineno);
return NULL;
}
} else {
/*
* As this function is always called twice, once with
* e == NULL in the first pass and then e != NULL in
* the second pass, no need for attr_name_valid()
* check here.
*/
if (*cp == '-' || *cp == '!') {
e->setto = (*cp == '-') ? ATTR__FALSE : ATTR__UNSET;
cp++;
len--;
}
else if (!equals)
e->setto = ATTR__TRUE;
else {
e->setto = xmemdupz(equals + 1, ep - equals - 1);
}
e->attr = git_attr_internal(cp, len);
}
return ep + strspn(ep, blank);
}
static struct match_attr *parse_attr_line(const char *line, const char *src,
int lineno, unsigned flags)
{
int namelen;
int num_attr, i;
const char *cp, *name, *states;
struct match_attr *res = NULL;
int is_macro;
struct strbuf pattern = STRBUF_INIT;
cp = line + strspn(line, blank);
if (!*cp || *cp == '#')
return NULL;
name = cp;
if (*cp == '"' && !unquote_c_style(&pattern, name, &states)) {
name = pattern.buf;
namelen = pattern.len;
} else {
namelen = strcspn(name, blank);
states = name + namelen;
}
if (strlen(ATTRIBUTE_MACRO_PREFIX) < namelen &&
starts_with(name, ATTRIBUTE_MACRO_PREFIX)) {
if (!(flags & READ_ATTR_MACRO_OK)) {
fprintf_ln(stderr, _("%s not allowed: %s:%d"),
name, src, lineno);
goto fail_return;
}
is_macro = 1;
name += strlen(ATTRIBUTE_MACRO_PREFIX);
name += strspn(name, blank);
namelen = strcspn(name, blank);
if (!attr_name_valid(name, namelen)) {
report_invalid_attr(name, namelen, src, lineno);
goto fail_return;
}
}
else
is_macro = 0;
states += strspn(states, blank);
/* First pass to count the attr_states */
for (cp = states, num_attr = 0; *cp; num_attr++) {
cp = parse_attr(src, lineno, cp, NULL);
if (!cp)
goto fail_return;
}
res = xcalloc(1,
sizeof(*res) +
sizeof(struct attr_state) * num_attr +
(is_macro ? 0 : namelen + 1));
if (is_macro) {
res->u.attr = git_attr_internal(name, namelen);
} else {
char *p = (char *)&(res->state[num_attr]);
memcpy(p, name, namelen);
res->u.pat.pattern = p;
parse_path_pattern(&res->u.pat.pattern,
&res->u.pat.patternlen,
&res->u.pat.flags,
&res->u.pat.nowildcardlen);
if (res->u.pat.flags & PATTERN_FLAG_NEGATIVE) {
warning(_("Negative patterns are ignored in git attributes\n"
"Use '\\!' for literal leading exclamation."));
goto fail_return;
}
}
res->is_macro = is_macro;
res->num_attr = num_attr;
/* Second pass to fill the attr_states */
for (cp = states, i = 0; *cp; i++) {
cp = parse_attr(src, lineno, cp, &(res->state[i]));
}
strbuf_release(&pattern);
return res;
fail_return:
strbuf_release(&pattern);
free(res);
return NULL;
}
/*
* Like info/exclude and .gitignore, the attribute information can
* come from many places.
*
* (1) .gitattributes file of the same directory;
* (2) .gitattributes file of the parent directory if (1) does not have
* any match; this goes recursively upwards, just like .gitignore.
* (3) $GIT_DIR/info/attributes, which overrides both of the above.
*
* In the same file, later entries override the earlier match, so in the
* global list, we would have entries from info/attributes the earliest
* (reading the file from top to bottom), .gitattributes of the root
* directory (again, reading the file from top to bottom) down to the
* current directory, and then scan the list backwards to find the first match.
* This is exactly the same as what is_excluded() does in dir.c to deal with
* .gitignore file and info/excludes file as a fallback.
*/
struct attr_stack {
struct attr_stack *prev;
char *origin;
size_t originlen;
unsigned num_matches;
unsigned alloc;
struct match_attr **attrs;
};
static void attr_stack_free(struct attr_stack *e)
{
int i;
free(e->origin);
for (i = 0; i < e->num_matches; i++) {
struct match_attr *a = e->attrs[i];
int j;
for (j = 0; j < a->num_attr; j++) {
const char *setto = a->state[j].setto;
if (setto == ATTR__TRUE ||
setto == ATTR__FALSE ||
setto == ATTR__UNSET ||
setto == ATTR__UNKNOWN)
;
else
free((char *) setto);
}
free(a);
}
free(e->attrs);
free(e);
}
static void drop_attr_stack(struct attr_stack **stack)
{
while (*stack) {
struct attr_stack *elem = *stack;
*stack = elem->prev;
attr_stack_free(elem);
}
}
/* List of all attr_check structs; access should be surrounded by mutex */
static struct check_vector {
size_t nr;
size_t alloc;
struct attr_check **checks;
pthread_mutex_t mutex;
} check_vector;
static inline void vector_lock(void)
{
pthread_mutex_lock(&check_vector.mutex);
}
static inline void vector_unlock(void)
{
pthread_mutex_unlock(&check_vector.mutex);
}
static void check_vector_add(struct attr_check *c)
{
vector_lock();
ALLOC_GROW(check_vector.checks,
check_vector.nr + 1,
check_vector.alloc);
check_vector.checks[check_vector.nr++] = c;
vector_unlock();
}
static void check_vector_remove(struct attr_check *check)
{
int i;
vector_lock();
/* Find entry */
for (i = 0; i < check_vector.nr; i++)
if (check_vector.checks[i] == check)
break;
if (i >= check_vector.nr)
BUG("no entry found");
/* shift entries over */
for (; i < check_vector.nr - 1; i++)
check_vector.checks[i] = check_vector.checks[i + 1];
check_vector.nr--;
vector_unlock();
}
/* Iterate through all attr_check instances and drop their stacks */
static void drop_all_attr_stacks(void)
{
int i;
vector_lock();
for (i = 0; i < check_vector.nr; i++) {
drop_attr_stack(&check_vector.checks[i]->stack);
}
vector_unlock();
}
struct attr_check *attr_check_alloc(void)
{
struct attr_check *c = xcalloc(1, sizeof(struct attr_check));
/* save pointer to the check struct */
check_vector_add(c);
return c;
}
struct attr_check *attr_check_initl(const char *one, ...)
{
struct attr_check *check;
int cnt;
va_list params;
const char *param;
va_start(params, one);
for (cnt = 1; (param = va_arg(params, const char *)) != NULL; cnt++)
;
va_end(params);
check = attr_check_alloc();
check->nr = cnt;
check->alloc = cnt;
CALLOC_ARRAY(check->items, cnt);
check->items[0].attr = git_attr(one);
va_start(params, one);
for (cnt = 1; cnt < check->nr; cnt++) {
const struct git_attr *attr;
param = va_arg(params, const char *);
if (!param)
BUG("counted %d != ended at %d",
check->nr, cnt);
attr = git_attr(param);
if (!attr)
BUG("%s: not a valid attribute name", param);
check->items[cnt].attr = attr;
}
va_end(params);
return check;
}
struct attr_check *attr_check_dup(const struct attr_check *check)
{
struct attr_check *ret;
if (!check)
return NULL;
ret = attr_check_alloc();
ret->nr = check->nr;
ret->alloc = check->alloc;
ALLOC_ARRAY(ret->items, ret->nr);
COPY_ARRAY(ret->items, check->items, ret->nr);
return ret;
}
struct attr_check_item *attr_check_append(struct attr_check *check,
const struct git_attr *attr)
{
struct attr_check_item *item;
ALLOC_GROW(check->items, check->nr + 1, check->alloc);
item = &check->items[check->nr++];
item->attr = attr;
return item;
}
void attr_check_reset(struct attr_check *check)
{
check->nr = 0;
}
void attr_check_clear(struct attr_check *check)
{
FREE_AND_NULL(check->items);
check->alloc = 0;
check->nr = 0;
FREE_AND_NULL(check->all_attrs);
check->all_attrs_nr = 0;
drop_attr_stack(&check->stack);
}
void attr_check_free(struct attr_check *check)
{
if (check) {
/* Remove check from the check vector */
check_vector_remove(check);
attr_check_clear(check);
free(check);
}
}
static const char *builtin_attr[] = {
"[attr]binary -diff -merge -text",
NULL,
};
static void handle_attr_line(struct attr_stack *res,
const char *line,
const char *src,
int lineno,
unsigned flags)
{
struct match_attr *a;
a = parse_attr_line(line, src, lineno, flags);
if (!a)
return;
ALLOC_GROW(res->attrs, res->num_matches + 1, res->alloc);
res->attrs[res->num_matches++] = a;
}
static struct attr_stack *read_attr_from_array(const char **list)
{
struct attr_stack *res;
const char *line;
int lineno = 0;
CALLOC_ARRAY(res, 1);
while ((line = *(list++)) != NULL)
handle_attr_line(res, line, "[builtin]", ++lineno,
READ_ATTR_MACRO_OK);
return res;
}
/*
* Callers into the attribute system assume there is a single, system-wide
* global state where attributes are read from and when the state is flipped by
* calling git_attr_set_direction(), the stack frames that have been
* constructed need to be discarded so that subsequent calls into the
* attribute system will lazily read from the right place. Since changing
* direction causes a global paradigm shift, it should not ever be called while
* another thread could potentially be calling into the attribute system.
*/
static enum git_attr_direction direction;
void git_attr_set_direction(enum git_attr_direction new_direction)
{
if (is_bare_repository() && new_direction != GIT_ATTR_INDEX)
BUG("non-INDEX attr direction in a bare repo");
if (new_direction != direction)
drop_all_attr_stacks();
direction = new_direction;
}
static struct attr_stack *read_attr_from_file(const char *path, unsigned flags)
{
int fd;
FILE *fp;
struct attr_stack *res;
char buf[2048];
int lineno = 0;
if (flags & READ_ATTR_NOFOLLOW)
fd = open_nofollow(path, O_RDONLY);
else
fd = open(path, O_RDONLY);
if (fd < 0) {
warn_on_fopen_errors(path);
return NULL;
}
fp = xfdopen(fd, "r");
CALLOC_ARRAY(res, 1);
while (fgets(buf, sizeof(buf), fp)) {
char *bufp = buf;
if (!lineno)
skip_utf8_bom(&bufp, strlen(bufp));
handle_attr_line(res, bufp, path, ++lineno, flags);
}
fclose(fp);
return res;
}
static struct attr_stack *read_attr_from_index(struct index_state *istate,
const char *path,
unsigned flags)
{
struct attr_stack *res;
char *buf, *sp;
int lineno = 0;
if (!istate)
return NULL;
/*
* The .gitattributes file only applies to files within its
* parent directory. In the case of cone-mode sparse-checkout,
* the .gitattributes file is sparse if and only if all paths
* within that directory are also sparse. Thus, don't load the
* .gitattributes file since it will not matter.
*
* In the case of a sparse index, it is critical that we don't go
* looking for a .gitattributes file, as doing so would cause the
* index to expand.
*/
if (!path_in_cone_mode_sparse_checkout(path, istate))
return NULL;
buf = read_blob_data_from_index(istate, path, NULL);
if (!buf)
return NULL;
CALLOC_ARRAY(res, 1);
for (sp = buf; *sp; ) {
char *ep;
int more;
ep = strchrnul(sp, '\n');
more = (*ep == '\n');
*ep = '\0';
handle_attr_line(res, sp, path, ++lineno, flags);
sp = ep + more;
}
free(buf);
return res;
}
static struct attr_stack *read_attr(struct index_state *istate,
const char *path, unsigned flags)
{
struct attr_stack *res = NULL;
if (direction == GIT_ATTR_INDEX) {
res = read_attr_from_index(istate, path, flags);
} else if (!is_bare_repository()) {
if (direction == GIT_ATTR_CHECKOUT) {
res = read_attr_from_index(istate, path, flags);
if (!res)
res = read_attr_from_file(path, flags);
} else if (direction == GIT_ATTR_CHECKIN) {
res = read_attr_from_file(path, flags);
if (!res)
/*
* There is no checked out .gitattributes file
* there, but we might have it in the index.
* We allow operation in a sparsely checked out
* work tree, so read from it.
*/
res = read_attr_from_index(istate, path, flags);
}
}
if (!res)
CALLOC_ARRAY(res, 1);
return res;
}
static const char *git_etc_gitattributes(void)
{
static const char *system_wide;
if (!system_wide)
system_wide = system_path(ETC_GITATTRIBUTES);
return system_wide;
}
static const char *get_home_gitattributes(void)
{
if (!git_attributes_file)
git_attributes_file = xdg_config_home("attributes");
return git_attributes_file;
}
static int git_attr_system(void)
{
return !git_env_bool("GIT_ATTR_NOSYSTEM", 0);
}
static GIT_PATH_FUNC(git_path_info_attributes, INFOATTRIBUTES_FILE)
static void push_stack(struct attr_stack **attr_stack_p,
struct attr_stack *elem, char *origin, size_t originlen)
{
if (elem) {
elem->origin = origin;
if (origin)
elem->originlen = originlen;
elem->prev = *attr_stack_p;
*attr_stack_p = elem;
}
}
static void bootstrap_attr_stack(struct index_state *istate,
struct attr_stack **stack)
{
struct attr_stack *e;
unsigned flags = READ_ATTR_MACRO_OK;
if (*stack)
return;
/* builtin frame */
e = read_attr_from_array(builtin_attr);
push_stack(stack, e, NULL, 0);
/* system-wide frame */
if (git_attr_system()) {
e = read_attr_from_file(git_etc_gitattributes(), flags);
push_stack(stack, e, NULL, 0);
}
/* home directory */
if (get_home_gitattributes()) {
e = read_attr_from_file(get_home_gitattributes(), flags);
push_stack(stack, e, NULL, 0);
}
/* root directory */
e = read_attr(istate, GITATTRIBUTES_FILE, flags | READ_ATTR_NOFOLLOW);
push_stack(stack, e, xstrdup(""), 0);
/* info frame */
if (startup_info->have_repository)
e = read_attr_from_file(git_path_info_attributes(), flags);
else
e = NULL;
if (!e)
CALLOC_ARRAY(e, 1);
push_stack(stack, e, NULL, 0);
}
static void prepare_attr_stack(struct index_state *istate,
const char *path, int dirlen,
struct attr_stack **stack)
{
struct attr_stack *info;
struct strbuf pathbuf = STRBUF_INIT;
/*
* At the bottom of the attribute stack is the built-in
* set of attribute definitions, followed by the contents
* of $(prefix)/etc/gitattributes and a file specified by
* core.attributesfile. Then, contents from
* .gitattributes files from directories closer to the
* root to the ones in deeper directories are pushed
* to the stack. Finally, at the very top of the stack
* we always keep the contents of $GIT_DIR/info/attributes.
*
* When checking, we use entries from near the top of the
* stack, preferring $GIT_DIR/info/attributes, then
* .gitattributes in deeper directories to shallower ones,
* and finally use the built-in set as the default.
*/
bootstrap_attr_stack(istate, stack);
/*
* Pop the "info" one that is always at the top of the stack.
*/
info = *stack;
*stack = info->prev;
/*
* Pop the ones from directories that are not the prefix of
* the path we are checking. Break out of the loop when we see
* the root one (whose origin is an empty string "") or the builtin
* one (whose origin is NULL) without popping it.
*/
while ((*stack)->origin) {
int namelen = (*stack)->originlen;
struct attr_stack *elem;
elem = *stack;
if (namelen <= dirlen &&
!strncmp(elem->origin, path, namelen) &&
(!namelen || path[namelen] == '/'))
break;
*stack = elem->prev;
attr_stack_free(elem);
}
/*
* bootstrap_attr_stack() should have added, and the
* above loop should have stopped before popping, the
* root element whose attr_stack->origin is set to an
* empty string.
*/
assert((*stack)->origin);
strbuf_addstr(&pathbuf, (*stack)->origin);
/* Build up to the directory 'path' is in */
while (pathbuf.len < dirlen) {
size_t len = pathbuf.len;
struct attr_stack *next;
char *origin;
/* Skip path-separator */
if (len < dirlen && is_dir_sep(path[len]))
len++;
/* Find the end of the next component */
while (len < dirlen && !is_dir_sep(path[len]))
len++;
if (pathbuf.len > 0)
strbuf_addch(&pathbuf, '/');
strbuf_add(&pathbuf, path + pathbuf.len, (len - pathbuf.len));
strbuf_addf(&pathbuf, "/%s", GITATTRIBUTES_FILE);
next = read_attr(istate, pathbuf.buf, READ_ATTR_NOFOLLOW);
/* reset the pathbuf to not include "/.gitattributes" */
strbuf_setlen(&pathbuf, len);
origin = xstrdup(pathbuf.buf);
push_stack(stack, next, origin, len);
}
/*
* Finally push the "info" one at the top of the stack.
*/
push_stack(stack, info, NULL, 0);
strbuf_release(&pathbuf);
}
static int path_matches(const char *pathname, int pathlen,
int basename_offset,
const struct pattern *pat,
const char *base, int baselen)
{
const char *pattern = pat->pattern;
int prefix = pat->nowildcardlen;
int isdir = (pathlen && pathname[pathlen - 1] == '/');
if ((pat->flags & PATTERN_FLAG_MUSTBEDIR) && !isdir)
return 0;
if (pat->flags & PATTERN_FLAG_NODIR) {
return match_basename(pathname + basename_offset,
pathlen - basename_offset - isdir,
pattern, prefix,
pat->patternlen, pat->flags);
}
return match_pathname(pathname, pathlen - isdir,
base, baselen,
pattern, prefix, pat->patternlen);
}
static int macroexpand_one(struct all_attrs_item *all_attrs, int nr, int rem);
static int fill_one(struct all_attrs_item *all_attrs,
const struct match_attr *a, int rem)
{
int i;
for (i = a->num_attr - 1; rem > 0 && i >= 0; i--) {
const struct git_attr *attr = a->state[i].attr;
const char **n = &(all_attrs[attr->attr_nr].value);
const char *v = a->state[i].setto;
if (*n == ATTR__UNKNOWN) {
*n = v;
rem--;
rem = macroexpand_one(all_attrs, attr->attr_nr, rem);
}
}
return rem;
}
static int fill(const char *path, int pathlen, int basename_offset,
const struct attr_stack *stack,
struct all_attrs_item *all_attrs, int rem)
{
for (; rem > 0 && stack; stack = stack->prev) {
int i;
const char *base = stack->origin ? stack->origin : "";
for (i = stack->num_matches - 1; 0 < rem && 0 <= i; i--) {
const struct match_attr *a = stack->attrs[i];
if (a->is_macro)
continue;
if (path_matches(path, pathlen, basename_offset,
&a->u.pat, base, stack->originlen))
rem = fill_one(all_attrs, a, rem);
}
}
return rem;
}
static int macroexpand_one(struct all_attrs_item *all_attrs, int nr, int rem)
{
const struct all_attrs_item *item = &all_attrs[nr];
if (item->macro && item->value == ATTR__TRUE)
return fill_one(all_attrs, item->macro, rem);
else
return rem;
}
/*
* Marks the attributes which are macros based on the attribute stack.
* This prevents having to search through the attribute stack each time
* a macro needs to be expanded during the fill stage.
*/
static void determine_macros(struct all_attrs_item *all_attrs,
const struct attr_stack *stack)
{
for (; stack; stack = stack->prev) {
int i;
for (i = stack->num_matches - 1; i >= 0; i--) {
const struct match_attr *ma = stack->attrs[i];
if (ma->is_macro) {
int n = ma->u.attr->attr_nr;
if (!all_attrs[n].macro) {
all_attrs[n].macro = ma;
}
}
}
}
}
/*
* Collect attributes for path into the array pointed to by check->all_attrs.
* If check->check_nr is non-zero, only attributes in check[] are collected.
* Otherwise all attributes are collected.
*/
static void collect_some_attrs(struct index_state *istate,
const char *path,
struct attr_check *check)
{
int pathlen, rem, dirlen;
const char *cp, *last_slash = NULL;
int basename_offset;
for (cp = path; *cp; cp++) {
if (*cp == '/' && cp[1])
last_slash = cp;
}
pathlen = cp - path;
if (last_slash) {
basename_offset = last_slash + 1 - path;
dirlen = last_slash - path;
} else {
basename_offset = 0;
dirlen = 0;
}
prepare_attr_stack(istate, path, dirlen, &check->stack);
all_attrs_init(&g_attr_hashmap, check);
determine_macros(check->all_attrs, check->stack);
rem = check->all_attrs_nr;
fill(path, pathlen, basename_offset, check->stack, check->all_attrs, rem);
}
void git_check_attr(struct index_state *istate,
const char *path,
struct attr_check *check)
{
int i;
collect_some_attrs(istate, path, check);
for (i = 0; i < check->nr; i++) {
size_t n = check->items[i].attr->attr_nr;
const char *value = check->all_attrs[n].value;
if (value == ATTR__UNKNOWN)
value = ATTR__UNSET;
check->items[i].value = value;
}
}
void git_all_attrs(struct index_state *istate,
const char *path, struct attr_check *check)
{
int i;
attr_check_reset(check);
collect_some_attrs(istate, path, check);
for (i = 0; i < check->all_attrs_nr; i++) {
const char *name = check->all_attrs[i].attr->name;
const char *value = check->all_attrs[i].value;
struct attr_check_item *item;
if (value == ATTR__UNSET || value == ATTR__UNKNOWN)
continue;
item = attr_check_append(check, git_attr(name));
item->value = value;
}
}
void attr_start(void)
{
pthread_mutex_init(&g_attr_hashmap.mutex, NULL);
pthread_mutex_init(&check_vector.mutex, NULL);
}