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load.c
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load.c
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/*
* load methods from eval.c
*/
#include "ruby/ruby.h"
#include "ruby/util.h"
#include "internal.h"
#include "dln.h"
#include "eval_intern.h"
#include "probes.h"
VALUE ruby_dln_librefs;
#define IS_RBEXT(e) (strcmp((e), ".rb") == 0)
#define IS_SOEXT(e) (strcmp((e), ".so") == 0 || strcmp((e), ".o") == 0)
#ifdef DLEXT2
#define IS_DLEXT(e) (strcmp((e), DLEXT) == 0 || strcmp((e), DLEXT2) == 0)
#else
#define IS_DLEXT(e) (strcmp((e), DLEXT) == 0)
#endif
static const char *const loadable_ext[] = {
".rb", DLEXT,
#ifdef DLEXT2
DLEXT2,
#endif
0
};
VALUE
rb_get_load_path(void)
{
VALUE load_path = GET_VM()->load_path;
return load_path;
}
enum expand_type {
EXPAND_ALL,
EXPAND_RELATIVE,
EXPAND_HOME,
EXPAND_NON_CACHE
};
/* Construct expanded load path and store it to cache.
We rebuild load path partially if the cache is invalid.
We don't cache non string object and expand it every time. We ensure that
string objects in $LOAD_PATH are frozen.
*/
static void
rb_construct_expanded_load_path(int type, int *has_relative, int *has_non_cache)
{
rb_vm_t *vm = GET_VM();
VALUE load_path = vm->load_path;
VALUE expanded_load_path = vm->expanded_load_path;
VALUE ary;
long i;
int level = rb_safe_level();
ary = rb_ary_new2(RARRAY_LEN(load_path));
for (i = 0; i < RARRAY_LEN(load_path); ++i) {
VALUE path, as_str, expanded_path;
int is_string, non_cache;
char *as_cstr;
as_str = path = RARRAY_PTR(load_path)[i];
is_string = RB_TYPE_P(path, T_STRING) ? 1 : 0;
non_cache = !is_string ? 1 : 0;
as_str = rb_get_path_check_to_string(path, level);
as_cstr = RSTRING_PTR(as_str);
if (!non_cache) {
if ((type == EXPAND_RELATIVE &&
rb_is_absolute_path(as_cstr)) ||
(type == EXPAND_HOME &&
(!as_cstr[0] || as_cstr[0] != '~')) ||
(type == EXPAND_NON_CACHE)) {
/* Use cached expanded path. */
rb_ary_push(ary, RARRAY_PTR(expanded_load_path)[i]);
continue;
}
}
if (!*has_relative && !rb_is_absolute_path(as_cstr))
*has_relative = 1;
if (!*has_non_cache && non_cache)
*has_non_cache = 1;
/* Freeze only string object. We expand other objects every time. */
if (is_string)
rb_str_freeze(path);
as_str = rb_get_path_check_convert(path, as_str, level);
expanded_path = rb_file_expand_path_fast(as_str, Qnil);
rb_str_freeze(expanded_path);
rb_ary_push(ary, expanded_path);
}
rb_obj_freeze(ary);
vm->expanded_load_path = ary;
rb_ary_replace(vm->load_path_snapshot, vm->load_path);
}
static VALUE
load_path_getcwd(void)
{
char *cwd = my_getcwd();
VALUE cwd_str = rb_filesystem_str_new_cstr(cwd);
xfree(cwd);
return cwd_str;
}
VALUE
rb_get_expanded_load_path(void)
{
rb_vm_t *vm = GET_VM();
const VALUE non_cache = Qtrue;
if (!rb_ary_shared_with_p(vm->load_path_snapshot, vm->load_path)) {
/* The load path was modified. Rebuild the expanded load path. */
int has_relative = 0, has_non_cache = 0;
rb_construct_expanded_load_path(EXPAND_ALL, &has_relative, &has_non_cache);
if (has_relative) {
vm->load_path_check_cache = load_path_getcwd();
}
else if (has_non_cache) {
/* Non string object. */
vm->load_path_check_cache = non_cache;
}
else {
vm->load_path_check_cache = 0;
}
}
else if (vm->load_path_check_cache == non_cache) {
int has_relative = 1, has_non_cache = 1;
/* Expand only non-cacheable objects. */
rb_construct_expanded_load_path(EXPAND_NON_CACHE,
&has_relative, &has_non_cache);
}
else if (vm->load_path_check_cache) {
int has_relative = 1, has_non_cache = 1;
VALUE cwd = load_path_getcwd();
if (!rb_str_equal(vm->load_path_check_cache, cwd)) {
/* Current working directory or filesystem encoding was changed.
Expand relative load path and non-cacheable objects again. */
vm->load_path_check_cache = cwd;
rb_construct_expanded_load_path(EXPAND_RELATIVE,
&has_relative, &has_non_cache);
}
else {
/* Expand only tilde (User HOME) and non-cacheable objects. */
rb_construct_expanded_load_path(EXPAND_HOME,
&has_relative, &has_non_cache);
}
}
return vm->expanded_load_path;
}
static VALUE
load_path_getter(ID id, rb_vm_t *vm)
{
return vm->load_path;
}
static VALUE
get_loaded_features(void)
{
return GET_VM()->loaded_features;
}
static void
reset_loaded_features_snapshot(void)
{
rb_vm_t *vm = GET_VM();
rb_ary_replace(vm->loaded_features_snapshot, vm->loaded_features);
}
static VALUE
get_loaded_features_index_raw(void)
{
return GET_VM()->loaded_features_index;
}
static st_table *
get_loading_table(void)
{
return GET_VM()->loading_table;
}
static void
features_index_add_single(VALUE short_feature, VALUE offset)
{
VALUE features_index, this_feature_index;
features_index = get_loaded_features_index_raw();
if ((this_feature_index = rb_hash_lookup(features_index, short_feature)) == Qnil) {
this_feature_index = rb_ary_new();
rb_hash_aset(features_index, short_feature, this_feature_index);
}
rb_ary_push(this_feature_index, offset);
}
/* Add to the loaded-features index all the required entries for
`feature`, located at `offset` in $LOADED_FEATURES. We add an
index entry at each string `short_feature` for which
feature == "#{prefix}#{short_feature}#{e}"
where `e` is empty or matches %r{^\.[^./]*$}, and `prefix` is empty
or ends in '/'. This maintains the invariant that `rb_feature_p()`
relies on for its fast lookup.
*/
static void
features_index_add(VALUE feature, VALUE offset)
{
VALUE short_feature;
const char *feature_str, *feature_end, *ext, *p;
feature_str = StringValuePtr(feature);
feature_end = feature_str + RSTRING_LEN(feature);
for (ext = feature_end; ext > feature_str; ext--)
if (*ext == '.' || *ext == '/')
break;
if (*ext != '.')
ext = NULL;
/* Now `ext` points to the only string matching %r{^\.[^./]*$} that is
at the end of `feature`, or is NULL if there is no such string. */
p = ext ? ext : feature_end;
while (1) {
p--;
while (p >= feature_str && *p != '/')
p--;
if (p < feature_str)
break;
/* Now *p == '/'. We reach this point for every '/' in `feature`. */
short_feature = rb_str_substr(feature, p + 1 - feature_str, feature_end - p - 1);
features_index_add_single(short_feature, offset);
if (ext) {
short_feature = rb_str_substr(feature, p + 1 - feature_str, ext - p - 1);
features_index_add_single(short_feature, offset);
}
}
features_index_add_single(feature, offset);
if (ext) {
short_feature = rb_str_substr(feature, 0, ext - feature_str);
features_index_add_single(short_feature, offset);
}
}
static VALUE
get_loaded_features_index(void)
{
VALUE features;
int i;
rb_vm_t *vm = GET_VM();
if (!rb_ary_shared_with_p(vm->loaded_features_snapshot, vm->loaded_features)) {
/* The sharing was broken; something (other than us in rb_provide_feature())
modified loaded_features. Rebuild the index. */
rb_hash_clear(vm->loaded_features_index);
features = vm->loaded_features;
for (i = 0; i < RARRAY_LEN(features); i++) {
VALUE entry, as_str;
as_str = entry = rb_ary_entry(features, i);
StringValue(as_str);
if (as_str != entry)
rb_ary_store(features, i, as_str);
rb_str_freeze(as_str);
features_index_add(as_str, INT2FIX(i));
}
reset_loaded_features_snapshot();
}
return vm->loaded_features_index;
}
/* This searches `load_path` for a value such that
name == "#{load_path[i]}/#{feature}"
if `feature` is a suffix of `name`, or otherwise
name == "#{load_path[i]}/#{feature}#{ext}"
for an acceptable string `ext`. It returns
`load_path[i].to_str` if found, else 0.
If type is 's', then `ext` is acceptable only if IS_DLEXT(ext);
if 'r', then only if IS_RBEXT(ext); otherwise `ext` may be absent
or have any value matching `%r{^\.[^./]*$}`.
*/
static VALUE
loaded_feature_path(const char *name, long vlen, const char *feature, long len,
int type, VALUE load_path)
{
long i;
long plen;
const char *e;
if (vlen < len+1) return 0;
if (!strncmp(name+(vlen-len), feature, len)) {
plen = vlen - len - 1;
}
else {
for (e = name + vlen; name != e && *e != '.' && *e != '/'; --e);
if (*e != '.' ||
e-name < len ||
strncmp(e-len, feature, len))
return 0;
plen = e - name - len - 1;
}
if (type == 's' && !IS_DLEXT(&name[plen+len+1])
|| type == 'r' && !IS_RBEXT(&name[plen+len+1])
|| name[plen] != '/') {
return 0;
}
/* Now name == "#{prefix}/#{feature}#{ext}" where ext is acceptable
(possibly empty) and prefix is some string of length plen. */
for (i = 0; i < RARRAY_LEN(load_path); ++i) {
VALUE p = RARRAY_PTR(load_path)[i];
const char *s = StringValuePtr(p);
long n = RSTRING_LEN(p);
if (n != plen) continue;
if (n && strncmp(name, s, n)) continue;
return p;
}
return 0;
}
struct loaded_feature_searching {
const char *name;
long len;
int type;
VALUE load_path;
const char *result;
};
static int
loaded_feature_path_i(st_data_t v, st_data_t b, st_data_t f)
{
const char *s = (const char *)v;
struct loaded_feature_searching *fp = (struct loaded_feature_searching *)f;
VALUE p = loaded_feature_path(s, strlen(s), fp->name, fp->len,
fp->type, fp->load_path);
if (!p) return ST_CONTINUE;
fp->result = s;
return ST_STOP;
}
static int
rb_feature_p(const char *feature, const char *ext, int rb, int expanded, const char **fn)
{
VALUE features, features_index, feature_val, this_feature_index, v, p, load_path = 0;
const char *f, *e;
long i, len, elen, n;
st_table *loading_tbl;
st_data_t data;
int type;
if (fn) *fn = 0;
if (ext) {
elen = strlen(ext);
len = strlen(feature) - elen;
type = rb ? 'r' : 's';
}
else {
len = strlen(feature);
elen = 0;
type = 0;
}
features = get_loaded_features();
features_index = get_loaded_features_index();
feature_val = rb_str_new(feature, len);
this_feature_index = rb_hash_lookup(features_index, feature_val);
/* We search `features` for an entry such that either
"#{features[i]}" == "#{load_path[j]}/#{feature}#{e}"
for some j, or
"#{features[i]}" == "#{feature}#{e}"
Here `e` is an "allowed" extension -- either empty or one
of the extensions accepted by IS_RBEXT, IS_SOEXT, or
IS_DLEXT. Further, if `ext && rb` then `IS_RBEXT(e)`,
and if `ext && !rb` then `IS_SOEXT(e) || IS_DLEXT(e)`.
If `expanded`, then only the latter form (without load_path[j])
is accepted. Otherwise either form is accepted, *unless* `ext`
is false and an otherwise-matching entry of the first form is
preceded by an entry of the form
"#{features[i2]}" == "#{load_path[j2]}/#{feature}#{e2}"
where `e2` matches %r{^\.[^./]*$} but is not an allowed extension.
After a "distractor" entry of this form, only entries of the
form "#{feature}#{e}" are accepted.
In `rb_provide_feature()` and `get_loaded_features_index()` we
maintain an invariant that the array `this_feature_index` will
point to every entry in `features` which has the form
"#{prefix}#{feature}#{e}"
where `e` is empty or matches %r{^\.[^./]*$}, and `prefix` is empty
or ends in '/'. This includes both match forms above, as well
as any distractors, so we may ignore all other entries in `features`.
*/
for (i = 0; this_feature_index != Qnil && i < RARRAY_LEN(this_feature_index); i++) {
long index = FIX2LONG(rb_ary_entry(this_feature_index, i));
v = RARRAY_PTR(features)[index];
f = StringValuePtr(v);
if ((n = RSTRING_LEN(v)) < len) continue;
if (strncmp(f, feature, len) != 0) {
if (expanded) continue;
if (!load_path) load_path = rb_get_expanded_load_path();
if (!(p = loaded_feature_path(f, n, feature, len, type, load_path)))
continue;
expanded = 1;
f += RSTRING_LEN(p) + 1;
}
if (!*(e = f + len)) {
if (ext) continue;
return 'u';
}
if (*e != '.') continue;
if ((!rb || !ext) && (IS_SOEXT(e) || IS_DLEXT(e))) {
return 's';
}
if ((rb || !ext) && (IS_RBEXT(e))) {
return 'r';
}
}
loading_tbl = get_loading_table();
if (loading_tbl) {
f = 0;
if (!expanded) {
struct loaded_feature_searching fs;
fs.name = feature;
fs.len = len;
fs.type = type;
fs.load_path = load_path ? load_path : rb_get_expanded_load_path();
fs.result = 0;
st_foreach(loading_tbl, loaded_feature_path_i, (st_data_t)&fs);
if ((f = fs.result) != 0) {
if (fn) *fn = f;
goto loading;
}
}
if (st_get_key(loading_tbl, (st_data_t)feature, &data)) {
if (fn) *fn = (const char*)data;
loading:
if (!ext) return 'u';
return !IS_RBEXT(ext) ? 's' : 'r';
}
else {
VALUE bufstr;
char *buf;
if (ext && *ext) return 0;
bufstr = rb_str_tmp_new(len + DLEXT_MAXLEN);
buf = RSTRING_PTR(bufstr);
MEMCPY(buf, feature, char, len);
for (i = 0; (e = loadable_ext[i]) != 0; i++) {
strlcpy(buf + len, e, DLEXT_MAXLEN + 1);
if (st_get_key(loading_tbl, (st_data_t)buf, &data)) {
rb_str_resize(bufstr, 0);
if (fn) *fn = (const char*)data;
return i ? 's' : 'r';
}
}
rb_str_resize(bufstr, 0);
}
}
return 0;
}
int
rb_provided(const char *feature)
{
return rb_feature_provided(feature, 0);
}
int
rb_feature_provided(const char *feature, const char **loading)
{
const char *ext = strrchr(feature, '.');
volatile VALUE fullpath = 0;
if (*feature == '.' &&
(feature[1] == '/' || strncmp(feature+1, "./", 2) == 0)) {
fullpath = rb_file_expand_path_fast(rb_get_path(rb_str_new2(feature)), Qnil);
feature = RSTRING_PTR(fullpath);
}
if (ext && !strchr(ext, '/')) {
if (IS_RBEXT(ext)) {
if (rb_feature_p(feature, ext, TRUE, FALSE, loading)) return TRUE;
return FALSE;
}
else if (IS_SOEXT(ext) || IS_DLEXT(ext)) {
if (rb_feature_p(feature, ext, FALSE, FALSE, loading)) return TRUE;
return FALSE;
}
}
if (rb_feature_p(feature, 0, TRUE, FALSE, loading))
return TRUE;
return FALSE;
}
static void
rb_provide_feature(VALUE feature)
{
VALUE features;
features = get_loaded_features();
if (OBJ_FROZEN(features)) {
rb_raise(rb_eRuntimeError,
"$LOADED_FEATURES is frozen; cannot append feature");
}
rb_str_freeze(feature);
rb_ary_push(features, feature);
features_index_add(feature, INT2FIX(RARRAY_LEN(features)-1));
reset_loaded_features_snapshot();
}
void
rb_provide(const char *feature)
{
rb_provide_feature(rb_usascii_str_new2(feature));
}
NORETURN(static void load_failed(VALUE));
static void
rb_load_internal(VALUE fname, int wrap)
{
int state;
rb_thread_t *th = GET_THREAD();
volatile VALUE wrapper = th->top_wrapper;
volatile VALUE self = th->top_self;
volatile int loaded = FALSE;
volatile int mild_compile_error;
#ifndef __GNUC__
rb_thread_t *volatile th0 = th;
#endif
th->errinfo = Qnil; /* ensure */
if (!wrap) {
rb_secure(4); /* should alter global state */
th->top_wrapper = 0;
}
else {
/* load in anonymous module as toplevel */
th->top_self = rb_obj_clone(rb_vm_top_self());
th->top_wrapper = rb_module_new();
rb_extend_object(th->top_self, th->top_wrapper);
}
mild_compile_error = th->mild_compile_error;
PUSH_TAG();
state = EXEC_TAG();
if (state == 0) {
NODE *node;
VALUE iseq;
th->mild_compile_error++;
node = (NODE *)rb_load_file(RSTRING_PTR(fname));
loaded = TRUE;
iseq = rb_iseq_new_top(node, rb_str_new2("<top (required)>"), fname, rb_realpath_internal(Qnil, fname, 1), Qfalse);
th->mild_compile_error--;
rb_iseq_eval(iseq);
}
POP_TAG();
#ifndef __GNUC__
th = th0;
fname = RB_GC_GUARD(fname);
#endif
th->mild_compile_error = mild_compile_error;
th->top_self = self;
th->top_wrapper = wrapper;
if (!loaded && !FIXNUM_P(GET_THREAD()->errinfo)) {
/* an error on loading don't include INT2FIX(TAG_FATAL) see r35625 */
rb_exc_raise(GET_THREAD()->errinfo);
}
if (state) {
rb_vm_jump_tag_but_local_jump(state);
}
if (!NIL_P(GET_THREAD()->errinfo)) {
/* exception during load */
rb_exc_raise(th->errinfo);
}
}
void
rb_load(VALUE fname, int wrap)
{
VALUE tmp = rb_find_file(FilePathValue(fname));
if (!tmp) load_failed(fname);
rb_load_internal(tmp, wrap);
}
void
rb_load_protect(VALUE fname, int wrap, int *state)
{
int status;
PUSH_TAG();
if ((status = EXEC_TAG()) == 0) {
rb_load(fname, wrap);
}
POP_TAG();
if (state)
*state = status;
}
/*
* call-seq:
* load(filename, wrap=false) -> true
*
* Loads and executes the Ruby
* program in the file _filename_. If the filename does not
* resolve to an absolute path, the file is searched for in the library
* directories listed in <code>$:</code>. If the optional _wrap_
* parameter is +true+, the loaded script will be executed
* under an anonymous module, protecting the calling program's global
* namespace. In no circumstance will any local variables in the loaded
* file be propagated to the loading environment.
*/
static VALUE
rb_f_load(int argc, VALUE *argv)
{
VALUE fname, wrap, path;
rb_scan_args(argc, argv, "11", &fname, &wrap);
if (RUBY_DTRACE_LOAD_ENTRY_ENABLED()) {
RUBY_DTRACE_LOAD_ENTRY(StringValuePtr(fname),
rb_sourcefile(),
rb_sourceline());
}
path = rb_find_file(FilePathValue(fname));
if (!path) {
if (!rb_file_load_ok(RSTRING_PTR(fname)))
load_failed(fname);
path = fname;
}
rb_load_internal(path, RTEST(wrap));
if (RUBY_DTRACE_LOAD_RETURN_ENABLED()) {
RUBY_DTRACE_LOAD_RETURN(StringValuePtr(fname),
rb_sourcefile(),
rb_sourceline());
}
return Qtrue;
}
static char *
load_lock(const char *ftptr)
{
st_data_t data;
st_table *loading_tbl = get_loading_table();
if (!loading_tbl || !st_lookup(loading_tbl, (st_data_t)ftptr, &data)) {
/* loading ruby library should be serialized. */
if (!loading_tbl) {
GET_VM()->loading_table = loading_tbl = st_init_strtable();
}
/* partial state */
ftptr = ruby_strdup(ftptr);
data = (st_data_t)rb_thread_shield_new();
st_insert(loading_tbl, (st_data_t)ftptr, data);
return (char *)ftptr;
}
if (RTEST(ruby_verbose)) {
rb_warning("loading in progress, circular require considered harmful - %s", ftptr);
/* TODO: display to $stderr, not stderr in C */
rb_backtrace();
}
switch (rb_thread_shield_wait((VALUE)data)) {
case Qfalse:
data = (st_data_t)ftptr;
st_insert(loading_tbl, data, (st_data_t)rb_thread_shield_new());
return 0;
case Qnil:
return 0;
}
return (char *)ftptr;
}
static int
release_thread_shield(st_data_t *key, st_data_t *value, st_data_t done, int existing)
{
VALUE thread_shield = (VALUE)*value;
if (!existing) return ST_STOP;
if (done ? rb_thread_shield_destroy(thread_shield) : rb_thread_shield_release(thread_shield)) {
/* still in-use */
return ST_CONTINUE;
}
xfree((char *)*key);
return ST_DELETE;
}
static void
load_unlock(const char *ftptr, int done)
{
if (ftptr) {
st_data_t key = (st_data_t)ftptr;
st_table *loading_tbl = get_loading_table();
st_update(loading_tbl, key, release_thread_shield, done);
}
}
/*
* call-seq:
* require(name) -> true or false
*
* Loads the given +name+, returning +true+ if successful and +false+ if the
* feature is already loaded.
*
* If the filename does not resolve to an absolute path, it will be searched
* for in the directories listed in <code>$LOAD_PATH</code> (<code>$:</code>).
*
* If the filename has the extension ".rb", it is loaded as a source file; if
* the extension is ".so", ".o", or ".dll", or the default shared library
* extension on the current platform, Ruby loads the shared library as a
* Ruby extension. Otherwise, Ruby tries adding ".rb", ".so", and so on
* to the name until found. If the file named cannot be found, a LoadError
* will be raised.
*
* For Ruby extensions the filename given may use any shared library
* extension. For example, on Linux the socket extension is "socket.so" and
* <code>require 'socket.dll'</code> will load the socket extension.
*
* The absolute path of the loaded file is added to
* <code>$LOADED_FEATURES</code> (<code>$"</code>). A file will not be
* loaded again if its path already appears in <code>$"</code>. For example,
* <code>require 'a'; require './a'</code> will not load <code>a.rb</code>
* again.
*
* require "my-library.rb"
* require "db-driver"
*
* Any constants or globals within the loaded source file will be available
* in the calling program's global namespace. However, local variables will
* not be propagated to the loading environment.
*
*/
VALUE
rb_f_require(VALUE obj, VALUE fname)
{
return rb_require_safe(fname, rb_safe_level());
}
/*
* call-seq:
* require_relative(string) -> true or false
*
* Ruby tries to load the library named _string_ relative to the requiring
* file's path. If the file's path cannot be determined a LoadError is raised.
* If a file is loaded +true+ is returned and false otherwise.
*/
VALUE
rb_f_require_relative(VALUE obj, VALUE fname)
{
VALUE base = rb_current_realfilepath();
if (NIL_P(base)) {
rb_loaderror("cannot infer basepath");
}
base = rb_file_dirname(base);
return rb_require_safe(rb_file_absolute_path(fname, base), rb_safe_level());
}
static int
search_required(VALUE fname, volatile VALUE *path, int safe_level)
{
VALUE tmp;
char *ext, *ftptr;
int type, ft = 0;
const char *loading;
*path = 0;
ext = strrchr(ftptr = RSTRING_PTR(fname), '.');
if (ext && !strchr(ext, '/')) {
if (IS_RBEXT(ext)) {
if (rb_feature_p(ftptr, ext, TRUE, FALSE, &loading)) {
if (loading) *path = rb_filesystem_str_new_cstr(loading);
return 'r';
}
if ((tmp = rb_find_file_safe(fname, safe_level)) != 0) {
ext = strrchr(ftptr = RSTRING_PTR(tmp), '.');
if (!rb_feature_p(ftptr, ext, TRUE, TRUE, &loading) || loading)
*path = tmp;
return 'r';
}
return 0;
}
else if (IS_SOEXT(ext)) {
if (rb_feature_p(ftptr, ext, FALSE, FALSE, &loading)) {
if (loading) *path = rb_filesystem_str_new_cstr(loading);
return 's';
}
tmp = rb_str_subseq(fname, 0, ext - RSTRING_PTR(fname));
#ifdef DLEXT2
OBJ_FREEZE(tmp);
if (rb_find_file_ext_safe(&tmp, loadable_ext + 1, safe_level)) {
ext = strrchr(ftptr = RSTRING_PTR(tmp), '.');
if (!rb_feature_p(ftptr, ext, FALSE, TRUE, &loading) || loading)
*path = tmp;
return 's';
}
#else
rb_str_cat2(tmp, DLEXT);
OBJ_FREEZE(tmp);
if ((tmp = rb_find_file_safe(tmp, safe_level)) != 0) {
ext = strrchr(ftptr = RSTRING_PTR(tmp), '.');
if (!rb_feature_p(ftptr, ext, FALSE, TRUE, &loading) || loading)
*path = tmp;
return 's';
}
#endif
}
else if (IS_DLEXT(ext)) {
if (rb_feature_p(ftptr, ext, FALSE, FALSE, &loading)) {
if (loading) *path = rb_filesystem_str_new_cstr(loading);
return 's';
}
if ((tmp = rb_find_file_safe(fname, safe_level)) != 0) {
ext = strrchr(ftptr = RSTRING_PTR(tmp), '.');
if (!rb_feature_p(ftptr, ext, FALSE, TRUE, &loading) || loading)
*path = tmp;
return 's';
}
}
}
else if ((ft = rb_feature_p(ftptr, 0, FALSE, FALSE, &loading)) == 'r') {
if (loading) *path = rb_filesystem_str_new_cstr(loading);
return 'r';
}
tmp = fname;
type = rb_find_file_ext_safe(&tmp, loadable_ext, safe_level);
switch (type) {
case 0:
if (ft)
break;
ftptr = RSTRING_PTR(tmp);
return rb_feature_p(ftptr, 0, FALSE, TRUE, 0);
default:
if (ft)
break;
case 1:
ext = strrchr(ftptr = RSTRING_PTR(tmp), '.');
if (rb_feature_p(ftptr, ext, !--type, TRUE, &loading) && !loading)
break;
*path = tmp;
}
return type ? 's' : 'r';
}
static void
load_failed(VALUE fname)
{
rb_load_fail(fname, "cannot load such file");
}
static VALUE
load_ext(VALUE path)
{
SCOPE_SET(NOEX_PUBLIC);
return (VALUE)dln_load(RSTRING_PTR(path));
}
VALUE
rb_require_safe(VALUE fname, int safe)
{
volatile VALUE result = Qnil;
rb_thread_t *th = GET_THREAD();
volatile VALUE errinfo = th->errinfo;
int state;
struct {
int safe;
} volatile saved;
char *volatile ftptr = 0;
if (RUBY_DTRACE_REQUIRE_ENTRY_ENABLED()) {
RUBY_DTRACE_REQUIRE_ENTRY(StringValuePtr(fname),
rb_sourcefile(),
rb_sourceline());
}
PUSH_TAG();
saved.safe = rb_safe_level();
if ((state = EXEC_TAG()) == 0) {
VALUE path;
long handle;
int found;
rb_set_safe_level_force(safe);
FilePathValue(fname);
rb_set_safe_level_force(0);
if (RUBY_DTRACE_FIND_REQUIRE_ENTRY_ENABLED()) {
RUBY_DTRACE_FIND_REQUIRE_ENTRY(StringValuePtr(fname),
rb_sourcefile(),
rb_sourceline());
}
found = search_required(fname, &path, safe);
if (RUBY_DTRACE_FIND_REQUIRE_RETURN_ENABLED()) {
RUBY_DTRACE_FIND_REQUIRE_RETURN(StringValuePtr(fname),
rb_sourcefile(),
rb_sourceline());
}
if (found) {
if (!path || !(ftptr = load_lock(RSTRING_PTR(path)))) {
result = Qfalse;
}
else {
switch (found) {
case 'r':
rb_load_internal(path, 0);
break;
case 's':
handle = (long)rb_vm_call_cfunc(rb_vm_top_self(), load_ext,
path, 0, path);
rb_ary_push(ruby_dln_librefs, LONG2NUM(handle));
break;
}
rb_provide_feature(path);
result = Qtrue;
}
}
}
POP_TAG();
load_unlock(ftptr, !state);
rb_set_safe_level_force(saved.safe);
if (state) {
JUMP_TAG(state);
}
if (NIL_P(result)) {
load_failed(fname);
}
th->errinfo = errinfo;
if (RUBY_DTRACE_REQUIRE_RETURN_ENABLED()) {
RUBY_DTRACE_REQUIRE_RETURN(StringValuePtr(fname),
rb_sourcefile(),
rb_sourceline());
}
return result;
}
VALUE
rb_require(const char *fname)
{
VALUE fn = rb_str_new2(fname);
OBJ_FREEZE(fn);
return rb_require_safe(fn, rb_safe_level());
}
static VALUE
init_ext_call(VALUE arg)
{
SCOPE_SET(NOEX_PUBLIC);
(*(void (*)(void))arg)();
return Qnil;
}
RUBY_FUNC_EXPORTED void
ruby_init_ext(const char *name, void (*init)(void))
{
char* const lock_key = load_lock(name);
if (lock_key) {
rb_vm_call_cfunc(rb_vm_top_self(), init_ext_call, (VALUE)init,
0, rb_str_new2(name));
rb_provide(name);
load_unlock(lock_key, 1);
}
}
/*
* call-seq:
* mod.autoload(module, filename) -> nil
*
* Registers _filename_ to be loaded (using <code>Kernel::require</code>)
* the first time that _module_ (which may be a <code>String</code> or
* a symbol) is accessed in the namespace of _mod_.
*
* module A
* end
* A.autoload(:B, "b")
* A::B.doit # autoloads "b"
*/
static VALUE
rb_mod_autoload(VALUE mod, VALUE sym, VALUE file)
{
ID id = rb_to_id(sym);