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tempfile: drop active flag
Our tempfile struct contains an "active" flag. Long ago, this flag was important: tempfile structs were always allocated for the lifetime of the program and added to a global linked list, and the active flag was what told us whether a struct's tempfile needed to be cleaned up on exit. But since422a21c6a0
(tempfile: remove deactivated list entries, 2017-09-05) and076aa2cbda
(tempfile: auto-allocate tempfiles on heap, 2017-09-05), we actually remove items from the list, and the active flag is generally always set to true for any allocated struct. We set it to true in all of the creation functions, and in the normal code flow it becomes false only in deactivate_tempfile(), which then immediately frees the struct. So the flag isn't performing that role anymore, and in fact makes things more confusing. Dscho noted that delete_tempfile() is a noop for an inactive struct. Since076aa2cbda
taught it to free the struct when deactivating, we'd leak any struct whose active flag is unset. But in practice it's not a leak, because again, we'll free when we unset the flag, and never see the allocated-but-inactive state. Can we just get rid of the flag? The answer is yes, but it requires looking at a few other spots: 1. I said above that the flag only becomes false before we deallocate, but there's one exception: when we call remove_tempfiles() from a signal or atexit handler, we unset the active flag as we remove each file. This isn't important for delete_tempfile(), as nobody would call it anymore, since we're exiting. It does in theory provide us some protection against racily double-removing a tempfile. If we receive a second signal while we are already in the cleanup routines, we'll start the cleanup loop again, and may visit the same tempfile. But this race already exists, because calling unlink() and unsetting the active flag aren't atomic! And it's OK in practice, because unlink() is idempotent (barring the unlikely event that some other process chooses our exact temp filename in that instant). So dropping the active flag widens the race a bit, but it was already there, and is fairly harmless in practice. If we really care about addressing it, the right thing is probably to block further signals while we're doing our cleanup (which we could actually do atomically). 2. The active flag is declared as "volatile sig_atomic_t". The idea is that it's the final bit that gets set to tell the cleanup routines that the tempfile is ready to be used (or not used), and it's safe to receive a signal racing with regular code which adds or removes a tempfile from the list. In practice, I don't think this is buying us anything. The presence on the linked list is really what tells the cleanup routines to look at the struct. That is already marked as "volatile". It's not a sig_atomic_t, so it's possible that we could see a sheared write there as an entry is added or removed. But that is true of the current code, too! Before we can even look at the "active" flag, we'd have to follow a link to the struct itself. If we see a sheared write in the pointer to the struct, then we'll look at garbage memory anyway, and there's not much we can do. This patch removes the active flag entirely, using presence on the global linked list as an indicator that a tempfile ought to be cleaned up. We are already careful to add to the list as the final step in activating. On deactivation, we'll make sure to remove from the list as the first step, before freeing any fields. The use of the volatile keyword should mean that those things happen in the expected order. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
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Родитель
78861eb58a
Коммит
77a42b3b84
10
tempfile.c
10
tempfile.c
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@ -86,8 +86,6 @@ static void remove_tempfiles(int in_signal_handler)
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else
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unlink_or_warn(p->filename.buf);
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remove_template_directory(p, in_signal_handler);
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p->active = 0;
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}
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}
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@ -108,7 +106,6 @@ static struct tempfile *new_tempfile(void)
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struct tempfile *tempfile = xmalloc(sizeof(*tempfile));
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tempfile->fd = -1;
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tempfile->fp = NULL;
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tempfile->active = 0;
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tempfile->owner = 0;
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INIT_LIST_HEAD(&tempfile->list);
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strbuf_init(&tempfile->filename, 0);
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@ -120,9 +117,6 @@ static void activate_tempfile(struct tempfile *tempfile)
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{
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static int initialized;
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if (is_tempfile_active(tempfile))
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BUG("activate_tempfile called for active object");
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if (!initialized) {
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sigchain_push_common(remove_tempfiles_on_signal);
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atexit(remove_tempfiles_on_exit);
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@ -131,15 +125,13 @@ static void activate_tempfile(struct tempfile *tempfile)
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volatile_list_add(&tempfile->list, &tempfile_list);
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tempfile->owner = getpid();
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tempfile->active = 1;
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}
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static void deactivate_tempfile(struct tempfile *tempfile)
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{
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tempfile->active = 0;
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volatile_list_del(&tempfile->list);
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strbuf_release(&tempfile->filename);
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free(tempfile->directory);
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volatile_list_del(&tempfile->list);
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free(tempfile);
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}
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@ -77,7 +77,6 @@
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struct tempfile {
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volatile struct volatile_list_head list;
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volatile sig_atomic_t active;
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volatile int fd;
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FILE *volatile fp;
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volatile pid_t owner;
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@ -221,7 +220,7 @@ FILE *fdopen_tempfile(struct tempfile *tempfile, const char *mode);
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static inline int is_tempfile_active(struct tempfile *tempfile)
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{
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return tempfile && tempfile->active;
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return !!tempfile;
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}
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/*
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