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lvm2/lib/filters/filter-persistent.c

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/*
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* Copyright (C) 2001-2004 Sistina Software, Inc. All rights reserved.
* Copyright (C) 2004-2007 Red Hat, Inc. All rights reserved.
*
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* This file is part of LVM2.
*
* This copyrighted material is made available to anyone wishing to use,
* modify, copy, or redistribute it subject to the terms and conditions
* of the GNU Lesser General Public License v.2.1.
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*
* You should have received a copy of the GNU Lesser General Public License
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* along with this program; if not, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include "base/memory/zalloc.h"
#include "base/data-struct/radix-tree.h"
#include "lib/misc/lib.h"
#include "lib/filters/filter.h"
#include "lib/config/config.h"
struct pfilter {
struct radix_tree *devices;
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struct dev_filter *real;
struct dev_types *dt;
};
/*
* The persistent filter is filter layer that sits above the other filters and
* caches the final result of those other filters. When a device is first
* checked against filters, it will not be in this cache, so this filter will
* pass the device down to the other filters to check it. The other filters
* will run and either include the device (good/pass) or exclude the device
* (bad/fail). That good or bad result propagates up through this filter which
* saves the result. The next time some code checks the filters against the
* device, this persistent/cache filter is checked first. This filter finds
* the previous result in its cache and returns it without reevaluating the
* other real filters.
*
* FIXME: a cache like this should not be needed. The fact it's needed is a
* symptom of code that should be fixed to not reevaluate filters multiple
* times. A device should be checked against the filter once, and then not
* need to be checked again. With scanning now controlled, we could probably
* do this.
*/
static int _good_device;
static int _bad_device;
/*
* The hash table holds one of these two states
* against each entry.
*/
#define PF_BAD_DEVICE ((void *) &_good_device)
#define PF_GOOD_DEVICE ((void *) &_bad_device)
static int _init_hash(struct pfilter *pf)
{
if (pf->devices)
radix_tree_destroy(pf->devices);
if (!(pf->devices = radix_tree_create(NULL, NULL)))
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return_0;
return 1;
}
static void _persistent_filter_wipe(struct cmd_context *cmd, struct dev_filter *f, struct device *dev, const char *use_filter_name)
{
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struct pfilter *pf = (struct pfilter *) f->private;
struct dm_str_list *sl;
if (!dev) {
_init_hash(pf);
} else {
dm_list_iterate_items(sl, &dev->aliases)
radix_tree_remove(pf->devices, sl->str, strlen(sl->str));
}
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}
static int _lookup_p(struct cmd_context *cmd, struct dev_filter *f, struct device *dev, const char *use_filter_name)
{
struct pfilter *pf = (struct pfilter *) f->private;
void *l;
struct dm_str_list *sl;
int pass = 1;
const char *devname = dev_name(dev);
if (use_filter_name && strcmp(f->name, use_filter_name))
return pf->real->passes_filter(cmd, pf->real, dev, use_filter_name);
if (dm_list_empty(&dev->aliases)) {
log_debug_devs("%u:%u: filter cache skipping (no name).",
MAJOR(dev->dev), MINOR(dev->dev));
return 0;
}
l = radix_tree_lookup_ptr(pf->devices, devname, strlen(devname));
/* Cached bad, skip dev */
if (l == PF_BAD_DEVICE) {
log_debug_devs("%s: filter cache skipping (cached bad).", devname);
return 0;
}
/* Cached good, use dev */
if (l == PF_GOOD_DEVICE) {
log_debug_devs("%s: filter cache using (cached good).", devname);
return 1;
}
/* Uncached, check filters and cache the result */
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if (!l) {
pass = pf->real->passes_filter(cmd, pf->real, dev, use_filter_name);
if (!pass) {
/*
* A device that does not pass one filter is excluded
* even if the result of another filter is deferred,
* because the deferred result won't change the exclude.
*/
l = PF_BAD_DEVICE;
} else if (pass == 1) {
l = PF_GOOD_DEVICE;
} else {
log_error("Ignore invalid filter result %d %s.", pass, devname);
pass = 1;
/* don't cache invalid result */
goto out;
}
if (!dev->filtered_flags) /* skipping reason already logged by filter */
log_debug_devs("filter caching %s %s.", pass ? "good" : "bad", devname);
dm_list_iterate_items(sl, &dev->aliases)
if (!radix_tree_insert_ptr(pf->devices, sl->str, strlen(sl->str), l)) {
log_error("Failed to hash alias to filter.");
return 0;
}
}
out:
return pass;
}
static void _persistent_destroy(struct dev_filter *f)
{
struct pfilter *pf = (struct pfilter *) f->private;
if (f->use_count)
log_error(INTERNAL_ERROR "Destroying persistent filter while in use %u times.", f->use_count);
radix_tree_destroy(pf->devices);
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pf->real->destroy(pf->real);
free(pf);
free(f);
}
struct dev_filter *persistent_filter_create(struct dev_types *dt, struct dev_filter *real)
{
struct pfilter *pf;
struct dev_filter *f = NULL;
if (!(pf = zalloc(sizeof(*pf)))) {
log_error("Allocation of persistent filter failed.");
return NULL;
}
pf->dt = dt;
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pf->real = real;
if (!(_init_hash(pf))) {
log_error("Couldn't create hash table for persistent filter.");
goto bad;
}
if (!(f = zalloc(sizeof(*f)))) {
log_error("Allocation of device filter for persistent filter failed.");
goto bad;
}
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f->passes_filter = _lookup_p;
f->destroy = _persistent_destroy;
f->use_count = 0;
f->private = pf;
f->wipe = _persistent_filter_wipe;
f->name = "persistent";
log_debug_devs("Persistent filter initialised.");
return f;
bad:
if (pf->devices)
radix_tree_destroy(pf->devices);
free(pf);
free(f);
return NULL;
}