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/*
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* Copyright ( C ) 2001 - 2004 Sistina Software , Inc . All rights reserved .
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* Copyright ( C ) 2004 - 2007 Red Hat , Inc . All rights reserved .
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*
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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
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* of the GNU Lesser General Public License v .2 .1 .
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*
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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 ,
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* Inc . , 51 Franklin Street , Fifth Floor , Boston , MA 02110 - 1301 USA
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*/
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# include "base/memory/zalloc.h"
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# include "base/data-struct/radix-tree.h"
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# include "lib/misc/lib.h"
# include "lib/filters/filter.h"
# include "lib/config/config.h"
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struct pfilter {
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struct radix_tree * devices ;
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struct dev_filter * real ;
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struct dev_types * dt ;
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} ;
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/*
* 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 .
*/
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static int _good_device ;
static int _bad_device ;
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/*
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* The hash table holds one of these two states
* against each entry .
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*/
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# define PF_BAD_DEVICE ((void *) &_good_device)
# define PF_GOOD_DEVICE ((void *) &_bad_device)
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static int _init_hash ( struct pfilter * pf )
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{
if ( pf - > devices )
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radix_tree_destroy ( pf - > devices ) ;
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if ( ! ( pf - > devices = radix_tree_create ( NULL , NULL ) ) )
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return_0 ;
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return 1 ;
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}
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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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{
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struct pfilter * pf = ( struct pfilter * ) f - > private ;
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struct dm_str_list * sl ;
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if ( ! dev ) {
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_init_hash ( pf ) ;
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} else {
dm_list_iterate_items ( sl , & dev - > aliases )
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radix_tree_remove ( pf - > devices , sl - > str , strlen ( sl - > str ) ) ;
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}
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}
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static int _lookup_p ( 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 ;
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void * l ;
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struct dm_str_list * sl ;
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int pass = 1 ;
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const char * devname = dev_name ( dev ) ;
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if ( use_filter_name & & strcmp ( f - > name , use_filter_name ) )
return pf - > real - > passes_filter ( cmd , pf - > real , dev , use_filter_name ) ;
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if ( dm_list_empty ( & dev - > aliases ) ) {
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log_debug_devs ( " %u:%u: filter cache skipping (no name). " ,
MAJOR ( dev - > dev ) , MINOR ( dev - > dev ) ) ;
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return 0 ;
}
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l = radix_tree_lookup_ptr ( pf - > devices , devname , strlen ( devname ) ) ;
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/* Cached bad, skip dev */
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if ( l = = PF_BAD_DEVICE ) {
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log_debug_devs ( " %s: filter cache skipping (cached bad). " , devname ) ;
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return 0 ;
}
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/* Cached good, use dev */
if ( l = = PF_GOOD_DEVICE ) {
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log_debug_devs ( " %s: filter cache using (cached good). " , devname ) ;
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return 1 ;
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}
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/* Uncached, check filters and cache the result */
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if ( ! l ) {
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pass = pf - > real - > passes_filter ( cmd , pf - > real , dev , use_filter_name ) ;
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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 ;
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} else if ( pass = = 1 ) {
l = PF_GOOD_DEVICE ;
} else {
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log_error ( " Ignore invalid filter result %d %s. " , pass , devname ) ;
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pass = 1 ;
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/* don't cache invalid result */
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goto out ;
}
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if ( ! dev - > filtered_flags ) /* skipping reason already logged by filter */
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log_debug_devs ( " filter caching %s %s. " , pass ? " good " : " bad " , devname ) ;
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dm_list_iterate_items ( sl , & dev - > aliases )
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if ( ! radix_tree_insert_ptr ( pf - > devices , sl - > str , strlen ( sl - > str ) , l ) ) {
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log_error ( " Failed to hash alias to filter. " ) ;
return 0 ;
}
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}
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out :
return pass ;
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}
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static void _persistent_destroy ( struct dev_filter * f )
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{
struct pfilter * pf = ( struct pfilter * ) f - > private ;
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if ( f - > use_count )
log_error ( INTERNAL_ERROR " Destroying persistent filter while in use %u times. " , f - > use_count ) ;
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radix_tree_destroy ( pf - > devices ) ;
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pf - > real - > destroy ( pf - > real ) ;
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free ( pf ) ;
free ( f ) ;
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}
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struct dev_filter * persistent_filter_create ( struct dev_types * dt , struct dev_filter * real )
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{
struct pfilter * pf ;
struct dev_filter * f = NULL ;
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if ( ! ( pf = zalloc ( sizeof ( * pf ) ) ) ) {
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log_error ( " Allocation of persistent filter failed. " ) ;
return NULL ;
}
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pf - > dt = dt ;
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pf - > real = real ;
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if ( ! ( _init_hash ( pf ) ) ) {
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log_error ( " Couldn't create hash table for persistent filter. " ) ;
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goto bad ;
}
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if ( ! ( f = zalloc ( sizeof ( * f ) ) ) ) {
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log_error ( " Allocation of device filter for persistent filter failed. " ) ;
goto bad ;
}
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f - > passes_filter = _lookup_p ;
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f - > destroy = _persistent_destroy ;
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f - > use_count = 0 ;
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f - > private = pf ;
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f - > wipe = _persistent_filter_wipe ;
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f - > name = " persistent " ;
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log_debug_devs ( " Persistent filter initialised. " ) ;
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return f ;
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bad :
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if ( pf - > devices )
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radix_tree_destroy ( pf - > devices ) ;
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free ( pf ) ;
free ( f ) ;
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return NULL ;
}