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/*
* Copyright ( C ) 2001 - 2004 Sistina Software , Inc . All rights reserved .
* Copyright ( C ) 2007 Red Hat , Inc . All rights reserved .
*
* 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 "tools.h"
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# include "lib/format_text/format-text.h"
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# include "lib/format_text/layout.h"
# include "lib/mm/xlate.h"
# include "lib/misc/crc.h"
static char * _chars_to_str ( void * in , void * out , int num , int max , const char * field )
{
char * i = in ;
char * o = out ;
int n ;
memset ( out , 0 , max ) ;
if ( num > max - 1 ) {
log_print ( " CHECK: abbreviating output for %s " , field ) ;
num = max - 1 ;
}
for ( n = 0 ; n < num ; n + + ) {
if ( isprint ( ( int ) * i ) )
* o = * i ;
else
* o = ' ? ' ;
i + + ;
o + + ;
}
return out ;
}
/*
* This is used to print mda_header . magic as a series of hex values
* since it only contains some printable chars .
*/
static char * _chars_to_hexstr ( void * in , void * out , int num , int max , const char * field )
{
char * tmp ;
char * i = in ;
int n ;
int off = 0 ;
int ret ;
if ( ! ( tmp = zalloc ( max ) ) ) {
log_print ( " CHECK: no mem for printing %s " , field ) ;
return out ;
}
memset ( out , 0 , max ) ;
memset ( tmp , 0 , max ) ;
if ( num > max - 1 ) {
log_print ( " CHECK: abbreviating output for %s " , field ) ;
num = max - 1 ;
}
for ( n = 0 ; n < num ; n + + ) {
ret = sprintf ( tmp + off , " %x " , * i & 0xFF ) ;
off + = ret ;
i + + ;
}
memcpy ( out , tmp , 256 ) ;
free ( tmp ) ;
return out ;
}
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static int _check_label_header ( struct label_header * lh , uint64_t labelsector ,
int * found_label )
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{
uint32_t crc ;
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int good_id = 1 , good_type = 1 ;
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int bad = 0 ;
if ( memcmp ( lh - > id , LABEL_ID , sizeof ( lh - > id ) ) ) {
log_print ( " CHECK: label_header.id expected %s " , LABEL_ID ) ;
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good_id = 0 ;
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bad + + ;
}
if ( xlate64 ( lh - > sector_xl ) ! = labelsector ) {
log_print ( " CHECK: label_header.sector expected %d " , ( int ) labelsector ) ;
bad + + ;
}
crc = calc_crc ( INITIAL_CRC , ( uint8_t * ) & lh - > offset_xl ,
LABEL_SIZE - ( ( uint8_t * ) & lh - > offset_xl - ( uint8_t * ) lh ) ) ;
if ( crc ! = xlate32 ( lh - > crc_xl ) ) {
log_print ( " CHECK: label_header.crc expected 0x%x " , crc ) ;
bad + + ;
}
if ( xlate32 ( lh - > offset_xl ) ! = 32 ) {
log_print ( " CHECK: label_header.offset expected 32 " ) ;
bad + + ;
}
if ( memcmp ( lh - > type , LVM2_LABEL , sizeof ( lh - > type ) ) ) {
log_print ( " CHECK: label_header.type expected %s " , LVM2_LABEL ) ;
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good_type = 0 ;
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bad + + ;
}
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/* Report a label is found if at least id and type are correct. */
if ( found_label & & good_id & & good_type )
* found_label = 1 ;
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if ( bad )
return 0 ;
return 1 ;
}
static int _check_pv_header ( struct pv_header * ph )
{
struct id id ;
int bad = 0 ;
if ( ! id_read_format_try ( & id , ( char * ) & ph - > pv_uuid ) ) {
log_print ( " CHECK: pv_header.pv_uuid invalid format " ) ;
bad + + ;
}
if ( bad )
return 0 ;
return 1 ;
}
/*
* mda_offset / mda_size are from the pv_header / disk_locn and could
* be incorrect .
*/
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static int _check_mda_header ( struct mda_header * mh , int mda_num , uint64_t mda_offset , uint64_t mda_size , int * found_header )
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{
char str [ 256 ] ;
uint32_t crc ;
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int good_magic = 1 ;
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int bad = 0 ;
crc = calc_crc ( INITIAL_CRC , ( uint8_t * ) mh - > magic ,
MDA_HEADER_SIZE - sizeof ( mh - > checksum_xl ) ) ;
if ( crc ! = xlate32 ( mh - > checksum_xl ) ) {
log_print ( " CHECK: mda_header_%d.checksum expected 0x%x " , mda_num , crc ) ;
bad + + ;
}
if ( memcmp ( mh - > magic , FMTT_MAGIC , sizeof ( mh - > magic ) ) ) {
log_print ( " CHECK: mda_header_%d.magic expected 0x%s " , mda_num , _chars_to_hexstr ( ( void * ) & FMTT_MAGIC , str , 16 , 256 , " mda_header.magic " ) ) ;
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good_magic = 0 ;
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bad + + ;
}
if ( xlate32 ( mh - > version ) ! = FMTT_VERSION ) {
log_print ( " CHECK: mda_header_%d.version expected %u " , mda_num , FMTT_VERSION ) ;
bad + + ;
}
if ( xlate64 ( mh - > start ) ! = mda_offset ) {
log_print ( " CHECK: mda_header_%d.start does not match pv_header.disk_locn.offset %llu " , mda_num , ( unsigned long long ) mda_offset ) ;
bad + + ;
}
if ( xlate64 ( mh - > size ) ! = mda_size ) {
log_print ( " CHECK: mda_header_%d.size does not match pv_header.disk_locn.size %llu " , mda_num , ( unsigned long long ) mda_size ) ;
bad + + ;
}
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/* Report a header is found if at least magic is correct. */
if ( found_header & & good_magic )
* found_header = 1 ;
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if ( bad )
return 0 ;
return 1 ;
}
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/*
*
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* mda_offset , mda_size are from pv_header . disk_locn
* ( the location of the metadata area . )
*
* meta_offset , meta_size , meta_checksum are from mda_header . raw_locn
* ( the location of the metadata text in the metadata area . )
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*/
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static int _dump_raw_locn ( struct device * dev , int print_fields ,
struct raw_locn * rlocn , int rlocn_index , uint64_t rlocn_offset ,
int mda_num , uint64_t mda_offset , uint64_t mda_size ,
uint64_t * meta_offset_ret ,
uint64_t * meta_size_ret ,
uint32_t * meta_checksum_ret )
{
uint64_t meta_offset , meta_size ;
uint32_t meta_checksum ;
uint32_t meta_flags ;
int bad = 0 ;
int mn = mda_num ; /* 1 or 2 */
int ri = rlocn_index ; /* 0 or 1 */
int wrapped = 0 ;
meta_offset = xlate64 ( rlocn - > offset ) ;
meta_size = xlate64 ( rlocn - > size ) ;
meta_checksum = xlate32 ( rlocn - > checksum ) ;
meta_flags = xlate32 ( rlocn - > flags ) ;
if ( meta_offset + meta_size > mda_size )
wrapped = 1 ;
if ( print_fields ) {
log_print ( " mda_header_%d.raw_locn[%d] at %llu # %s%s " , mn , ri , ( unsigned long long ) rlocn_offset , ( ri = = 0 ) ? " commit " : " precommit " , wrapped ? " wrapped " : " " ) ;
log_print ( " mda_header_%d.raw_locn[%d].offset %llu " , mn , ri , ( unsigned long long ) meta_offset ) ;
log_print ( " mda_header_%d.raw_locn[%d].size %llu " , mn , ri , ( unsigned long long ) meta_size ) ;
log_print ( " mda_header_%d.raw_locn[%d].checksum 0x%x " , mn , ri , meta_checksum ) ;
if ( meta_flags & RAW_LOCN_IGNORED )
log_print ( " mda_header_%d.raw_locn[%d].flags 0x%x # RAW_LOCN_IGNORED " , mn , ri , meta_flags ) ;
else
log_print ( " mda_header_%d.raw_locn[%d].flags 0x%x " , mn , ri , meta_flags ) ;
}
/* The precommit pointer will usually be empty. */
if ( ( rlocn_index = = 1 ) & & meta_offset )
log_print ( " CHECK: mda_header_%d.raw_locn[%d] for precommit not empty " , mn , ri ) ;
/* This metadata area is not being used to hold text metadata. */
/* Old, out of date text metadata may exist if the area was once used. */
if ( meta_flags & RAW_LOCN_IGNORED )
return 1 ;
/*
* A valid meta_size can be no larger than the metadata area size minus
* the 512 bytes used by the mda_header sector .
*/
if ( meta_size > ( mda_size - 512 ) ) {
log_print ( " CHECK: mda_header_%d.raw_locn[%d].size larger than metadata area size " , mn , ri ) ;
/* If meta_size is bad, try to continue using a reasonable value */
meta_size = ( mda_size - 512 ) ;
}
if ( meta_offset_ret )
* meta_offset_ret = meta_offset ;
if ( meta_size_ret )
* meta_size_ret = meta_size ;
if ( meta_checksum_ret )
* meta_checksum_ret = meta_checksum ;
/* No text metadata exists in this metadata area. */
if ( ! meta_offset )
return 1 ;
if ( bad )
return 0 ;
return 1 ;
}
static int _dump_meta_area ( struct device * dev , const char * tofile ,
uint64_t mda_offset , uint64_t mda_size )
{
FILE * fp ;
char * meta_buf ;
if ( ! tofile )
return_0 ;
if ( ! ( meta_buf = malloc ( mda_size ) ) )
return_0 ;
memset ( meta_buf , 0 , mda_size ) ;
if ( ! dev_read_bytes ( dev , mda_offset , mda_size , meta_buf ) ) {
log_print ( " CHECK: failed to read metadata area at offset %llu size %llu " ,
( unsigned long long ) mda_offset , ( unsigned long long ) mda_size ) ;
return 0 ;
}
if ( ! ( fp = fopen ( tofile , " wx " ) ) ) {
log_error ( " Failed to create file %s " , tofile ) ;
return 0 ;
}
fwrite ( meta_buf , mda_size - 512 , 1 , fp ) ;
if ( fflush ( fp ) )
stack ;
if ( fclose ( fp ) )
stack ;
return 1 ;
}
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/*
* Search for any instance of id_str [ ] in the metadata area ,
* where the id_str indicates the start of a metadata copy
* ( which could be complete or a fragment . )
* id_str is an open brace followed by id = < uuid > .
*
* { \ n
* id = " lL7Mnk-oCGn-Bde2-9B6S-44Z7-VrHa-wvfC3v "
*
* 1 \ 23456789012345678901234567890123456789012345678
* 10 20 30 40
*/
# define ID_STR_SIZE 48
# define SEARCH_VGNAME_LEN 512
static int _dump_meta_all ( struct device * dev , const char * tofile ,
uint64_t mda_offset , uint64_t mda_size ,
uint64_t meta_offset , uint64_t meta_size ,
char * meta_buf )
{
FILE * fp = NULL ;
struct dm_config_tree * cft ;
char vgname [ SEARCH_VGNAME_LEN ] ;
char id_str [ ID_STR_SIZE ] ;
char * text_buf , * new_buf ;
char * p , * brace , * start , * buf_begin , * buf_end ;
uint64_t search_offset , start_offset ;
uint32_t brace_dist , new_len , len_a , len_b ;
uint32_t left_count , right_count ;
uint32_t seqno ;
int search_wrapped = 0 ;
int p_wrapped ;
int save_bad ;
int i ;
/*
* metadata begins :
*
* < vgname > {
* id = " <uuid> "
*
* Search the metadata buffer for each instance
* of the string :
*
* {
* id = " <uuid> "
*
* Then reverse by the length of the < vgname > + 1
* to get to the start of the metadata . The
* vgname must come from the original / current copy
* of metadata found through the mda_header pointer .
*
* From the start of the metadata , find the end of
* the metadata by searching foward until \ 0 is found .
* Metadata ends with the three bytes :
* \ n \ n \ 0 ( 0x0a0a00 )
*/
memset ( vgname , 0 , sizeof ( vgname ) ) ;
memset ( id_str , 0 , sizeof ( id_str ) ) ;
for ( i = 0 ; i < SEARCH_VGNAME_LEN ; i + + ) {
if ( meta_buf [ i ] = = ' ' )
break ;
vgname [ i ] = meta_buf [ i ] ;
}
if ( ! ( p = strchr ( meta_buf , ' { ' ) ) )
return_0 ;
for ( i = 0 ; i < ID_STR_SIZE ; i + + ) {
id_str [ i ] = * p ;
p + + ;
}
if ( ! ( text_buf = malloc ( mda_size ) ) )
return_0 ;
memset ( text_buf , 0 , mda_size ) ;
if ( ! dev_read_bytes ( dev , mda_offset , mda_size , text_buf ) ) {
log_print ( " CHECK: failed to read metadata area at offset %llu size %llu " ,
( unsigned long long ) mda_offset , ( unsigned long long ) mda_size ) ;
free ( text_buf ) ;
return 0 ;
}
search_offset = meta_offset + meta_size ;
search_next :
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if ( search_wrapped & & ( search_offset > = meta_offset + meta_size ) )
goto done ;
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if ( search_offset > mda_size ) {
if ( search_wrapped )
goto done ;
search_offset = 512 ;
search_wrapped = 1 ;
}
/*
* Search between buf_begin and buf_end for next open brace .
*/
buf_begin = text_buf + search_offset ;
buf_end = text_buf + mda_size ;
brace = NULL ;
for ( p = buf_begin ; p < buf_end ; p + + ) {
if ( * p ! = ' { ' )
continue ;
brace = p ;
break ;
}
if ( ! brace & & search_wrapped )
goto done ;
if ( ! brace ) {
search_offset = 512 ;
search_wrapped = 1 ;
goto search_next ;
}
/*
* brace_dist is the distance from the last place we
* began searching to the brace we are testing for
* metadata . If this brace is not the start of valid
* metadata , then advance brace_dist and search for
* the next brace to check .
*/
brace_dist = ( uint32_t ) ( brace - buf_begin ) ;
/*
* Found an open brace , check if it ' s the start of new metadata
* by checking if brace is followed by id = " <uuid> " .
*/
if ( memcmp ( brace , id_str , ID_STR_SIZE ) ) {
/* It's not, look for next open brace. */
search_offset + = ( brace_dist + 1 ) ;
goto search_next ;
}
/*
* This looks like a new instance of metadata , check if it ' s complete .
* The start of the metadata is the vgname preceding the open brace ,
* so step backward through the text_buf to find the start of vgname .
* There is no delimiter preceding the vgname , there can be any
* text or data in the byte immediately before vgname ( this means
* we cannot handle extracting metadata prior to a vgrename . )
*
* < vgname > {
* id = " ... "
*/
start = brace - ( strlen ( vgname ) + 1 ) ;
/* Offset from the begininng of device to the start of this metadata. */
start_offset = ( uint64_t ) ( start - text_buf ) + mda_offset ;
/*
* The end of the metadata is found by searching forward in text_buf
* until \ 0 , at which point open and close braces should match .
* This forward search may wrap around to the start of text_buf .
*
* Metadata ends with the three bytes \ n \ n \ 0 : 0 a 0 a 00
*/
p = start ;
p_wrapped = 0 ;
len_a = 0 ;
len_b = 0 ;
new_len = 0 ;
new_buf = NULL ;
left_count = 0 ;
right_count = 0 ;
save_bad = 0 ;
seqno = 0 ;
while ( 1 ) {
p + + ;
if ( p = = ( buf_end ) ) {
p = text_buf + 512 ;
p_wrapped = 1 ;
}
if ( * p = = ' { ' )
left_count + + ;
else if ( * p = = ' } ' )
right_count + + ;
else if ( * p = = ' \0 ' )
break ;
}
/* \0 should be preceded by \n\n (0x0a0a) */
if ( ( * ( p - 2 ) ! = 0x0a ) | | ( * ( p - 1 ) ! = 0x0a ) )
log_print ( " Unexpected metadata end bytes. " ) ;
if ( p_wrapped ) {
len_a = ( uint32_t ) ( buf_end - start ) ;
len_b = ( uint32_t ) ( p - ( text_buf + 512 ) ) ;
new_len = len_a + len_b ;
search_wrapped = 1 ;
} else {
new_len = ( uint32_t ) ( p - start ) ;
}
/*
* A couple simple tests indicate if this could be valid metadata
* before attempting to parse it . ( min length is probably greater
* than 256 , so this could be increased . )
*
* If this is complete but corrupt , we should save it .
* TODO : If this is a fragment we should skip it .
*/
if ( ( left_count ! = right_count ) | | ( new_len < 256 ) ) {
/*
* To skip this :
* search_offset + = ( brace_dist + 1 ) ;
* goto search_next ;
*/
log_print ( " Found incorrect metadata at %llu length %u with braces %u %u " ,
( unsigned long long ) start_offset , new_len , left_count , right_count ) ;
save_bad = 1 ;
}
/*
* Copy the potential metadata into a new buffer to parse .
*/
if ( ! ( new_buf = malloc ( new_len + 1 ) ) ) {
search_offset + = ( brace_dist + 1 ) ;
log_print ( " No memory for metadata at %llu length %u with %u sections " ,
( unsigned long long ) start_offset , new_len , right_count ) ;
goto search_next ;
}
memset ( new_buf , 0 , new_len + 1 ) ;
if ( p_wrapped ) {
memcpy ( new_buf , start , len_a ) ;
memcpy ( new_buf + len_a , text_buf + 512 , len_b ) ;
} else {
memcpy ( new_buf , start , new_len ) ;
}
if ( save_bad )
goto save ;
/*
* Check the metadata is parsable .
* If this is complete but corrupt , we should save it .
* TODO : If this is a fragment we should skip it .
*/
if ( ( cft = config_open ( CONFIG_FILE_SPECIAL , NULL , 0 ) ) ) {
if ( ! dm_config_parse ( cft , new_buf , new_buf + new_len ) ) {
/*
* To skip this :
* search_offset + = ( brace_dist + 1 ) ;
* goto search_next ;
*/
log_print ( " Found unparsable metadata at %llu length %u with %u sections " ,
( unsigned long long ) start_offset , new_len , right_count ) ;
config_destroy ( cft ) ;
goto save ;
}
if ( cft - > root & & cft - > root - > child )
dm_config_get_uint32 ( cft - > root - > child , " seqno " , & seqno ) ;
config_destroy ( cft ) ;
}
log_print ( " Found metadata at %llu length %u seqno %u with %u sections " ,
( unsigned long long ) start_offset , new_len , seqno , right_count ) ;
save :
if ( ! fp & & tofile ) {
if ( ! ( fp = fopen ( tofile , " a " ) ) ) {
log_error ( " Failed to open file %s " , tofile ) ;
goto out ;
}
}
if ( fp ) {
fprintf ( fp , " %s " , new_buf ) ;
fprintf ( fp , " \n -- \n " ) ;
}
out :
free ( new_buf ) ;
/*
* Look for another id_str instance after the metadata
* that was just finished .
*/
if ( p_wrapped )
search_offset = len_b ;
else
search_offset + = new_len ;
goto search_next ;
done :
if ( fp ) {
if ( fflush ( fp ) )
stack ;
if ( fclose ( fp ) )
stack ;
}
free ( text_buf ) ;
return 1 ;
}
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static int _dump_meta_text ( struct device * dev ,
int print_fields , int print_metadata , const char * tofile ,
int mda_num , int rlocn_index ,
uint64_t mda_offset , uint64_t mda_size ,
uint64_t meta_offset , uint64_t meta_size ,
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uint32_t meta_checksum ,
char * * meta_buf_out )
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{
char * meta_buf ;
struct dm_config_tree * cft ;
const char * vgname = NULL ;
uint32_t crc ;
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uint32_t seqno = 0 ;
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int mn = mda_num ; /* 1 or 2 */
int ri = rlocn_index ; /* 0 or 1 */
int bad = 0 ;
if ( ! ( meta_buf = malloc ( meta_size ) ) ) {
log_print ( " CHECK: mda_header_%d.raw_locn[%d] no mem for metadata text size %llu " , mn , ri ,
( unsigned long long ) meta_size ) ;
return 0 ;
}
memset ( meta_buf , 0 , meta_size ) ;
/*
* Read the metadata text specified by the raw_locn so we can
* check the raw_locn values .
*
* meta_offset is the offset from the start of the mda_header ,
* so the text location from the start of the disk is
* mda_offset + meta_offset .
*/
if ( meta_offset + meta_size > mda_size ) {
/* text metadata wraps to start of text metadata area */
uint32_t wrap = ( uint32_t ) ( ( meta_offset + meta_size ) - mda_size ) ;
off_t offset_a = mda_offset + meta_offset ;
uint32_t size_a = meta_size - wrap ;
off_t offset_b = mda_offset + 512 ; /* continues after mda_header sector */
uint32_t size_b = wrap ;
if ( ! dev_read_bytes ( dev , offset_a , size_a , meta_buf ) ) {
log_print ( " CHECK: failed to read metadata text at mda_header_%d.raw_locn[%d].offset %llu size %llu part_a %llu %llu " , mn , ri ,
( unsigned long long ) meta_offset , ( unsigned long long ) meta_size ,
( unsigned long long ) offset_a , ( unsigned long long ) size_a ) ;
return 0 ;
}
if ( ! dev_read_bytes ( dev , offset_b , size_b , meta_buf + size_a ) ) {
log_print ( " CHECK: failed to read metadata text at mda_header_%d.raw_locn[%d].offset %llu size %llu part_b %llu %llu " , mn , ri ,
( unsigned long long ) meta_offset , ( unsigned long long ) meta_size ,
( unsigned long long ) offset_b , ( unsigned long long ) size_b ) ;
return 0 ;
}
} else {
if ( ! dev_read_bytes ( dev , mda_offset + meta_offset , meta_size , meta_buf ) ) {
log_print ( " CHECK: failed to read metadata text at mda_header_%d.raw_locn[%d].offset %llu size %llu " , mn , ri ,
( unsigned long long ) meta_offset , ( unsigned long long ) meta_size ) ;
return 0 ;
}
}
crc = calc_crc ( INITIAL_CRC , ( uint8_t * ) meta_buf , meta_size ) ;
if ( crc ! = meta_checksum ) {
log_print ( " CHECK: metadata text at %llu crc does not match mda_header_%d.raw_locn[%d].checksum " ,
( unsigned long long ) ( mda_offset + meta_offset ) , mn , ri ) ;
bad + + ;
}
if ( ! ( cft = config_open ( CONFIG_FILE_SPECIAL , NULL , 0 ) ) ) {
log_print ( " CHECK: failed to set up metadata parsing " ) ;
bad + + ;
} else {
if ( ! dm_config_parse ( cft , meta_buf , meta_buf + meta_size ) ) {
log_print ( " CHECK: failed to parse metadata text at %llu size %llu " ,
( unsigned long long ) ( mda_offset + meta_offset ) ,
( unsigned long long ) meta_size ) ;
bad + + ;
} else {
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if ( cft - > root & & cft - > root - > key )
vgname = strdup ( cft - > root - > key ) ;
if ( cft - > root & & cft - > root - > child )
dm_config_get_uint32 ( cft - > root - > child , " seqno " , & seqno ) ;
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}
config_destroy ( cft ) ;
}
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if ( print_fields | | print_metadata )
log_print ( " metadata text at %llu crc 0x%x # vgname %s seqno %u " ,
( unsigned long long ) ( mda_offset + meta_offset ) , crc ,
vgname ? vgname : " ? " , seqno ) ;
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if ( ! print_metadata )
goto out ;
if ( ! tofile ) {
log_print ( " --- " ) ;
printf ( " %s \n " , meta_buf ) ;
log_print ( " --- " ) ;
} else {
FILE * fp ;
if ( ! ( fp = fopen ( tofile , " wx " ) ) ) {
log_error ( " Failed to create file %s " , tofile ) ;
goto out ;
}
fprintf ( fp , " %s " , meta_buf ) ;
if ( fflush ( fp ) )
stack ;
if ( fclose ( fp ) )
stack ;
}
out :
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* meta_buf_out = meta_buf ;
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if ( bad )
return 0 ;
return 1 ;
}
static int _dump_label_and_pv_header ( struct cmd_context * cmd , int print_fields ,
struct device * dev ,
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int * found_label ,
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uint64_t * mda1_offset , uint64_t * mda1_size ,
uint64_t * mda2_offset , uint64_t * mda2_size )
{
char str [ 256 ] ;
struct label_header * lh ;
struct pv_header * pvh ;
struct pv_header_extension * pvhe ;
struct disk_locn * dlocn ;
uint64_t lh_offset ;
uint64_t pvh_offset ;
uint64_t pvhe_offset ;
uint64_t dlocn_offset ;
char * buf ;
uint64_t labelsector ;
uint64_t tmp ;
int mda_count = 0 ;
int bad = 0 ;
int di ;
/*
* By default LVM skips the first sector ( sector 0 ) , and writes
* the label_header in the second sector ( sector 1 ) .
* ( sector size 512 bytes )
*/
if ( arg_is_set ( cmd , labelsector_ARG ) )
labelsector = arg_uint64_value ( cmd , labelsector_ARG , UINT64_C ( 0 ) ) ;
else
labelsector = 1 ;
lh_offset = labelsector * 512 ; /* from start of disk */
if ( ! ( buf = zalloc ( 512 ) ) )
return_0 ;
if ( ! dev_read_bytes ( dev , lh_offset , 512 , buf ) ) {
log_print ( " CHECK: failed to read label_header at %llu " ,
( unsigned long long ) lh_offset ) ;
return 0 ;
}
lh = ( struct label_header * ) buf ;
if ( print_fields ) {
log_print ( " label_header at %llu " , ( unsigned long long ) lh_offset ) ;
log_print ( " label_header.id %s " , _chars_to_str ( lh - > id , str , 8 , 256 , " label_header.id " ) ) ;
log_print ( " label_header.sector %llu " , ( unsigned long long ) xlate64 ( lh - > sector_xl ) ) ;
log_print ( " label_header.crc 0x%x " , xlate32 ( lh - > crc_xl ) ) ;
log_print ( " label_header.offset %u " , xlate32 ( lh - > offset_xl ) ) ;
log_print ( " label_header.type %s " , _chars_to_str ( lh - > type , str , 8 , 256 , " label_header.type " ) ) ;
}
2019-06-06 00:23:23 +03:00
if ( ! _check_label_header ( lh , labelsector , found_label ) )
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bad + + ;
/*
* The label_header is 32 bytes in size ( size of struct label_header ) .
* The pv_header should begin immediately after the label_header .
* The label_header . offset gives the offset of pv_header from the
* start of the label_header , which should always be 32.
*
* If label_header . offset is corrupted , then we should print a
* warning about the bad value , and read the pv_header from the
* correct location instead of the bogus location .
*/
pvh = ( struct pv_header * ) ( buf + 32 ) ;
pvh_offset = lh_offset + 32 ; /* from start of disk */
/* sanity check */
if ( ( void * ) pvh ! = ( void * ) ( buf + pvh_offset - lh_offset ) )
log_print ( " CHECK: problem with pv_header offset calculation " ) ;
if ( print_fields ) {
log_print ( " pv_header at %llu " , ( unsigned long long ) pvh_offset ) ;
log_print ( " pv_header.pv_uuid %s " , _chars_to_str ( pvh - > pv_uuid , str , ID_LEN , 256 , " pv_header.pv_uuid " ) ) ;
log_print ( " pv_header.device_size %llu " , ( unsigned long long ) xlate64 ( pvh - > device_size_xl ) ) ;
}
if ( ! _check_pv_header ( pvh ) )
bad + + ;
/*
* The pv_header is 40 bytes , excluding disk_locn ' s .
* disk_locn structs immediately follow the pv_header .
* Each disk_locn is 16 bytes .
*/
di = 0 ;
dlocn = pvh - > disk_areas_xl ;
dlocn_offset = pvh_offset + 40 ; /* from start of disk */
/* sanity check */
if ( ( void * ) dlocn ! = ( void * ) ( buf + dlocn_offset - lh_offset ) )
log_print ( " CHECK: problem with pv_header.disk_locn[%d] offset calculation " , di ) ;
while ( ( tmp = xlate64 ( dlocn - > offset ) ) ) {
if ( print_fields ) {
log_print ( " pv_header.disk_locn[%d] at %llu # location of data area " , di ,
( unsigned long long ) dlocn_offset ) ;
log_print ( " pv_header.disk_locn[%d].offset %llu " , di ,
( unsigned long long ) xlate64 ( dlocn - > offset ) ) ;
log_print ( " pv_header.disk_locn[%d].size %llu " , di ,
( unsigned long long ) xlate64 ( dlocn - > size ) ) ;
}
di + + ;
dlocn + + ;
dlocn_offset + = 16 ;
}
/* all-zero dlocn struct is area list end */
if ( print_fields ) {
log_print ( " pv_header.disk_locn[%d] at %llu # location list end " , di ,
( unsigned long long ) dlocn_offset ) ;
log_print ( " pv_header.disk_locn[%d].offset %llu " , di ,
( unsigned long long ) xlate64 ( dlocn - > offset ) ) ;
log_print ( " pv_header.disk_locn[%d].size %llu " , di ,
( unsigned long long ) xlate64 ( dlocn - > size ) ) ;
}
/* advance past the all-zero dlocn struct */
di + + ;
dlocn + + ;
dlocn_offset + = 16 ;
/* sanity check */
if ( ( void * ) dlocn ! = ( void * ) ( buf + dlocn_offset - lh_offset ) )
log_print ( " CHECK: problem with pv_header.disk_locn[%d] offset calculation " , di ) ;
while ( ( tmp = xlate64 ( dlocn - > offset ) ) ) {
if ( print_fields ) {
log_print ( " pv_header.disk_locn[%d] at %llu # location of metadata area " , di ,
( unsigned long long ) dlocn_offset ) ;
log_print ( " pv_header.disk_locn[%d].offset %llu " , di ,
( unsigned long long ) xlate64 ( dlocn - > offset ) ) ;
log_print ( " pv_header.disk_locn[%d].size %llu " , di ,
( unsigned long long ) xlate64 ( dlocn - > size ) ) ;
}
if ( ! mda_count ) {
* mda1_offset = xlate64 ( dlocn - > offset ) ;
* mda1_size = xlate64 ( dlocn - > size ) ;
if ( * mda1_offset ! = 4096 ) {
log_print ( " CHECK: pv_header.disk_locn[%d].offset expected 4096 # for first mda " , di ) ;
bad + + ;
}
} else {
* mda2_offset = xlate64 ( dlocn - > offset ) ;
* mda2_size = xlate64 ( dlocn - > size ) ;
/*
* No fixed location for second mda , so we have to look for
* mda_header at this offset to see if it ' s correct .
*/
}
di + + ;
dlocn + + ;
dlocn_offset + = 16 ;
mda_count + + ;
}
/* all-zero dlocn struct is area list end */
if ( print_fields ) {
log_print ( " pv_header.disk_locn[%d] at %llu # location list end " , di ,
( unsigned long long ) dlocn_offset ) ;
log_print ( " pv_header.disk_locn[%d].offset %llu " , di ,
( unsigned long long ) xlate64 ( dlocn - > offset ) ) ;
log_print ( " pv_header.disk_locn[%d].size %llu " , di ,
( unsigned long long ) xlate64 ( dlocn - > size ) ) ;
}
/* advance past the all-zero dlocn struct */
di + + ;
dlocn + + ;
dlocn_offset + = 16 ;
/*
* pv_header_extension follows the last disk_locn
* terminating struct , so it ' s not always at the
* same location .
*/
pvhe = ( struct pv_header_extension * ) dlocn ;
pvhe_offset = dlocn_offset ; /* from start of disk */
/* sanity check */
if ( ( void * ) pvhe ! = ( void * ) ( buf + pvhe_offset - lh_offset ) )
log_print ( " CHECK: problem with pv_header_extension offset calculation " ) ;
if ( print_fields ) {
log_print ( " pv_header_extension at %llu " , ( unsigned long long ) pvhe_offset ) ;
log_print ( " pv_header_extension.version %u " , xlate32 ( pvhe - > version ) ) ;
log_print ( " pv_header_extension.flags %u " , xlate32 ( pvhe - > flags ) ) ;
}
/*
* The pv_header_extension is 8 bytes , excluding disk_locn ' s .
* disk_locn structs immediately follow the pv_header_extension .
* Each disk_locn is 16 bytes .
*/
di = 0 ;
dlocn = pvhe - > bootloader_areas_xl ;
dlocn_offset = pvhe_offset + 8 ;
while ( ( tmp = xlate64 ( dlocn - > offset ) ) ) {
if ( print_fields ) {
log_print ( " pv_header_extension.disk_locn[%d] at %llu # bootloader area " , di ,
( unsigned long long ) dlocn_offset ) ;
log_print ( " pv_header_extension.disk_locn[%d].offset %llu " , di ,
( unsigned long long ) xlate64 ( dlocn - > offset ) ) ;
log_print ( " pv_header_extension.disk_locn[%d].size %llu " , di ,
( unsigned long long ) xlate64 ( dlocn - > size ) ) ;
}
di + + ;
dlocn + + ;
dlocn_offset + = 16 ;
}
/* all-zero dlocn struct is area list end */
if ( print_fields ) {
log_print ( " pv_header_extension.disk_locn[%d] at %llu # location list end " , di ,
( unsigned long long ) dlocn_offset ) ;
log_print ( " pv_header_extension.disk_locn[%d].offset %llu " , di ,
( unsigned long long ) xlate64 ( dlocn - > offset ) ) ;
log_print ( " pv_header_extension.disk_locn[%d].size %llu " , di ,
( unsigned long long ) xlate64 ( dlocn - > size ) ) ;
}
if ( bad )
return 0 ;
return 1 ;
}
/*
* mda_offset and mda_size are the location / size of the metadata area ,
* which starts with the mda_header and continues through the circular
* buffer of text .
*
* mda_offset and mda_size values come from the pv_header / disk_locn ,
* which could be incorrect .
*
* We know that the first mda_offset will always be 4096 , so we use
* that value regardless of what the first mda_offset value in the
* pv_header is .
*/
static int _dump_mda_header ( struct cmd_context * cmd ,
int print_fields , int print_metadata , int print_area ,
const char * tofile ,
struct device * dev ,
uint64_t mda_offset , uint64_t mda_size ,
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uint32_t * checksum0_ret ,
int * found_header )
2019-05-31 22:10:44 +03:00
{
char str [ 256 ] ;
char * buf ;
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char * meta_buf = NULL ;
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struct mda_header * mh ;
struct raw_locn * rlocn0 , * rlocn1 ;
uint64_t rlocn0_offset , rlocn1_offset ;
uint64_t meta_offset = 0 ;
uint64_t meta_size = 0 ;
uint32_t meta_checksum = 0 ;
int mda_num = ( mda_offset = = 4096 ) ? 1 : 2 ;
int bad = 0 ;
* checksum0_ret = 0 ; /* checksum from raw_locn[0] */
if ( ! ( buf = zalloc ( 512 ) ) )
return_0 ;
/*
* The first mda_header is 4096 bytes from the start
* of the device . Each mda_header is 512 bytes .
*
* The start / size values in the mda_header should
* match the mda_offset / mda_size values that came
* from the pv_header / disk_locn .
*
* ( Why was mda_header magic made only partially printable ? )
*/
if ( ! dev_read_bytes ( dev , mda_offset , 512 , buf ) ) {
log_print ( " CHECK: failed to read mda_header at %llu " , ( unsigned long long ) mda_offset ) ;
return 0 ;
}
mh = ( struct mda_header * ) buf ;
if ( print_fields ) {
log_print ( " mda_header_%d at %llu # metadata area " , mda_num , ( unsigned long long ) mda_offset ) ;
log_print ( " mda_header_%d.checksum 0x%x " , mda_num , xlate32 ( mh - > checksum_xl ) ) ;
log_print ( " mda_header_%d.magic 0x%s " , mda_num , _chars_to_hexstr ( mh - > magic , str , 16 , 256 , " mda_header.magic " ) ) ;
log_print ( " mda_header_%d.version %u " , mda_num , xlate32 ( mh - > version ) ) ;
log_print ( " mda_header_%d.start %llu " , mda_num , ( unsigned long long ) xlate64 ( mh - > start ) ) ;
log_print ( " mda_header_%d.size %llu " , mda_num , ( unsigned long long ) xlate64 ( mh - > size ) ) ;
}
2019-06-06 00:23:23 +03:00
if ( ! _check_mda_header ( mh , mda_num , mda_offset , mda_size , found_header ) )
2019-05-31 22:10:44 +03:00
bad + + ;
if ( print_area ) {
if ( ! _dump_meta_area ( dev , tofile , mda_offset , mda_size ) )
bad + + ;
goto out ;
}
/*
* mda_header is 40 bytes , the raw_locn structs
* follow immediately after , each raw_locn struct
* is 24 bytes .
*/
rlocn0 = mh - > raw_locns ;
rlocn0_offset = mda_offset + 40 ; /* from start of disk */
/* sanity check */
if ( ( void * ) rlocn0 ! = ( void * ) ( buf + rlocn0_offset - mda_offset ) )
log_print ( " CHECK: problem with rlocn0 offset calculation " ) ;
meta_offset = 0 ;
meta_size = 0 ;
meta_checksum = 0 ;
if ( ! _dump_raw_locn ( dev , print_fields , rlocn0 , 0 , rlocn0_offset , mda_num , mda_offset , mda_size ,
& meta_offset , & meta_size , & meta_checksum ) )
bad + + ;
* checksum0_ret = meta_checksum ;
rlocn1 = ( struct raw_locn * ) ( ( char * ) mh - > raw_locns + 24 ) ;
rlocn1_offset = rlocn0_offset + 24 ;
/* sanity check */
if ( ( void * ) rlocn1 ! = ( void * ) ( buf + rlocn1_offset - mda_offset ) )
log_print ( " CHECK: problem with rlocn1 offset calculation " ) ;
if ( ! _dump_raw_locn ( dev , print_fields , rlocn1 , 1 , rlocn1_offset , mda_num , mda_offset , mda_size ,
NULL , NULL , NULL ) )
bad + + ;
if ( ! meta_offset )
goto out ;
2019-06-05 19:10:37 +03:00
/*
* looking at the current copy of metadata referenced by raw_locn
*/
if ( print_metadata < 2 ) {
if ( ! _dump_meta_text ( dev , print_fields , print_metadata , tofile , mda_num , 0 , mda_offset , mda_size , meta_offset , meta_size , meta_checksum , & meta_buf ) )
bad + + ;
}
/*
* looking at all copies of the metadata in the area
*/
if ( print_metadata = = 2 ) {
if ( ! _dump_meta_text ( dev , 0 , 0 , NULL , mda_num , 0 , mda_offset , mda_size , meta_offset , meta_size , meta_checksum , & meta_buf ) )
bad + + ;
if ( ! _dump_meta_all ( dev , tofile , mda_offset , mda_size , meta_offset , meta_size , meta_buf ) )
bad + + ;
}
2019-05-31 22:10:44 +03:00
/* Should we also check text metadata if it exists in rlocn1? */
out :
if ( bad )
return 0 ;
return 1 ;
}
static int _dump_headers ( struct cmd_context * cmd ,
int argc , char * * argv )
{
struct device * dev ;
const char * pv_name ;
uint64_t mda1_offset = 0 , mda1_size = 0 , mda2_offset = 0 , mda2_size = 0 ;
uint32_t mda1_checksum , mda2_checksum ;
int bad = 0 ;
pv_name = argv [ 0 ] ;
if ( ! ( dev = dev_cache_get ( cmd , pv_name , cmd - > filter ) ) ) {
log_error ( " No device found for %s %s. " , pv_name , dev_cache_filtered_reason ( pv_name ) ) ;
return ECMD_FAILED ;
}
label_scan_setup_bcache ( ) ;
2019-06-06 00:23:23 +03:00
if ( ! _dump_label_and_pv_header ( cmd , 1 , dev , NULL ,
2019-05-31 22:10:44 +03:00
& mda1_offset , & mda1_size , & mda2_offset , & mda2_size ) )
bad + + ;
/* N.B. mda1_size and mda2_size may be different */
/*
* The first mda is always 4096 bytes from the start of the device .
*
* TODO : A second mda may not exist . If the pv_header says there
* is no second mda , we may still want to check for a second mda
* in case it ' s the pv_header that is wrong . Try looking for
* an mda_header at 1 MB prior to the end of the device , if
* mda2_offset is 0 or if we don ' t find an mda_header at mda2_offset
* which may have been corrupted .
*/
2019-06-06 00:23:23 +03:00
if ( ! _dump_mda_header ( cmd , 1 , 0 , 0 , NULL , dev , 4096 , mda1_size , & mda1_checksum , NULL ) )
2019-05-31 22:10:44 +03:00
bad + + ;
/*
* mda2_offset may be incorrect . Probe for a valid mda_header at
* mda2_offset and at other possible / expected locations , e . g .
* 1 MB before end of device . Call dump_mda_header with a different
* offset than mda2_offset if there ' s no valid header at mda2_offset
* but there is a valid header elsewhere .
*/
if ( mda2_offset ) {
2019-06-06 00:23:23 +03:00
if ( ! _dump_mda_header ( cmd , 1 , 0 , 0 , NULL , dev , mda2_offset , mda2_size , & mda2_checksum , NULL ) )
2019-05-31 22:10:44 +03:00
bad + + ;
/* This probably indicates that one was committed and the other not. */
if ( mda1_checksum & & mda2_checksum & & ( mda1_checksum ! = mda2_checksum ) )
log_print ( " CHECK: mdas have different raw_locn[0].checksum values " ) ;
}
if ( bad ) {
log_error ( " Found bad header or metadata values. " ) ;
return ECMD_FAILED ;
}
return ECMD_PROCESSED ;
}
static int _dump_metadata ( struct cmd_context * cmd ,
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int argc , char * * argv ,
int print_metadata , int print_area )
2019-05-22 22:25:08 +03:00
{
struct device * dev ;
const char * pv_name ;
const char * tofile = NULL ;
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uint64_t mda1_offset = 0 , mda1_size = 0 , mda2_offset = 0 , mda2_size = 0 ;
uint32_t mda1_checksum , mda2_checksum ;
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int mda_num = 1 ;
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int bad = 0 ;
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if ( arg_is_set ( cmd , file_ARG ) ) {
if ( ! ( tofile = arg_str_value ( cmd , file_ARG , NULL ) ) )
return ECMD_FAILED ;
}
/* 1: dump metadata from first mda, 2: dump metadata from second mda */
if ( arg_is_set ( cmd , pvmetadatacopies_ARG ) )
mda_num = arg_int_value ( cmd , pvmetadatacopies_ARG , 1 ) ;
pv_name = argv [ 0 ] ;
if ( ! ( dev = dev_cache_get ( cmd , pv_name , cmd - > filter ) ) ) {
log_error ( " No device found for %s %s. " , pv_name , dev_cache_filtered_reason ( pv_name ) ) ;
return ECMD_FAILED ;
}
label_scan_setup_bcache ( ) ;
2019-06-06 00:23:23 +03:00
if ( ! _dump_label_and_pv_header ( cmd , 0 , dev , NULL ,
2019-05-31 22:10:44 +03:00
& mda1_offset , & mda1_size , & mda2_offset , & mda2_size ) )
bad + + ;
2019-05-22 22:25:08 +03:00
2019-05-31 22:10:44 +03:00
/*
* The first mda is always 4096 bytes from the start of the device .
*
* TODO : A second mda may not exist . If the pv_header says there
* is no second mda , we may still want to check for a second mda
* in case it ' s the pv_header that is wrong . Try looking for
* an mda_header at 1 MB prior to the end of the device , if
* mda2_offset is 0 or if we don ' t find an mda_header at mda2_offset
* which may have been corrupted .
*
* mda2_offset may be incorrect . Probe for a valid mda_header at
* mda2_offset and at other possible / expected locations , e . g .
* 1 MB before end of device . Call dump_mda_header with a different
* offset than mda2_offset if there ' s no valid header at mda2_offset
* but there is a valid header elsewhere .
*/
2019-05-22 22:25:08 +03:00
2019-05-31 22:10:44 +03:00
if ( mda_num = = 1 ) {
2019-06-06 00:23:23 +03:00
if ( ! _dump_mda_header ( cmd , 0 , print_metadata , print_area , tofile , dev , 4096 , mda1_size , & mda1_checksum , NULL ) )
2019-05-31 22:10:44 +03:00
bad + + ;
} else if ( mda_num = = 2 ) {
if ( ! mda2_offset ) {
log_print ( " CHECK: second mda not found " ) ;
bad + + ;
} else {
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if ( ! _dump_mda_header ( cmd , 0 , print_metadata , print_area , tofile , dev , mda2_offset , mda2_size , & mda2_checksum , NULL ) )
2019-05-31 22:10:44 +03:00
bad + + ;
}
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}
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if ( bad ) {
log_error ( " Found bad header or metadata values. " ) ;
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return ECMD_FAILED ;
2019-05-31 22:10:44 +03:00
}
2019-05-22 22:25:08 +03:00
return ECMD_PROCESSED ;
}
2007-03-31 01:00:26 +04:00
2019-06-06 00:23:23 +03:00
static int _dump_found ( struct cmd_context * cmd , struct device * dev ,
uint64_t labelsector )
{
uint64_t mda1_offset = 0 , mda1_size = 0 , mda2_offset = 0 , mda2_size = 0 ;
uint32_t mda1_checksum = 0 , mda2_checksum = 0 ;
int found_label = 0 , found_header1 = 0 , found_header2 = 0 ;
int bad = 0 ;
if ( ! _dump_label_and_pv_header ( cmd , 0 , dev , & found_label ,
& mda1_offset , & mda1_size , & mda2_offset , & mda2_size ) )
bad + + ;
if ( found_label & & mda1_offset ) {
if ( ! _dump_mda_header ( cmd , 0 , 0 , 0 , NULL , dev , 4096 , mda1_size , & mda1_checksum , & found_header1 ) )
bad + + ;
}
if ( found_label & & mda2_offset ) {
if ( ! _dump_mda_header ( cmd , 0 , 0 , 0 , NULL , dev , mda2_offset , mda2_size , & mda2_checksum , & found_header2 ) )
bad + + ;
}
if ( found_label )
log_print ( " Found label on %s, sector %llu, type=LVM2 001 " ,
dev_name ( dev ) , ( unsigned long long ) labelsector ) ;
else {
log_error ( " Could not find LVM label on %s " , dev_name ( dev ) ) ;
return 0 ;
}
if ( found_header1 )
log_print ( " Found text metadata area: offset=%llu, size=%llu " ,
( unsigned long long ) mda1_offset ,
( unsigned long long ) mda1_size ) ;
if ( found_header2 )
log_print ( " Found text metadata area: offset=%llu, size=%llu " ,
( unsigned long long ) mda2_offset ,
( unsigned long long ) mda2_size ) ;
if ( bad )
return 0 ;
return 1 ;
}
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int pvck ( struct cmd_context * cmd , int argc , char * * argv )
{
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struct device * dev ;
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const char * dump ;
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const char * pv_name ;
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uint64_t labelsector = 1 ;
int bad = 0 ;
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int i ;
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if ( arg_is_set ( cmd , dump_ARG ) ) {
dump = arg_str_value ( cmd , dump_ARG , NULL ) ;
if ( ! strcmp ( dump , " metadata " ) )
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return _dump_metadata ( cmd , argc , argv , 1 , 0 ) ;
if ( ! strcmp ( dump , " metadata_all " ) )
return _dump_metadata ( cmd , argc , argv , 2 , 0 ) ;
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if ( ! strcmp ( dump , " metadata_area " ) )
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return _dump_metadata ( cmd , argc , argv , 0 , 1 ) ;
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if ( ! strcmp ( dump , " headers " ) )
return _dump_headers ( cmd , argc , argv ) ;
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log_error ( " Unknown dump value. " ) ;
return ECMD_FAILED ;
}
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/*
* The old / original form of pvck , which did not do much ,
* but this is here to preserve the historical output .
*/
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if ( arg_is_set ( cmd , labelsector_ARG ) )
labelsector = arg_uint64_value ( cmd , labelsector_ARG , UINT64_C ( 0 ) ) ;
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label_scan_setup_bcache ( ) ;
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for ( i = 0 ; i < argc ; i + + ) {
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pv_name = argv [ i ] ;
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if ( ! ( dev = dev_cache_get ( cmd , argv [ i ] , cmd - > filter ) ) ) {
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log_error ( " Device %s %s. " , pv_name , dev_cache_filtered_reason ( pv_name ) ) ;
continue ;
}
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if ( ! _dump_found ( cmd , dev , labelsector ) )
bad + + ;
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}
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if ( bad )
return ECMD_FAILED ;
return ECMD_PROCESSED ;
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}