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//
// LP_scan.c
// marketmaker
//
int32_t LP_blockinit ( struct iguana_info * coin , int32_t height )
{
int32_t i , iter , numtx , checkht = - 1 ; cJSON * blockobj , * txs ; bits256 txid ; struct LP_transaction * tx ;
if ( ( blockobj = LP_blockjson ( & checkht , coin - > symbol , 0 , height ) ) ! = 0 & & checkht = = height )
{
if ( ( txs = jarray ( & numtx , blockobj , " tx " ) ) ! = 0 )
{
for ( iter = 0 ; iter < 2 ; iter + + )
{
for ( i = 0 ; i < numtx ; i + + )
{
txid = jbits256i ( txs , i ) ;
if ( ( tx = LP_transactionfind ( coin , txid ) ) ! = 0 )
{
if ( tx - > height = = 0 )
tx - > height = height ;
else if ( tx - > height ! = height )
{
printf ( " LP_blockinit: tx->height %d != %d \n " , tx - > height , height ) ;
tx - > height = height ;
}
if ( iter = = 1 )
LP_transactioninit ( coin , txid , iter , 0 ) ;
} else LP_transactioninit ( coin , txid , iter , 0 ) ;
}
}
}
free_json ( blockobj ) ;
}
if ( checkht = = height )
return ( 0 ) ;
else return ( - 1 ) ;
}
int32_t LP_scanblockchain ( struct iguana_info * coin , int32_t startheight , int32_t endheight )
{
int32_t ht , n = 0 ;
for ( ht = startheight ; ht < = endheight ; ht + + )
{
if ( LP_blockinit ( coin , ht ) < 0 )
{
printf ( " error loading block.%d of (%d, %d) \n " , ht , startheight , endheight ) ;
return ( ht - 1 ) ;
}
n + + ;
if ( ( n % 1000 ) = = 0 )
fprintf ( stderr , " %.1f%% " , 100. * ( double ) n / ( endheight - startheight + 1 ) ) ;
}
return ( endheight ) ;
}
char * banned_txids [ ] =
{
" 78cb4e21245c26b015b888b14c4f5096e18137d2741a6de9734d62b07014dfca " , //233559
" 00697be658e05561febdee1aafe368b821ca33fbb89b7027365e3d77b5dfede5 " , //234172
" e909465788b32047c472d73e882d79a92b0d550f90be008f76e1edaee6d742ea " , //234187
" f56c6873748a327d0b92b8108f8ec8505a2843a541b1926022883678fb24f9dc " , //234188
" abf08be07d8f5b3a433ddcca7ef539e79a3571632efd6d0294ec0492442a0204 " , //234213
" 3b854b996cc982fba8c06e76cf507ae7eed52ab92663f4c0d7d10b3ed879c3b0 " , //234367
" fa9e474c2cda3cb4127881a40eb3f682feaba3f3328307d518589024a6032cc4 " , //234635
" ca746fa13e0113c4c0969937ea2c66de036d20274efad4ce114f6b699f1bc0f3 " , //234662
" 43ce88438de4973f21b1388ffe66e68fda592da38c6ef939be10bb1b86387041 " , //234697
" 0aeb748de82f209cd5ff7d3a06f65543904c4c17387c9d87c65fd44b14ad8f8c " , //234899
" bbd3a3d9b14730991e1066bd7c626ca270acac4127131afe25f877a5a886eb25 " , //235252
" fa9943525f2e6c32cbc243294b08187e314d83a2870830180380c3c12a9fd33c " , //235253
" a01671c8775328a41304e31a6693bbd35e9acbab28ab117f729eaba9cb769461 " , //235265
" 2ef49d2d27946ad7c5d5e4ab5c089696762ff04e855f8ab48e83bdf0cc68726d " , //235295
" c85dcffb16d5a45bd239021ad33443414d60224760f11d535ae2063e5709efee " , //235296
// all vouts banned
" c4ea1462c207547cd6fb6a4155ca6d042b22170d29801a465db5c09fec55b19d " , //246748
" 305dc96d8bc23a69d3db955e03a6a87c1832673470c32fe25473a46cc473c7d1 " , //247204
} ;
int32_t komodo_bannedset ( int32_t * indallvoutsp , bits256 * array , int32_t max )
{
int32_t i ;
if ( sizeof ( banned_txids ) / sizeof ( * banned_txids ) > max )
{
fprintf ( stderr , " komodo_bannedset: buffer too small %ld vs %d \n " , ( long ) sizeof ( banned_txids ) / sizeof ( * banned_txids ) , max ) ;
exit ( - 1 ) ;
}
for ( i = 0 ; i < sizeof ( banned_txids ) / sizeof ( * banned_txids ) ; i + + )
decode_hex ( array [ i ] . bytes , sizeof ( array [ i ] ) , banned_txids [ i ] ) ;
* indallvoutsp = i - 2 ;
return ( i ) ;
}
int sort_balance ( void * a , void * b )
{
int64_t aval , bval ;
/* compare a to b (cast a and b appropriately)
* return ( int ) - 1 if ( a < b )
* return ( int ) 0 if ( a = = b )
* return ( int ) 1 if ( a > b )
*/
aval = ( ( struct LP_address * ) a ) - > balance ;
bval = ( ( struct LP_address * ) b ) - > balance ;
//printf("%.8f vs %.8f -> %d\n",dstr(aval),dstr(bval),(int32_t)(bval - aval));
return ( ( aval = = bval ) ? 0 : ( ( aval < bval ) ? 1 : - 1 ) ) ;
}
// a primitive restore can be done by loading the previous snapshot and creating a virtual tx for all the balance at height-1. this wont allow anything but new snapshots, but for many use cases that is all that is needed
cJSON * LP_snapshot ( struct iguana_info * coin , int32_t height )
{
static bits256 bannedarray [ 64 ] ; static int32_t numbanned , indallvouts , maxsnapht ; static char lastcoin [ 16 ] ;
struct LP_transaction * tx , * tmp ; struct LP_address * ap , * atmp ; int32_t isKMD , i , j , n , skipflag = 0 , startht , endht , ht ; uint64_t banned_balance = 0 , balance = 0 , noaddr_balance = 0 ; cJSON * retjson , * array , * item ;
if ( bannedarray [ 0 ] . txid = = 0 )
numbanned = komodo_bannedset ( & indallvouts , bannedarray , ( int32_t ) ( sizeof ( bannedarray ) / sizeof ( * bannedarray ) ) ) ;
startht = 1 ;
endht = height - 1 ;
if ( strcmp ( coin - > symbol , lastcoin ) = = 0 )
{
if ( maxsnapht > height )
skipflag = 1 ;
else startht = maxsnapht + 1 ;
}
else
{
maxsnapht = 0 ;
strcpy ( lastcoin , coin - > symbol ) ;
}
retjson = cJSON_CreateObject ( ) ;
if ( skipflag = = 0 & & startht < endht )
{
if ( ( ht = LP_scanblockchain ( coin , startht , endht ) ) < endht )
{
if ( ht > maxsnapht )
{
maxsnapht = ht ;
printf ( " maxsnapht.%d for %s \n " , maxsnapht , coin - > symbol ) ;
}
sleep ( 10 ) ;
if ( ( ht = LP_scanblockchain ( coin , maxsnapht + 1 , endht ) ) < endht )
{
if ( ht > maxsnapht )
{
maxsnapht = ht ;
printf ( " maxsnapht.%d for %s \n " , maxsnapht , coin - > symbol ) ;
}
jaddstr ( retjson , " error " , " blockchain scan error " ) ;
return ( retjson ) ;
}
}
if ( ht > maxsnapht )
{
maxsnapht = ht ;
printf ( " maxsnapht.%d for %s \n " , maxsnapht , coin - > symbol ) ;
}
}
portable_mutex_lock ( & coin - > txmutex ) ;
portable_mutex_lock ( & coin - > addrmutex ) ;
HASH_ITER ( hh , coin - > addresses , ap , atmp )
{
ap - > balance = 0 ;
}
isKMD = ( strcmp ( coin - > symbol , " KMD " ) = = 0 ) ? 1 : 0 ;
HASH_ITER ( hh , coin - > transactions , tx , tmp )
{
if ( tx - > height < height )
{
if ( isKMD ! = 0 )
{
for ( j = 0 ; j < numbanned ; j + + )
if ( bits256_cmp ( bannedarray [ j ] , tx - > txid ) = = 0 )
break ;
if ( j < numbanned )
{
for ( i = 0 ; i < tx - > numvouts ; i + + )
banned_balance + = tx - > outpoints [ i ] . value ;
//char str[256]; printf("skip banned %s bannedtotal: %.8f\n",bits256_str(str,tx->txid),dstr(banned_balance));
continue ;
}
}
for ( i = 0 ; i < tx - > numvouts ; i + + )
{
if ( ( ht = tx - > outpoints [ i ] . spendheight ) > 0 & & ht < height )
continue ;
if ( tx - > outpoints [ i ] . coinaddr [ 0 ] ! = 0 & & ( ap = _LP_address ( coin , tx - > outpoints [ i ] . coinaddr ) ) ! = 0 )
{
balance + = tx - > outpoints [ i ] . value ;
ap - > balance + = tx - > outpoints [ i ] . value ;
//printf("(%s/%s) %.8f %.8f\n",tx->outpoints[i].coinaddr,ap->coinaddr,dstr(tx->outpoints[i].value),dstr(ap->balance));
} else noaddr_balance + = tx - > outpoints [ i ] . value ;
}
}
}
HASH_SORT ( coin - > addresses , sort_balance ) ;
portable_mutex_unlock ( & coin - > addrmutex ) ;
portable_mutex_unlock ( & coin - > txmutex ) ;
printf ( " %s balance %.8f at height.%d \n " , coin - > symbol , dstr ( balance ) , height ) ;
array = cJSON_CreateArray ( ) ;
n = 0 ;
HASH_ITER ( hh , coin - > addresses , ap , atmp )
{
if ( ap - > balance ! = 0 )
{
item = cJSON_CreateObject ( ) ;
jaddnum ( item , ap - > coinaddr , dstr ( ap - > balance ) ) ;
jaddi ( array , item ) ;
n + + ;
}
}
jadd ( retjson , " balances " , array ) ;
jaddstr ( retjson , " coin " , coin - > symbol ) ;
jaddnum ( retjson , " height " , height ) ;
jaddnum ( retjson , " numaddresses " , n ) ;
jaddnum ( retjson , " total " , dstr ( balance ) ) ;
jaddnum ( retjson , " noaddr_total " , dstr ( noaddr_balance ) ) ;
return ( retjson ) ;
}
char * LP_snapshot_balance ( struct iguana_info * coin , int32_t height , cJSON * argjson )
{
cJSON * snapjson , * retjson , * balances , * array , * addrs , * child , * item , * item2 ; char * coinaddr , * refaddr ; int32_t i , n , j , m ; uint64_t total = 0 , value , balance = 0 ;
retjson = cJSON_CreateObject ( ) ;
array = cJSON_CreateArray ( ) ;
if ( ( snapjson = LP_snapshot ( coin , height ) ) ! = 0 )
{
total = jdouble ( snapjson , " total " ) * SATOSHIDEN ;
if ( ( addrs = jarray ( & m , argjson , " addresses " ) ) ! = 0 )
{
if ( ( balances = jarray ( & n , snapjson , " balances " ) ) ! = 0 )
{
for ( i = 0 ; i < n ; i + + )
{
item = jitem ( balances , i ) ;
if ( ( child = item - > child ) ! = 0 )
{
value = ( uint64_t ) ( child - > valuedouble * SATOSHIDEN ) ;
if ( ( refaddr = get_cJSON_fieldname ( child ) ) ! = 0 )
{
//printf("check %s %.8f against %d\n",refaddr,dstr(value),m);
for ( j = 0 ; j < m ; j + + )
{
if ( ( coinaddr = jstri ( addrs , j ) ) ! = 0 )
{
if ( strcmp ( coinaddr , refaddr ) = = 0 )
{
item2 = cJSON_CreateObject ( ) ;
jaddnum ( item2 , coinaddr , dstr ( value ) ) ;
jaddi ( array , item2 ) ;
balance + = value ;
break ;
}
}
}
}
}
}
}
}
free_json ( snapjson ) ;
}
jadd ( retjson , " balances " , array ) ;
jaddstr ( retjson , " coin " , coin - > symbol ) ;
jaddnum ( retjson , " height " , height ) ;
jaddnum ( retjson , " balance " , dstr ( balance ) ) ;
jaddnum ( retjson , " total " , dstr ( total ) ) ;
return ( jprint ( retjson , 1 ) ) ;
}
char * LP_dividends ( struct iguana_info * coin , int32_t height , cJSON * argjson )
{
cJSON * array , * retjson , * item , * child , * exclude = 0 ; int32_t i , j , emitted = 0 , dusted = 0 , n , execflag = 0 , flag , iter , numexcluded = 0 ; char buf [ 1024 ] , * field , * prefix = " " , * suffix = " " ; uint64_t dustsum = 0 , excluded = 0 , total = 0 , dividend = 0 , value , val , emit = 0 , dust = 0 ; double ratio = 1. ;
if ( ( retjson = LP_snapshot ( coin , height ) ) ! = 0 )
{
//printf("SNAPSHOT.(%s)\n",retstr);
if ( ( array = jarray ( & n , retjson , " balances " ) ) ! = 0 )
{
if ( ( n = cJSON_GetArraySize ( array ) ) ! = 0 )
{
if ( argjson ! = 0 )
{
exclude = jarray ( & numexcluded , argjson , " exclude " ) ;
dust = ( uint64_t ) ( jdouble ( argjson , " dust " ) * SATOSHIDEN ) ;
dividend = ( uint64_t ) ( jdouble ( argjson , " dividend " ) * SATOSHIDEN ) ;
if ( jstr ( argjson , " prefix " ) ! = 0 )
prefix = jstr ( argjson , " prefix " ) ;
if ( jstr ( argjson , " suffix " ) ! = 0 )
suffix = jstr ( argjson , " suffix " ) ;
execflag = jint ( argjson , " system " ) ;
}
for ( iter = 0 ; iter < 2 ; iter + + )
{
for ( i = 0 ; i < n ; i + + )
{
flag = 0 ;
item = jitem ( array , i ) ;
if ( ( child = item - > child ) ! = 0 )
{
value = ( uint64_t ) ( child - > valuedouble * SATOSHIDEN ) ;
if ( ( field = get_cJSON_fieldname ( child ) ) ! = 0 )
{
for ( j = 0 ; j < numexcluded ; j + + )
if ( strcmp ( field , jstri ( exclude , j ) ) = = 0 )
{
flag = 1 ;
break ;
}
}
//printf("(%s %s %.8f) ",jprint(item,0),field,dstr(value));
if ( iter = = 0 )
{
if ( flag ! = 0 )
excluded + = value ;
else total + = value ;
}
else
{
if ( flag = = 0 )
{
val = ratio * value ;
if ( val > = dust )
{
sprintf ( buf , " %s %s %.8f %s " , prefix , field , dstr ( val ) , suffix ) ;
if ( execflag ! = 0 )
{
if ( system ( buf ) ! = 0 )
printf ( " error system.(%s) \n " , buf ) ;
}
else printf ( " %s \n " , buf ) ;
emit + = val ;
emitted + + ;
} else dustsum + = val , dusted + + ;
}
}
}
}
if ( iter = = 0 )
{
if ( total > 0 )
{
if ( dividend = = 0 )
dividend = total ;
ratio = ( double ) dividend / total ;
} else break ;
}
}
}
}
free_json ( retjson ) ;
retjson = cJSON_CreateObject ( ) ;
jaddstr ( retjson , " coin " , coin - > symbol ) ;
jaddnum ( retjson , " height " , height ) ;
jaddnum ( retjson , " total " , dstr ( total ) ) ;
jaddnum ( retjson , " emitted " , emitted ) ;
jaddnum ( retjson , " excluded " , dstr ( excluded ) ) ;
if ( dust ! = 0 )
{
jaddnum ( retjson , " dust " , dstr ( dust ) ) ;
jaddnum ( retjson , " dusted " , dusted ) ;
}
if ( dustsum ! = 0 )
jaddnum ( retjson , " dustsum " , dstr ( dustsum ) ) ;
jaddnum ( retjson , " dividend " , dstr ( dividend ) ) ;
jaddnum ( retjson , " dividends " , dstr ( emit ) ) ;
jaddnum ( retjson , " ratio " , ratio ) ;
if ( execflag ! = 0 )
jaddnum ( retjson , " system " , execflag ) ;
/*if ( prefix[0] != 0 )
jaddstr ( retjson , " prefix " , prefix ) ;
if ( suffix [ 0 ] ! = 0 )
jaddstr ( retjson , " suffix " , suffix ) ; */
return ( jprint ( retjson , 1 ) ) ;
}
return ( clonestr ( " { \" error \" : \" symbol not found \" } " ) ) ;
}
int32_t LP_spendsearch ( bits256 * spendtxidp , int32_t * indp , char * symbol , bits256 searchtxid , int32_t searchvout )
{
struct LP_transaction * tx ; struct iguana_info * coin ;
* indp = - 1 ;
if ( ( coin = LP_coinfind ( symbol ) ) = = 0 | | coin - > inactive ! = 0 )
return ( - 1 ) ;
memset ( spendtxidp , 0 , sizeof ( * spendtxidp ) ) ;
if ( ( tx = LP_transactionfind ( coin , searchtxid ) ) ! = 0 )
{
if ( searchvout < tx - > numvouts & & tx - > outpoints [ searchvout ] . spendvini > = 0 )
{
* spendtxidp = tx - > outpoints [ searchvout ] . spendtxid ;
* indp = tx - > outpoints [ searchvout ] . spendvini ;
return ( tx - > outpoints [ searchvout ] . spendheight ) ;
}
}
return ( - 1 ) ;
}
int32_t LP_mempoolscan ( char * symbol , bits256 searchtxid )
{
int32_t i , n ; cJSON * array ; bits256 txid ; struct iguana_info * coin ; struct LP_transaction * tx ;
if ( ( coin = LP_coinfind ( symbol ) ) = = 0 | | coin - > inactive ! = 0 | | coin - > electrum ! = 0 )
return ( - 1 ) ;
if ( ( array = LP_getmempool ( symbol , 0 ) ) ! = 0 )
{
if ( is_cJSON_Array ( array ) ! = 0 & & ( n = cJSON_GetArraySize ( array ) ) > 0 )
{
for ( i = 0 ; i < n ; i + + )
{
txid = jbits256i ( array , i ) ;
if ( ( tx = LP_transactionfind ( coin , txid ) ) = = 0 )
{
LP_transactioninit ( coin , txid , 0 , 0 ) ;
LP_transactioninit ( coin , txid , 1 , 0 ) ;
}
if ( bits256_cmp ( txid , searchtxid ) = = 0 )
{
char str [ 65 ] ; printf ( " found %s tx.(%s) in mempool slot.%d \n " , symbol , bits256_str ( str , txid ) , i ) ;
return ( i ) ;
}
}
}
free_json ( array ) ;
}
return ( - 1 ) ;
}
int32_t LP_waitmempool ( char * symbol , char * coinaddr , bits256 txid , int32_t duration )
{
struct iguana_info * coin ; struct LP_transaction * tx ; cJSON * array , * item ; uint32_t expiration , i , n ;
if ( ( coin = LP_coinfind ( symbol ) ) = = 0 | | coin - > inactive ! = 0 )
return ( - 1 ) ;
expiration = ( uint32_t ) time ( NULL ) + duration ;
while ( 1 )
{
if ( coin - > electrum = = 0 )
{
if ( LP_mempoolscan ( symbol , txid ) > = 0 )
return ( 0 ) ;
}
else
{
if ( ( tx = LP_transactionfind ( coin , txid ) ) ! = 0 & & tx - > height > = 0 )
{
char str [ 65 ] ; printf ( " LP_waitmempool found %s %s \n " , symbol , bits256_str ( str , txid ) ) ;
return ( tx - > height ) ;
}
if ( ( array = electrum_address_getmempool ( symbol , coin - > electrum , & array , coinaddr ) ) ! = 0 )
{
if ( ( n = cJSON_GetArraySize ( array ) ) > 0 )
{
for ( i = 0 ; i < n ; i + + )
{
item = jitem ( array , i ) ;
if ( bits256_cmp ( txid , jbits256 ( item , " tx_hash " ) ) = = 0 )
{
free ( array ) ;
char str [ 65 ] ; printf ( " found %s %s in mempool \n " , symbol , bits256_str ( str , txid ) ) ;
return ( 0 ) ;
}
}
}
free ( array ) ;
}
}
if ( time ( NULL ) < expiration )
break ;
usleep ( 500000 ) ;
}
return ( - 1 ) ;
}
int32_t LP_mempool_vinscan ( bits256 * spendtxidp , int32_t * spendvinp , char * symbol , char * coinaddr , bits256 searchtxid , int32_t searchvout , bits256 searchtxid2 , int32_t searchvout2 )
{
struct iguana_info * coin ; int32_t selector ; cJSON * array ;
if ( symbol = = 0 | | symbol [ 0 ] = = 0 | | bits256_nonz ( searchtxid ) = = 0 | | bits256_nonz ( searchtxid2 ) = = 0 )
return ( - 1 ) ;
if ( ( coin = LP_coinfind ( symbol ) ) = = 0 | | coin - > inactive ! = 0 )
return ( - 1 ) ;
if ( time ( NULL ) > coin - > lastmempool + LP_MEMPOOL_TIMEINCR )
{
if ( ( array = LP_getmempool ( symbol , coinaddr ) ) ! = 0 )
{
free_json ( array ) ;
coin - > lastmempool = ( uint32_t ) time ( NULL ) ;
}
}
if ( ( selector = LP_spendsearch ( spendtxidp , spendvinp , symbol , searchtxid , searchvout ) ) > = 0 )
return ( selector ) ;
else if ( ( selector = LP_spendsearch ( spendtxidp , spendvinp , symbol , searchtxid2 , searchvout2 ) ) > = 0 )
return ( selector ) ;
return ( - 1 ) ;
}