/******************************************************************************
* Copyright © 2014 - 2016 The SuperNET Developers . *
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* holder information and the developer policies on copyright and licensing . *
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* Unless otherwise agreed in a custom licensing agreement , no part of the *
* SuperNET software , including this file may be copied , modified , propagated *
* or distributed except according to the terms contained in the LICENSE file *
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* Removal or modification of this copyright notice is prohibited . *
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# include "iguana777.h"
static inline int32_t _iguana_spendvectorconv ( struct iguana_spendvector * ptr , struct iguana_unspent * u , int32_t numpkinds , int32_t hdrsi , uint32_t unspentind )
{
uint32_t spent_pkind = 0 ;
if ( ( spent_pkind = u - > pkind ) ! = 0 & & spent_pkind < numpkinds )
{
ptr - > pkind = spent_pkind ;
ptr - > value = u - > value ;
ptr - > tmpflag = 0 ;
return ( spent_pkind ) ;
} else printf ( " spendvectorconv [%d] u%d pkind.%u/num %u \n " , hdrsi , unspentind , u - > pkind , numpkinds ) ;
return ( 0 ) ;
}
uint32_t iguana_spendvectorconv ( struct iguana_info * coin , struct iguana_spendvector * ptr , struct iguana_bundle * bp )
{
static uint64_t count , converted , errs ;
struct iguana_bundle * spentbp ; struct iguana_unspent * spentU ; uint32_t spent_pkind ;
count + + ;
if ( 0 & & ( count % 1000000 ) = = 0 )
printf ( " iguana_spendvectorconv.[%llu] errs.%llu converted.%llu %.2f%% \n " , ( long long ) count , ( long long ) errs , ( long long ) converted , 100. * ( long long ) converted / count ) ;
if ( ptr - > tmpflag ! = 0 )
{
if ( ptr - > hdrsi > = 0 & & ptr - > hdrsi < coin - > bundlescount & & ( spentbp = coin - > bundles [ ptr - > hdrsi ] ) ! = 0 )
{
spentU = RAMCHAIN_PTR ( spentbp - > ramchain . H . data , Uoffset ) ;
//spentU = (void *)(long)((long)spentbp->ramchain.H.data + spentbp->ramchain.H.data->Uoffset);
if ( ( spent_pkind = _iguana_spendvectorconv ( ptr , & spentU [ ptr - > unspentind ] , spentbp - > ramchain . H . data - > numpkinds , ptr - > hdrsi , ptr - > unspentind ) ) ! = 0 )
converted + + ;
else printf ( " illegal [%d].u%u pkind.%u vs %u \n " , ptr - > hdrsi , ptr - > unspentind , spent_pkind , spentbp - > ramchain . H . data - > numpkinds ) ;
} else printf ( " illegal [%d].u%u \n " , ptr - > hdrsi , ptr - > unspentind ) ;
errs + + ;
return ( 0 ) ;
} //else printf("[%d] tmpflag.%d u%d %.8f p%u\n",ptr->hdrsi,ptr->tmpflag,ptr->unspentind,dstr(ptr->value),ptr->pkind);
return ( ptr - > pkind ) ;
}
int32_t iguana_spendvectorsave ( struct iguana_info * coin , struct iguana_bundle * bp , struct iguana_ramchain * ramchain , struct iguana_spendvector * ptr , int32_t emit , int32_t n )
{
int32_t i , retval = - 1 ; FILE * fp ; char fname [ 1024 ] , str [ 65 ] ; long fsize ; bits256 zero , sha256 ;
if ( ptr = = 0 | | ( bp - > hdrsi ! = 0 & & ptr = = bp - > ramchain . Xspendinds ) )
{
//printf("iguana_spendvectorsave.[%d] ptr.%p Xspendinds\n",bp->hdrsi,ptr);
return ( 0 ) ;
}
memset ( zero . bytes , 0 , sizeof ( zero ) ) ;
for ( i = 0 ; i < emit ; i + + )
if ( iguana_spendvectorconv ( coin , & ptr [ i ] , bp ) = = 0 )
{
printf ( " iguana_spendvectorconv error [%d] at %d of %d/%d \n " , bp - > hdrsi , i , emit , n ) ;
return ( - 1 ) ;
}
sprintf ( fname , " %s/%s/spends/%s.%d " , GLOBAL_DBDIR , coin - > symbol , bits256_str ( str , bp - > hashes [ 0 ] ) , bp - > bundleheight ) ;
vcalc_sha256 ( 0 , sha256 . bytes , ( void * ) ptr , ( int32_t ) ( sizeof ( * ptr ) * emit ) ) ;
if ( ( fp = fopen ( fname , " wb " ) ) ! = 0 )
{
if ( fwrite ( sha256 . bytes , 1 , sizeof ( sha256 ) , fp ) ! = sizeof ( sha256 ) )
printf ( " error writing hash for %d -> (%s) \n " , ( int32_t ) ( sizeof ( * ptr ) * emit ) , fname ) ;
else if ( fwrite ( ptr , sizeof ( * ptr ) , emit , fp ) ! = emit )
printf ( " error writing %d of %d -> (%s) \n " , emit , n , fname ) ;
else
{
retval = 0 ;
fsize = ftell ( fp ) ;
fclose ( fp ) , fp = 0 ;
bp - > Xvalid = 0 ;
if ( iguana_Xspendmap ( coin , ramchain , bp ) < 0 )
printf ( " error mapping Xspendmap.(%s) \n " , fname ) ;
else
{
printf ( " created.(%s) %p[%d] \n " , fname , bp - > ramchain . Xspendinds , bp - > ramchain . numXspends ) ;
retval = 0 ;
}
}
if ( fp ! = 0 )
fclose ( fp ) ;
//int32_t i; for (i=0; i<ramchain->numXspends; i++)
// printf("(%d u%d) ",ramchain->Xspendinds[i].hdrsi,ramchain->Xspendinds[i].ind);
//printf("filesize %ld Xspendptr.%p %p num.%d\n",fsize,ramchain->Xspendptr,ramchain->Xspendinds,ramchain->numXspends);
}
else printf ( " iguana_spendvectors: Error creating.(%s) \ n " ,fname) ;
return ( retval ) ;
}
struct iguana_bundle * iguana_externalspent ( struct iguana_info * coin , bits256 * prevhashp , uint32_t * unspentindp , struct iguana_ramchain * ramchain , int32_t spent_hdrsi , struct iguana_spend * s , int32_t prefetchflag )
{
int32_t prev_vout , height , hdrsi ; uint32_t sequenceid , unspentind ; char str [ 65 ] ; struct iguana_bundle * spentbp = 0 ; struct iguana_txid * T , TX , * tp ; bits256 * X ; bits256 prev_hash ; struct iguana_ramchaindata * rdata ;
if ( ( rdata = ramchain - > H . data ) ! = 0 )
{
X = RAMCHAIN_PTR ( rdata , Xoffset ) ;
T = RAMCHAIN_PTR ( rdata , Toffset ) ;
sequenceid = s - > sequenceid ;
hdrsi = spent_hdrsi ;
* unspentindp = 0 ;
memset ( prevhashp , 0 , sizeof ( * prevhashp ) ) ;
if ( s - > prevout < 0 )
{
//printf("n.%d coinbase at spendind.%d firstvin.%d -> firstvout.%d -> unspentind\n",m,spendind,nextT->firstvin,nextT->firstvout);
//nextT++;
//m++;
return ( 0 ) ;
}
else
{
prev_vout = s - > prevout ;
iguana_ramchain_spendtxid ( coin , & unspentind , & prev_hash , T , rdata - > numtxids , X , rdata - > numexternaltxids , s ) ;
* prevhashp = prev_hash ;
* unspentindp = unspentind ;
if ( unspentind = = 0 )
{
//double duration,startmillis = OS_milliseconds();
if ( ( tp = iguana_txidfind ( coin , & height , & TX , prev_hash , spent_hdrsi - 1 ) ) ! = 0 )
{
* unspentindp = unspentind = TX . firstvout + ( ( prev_vout > 0 ) ? prev_vout : 0 ) ;
hdrsi = height / coin - > chain - > bundlesize ;
if ( hdrsi > = 0 & & hdrsi < coin - > bundlescount & & ( spentbp = coin - > bundles [ hdrsi ] ) ! = 0 )
{
//printf("%s height.%d firstvout.%d prev.%d ->U%d\n",bits256_str(str,prev_hash),height,TX.firstvout,prev_vout,unspentind);
/*now = (uint32_t)time(NULL);
duration = ( OS_milliseconds ( ) - startmillis ) ;
if ( 0 & & ( ( uint64_t ) coin - > txidfind_num % 1000000 ) = = 1 )
printf ( " %p iguana_txidfind.[%.0f] ave %.2f micros, total %.2f seconds | duration %.3f millis \n " , spentbp - > ramchain . txbits , coin - > txidfind_num , ( coin - > txidfind_totalmillis * 1000. ) / coin - > txidfind_num , coin - > txidfind_totalmillis / 1000. , duration ) ;
coin - > txidfind_totalmillis + = duration ;
coin - > txidfind_num + = 1. ; */
if ( 1 & & coin - > PREFETCHLAG > 0 )
{
if ( spentbp - > lastprefetch = = 0 )
{
iguana_ramchain_prefetch ( coin , & spentbp - > ramchain , prefetchflag ) ;
spentbp - > lastprefetch = ( uint32_t ) time ( NULL ) ;
}
/*else if ( 0 && (rand() % IGUANA_NUMHELPERS) == 0 && (duration > 10 || duration > (10 * coin->txidfind_totalmillis)/coin->txidfind_num) )
{
printf ( " slow txidfind %.2f vs %.2f prefetch[%d] from.[%d] lag.%ld last.%u \n " , duration , coin - > txidfind_totalmillis / coin - > txidfind_num , spentbp - > hdrsi , ramchain - > height / coin - > chain - > bundlesize , time ( NULL ) - spentbp - > lastprefetch , spentbp - > lastprefetch ) ;
iguana_ramchain_prefetch ( coin , ramchain , 1 ) ;
//spentbp->lastprefetch = now;
} */
}
}
else
{
printf ( " illegal hdrsi.%d prev_hash.(%s) for bp.[%d] \n " , hdrsi , bits256_str ( str , prev_hash ) , spent_hdrsi ) ;
exit ( - 1 ) ;
}
}
else
{
printf ( " cant find prev_hash.(%s) for bp.[%d] \n " , bits256_str ( str , prev_hash ) , spent_hdrsi ) ;
if ( spent_hdrsi < coin - > current - > hdrsi )
{
iguana_bundleremove ( coin , spent_hdrsi , 1 ) ;
exit ( - 1 ) ;
}
coin - > RTdatabad = 1 ;
return ( 0 ) ;
}
} else printf ( " external spent unexpected nonz unspentind [%d] \n " , spent_hdrsi ) ;
}
if ( ( spentbp = coin - > bundles [ hdrsi ] ) = = 0 | | hdrsi > spent_hdrsi )
printf ( " illegal hdrsi.%d when [%d] spentbp.%p \n " , hdrsi , spent_hdrsi , spentbp ) ;
else if ( unspentind = = 0 | | unspentind > = spentbp - > ramchain . H . data - > numunspents )
printf ( " illegal unspentind.%d vs max.%d spentbp.%p[%d] \n " , unspentind , spentbp - > ramchain . H . data - > numunspents , spentbp , hdrsi ) ;
else return ( spentbp ) ;
iguana_bundleremove ( coin , spent_hdrsi , 1 ) ;
}
//exit(-1);
return ( 0 ) ;
}
struct iguana_bundle * iguana_fastexternalspent ( struct iguana_info * coin , bits256 * prevhashp , uint32_t * unspentindp , struct iguana_ramchain * ramchain , int32_t spent_hdrsi , struct iguana_spend * s )
{
int32_t prev_vout , height , hdrsi , unspentind ; uint32_t ind ;
struct iguana_txid * T ; bits256 * X ; bits256 prev_hash ; struct iguana_ramchaindata * rdata ;
if ( ( rdata = ramchain - > H . data ) = = 0 )
return ( 0 ) ;
hdrsi = spent_hdrsi ;
* unspentindp = 0 ;
memset ( prevhashp , 0 , sizeof ( * prevhashp ) ) ;
if ( ( prev_vout = s - > prevout ) > = 0 )
{
ind = s - > spendtxidind & ~ ( 1 < < 31 ) ;
if ( s - > external ! = 0 )
{
if ( ind < rdata - > numexternaltxids )
{
char str [ 65 ] ; //double duration,startmillis = OS_milliseconds();
X = RAMCHAIN_PTR ( rdata , Xoffset ) ;
//X = (void *)(long)((long)rdata + rdata->Xoffset);
* prevhashp = prev_hash = X [ ind ] ;
if ( ( unspentind = iguana_unspentindfind ( coin , 0 , 0 , 0 , 0 , & height , prev_hash , prev_vout , spent_hdrsi - 1 , 0 ) ) ! = 0 )
//if ( (firstvout= iguana_txidfastfind(coin,&height,prev_hash,spent_hdrsi-1)) >= 0 )
{
/*duration = (OS_milliseconds() - startmillis);
if ( ( ( uint64_t ) coin - > txidfind_num % 100 ) = = 1 )
printf ( " [%d] iguana_fasttxidfind.[%.0f] ave %.2f micros, total %.2f seconds | duration %.3f millis \n " , spent_hdrsi , coin - > txidfind_num , ( coin - > txidfind_totalmillis * 1000. ) / coin - > txidfind_num , coin - > txidfind_totalmillis / 1000. , duration ) ;
coin - > txidfind_totalmillis + = duration ;
coin - > txidfind_num + = 1. ; */
* unspentindp = unspentind ; //firstvout + prev_vout;
hdrsi = height / coin - > chain - > bundlesize ;
if ( hdrsi > = 0 & & hdrsi < coin - > bundlescount )
return ( coin - > bundles [ hdrsi ] ) ;
}
else
{
printf ( " couldnt fastfind (%s) \n " , bits256_str ( str , prev_hash ) ) ;
}
} else return ( 0 ) ;
}
else if ( ind < rdata - > numtxids )
{
T = RAMCHAIN_PTR ( rdata , Toffset ) ;
//T = (void *)(long)((long)rdata + rdata->Toffset);
* prevhashp = T [ ind ] . txid ;
* unspentindp = T [ ind ] . firstvout + s - > prevout ;
return ( coin - > bundles [ hdrsi ] ) ;
}
}
return ( 0 ) ;
}
int32_t iguana_spendvectors ( struct iguana_info * coin , struct iguana_bundle * bp , struct iguana_ramchain * ramchain , int32_t starti , int32_t numblocks , int32_t convertflag , int32_t iterate )
{
static uint64_t total , emitted ;
int32_t iter , spendind , n = 0 , txidind , errs = 0 , emit = 0 , i , j , k ; double startmillis ; bits256 prevhash ;
uint32_t spent_unspentind , spent_pkind , now , starttime ; struct iguana_ramchaindata * rdata ;
struct iguana_bundle * spentbp ; struct iguana_blockRO * B ; struct iguana_spendvector * ptr ;
struct iguana_unspent * u , * spentU ; struct iguana_txid * T ; char str [ 65 ] ;
struct iguana_spend * S , * s ; //void *fastfind = 0;
//printf("iguana_spendvectors.[%d] gen.%d ramchain data.%p txbits.%p\n",bp->hdrsi,bp->bundleheight,rdata,ramchain->txbits);
if ( ( rdata = ramchain - > H . data ) = = 0 | | ( n = rdata - > numspends ) < 1 )
{
printf ( " iguana_spendvectors.[%d]: no rdata.%p %d \n " , bp - > hdrsi , rdata , n ) ;
return ( 0 ) ;
}
B = ( void * ) ( long ) ( ( long ) rdata + rdata - > Boffset ) ;
S = ( void * ) ( long ) ( ( long ) rdata + rdata - > Soffset ) ;
T = ( void * ) ( long ) ( ( long ) rdata + rdata - > Toffset ) ;
if ( ramchain - > Xspendinds ! = 0 )
{
bp - > tmpspends = ramchain - > Xspendinds ;
bp - > numtmpspends = ramchain - > numXspends ;
bp - > utxofinish = ( uint32_t ) time ( NULL ) ;
bp - > balancefinish = 0 ;
//printf("iguana_spendvectors.[%d]: already have Xspendinds[%d]\n",bp->hdrsi,ramchain->numXspends);
return ( 0 ) ;
}
ptr = mycalloc ( ' x ' , sizeof ( * ptr ) , n ) ;
total + = n ;
startmillis = OS_milliseconds ( ) ;
if ( 0 & & strcmp ( coin - > symbol , " BTC " ) = = 0 )
printf ( " start UTXOGEN.%d max.%d ptr.%p millis.%.3f \n " , bp - > bundleheight , n , ptr , startmillis ) ;
starttime = ( uint32_t ) time ( NULL ) ;
iguana_ramchain_prefetch ( coin , & bp - > ramchain , 3 ) ;
for ( iter = 0 ; iter < = iterate ; iter + + )
{
if ( iterate ! = 0 )
{
//fastfind = coin->fast[iter];
//coin->fast[iter] = calloc(1,coin->fastsizes[iter]);
//memcpy(coin->fast[iter],fastfind,coin->fastsizes[iter]);
}
txidind = B [ starti ] . firsttxidind ;
spendind = B [ starti ] . firstvin ;
for ( i = starti ; i < numblocks ; i + + )
{
if ( txidind ! = B [ i ] . firsttxidind | | spendind ! = B [ i ] . firstvin )
{
printf ( " spendvectors: txidind %u != %u B[%d].firsttxidind || spendind %u != %u B[%d].firstvin \n " , txidind , B [ i ] . firsttxidind , i , spendind , B [ i ] . firstvin , i ) ;
myfree ( ptr , sizeof ( * ptr ) * n ) ;
return ( - 1 ) ;
}
for ( j = 0 ; j < B [ i ] . txn_count & & errs = = 0 ; j + + , txidind + + )
{
now = ( uint32_t ) time ( NULL ) ;
if ( txidind ! = T [ txidind ] . txidind | | spendind ! = T [ txidind ] . firstvin )
{
printf ( " spendvectors: txidind %u != %u nextT[txidind].firsttxidind || spendind %u != %u nextT[txidind].firstvin \n " , txidind , T [ txidind ] . txidind , spendind , T [ txidind ] . firstvin ) ;
myfree ( ptr , sizeof ( * ptr ) * n ) ;
return ( - 1 ) ;
}
for ( k = 0 ; k < T [ txidind ] . numvins & & errs = = 0 ; k + + , spendind + + )
{
# ifdef __APPLE__
if ( bp = = coin - > current & & ( spendind % 10000 ) = = 0 )
printf ( " iter.%02x [%-3d:%4d] spendvectors elapsed t.%-3d spendind.%d \n " , iter , bp - > hdrsi , i , ( uint32_t ) time ( NULL ) - starttime , spendind ) ;
# endif
u = 0 ;
spentbp = 0 ;
s = & S [ spendind ] ;
if ( s - > external ! = 0 & & s - > prevout > = 0 )
{
if ( coin - > fastfind ! = 0 )
{
spentbp = iguana_fastexternalspent ( coin , & prevhash , & spent_unspentind , ramchain , bp - > hdrsi , s ) ;
}
else if ( spentbp = = 0 )
{
if ( ( spentbp = iguana_externalspent ( coin , & prevhash , & spent_unspentind , ramchain , bp - > hdrsi , s , 2 ) ) ! = 0 )
{
if ( coin - > fastfind ! = 0 )
printf ( " found prevhash using slow, not fast \n " ) ;
}
}
if ( iterate ! = 0 & & ( spentbp = = 0 | | spentbp - > hdrsi ! = iter ) )
continue ;
if ( bits256_nonz ( prevhash ) = = 0 )
continue ;
if ( spentbp ! = 0 & & spentbp - > ramchain . H . data ! = 0 )
{
if ( spentbp = = bp )
{
char str [ 65 ] ;
printf ( " unexpected spendbp: height.%d bp.[%d] U%d <- S%d.[%d] [ext.%d %s prev.%d] \n " , bp - > bundleheight + i , spentbp - > hdrsi , spent_unspentind , spendind , bp - > hdrsi , s - > external , bits256_str ( str , prevhash ) , s - > prevout ) ;
errs + + ;
break ;
}
if ( convertflag ! = 0 )
{
if ( coin - > PREFETCHLAG > 0 & & now > = spentbp - > lastprefetch + coin - > PREFETCHLAG )
{
printf ( " prefetch[%d] from.[%d] lag.%d \n " , spentbp - > hdrsi , bp - > hdrsi , now - spentbp - > lastprefetch ) ;
iguana_ramchain_prefetch ( coin , & spentbp - > ramchain , 2 ) ;
spentbp - > lastprefetch = now ;
}
spentU = RAMCHAIN_PTR ( spentbp - > ramchain . H . data , Uoffset ) ;
//spentU = (void *)(long)((long)spentbp->ramchain.H.data + spentbp->ramchain.H.data->Uoffset);
u = & spentU [ spent_unspentind ] ;
if ( ( spent_pkind = u - > pkind ) ! = 0 & & spent_pkind < spentbp - > ramchain . H . data - > numpkinds )
{
memset ( & ptr [ emit ] , 0 , sizeof ( ptr [ emit ] ) ) ;
if ( ( ptr [ emit ] . unspentind = spent_unspentind ) ! = 0 & & spentbp - > hdrsi < bp - > hdrsi )
{
ptr [ emit ] . fromheight = bp - > bundleheight + i ;
ptr [ emit ] . hdrsi = spentbp - > hdrsi ;
ptr [ emit ] . pkind = spent_pkind ;
ptr [ emit ] . value = u - > value ;
//printf("ht.%d [%d] SPENDVECTOR u%d %.8f p%u\n",ptr[emit].fromheight,ptr[emit].hdrsi,ptr[emit].unspentind,dstr(ptr[emit].value),ptr[emit].pkind);
//printf("(%d u%d).%d ",spentbp->hdrsi,unspentind,emit);
emit + + ;
}
else
{
printf ( " spendvectors: null unspentind for spendind.%d hdrsi.%d [%d] \n " , spendind , spentbp - > hdrsi , bp - > hdrsi ) ;
errs + + ;
break ;
}
}
else
{
errs + + ;
printf ( " spendvectors: unresolved spendind.%d hdrsi.%d \n " , spendind , bp - > hdrsi ) ;
break ;
}
}
else
{
memset ( & ptr [ emit ] , 0 , sizeof ( ptr [ emit ] ) ) ;
ptr [ emit ] . hdrsi = spentbp - > hdrsi ;
ptr [ emit ] . unspentind = spent_unspentind ;
ptr [ emit ] . fromheight = bp - > bundleheight + i ;
ptr [ emit ] . tmpflag = 1 ;
if ( 0 & & bp = = coin - > current )
printf ( " fromht.%d spends [%d] TMPVECTOR u%d s%u \n " , ptr [ emit ] . fromheight , ptr [ emit ] . hdrsi , ptr [ emit ] . unspentind , spendind ) ;
emit + + ;
}
}
else
{
errs + + ;
printf ( " spendvectors: error resolving external spendind.%d hdrsi.%d \n " , spendind , bp - > hdrsi ) ;
break ;
}
}
}
}
}
/*if ( iterate != 0 )
{
free ( coin - > fast [ iter ] ) ;
coin - > fast [ iter ] = fastfind ;
} */
if ( txidind ! = rdata - > numtxids & & txidind ! = ramchain - > H . txidind )
{
printf ( " spendvectors: numtxid.%d != bp numtxids %d/%d \n " , txidind , ramchain - > H . txidind , rdata - > numtxids ) ;
errs + + ;
}
if ( spendind ! = rdata - > numspends & & spendind ! = ramchain - > H . spendind )
{
printf ( " spendvectors: spendind.%d != bp numspends %d/%d \n " , spendind , ramchain - > H . spendind , rdata - > numspends ) ;
errs + + ;
}
}
if ( errs = = 0 & & emit > = 0 )
{
emitted + = emit ;
if ( convertflag = = 0 )
{
if ( bp - > tmpspends ! = 0 )
{
if ( bp - > tmpspends ! = ramchain - > Xspendinds & & emit > 0 )
{
// printf("spendvectors: RT [%d] numtmpspends.%d vs starti.%d emit.%d\n",bp->hdrsi,bp->numtmpspends,starti,emit);
bp - > tmpspends = myrealloc ( ' x ' , bp - > tmpspends , sizeof ( * ptr ) * bp - > numtmpspends , sizeof ( * ptr ) * ( bp - > numtmpspends + emit ) ) ;
memcpy ( & bp - > tmpspends [ bp - > numtmpspends ] , ptr , sizeof ( * ptr ) * emit ) ;
bp - > numtmpspends + = emit ;
}
}
else if ( emit > 0 )
{
bp - > tmpspends = myrealloc ( ' x ' , ptr , sizeof ( * ptr ) * n , sizeof ( * ptr ) * emit ) ;
bp - > numtmpspends = emit ;
//printf("ALLOC tmpspends.[%d]\n",bp->hdrsi);
ptr = 0 ;
}
if ( 0 & & bp = = coin - > current )
printf ( " spendvectors.[%d]: tmpspends.%p[%d] after += emit.%d X.%p \n " , bp - > hdrsi , bp - > tmpspends , bp - > numtmpspends , emit , bp - > ramchain . Xspendinds ) ;
} else errs = - iguana_spendvectorsave ( coin , bp , ramchain , ptr ! = 0 ? ptr : bp - > tmpspends , emit , n ) ;
}
if ( ptr ! = 0 )
myfree ( ptr , sizeof ( * ptr ) * n ) ;
//if ( bp != coin->current )
printf ( " UTXO [%4d].%-6d dur.%-2d [milli %8.3f] vectors %-6d err.%d [%5.2f%%] %7d %9s of %d \n " , bp - > hdrsi , bp - > numtmpspends , ( uint32_t ) time ( NULL ) - starttime , OS_milliseconds ( ) - startmillis , spendind , errs , 100. * ( double ) emitted / ( total + 1 ) , emit , mbstr ( str , sizeof ( * ptr ) * emit ) , n ) ;
return ( - errs ) ;
}
int32_t iguana_balancegen ( struct iguana_info * coin , int32_t incremental , struct iguana_bundle * bp , int32_t starti , int32_t endheight , int32_t startemit )
{
uint32_t spent_unspentind , spent_pkind , txidind , h , i , j , endi , k , now ; uint64_t spent_value ;
struct iguana_ramchain * ramchain ; struct iguana_ramchaindata * rdata ;
struct iguana_spendvector * spend ; struct iguana_unspent * spentU , * u ; struct iguana_spendvector * Xspendinds ;
struct iguana_txid * T ; struct iguana_blockRO * B ; struct iguana_bundle * spentbp ;
int32_t spent_hdrsi , spendind , n , numXspends , errs = 0 , emit = 0 ; struct iguana_spend * S , * s ;
ramchain = & bp - > ramchain ; //(bp == coin->current) ? &coin->RTramchain : &bp->ramchain;
if ( ( rdata = ramchain - > H . data ) = = 0 | | ( n = rdata - > numspends ) < 1 )
return ( - 1 ) ;
S = ( void * ) ( long ) ( ( long ) rdata + rdata - > Soffset ) ;
B = ( void * ) ( long ) ( ( long ) rdata + rdata - > Boffset ) ;
T = ( void * ) ( long ) ( ( long ) rdata + rdata - > Toffset ) ;
numXspends = ramchain - > numXspends ;
if ( ( Xspendinds = ramchain - > Xspendinds ) = = 0 )
{
numXspends = bp - > numtmpspends ;
if ( ( Xspendinds = bp - > tmpspends ) = = 0 )
{
//printf("iguana_balancegen.%d: no Xspendinds[%d]\n",bp->hdrsi,numXspends);
//return(-1);
}
}
endi = ( endheight % bp - > n ) ;
txidind = B [ starti ] . firsttxidind ;
spendind = B [ starti ] . firstvin ;
emit = startemit ;
if ( coin - > RTheight = = 0 | | bp - > bundleheight + bp - > n < coin - > RTheight )
fprintf ( stderr , " BALANCEGEN.[%d] %p[%d] starti.%d s%d <-> endi.%d s%d startemit.%d \n " , bp - > hdrsi , Xspendinds , numXspends , starti , spendind , endi , B [ endi ] . firstvin + B [ endi ] . numvins , startemit ) ;
for ( i = starti ; i < = endi ; i + + )
{
now = ( uint32_t ) time ( NULL ) ;
if ( 0 & & bp = = coin - > current )
printf ( " hdrs.[%d] B[%d] 1st txidind.%d txn_count.%d firstvin.%d firstvout.%d \n " , bp - > hdrsi , i , B [ i ] . firsttxidind , B [ i ] . txn_count , B [ i ] . firstvin , B [ i ] . firstvout ) ;
if ( txidind ! = B [ i ] . firsttxidind | | spendind ! = B [ i ] . firstvin )
{
printf ( " balancegen: txidind %u != %u B[%d].firsttxidind || spendind %u != %u B[%d].firstvin errs.%d \n " , txidind , B [ i ] . firsttxidind , i , spendind , B [ i ] . firstvin , i , errs ) ;
return ( - 1 ) ;
}
for ( j = 0 ; j < B [ i ] . txn_count & & errs = = 0 ; j + + , txidind + + )
{
now = ( uint32_t ) time ( NULL ) ;
if ( txidind ! = T [ txidind ] . txidind | | spendind ! = T [ txidind ] . firstvin )
{
printf ( " balancegen: txidind %u != %u T[txidind].firsttxidind || spendind %u != %u T[txidind].firstvin errs.%d \n " , txidind , T [ txidind ] . txidind , spendind , T [ txidind ] . firstvin , errs ) ;
return ( - 1 ) ;
}
if ( 0 & & bp = = coin - > current )
printf ( " starti.%d txidind.%d txi.%d numvins.%d spendind.%d \n " , i , txidind , j , T [ txidind ] . numvins , spendind ) ;
for ( k = 0 ; k < T [ txidind ] . numvins & & errs = = 0 ; k + + , spendind + + )
{
s = & S [ spendind ] ;
h = spent_hdrsi = - 1 ;
spent_value = 0 ;
spent_unspentind = spent_pkind = 0 ;
if ( s - > external ! = 0 & & s - > prevout > = 0 )
{
if ( emit > = numXspends )
errs + + ;
else if ( Xspendinds ! = 0 )
{
spend = & Xspendinds [ emit + + ] ;
spent_unspentind = spend - > unspentind ;
spent_value = spend - > value ;
spent_pkind = spend - > pkind ;
spent_hdrsi = spend - > hdrsi ;
h = spend - > fromheight ;
}
if ( 0 & & bp = = coin - > current )
printf ( " external prevout.%d (emit.%d numX.%d) %p u%d p%d errs.%d spent_hdrsi.%d s%u \n " , s - > prevout , emit , numXspends , Xspendinds , spent_unspentind , spent_pkind , errs , spent_hdrsi , spendind ) ;
}
else if ( s - > prevout > = 0 )
{
h = bp - > bundleheight + i ;
spent_hdrsi = bp - > hdrsi ;
if ( s - > spendtxidind ! = 0 & & s - > spendtxidind < rdata - > numtxids )
{
spent_unspentind = T [ s - > spendtxidind ] . firstvout + s - > prevout ;
spentU = RAMCHAIN_PTR ( rdata , Uoffset ) ;
//spentU = (void *)(long)((long)rdata + rdata->Uoffset);
u = & spentU [ spent_unspentind ] ;
if ( ( spent_pkind = u - > pkind ) ! = 0 & & spent_pkind < rdata - > numpkinds )
spent_value = u - > value ;
/*found spend d9151... txidind.1083097 [202] s3163977
//found spend d9151... txidind.1083097 [202] s4033628
if ( spent_hdrsi = = 202 & & ( spendind = = 3163977 | | spendind = = 4033628 ) )
printf ( " internal spend.%d spendtxidind.%d 1st.%d U.(prevout.%d u%u pkind.%u %.8f) \n " , spendind , txidind , T [ s - > spendtxidind ] . firstvout , s - > prevout , spent_unspentind , u - > pkind , dstr ( u - > value ) ) ; */
}
else //if ( i > 0 || j > 0 || k > 0 )
{
printf ( " iguana_balancegen [%d] txidind overflow %u vs %u (%d %d %d) \n " , bp - > hdrsi , s - > spendtxidind , rdata - > numtxids , i , j , k ) ;
errs + + ;
}
}
else continue ;
spentbp = 0 ;
if ( ( spentbp = coin - > bundles [ spent_hdrsi ] ) ! = 0 & & spent_unspentind > 0 & & spent_pkind > 0 )
{
if ( 0 & & bp = = coin - > current )
printf ( " [%d] spendind.%u -> [%d] u%d \n " , bp - > hdrsi , spendind , spent_hdrsi , spent_unspentind ) ;
if ( iguana_volatileupdate ( coin , incremental , & spentbp - > ramchain , spent_hdrsi , spent_unspentind , spent_pkind , spent_value , spendind , h ) < 0 ) //spentbp == coin->current ? &coin->RTramchain :
errs + + ;
}
else //if ( Xspendinds != 0 )
{
errs + + ;
printf ( " iguana_balancegen: spendind.%u external.%d error spentbp.%p with unspentind.%d pkind.%u [%d] (%d %d %d) \n " , spendind , s - > external , spentbp , spent_unspentind , spent_pkind , spent_hdrsi , i , j , k ) ;
}
}
}
}
if ( txidind ! = bp - > ramchain . H . data - > numtxids & & ( bp ! = coin - > current | | txidind ! = ramchain - > H . txidind ) )
{
printf ( " numtxid.%d != bp numtxids %d/%d \n " , txidind , bp - > ramchain . H . txidind , bp - > ramchain . H . data - > numtxids ) ;
errs + + ;
}
if ( spendind ! = rdata - > numspends & & ( bp ! = coin - > current | | spendind ! = ramchain - > H . spendind ) )
{
printf ( " spendind.%d != bp numspends %d/%d \n " , spendind , bp - > ramchain . H . spendind , bp - > ramchain . H . data - > numspends ) ;
errs + + ;
}
if ( emit ! = numXspends )
{
printf ( " iguana_balancegen: emit %d != %d ramchain->numXspends \n " , emit , numXspends ) ;
errs + + ;
}
if ( errs = = 0 )
bp - > balancefinish = ( uint32_t ) time ( NULL ) ;
//printf(">>>>>>>> balances.%d done errs.%d spendind.%d\n",bp->hdrsi,errs,n);
return ( - errs ) ;
}
void iguana_truncatebalances ( struct iguana_info * coin )
{
int32_t i ; struct iguana_bundle * bp ;
for ( i = 0 ; i < coin - > balanceswritten ; i + + )
{
if ( ( bp = coin - > bundles [ i ] ) ! = 0 )
{
bp - > balancefinish = 0 ;
bp - > Xvalid = 0 ;
iguana_volatilespurge ( coin , & bp - > ramchain ) ;
}
}
coin - > balanceswritten = 0 ;
}
int32_t iguana_volatilesinit ( struct iguana_info * coin )
{
bits256 balancehash , allbundles ; struct iguana_utxo * Uptr ; struct iguana_account * Aptr ;
struct sha256_vstate vstate , bstate ; int32_t i , from_ro , numpkinds , numunspents ; struct iguana_bundle * bp ; struct iguana_block * block ;
uint32_t crc , filecrc ; FILE * fp ; char crcfname [ 512 ] , str [ 65 ] , str2 [ 65 ] , buf [ 2048 ] ;
from_ro = 1 ;
for ( i = 0 ; i < coin - > balanceswritten ; i + + )
{
if ( ( bp = coin - > bundles [ i ] ) = = 0 )
break ;
if ( bp - > emitfinish < = 1 | | ( i > 0 & & bp - > utxofinish < = 1 ) )
{
printf ( " hdrsi.[%d] emitfinish.%u utxofinish.%u \n " , i , bp - > emitfinish , bp - > utxofinish ) ;
break ;
}
iguana_volatilesmap ( coin , & bp - > ramchain ) ;
if ( from_ro ! = 0 & & ( bp - > ramchain . from_ro = = 0 | | ( bp - > hdrsi > 0 & & bp - > ramchain . from_roX = = 0 ) | | bp - > ramchain . from_roA = = 0 | | bp - > ramchain . from_roU = = 0 ) )
{
printf ( " from_ro.[%d] %d %d %d %d \n " , bp - > hdrsi , bp - > ramchain . from_ro , bp - > ramchain . from_roX , bp - > ramchain . from_roA , bp - > ramchain . from_roU ) ;
from_ro = 0 ;
}
}
if ( i < coin - > balanceswritten - 1 )
{
printf ( " TRUNCATE balances written.%d -> %d \n " , coin - > balanceswritten , i ) ;
iguana_truncatebalances ( coin ) ;
}
else
{
coin - > balanceswritten = i ;
//printf("verify crc and sha256 hash for %d of %d\n",i,coin->balanceswritten);
vupdate_sha256 ( balancehash . bytes , & vstate , 0 , 0 ) ;
vupdate_sha256 ( allbundles . bytes , & bstate , 0 , 0 ) ;
filecrc = 0 ;
sprintf ( crcfname , " %s/%s/balancecrc.%d " , GLOBAL_DBDIR , coin - > symbol , coin - > balanceswritten ) ;
if ( ( fp = fopen ( crcfname , " rb " ) ) ! = 0 )
{
if ( fread ( & filecrc , 1 , sizeof ( filecrc ) , fp ) ! = sizeof ( filecrc ) )
filecrc = 0 ;
else if ( fread ( & balancehash , 1 , sizeof ( balancehash ) , fp ) ! = sizeof ( balancehash ) )
filecrc = 0 ;
else if ( memcmp ( & balancehash , & coin - > balancehash , sizeof ( balancehash ) ) ! = 0 )
filecrc = 0 ;
else if ( fread ( & allbundles , 1 , sizeof ( allbundles ) , fp ) ! = sizeof ( allbundles ) )
filecrc = 0 ;
else if ( memcmp ( & allbundles , & coin - > allbundles , sizeof ( allbundles ) ) ! = 0 )
filecrc = 0 ;
fclose ( fp ) ;
}
if ( filecrc ! = 0 )
printf ( " have filecrc.%08x for %s milli.%.0f from_ro.%d \n " , filecrc , bits256_str ( str , balancehash ) , OS_milliseconds ( ) , from_ro ) ;
if ( from_ro = = 0 | | filecrc = = 0 )
{
if ( filecrc = = 0 )
{
vupdate_sha256 ( balancehash . bytes , & vstate , 0 , 0 ) ;
vupdate_sha256 ( allbundles . bytes , & bstate , 0 , 0 ) ;
}
for ( i = crc = 0 ; i < coin - > balanceswritten ; i + + )
{
numpkinds = numunspents = 0 ;
Aptr = 0 , Uptr = 0 ;
if ( ( bp = coin - > bundles [ i ] ) ! = 0 & & bp - > ramchain . H . data ! = 0 & & ( numpkinds = bp - > ramchain . H . data - > numpkinds ) > 0 & & ( numunspents = bp - > ramchain . H . data - > numunspents ) > 0 & & ( Aptr = bp - > ramchain . A2 ) ! = 0 & & ( Uptr = bp - > ramchain . Uextras ) ! = 0 )
{
if ( ( bp - > bundleheight % 10000 ) = = 0 )
fprintf ( stderr , " . " ) ;
if ( filecrc = = 0 )
{
vupdate_sha256 ( balancehash . bytes , & vstate , ( void * ) Aptr , sizeof ( * Aptr ) * numpkinds ) ;
vupdate_sha256 ( balancehash . bytes , & vstate , ( void * ) Uptr , sizeof ( * Uptr ) * numunspents ) ;
vupdate_sha256 ( allbundles . bytes , & bstate , ( void * ) bp - > hashes , sizeof ( bp - > hashes [ 0 ] ) * bp - > n ) ;
}
crc = calc_crc32 ( crc , ( void * ) Aptr , ( int32_t ) ( sizeof ( * Aptr ) * numpkinds ) ) ;
crc = calc_crc32 ( crc , ( void * ) Uptr , ( int32_t ) ( sizeof ( * Uptr ) * numunspents ) ) ;
crc = calc_crc32 ( crc , ( void * ) bp - > hashes , ( int32_t ) ( sizeof ( bp - > hashes [ 0 ] ) * bp - > n ) ) ;
} //else printf("missing hdrs.[%d] data.%p num.(%u %d) %p %p\n",i,bp->ramchain.H.data,numpkinds,numunspents,Aptr,Uptr);
}
} else crc = filecrc ;
printf ( " millis %.0f from_ro.%d written.%d crc.%08x/%08x balancehash.(%s) vs (%s) \n " , OS_milliseconds ( ) , from_ro , coin - > balanceswritten , crc , filecrc , bits256_str ( str , balancehash ) , bits256_str ( str2 , coin - > balancehash ) ) ;
if ( ( filecrc ! = 0 & & filecrc ! = crc ) | | memcmp ( balancehash . bytes , coin - > balancehash . bytes , sizeof ( balancehash ) ) ! = 0 | | memcmp ( allbundles . bytes , coin - > allbundles . bytes , sizeof ( allbundles ) ) ! = 0 )
{
printf ( " balancehash or crc.(%x %x) mismatch or allbundles.(%llx %llx) mismatch \n " , crc , filecrc , ( long long ) allbundles . txid , ( long long ) coin - > allbundles . txid ) ;
iguana_truncatebalances ( coin ) ;
OS_removefile ( crcfname , 0 ) ;
}
else
{
printf ( " MATCHED balancehash numhdrsi.%d crc.%08x \n " , coin - > balanceswritten , crc ) ;
if ( ( fp = fopen ( crcfname , " wb " ) ) ! = 0 )
{
if ( fwrite ( & crc , 1 , sizeof ( crc ) , fp ) ! = sizeof ( crc ) | | fwrite ( & balancehash , 1 , sizeof ( balancehash ) , fp ) ! = sizeof ( balancehash ) | | fwrite ( & allbundles , 1 , sizeof ( allbundles ) , fp ) ! = sizeof ( allbundles ) )
printf ( " error writing.(%s) \n " , crcfname ) ;
fclose ( fp ) ;
}
else
{
printf ( " volatileinit: cant create.(%s) \n " , crcfname ) ;
return ( - 1 ) ;
}
}
}
if ( ( coin - > RTheight = coin - > balanceswritten * coin - > chain - > bundlesize ) > coin - > longestchain )
coin - > longestchain = coin - > RTheight ;
iguana_bundlestats ( coin , buf , IGUANA_DEFAULTLAG ) ;
if ( ( bp = coin - > bundles [ coin - > balanceswritten - 1 ] ) ! = 0 & & ( block = bp - > blocks [ bp - > n - 1 ] ) ! = 0 )
{
//char str[65];
//printf("set hwmchain.%d <- %s %p\n",bp->bundleheight+bp->n-1,bits256_str(str,bp->hashes[bp->n-1]),block);
if ( block - > height > coin - > blocks . hwmchain . height )
iguana_blockzcopy ( coin - > chain - > zcash , ( void * ) & coin - > blocks . hwmchain , block ) ;
}
//printf("end volatilesinit\n");
if ( iguana_fastfindinit ( coin ) = = 0 ) //&& coin->PREFETCHLAG >= 0 )
iguana_fastfindcreate ( coin ) ;
return ( coin - > balanceswritten ) ;
}
void iguana_initfinal ( struct iguana_info * coin , bits256 lastbundle )
{
int32_t i , hdrsi , bundlei , height ; struct iguana_bundle * bp ; bits256 hash2 ; struct iguana_block * block ; char hashstr [ 65 ] ;
if ( bits256_nonz ( lastbundle ) > 0 )
{
init_hexbytes_noT ( hashstr , lastbundle . bytes , sizeof ( bits256 ) ) ;
printf ( " req lastbundle.(%s) \n " , hashstr ) ;
queue_enqueue ( " hdrsQ " , & coin - > hdrsQ , queueitem ( hashstr ) , 1 ) ;
}
for ( i = 0 ; i < coin - > bundlescount - 1 ; i + + )
{
if ( ( bp = coin - > bundles [ i ] ) = = 0 | | bp - > emitfinish < = 1 )
{
printf ( " initfinal break.[%d]: bp.%p or emit.%u utxofinish.%u \n " , i , bp , bp ! = 0 ? bp - > emitfinish : - 1 , bp ! = 0 ? bp - > utxofinish : - 1 ) ;
break ;
}
if ( i = = 0 )
bp - > utxofinish = bp - > startutxo = ( uint32_t ) time ( NULL ) ;
}
if ( i < coin - > bundlescount - 1 )
{
printf ( " spendvectors.[%d] max.%d missing, will regen all of them \n " , i , coin - > bundlescount - 1 ) ;
for ( i = 0 ; i < coin - > bundlescount - 1 ; i + + )
{
if ( ( bp = coin - > bundles [ i ] ) ! = 0 )
bp - > startutxo = bp - > utxofinish = 0 ;
}
}
else
{
for ( i = 0 ; i < coin - > bundlescount - 1 ; i + + )
{
if ( ( bp = coin - > bundles [ i ] ) ! = 0 )
bp - > converted = ( uint32_t ) time ( NULL ) ;
}
}
printf ( " i.%d bundlescount.%d \n " , i , coin - > bundlescount ) ;
if ( coin - > balanceswritten > 1 )
coin - > balanceswritten = iguana_volatilesinit ( coin ) ;
if ( coin - > balanceswritten > 1 )
{
for ( i = 0 ; i < coin - > balanceswritten ; i + + )
{
//printf("%d ",i);
iguana_validateQ ( coin , coin - > bundles [ i ] ) ;
}
}
printf ( " i.%d balanceswritten.%d \n " , i , coin - > balanceswritten ) ;
if ( coin - > balanceswritten < coin - > bundlescount )
{
for ( i = coin - > balanceswritten ; i < coin - > bundlescount ; i + + )
{
if ( ( bp = coin - > bundles [ i ] ) ! = 0 & & bp - > queued = = 0 )
{
//printf("%d ",i);
iguana_bundleQ ( coin , bp , 1000 ) ;
}
}
printf ( " iguana_bundlesQ %d to %d \n " , coin - > balanceswritten , coin - > bundlescount ) ;
}
if ( ( coin - > origbalanceswritten = coin - > balanceswritten ) > 0 )
iguana_volatilesinit ( coin ) ;
iguana_savehdrs ( coin ) ;
iguana_fastlink ( coin , coin - > balanceswritten * coin - > chain - > bundlesize - 1 ) ;
iguana_walkchain ( coin , 0 ) ;
hash2 = iguana_blockhash ( coin , coin - > balanceswritten * coin - > chain - > bundlesize ) ;
if ( bits256_nonz ( hash2 ) ! = 0 & & ( block = iguana_blockfind ( " initfinal " , coin , hash2 ) ) ! = 0 )
{
for ( height = 0 ; height < coin - > bundlescount * coin - > chain - > bundlesize ; height + + )
{
if ( _iguana_chainlink ( coin , block ) = = 0 )
break ;
if ( coin - > virtualchain = = 0 )
break ;
bundlei = ( height % coin - > chain - > bundlesize ) ;
hdrsi = ( height / coin - > chain - > bundlesize ) ;
if ( ( bp = coin - > bundles [ hdrsi ] ) = = 0 | | ( block = bp - > blocks [ bundlei ] ) = = 0 )
break ;
}
printf ( " %s height.%d hwm.%d \n " , coin - > symbol , height , coin - > blocks . hwmchain . height ) ;
}
}
int32_t iguana_balanceflush ( struct iguana_info * coin , int32_t refhdrsi )
{
int32_t hdrsi , numpkinds , iter , numhdrsi , i , numunspents , err ; struct iguana_bundle * bp ;
char fname [ 1024 ] , fname2 [ 1024 ] , destfname [ 1024 ] ; bits256 balancehash , allbundles ; FILE * fp , * fp2 ;
struct iguana_utxo * Uptr ; struct iguana_account * Aptr ; struct sha256_vstate vstate , bstate ;
vupdate_sha256 ( balancehash . bytes , & vstate , 0 , 0 ) ;
numhdrsi = refhdrsi ;
vupdate_sha256 ( balancehash . bytes , & vstate , 0 , 0 ) ;
vupdate_sha256 ( allbundles . bytes , & bstate , 0 , 0 ) ;
for ( iter = 0 ; iter < 3 ; iter + + )
{
for ( hdrsi = 0 ; hdrsi < numhdrsi ; hdrsi + + )
{
Aptr = 0 ;
Uptr = 0 ;
numunspents = numpkinds = 0 ;
if ( ( bp = coin - > bundles [ hdrsi ] ) ! = 0 & & bp - > ramchain . H . data ! = 0 & & ( numpkinds = bp - > ramchain . H . data - > numpkinds ) > 0 & & ( numunspents = bp - > ramchain . H . data - > numunspents ) > 0 & & ( Aptr = bp - > ramchain . A2 ) ! = 0 & & ( Uptr = bp - > ramchain . Uextras ) ! = 0 )
{
sprintf ( fname , " %s/%s/debits.%d_N%d " , GLOBAL_TMPDIR , coin - > symbol , bp - > hdrsi , numhdrsi ) ;
sprintf ( fname2 , " %s/%s/lastspends.%d_N%d " , GLOBAL_TMPDIR , coin - > symbol , bp - > hdrsi , numhdrsi ) ;
if ( iter = = 0 )
{
vupdate_sha256 ( balancehash . bytes , & vstate , ( void * ) Aptr , sizeof ( * Aptr ) * numpkinds ) ;
vupdate_sha256 ( balancehash . bytes , & vstate , ( void * ) Uptr , sizeof ( * Uptr ) * numunspents ) ;
vupdate_sha256 ( allbundles . bytes , & bstate , ( void * ) bp - > hashes , sizeof ( bp - > hashes [ 0 ] ) * bp - > n ) ;
}
else if ( iter = = 1 )
{
if ( ( fp = fopen ( fname , " wb " ) ) ! = 0 & & ( fp2 = fopen ( fname2 , " wb " ) ) ! = 0 )
{
err = - 1 ;
if ( fwrite ( & numhdrsi , 1 , sizeof ( numhdrsi ) , fp ) = = sizeof ( numhdrsi ) & & fwrite ( & numhdrsi , 1 , sizeof ( numhdrsi ) , fp2 ) = = sizeof ( numhdrsi ) & & fwrite ( balancehash . bytes , 1 , sizeof ( balancehash ) , fp ) = = sizeof ( balancehash ) & & fwrite ( balancehash . bytes , 1 , sizeof ( balancehash ) , fp2 ) = = sizeof ( balancehash ) & & fwrite ( allbundles . bytes , 1 , sizeof ( allbundles ) , fp ) = = sizeof ( allbundles ) & & fwrite ( allbundles . bytes , 1 , sizeof ( allbundles ) , fp2 ) = = sizeof ( allbundles ) )
{
if ( fwrite ( Aptr , sizeof ( * Aptr ) , numpkinds , fp ) = = numpkinds )
{
if ( fwrite ( Uptr , sizeof ( * Uptr ) , numunspents , fp2 ) = = numunspents )
{
err = 0 ;
printf ( " [%d] of %d saved (%s) and (%s) \n " , hdrsi , numhdrsi , fname , fname2 ) ;
}
}
}
if ( err ! = 0 )
{
printf ( " balanceflush.%s error iter.%d hdrsi.%d \n " , coin - > symbol , iter , hdrsi ) ;
fclose ( fp ) ;
fclose ( fp2 ) ;
return ( - 1 ) ;
}
fclose ( fp ) , fclose ( fp2 ) ;
}
else
{
printf ( " error opening %s or %s %p \n " , fname , fname2 , fp ) ;
if ( fp ! = 0 )
fclose ( fp ) ;
}
}
else if ( iter = = 2 )
{
sprintf ( destfname , " %s/%s/accounts/debits.%d " , GLOBAL_DBDIR , coin - > symbol , bp - > bundleheight ) ;
if ( OS_copyfile ( fname , destfname , 1 ) < 0 )
{
printf ( " balances error copying (%s) -> (%s) \n " , fname , destfname ) ;
return ( - 1 ) ;
}
sprintf ( destfname , " %s/%s/accounts/lastspends.%d " , GLOBAL_DBDIR , coin - > symbol , bp - > bundleheight ) ;
if ( OS_copyfile ( fname2 , destfname , 1 ) < 0 )
{
printf ( " balances error copying (%s) -> (%s) \n " , fname2 , destfname ) ;
return ( - 1 ) ;
}
printf ( " %s -> %s \n " , fname , destfname ) ;
OS_removefile ( fname , 0 ) ;
OS_removefile ( fname2 , 0 ) ;
}
if ( bp - > ramchain . allocatedA2 = = 0 | | bp - > ramchain . allocatedU2 = = 0 )
{
printf ( " skip saving.[%d] files as not allocated \n " , bp - > hdrsi ) ;
break ;
}
}
else if ( hdrsi > 0 & & ( coin - > current = = 0 | | hdrsi ! = coin - > current - > hdrsi ) )
{
printf ( " balanceflush iter.%d error loading [%d] Aptr.%p Uptr.%p numpkinds.%u numunspents.%u \n " , iter , hdrsi , Aptr , Uptr , numpkinds , numunspents ) ;
return ( - 1 ) ;
}
}
}
coin - > allbundles = allbundles ;
coin - > balancehash = balancehash ;
coin - > balanceswritten = numhdrsi ;
if ( 1 )
{
for ( hdrsi = 0 ; hdrsi < numhdrsi ; hdrsi + + )
if ( ( bp = coin - > bundles [ hdrsi ] ) = = 0 & & bp ! = coin - > current )
{
iguana_volatilespurge ( coin , & bp - > ramchain ) ;
if ( iguana_volatilesmap ( coin , & bp - > ramchain ) ! = 0 )
printf ( " error mapping bundle.[%d] \n " , hdrsi ) ;
}
}
char str [ 65 ] ; printf ( " BALANCES WRITTEN for %d orig.%d bundles %s \n " , coin - > balanceswritten , coin - > origbalanceswritten , bits256_str ( str , coin - > balancehash ) ) ;
if ( 0 & & coin - > balanceswritten > coin - > origbalanceswritten + 10 ) // strcmp(coin->symbol,"BTC") == 0 &&
{
coin - > active = 0 ;
coin - > started = 0 ;
if ( coin - > peers ! = 0 )
for ( i = 0 ; i < IGUANA_MAXPEERS ; i + + )
coin - > peers - > active [ i ] . dead = ( uint32_t ) time ( NULL ) ;
# ifdef __linux__
char cmd [ 1024 ] ;
sprintf ( cmd , " mksquashfs %s/%s %s.%d -comp xz " , GLOBAL_DBDIR , coin - > symbol , coin - > symbol , coin - > balanceswritten ) ;
if ( system ( cmd ) ! = 0 )
printf ( " error system(%s) \n " , cmd ) ;
else
{
sprintf ( cmd , " sudo umount %s/ro/%s " , GLOBAL_DBDIR , coin - > symbol ) ;
if ( system ( cmd ) ! = 0 )
printf ( " error system(%s) \n " , cmd ) ;
else
{
sprintf ( cmd , " sudo mount %s.%d %s/ro/%s -t squashfs -o loop " , coin - > symbol , coin - > balanceswritten , GLOBAL_DBDIR , coin - > symbol ) ;
if ( system ( cmd ) ! = 0 )
printf ( " error system(%s) \n " , cmd ) ;
}
}
# endif
for ( i = 0 ; i < 30 ; i + + )
{
printf ( " need to exit, please restart after shutdown in %d seconds, or just ctrl-C \n " , 30 - i ) ;
sleep ( 1 ) ;
}
exit ( - 1 ) ;
}
coin - > balanceswritten = iguana_volatilesinit ( coin ) ;
//printf("flush free\n");
iguana_RTramchainfree ( coin , bp ) ;
return ( coin - > balanceswritten ) ;
}
int32_t iguana_spendvectorsaves ( struct iguana_info * coin )
{
int32_t i , j , n , iter ; struct iguana_bundle * bp ; struct iguana_ramchaindata * rdata ;
if ( coin - > spendvectorsaved > 1 )
return ( 0 ) ;
coin - > spendvectorsaved = 1 ;
n = coin - > bundlescount - 1 ;
//printf("SAVE SPEND VECTORS %d of %d\n",n,coin->bundlescount);
for ( iter = 0 ; iter < 2 ; iter + + )
{
for ( i = 0 ; i < n ; i + + )
{
if ( ( bp = coin - > bundles [ i ] ) ! = 0 )
{
if ( iter = = 0 )
{
if ( bp - > tmpspends ! = 0 ) //bp->ramchain.Xspendinds == 0 &&
{
for ( j = 0 ; j < bp - > numtmpspends ; j + + )
if ( bp - > tmpspends [ j ] . tmpflag ! = 0 )
{
printf ( " vectorsave.[%d] vec.%d still has tmpflag \n " , i , j ) ;
return ( - 1 ) ;
}
}
}
else if ( ( rdata = bp - > ramchain . H . data ) ! = 0 & & iguana_spendvectorsave ( coin , bp , & bp - > ramchain , bp - > tmpspends , bp - > numtmpspends , rdata - > numspends ) = = 0 )
{
if ( bp - > tmpspends ! = 0 & & bp - > numtmpspends > 0 & & bp - > tmpspends ! = bp - > ramchain . Xspendinds )
myfree ( bp - > tmpspends , sizeof ( * bp - > tmpspends ) * bp - > numtmpspends ) ;
bp - > numtmpspends = 0 ;
bp - > tmpspends = 0 ;
}
}
}
}
coin - > spendvectorsaved = ( uint32_t ) time ( NULL ) ;
return ( 0 ) ;
}
int32_t iguana_spendvectorconvs ( struct iguana_info * coin , struct iguana_bundle * spentbp , int32_t starti )
{
struct iguana_bundle * bp ; int16_t spent_hdrsi ; uint32_t numpkinds ; struct iguana_unspent * spentU ; struct iguana_spendvector * vec ; int32_t i , converted , j , n = coin - > bundlescount ; struct iguana_ramchain * ramchain ; struct iguana_ramchaindata * rdata = 0 ;
if ( ( rdata = spentbp - > ramchain . H . data ) = = 0 )
{
//if ( spentbp == coin->current )
printf ( " iguana_spendvectorconvs: [%d] null rdata.%p \n " , spentbp - > hdrsi , rdata ) ;
return ( - 1 ) ;
}
spent_hdrsi = spentbp - > hdrsi ;
ramchain = & spentbp - > ramchain ;
numpkinds = rdata - > numpkinds ;
spentU = RAMCHAIN_PTR ( rdata , Uoffset ) ;
//spentU = (void *)(long)((long)rdata + rdata->Uoffset);
for ( i = converted = 0 ; i < n ; i + + )
{
if ( ( bp = coin - > bundles [ i ] ) ! = 0 & & bp - > tmpspends ! = 0 )
{
for ( j = 0 ; j < bp - > numtmpspends ; j + + )
{
vec = & bp - > tmpspends [ j ] ;
if ( vec - > hdrsi = = spent_hdrsi )
{
if ( vec - > tmpflag = = 0 )
{
if ( bp - > tmpspends ! = bp - > ramchain . Xspendinds & & bp ! = coin - > current )
printf ( " unexpected null tmpflag [%d] j.%d spentbp.[%d] \n " , bp - > hdrsi , j , spentbp - > hdrsi ) ;
}
else
{
if ( _iguana_spendvectorconv ( vec , & spentU [ vec - > unspentind ] , numpkinds , vec - > hdrsi , vec - > unspentind ) ! = 0 )
converted + + ;
else
{
printf ( " iguana_spendvectorconv.[%d] error [%d] at %d of T[%d/%d] [%d] u%u p%u \n " , spentbp - > hdrsi , bp - > hdrsi , j , bp - > numtmpspends , n , vec - > hdrsi , vec - > unspentind , spentU [ vec - > unspentind ] . pkind ) ;
return ( - 1 ) ;
}
}
}
}
}
else if ( bp - > hdrsi < coin - > bundlescount - 1 )
{
//printf("iguana_spendvectorconvs: [%d] null bp.%p\n",i,bp);
}
}
spentbp - > converted = ( uint32_t ) time ( NULL ) ;
//printf("spendvectorconvs.[%d] converted.%d\n",refbp->hdrsi,converted);
return ( converted ) ;
}
int32_t iguana_convert ( struct iguana_info * coin , int32_t helperid , struct iguana_bundle * bp , int32_t RTflag , int32_t starti )
{
static int64_t total [ 256 ] , depth ;
int32_t i , n , m , max , converted ; int64_t total_tmpspends , sum ; double startmillis = OS_milliseconds ( ) ;
depth + + ;
if ( ( converted = iguana_spendvectorconvs ( coin , bp , starti ) ) < 0 )
{
printf ( " error iguana_convert.[%d] \n " , bp - > hdrsi ) ;
return ( 0 ) ;
}
else
{
n = coin - > bundlescount ;
for ( i = m = total_tmpspends = 0 ; i < n ; i + + )
{
if ( coin - > bundles [ i ] ! = 0 )
{
total_tmpspends + = coin - > bundles [ i ] - > numtmpspends ;
if ( coin - > bundles [ i ] - > converted > 1 )
m + + ;
}
}
max = ( int32_t ) ( sizeof ( total ) / sizeof ( * total ) ) ;
total [ helperid % max ] + = converted ;
for ( i = sum = 0 ; i < max ; i + + )
sum + = total [ i ] ;
if ( 0 & & converted ! = 0 & & bp ! = coin - > current )
printf ( " [%4d] millis %7.3f converted.%-7d balance calc.%-4d of %4d | total.%llu of %llu depth.%d \n " , bp - > hdrsi , OS_milliseconds ( ) - startmillis , converted , m , n , ( long long ) sum , ( long long ) total_tmpspends , ( int32_t ) depth ) ;
}
depth - - ;
return ( converted ) ;
}
int32_t iguana_bundlevalidate ( struct iguana_info * coin , struct iguana_bundle * bp , int32_t forceflag )
{
static int32_t totalerrs , totalvalidated ;
FILE * fp ; char fname [ 1024 ] ; uint8_t * blockspace ; uint32_t now = ( uint32_t ) time ( NULL ) ;
int32_t i , max , len , errs = 0 ; struct sha256_vstate vstate ; bits256 validatehash ; int64_t total = 0 ;
if ( ( coin - > MAXPEERS > 1 & & coin - > VALIDATENODE = = 0 & & coin - > RELAYNODE = = 0 ) | | bp - > ramchain . from_ro ! = 0 | | bp = = coin - > current )
{
bp - > validated = ( uint32_t ) time ( NULL ) ;
return ( bp - > n ) ;
}
if ( bp - > validated < = 1 | | forceflag ! = 0 )
{
//printf("validate.[%d] forceflag.%d\n",bp->hdrsi,forceflag);
vupdate_sha256 ( validatehash . bytes , & vstate , 0 , 0 ) ;
sprintf ( fname , " %s/%s/validated/%d " , GLOBAL_DBDIR , coin - > symbol , bp - > bundleheight ) ;
//printf("validatefname.(%s)\n",fname);
if ( ( fp = fopen ( fname , " rb " ) ) ! = 0 )
{
if ( forceflag = = 0 )
{
if ( fread ( & bp - > validated , 1 , sizeof ( bp - > validated ) , fp ) ! = sizeof ( bp - > validated ) | | fread ( & total , 1 , sizeof ( total ) , fp ) ! = sizeof ( total ) | | fread ( & validatehash , 1 , sizeof ( validatehash ) , fp ) ! = sizeof ( validatehash ) )
{
printf ( " error reading.(%s) \n " , fname ) ;
total = bp - > validated = 0 ;
} //else printf("(%s) total.%d validated.%u\n",fname,(int32_t)total,bp->validated);
} else OS_removefile ( fname , 1 ) ;
fclose ( fp ) ;
}
if ( forceflag ! = 0 | | bp - > validated < = 1 )
{
max = coin - > blockspacesize ;
blockspace = calloc ( 1 , max ) ;
iguana_volatilesmap ( coin , & bp - > ramchain ) ;
for ( i = 0 ; i < bp - > n ; i + + )
{
if ( ( len = iguana_peerblockrequest ( coin , blockspace , max , 0 , bp - > hashes [ i ] , 1 ) ) < 0 )
{
errs + + ;
iguana_blockunmark ( coin , bp - > blocks [ i ] , bp , i , 1 ) ;
totalerrs + + ;
}
else
{
vupdate_sha256 ( validatehash . bytes , & vstate , bp - > hashes [ i ] . bytes , sizeof ( bp - > hashes [ i ] ) ) ;
total + = len , totalvalidated + + ;
}
}
free ( blockspace ) ;
bp - > validated = ( uint32_t ) time ( NULL ) ;
printf ( " VALIDATED.[%d] ht.%d duration.%d errs.%d total.%lld %u | total errs.%d validated.%d %llx \n " , bp - > hdrsi , bp - > bundleheight , bp - > validated - now , errs , ( long long ) total , bp - > validated , totalerrs , totalvalidated , ( long long ) validatehash . txid ) ;
if ( bp = = coin - > current )
coin - > RTdatabad = - 1 ;
}
if ( errs = = 0 & & fp = = 0 )
{
if ( ( fp = fopen ( fname , " wb " ) ) ! = 0 )
{
if ( fwrite ( & bp - > validated , 1 , sizeof ( bp - > validated ) , fp ) ! = sizeof ( bp - > validated ) | | fwrite ( & total , 1 , sizeof ( total ) , fp ) ! = sizeof ( total ) | | fwrite ( & validatehash , 1 , sizeof ( validatehash ) , fp ) ! = sizeof ( validatehash ) )
printf ( " error saving.(%s) total.%lld \n " , fname , ( long long ) total ) ;
fclose ( fp ) ;
}
}
bp - > validatehash = validatehash ;
} // else printf("skip validate.[%d] validated.%u force.%d\n",bp->hdrsi,bp->validated,forceflag);
if ( errs ! = 0 )
{
printf ( " remove.[%d] \n " , bp - > hdrsi ) ;
iguana_bundleremove ( coin , bp - > hdrsi , 0 ) ;
}
return ( bp - > n - errs ) ;
}