/****************************************************************************** * Copyright © 2014-2016 The SuperNET Developers. * * * * See the AUTHORS, DEVELOPER-AGREEMENT and LICENSE files at * * the top-level directory of this distribution for the individual copyright * * holder information and the developer policies on copyright and licensing. * * * * 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 * * * * Removal or modification of this copyright notice is prohibited. * * * ******************************************************************************/ #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; ihdrsi,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 ( emit != 0 && 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; inumXspends; 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 supernet_info *myinfo,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); iguana_exit(myinfo,0); return(0); } } 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); iguana_exit(myinfo,coin->bundles[spent_hdrsi]); } 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("%s illegal hdrsi.%d when [%d] spentbp.%p\n",coin->symbol,hdrsi,spent_hdrsi,spentbp); else if ( unspentind == 0 || unspentind >= spentbp->ramchain.H.data->numunspents ) printf("%s illegal unspentind.%d vs max.%d spentbp.%p[%d]\n",coin->symbol,unspentind,spentbp->ramchain.H.data->numunspents,spentbp,hdrsi); else return(spentbp); //iguana_bundleremove(coin,spent_hdrsi,1); iguana_exit(myinfo,coin->bundles[spent_hdrsi]); } //exit(-1); return(0); } struct iguana_bundle *iguana_fastexternalspent(struct supernet_info *myinfo,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; uint64_t RTspent; 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(myinfo,coin,&RTspent,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 supernet_info *myinfo,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 ( ramchain->H.data == 0 ) { printf("AUTO volatilesalloc [%d]\n",bp->hdrsi); iguana_volatilesalloc(coin,ramchain,0); } 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 = RAMCHAIN_PTR(rdata,Boffset); S = RAMCHAIN_PTR(rdata,Soffset); T = RAMCHAIN_PTR(rdata,Toffset); if ( ramchain->Xspendinds != 0 ) { bp->tmpspends = ramchain->Xspendinds; bp->numtmpspends = ramchain->numXspends; bp->emitfinish = (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]); } //need zB[]? txidind = B[starti].firsttxidind; spendind = B[starti].firstvin; for (i=starti; icurrent && (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(myinfo,coin,&prevhash,&spent_unspentind,ramchain,bp->hdrsi,s); } else if ( spentbp == 0 ) { if ( (spentbp= iguana_externalspent(myinfo,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("%s UTXO [%4d].%-6d dur.%-2d [%8.3f] vec %-6d err.%d [%5.2f%%] %7d %9s of %d\n",coin->symbol,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,unspentind,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,*U; struct iguana_spendvector *Xspendinds; struct iguana_txid *T; struct iguana_blockRO *B; struct iguana_bundle *spentbp; struct iguana_pkhash *P; //struct iguana_utxoaddr *utxoaddr; int32_t spent_hdrsi,spendind,n,numXspends,errs=0,emit=0; struct iguana_spend *S,*s; /*if ( (starti % coin->chain->bundlesize) != 0 || (endheight % coin->chain->bundlesize) != coin->chain->bundlesize-1 ) ramchain = &coin->RTramchain; else*/ ramchain = &bp->ramchain; starti %= coin->chain->bundlesize; if ( (rdata= ramchain->H.data) == 0 || (n= rdata->numspends) < 1 ) return(-1); S = RAMCHAIN_PTR(rdata,Soffset); B = RAMCHAIN_PTR(rdata,Boffset); T = RAMCHAIN_PTR(rdata,Toffset); U = RAMCHAIN_PTR(rdata,Uoffset); P = RAMCHAIN_PTR(rdata,Poffset); //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 % coin->chain->bundlesize); txidind = B[starti].firsttxidind; spendind = B[starti].firstvin; unspentind = B[starti].firstvout; emit = startemit; if ( 0 && (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 || unspentind != B[i].firstvout ) { printf("balancegen: txidind %u != %u B[%d].firsttxidind || spendind %u != %u B[%d].firstvin errs.%d (%u != %u)\n",txidind,B[i].firsttxidind,i,spendind,B[i].firstvin,i,errs,unspentind,B[i].firstvout); return(-1); } for (j=0; jcurrent ) printf("starti.%d txidind.%d txi.%d numvins.%d spendind.%d\n",i,txidind,j,T[txidind].numvins,spendind); /*if ( bp == coin->current )//ramchain == &coin->RTramchain ) { for (k=0; khdrsi,u->pkind,P[u->pkind].rmd160,&coin->RTprev)) != 0 ) { utxoaddr->RTcredits += u->value; coin->RTcredits += u->value; //printf("[%d] u%u += %.8f\n",bp->hdrsi,u->pkind,dstr(u->value)); } else printf("cant find utxoaddr\n"); } } else */ unspentind += T[txidind].numvouts; for (k=0; kexternal != 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); u = &spentU[spent_unspentind]; if ( (spent_pkind= u->pkind) != 0 && spent_pkind < rdata->numpkinds ) spent_value = u->value; // 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 != ramchain->H.data->numtxids && (bp != coin->current || txidind != ramchain->H.txidind) ) { printf("numtxid.%d != bp numtxids %d/%d\n",txidind,ramchain->H.txidind,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,ramchain->H.spendind,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; ibalanceswritten; 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 supernet_info *myinfo,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; ibundlescount; i++)//balanceswritten; i++) { if ( (bp= coin->bundles[i]) == 0 ) continue; if ( bp->emitfinish <= 1 || (i > 0 && bp->emitfinish <= 1) ) { //printf("hdrsi.[%d] emitfinish.%u utxofinish.%u\n",i,bp->emitfinish,bp->utxofinish); continue; } 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("%s have filecrc.%08x for %s milli.%.0f from_ro.%d\n",coin->symbol,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; ibalanceswritten; 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 ) { //fprintf(stderr,"balancehash add [%d]\n",bp->hdrsi); 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("%s millis %.0f from_ro.%d written.%d crc.%08x/%08x balancehash.(%s) vs (%s)\n",coin->symbol,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("%s balancehash or crc.(%x %x) mismatch or allbundles.(%llx %llx) mismatch\n",coin->symbol,crc,filecrc,(long long)allbundles.txid,(long long)coin->allbundles.txid); iguana_truncatebalances(coin); OS_removefile(crcfname,0); } else { printf("%s MATCHED balancehash numhdrsi.%d crc.%08x\n",coin->symbol,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-1) * coin->chain->bundlesize) > coin->longestchain ) // coin->longestchain = coin->RTheight; iguana_bundlestats(myinfo,coin,buf,IGUANA_DEFAULTLAG); if ( (bp= coin->bundles[coin->bundlescount-1]) != 0 && (block= bp->blocks[bp->n-1]) != 0 ) { if ( block->height > coin->blocks.hwmchain.height ) { char str[65]; printf("set hwmchain.%d <- %s %p\n",block->height,bits256_str(str,bp->hashes[bp->n-1]),block); iguana_blockzcopy(coin->chain->zcash,(void *)&coin->blocks.hwmchain,block); } } if ( iguana_fastfindinit(coin) == 0 )//&& coin->PREFETCHLAG >= 0 ) iguana_fastfindcreate(coin); /*for (j=0; jbundlescount; j++) if ( (bp= coin->bundles[j]) != 0 ) { iguana_volatilesalloc(coin,&bp->ramchain,1); iguana_volatilesmap(coin,&bp->ramchain); } iguana_update_balances(coin);*/ iguana_datachain_scan(myinfo,coin,CRYPTO777_RMD160); //iguana_utxoaddr_gen(myinfo,coin,(coin->bundlescount - 1) * coin->chain->bundlesize);*/ printf("end %s volatilesinit\n",coin->symbol); return(coin->bundlescount); } void iguana_initfinal(struct supernet_info *myinfo,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)); queue_enqueue("hdrsQ",&coin->hdrsQ,queueitem(hashstr),1); } for (i=0; ibundlescount-1; i++) { if ( (bp= coin->bundles[i]) == 0 || bp->emitfinish <= 1 ) { printf("%s initfinal break.[%d]: bp.%p or emit.%u utxofinish.%u\n",coin->symbol,i,bp,bp!=0?bp->emitfinish:-1,bp!=0?bp->emitfinish:-1); break; } if ( i == 0 ) bp->emitfinish = bp->startutxo = (uint32_t)time(NULL); } if ( i < coin->bundlescount-1 ) { printf("%s spendvectors.[%d] max.%d missing, will regen all of them\n",coin->symbol,i,coin->bundlescount-1); for (i=0; ibundlescount-1; i++) { if ( (bp= coin->bundles[i]) != 0 ) bp->startutxo = bp->emitfinish = bp->converted = bp->balancefinish = bp->validated = 0; } } else { for (i=0; ibundlescount-1; i++) { if ( (bp= coin->bundles[i]) != 0 ) bp->converted = (uint32_t)time(NULL); } } printf("%s i.%d bundlescount.%d\n",coin->symbol,i,coin->bundlescount); if ( coin->balanceswritten > 1 ) coin->balanceswritten = iguana_volatilesinit(myinfo,coin); /*if ( coin->balanceswritten > 1 ) { //for (i=0; ibalanceswritten; i++) for (i=0; ibundlescount; i++) { if ( (bp= coin->bundles[i]) != 0 ) iguana_bundlevalidate(myinfo,coin,bp,0); //printf("%d ",i); //iguana_validateQ(coin,coin->bundles[i]); } }*/ printf("%s i.%d balanceswritten.%d\n",coin->symbol,i,coin->balanceswritten); if ( coin->balanceswritten < coin->bundlescount ) { for (i=0*coin->balanceswritten; ibundlescount; i++) { if ( (bp= coin->bundles[i]) != 0 && bp->queued == 0 ) { //printf("%d ",i); iguana_bundleQ(myinfo,coin,bp,1000); } } printf("iguana_bundlesQ %d to %d\n",coin->balanceswritten,coin->bundlescount); } if ( (coin->origbalanceswritten= coin->balanceswritten) > 0 ) iguana_volatilesinit(myinfo,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; heightbundlescount*coin->chain->bundlesize; height++) { if ( _iguana_chainlink(myinfo,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 supernet_info *myinfo,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; hdrsibundles[hdrsi]) == 0 ) continue; if ( bp != 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 ( numpkinds == 0 || fwrite(Aptr,sizeof(*Aptr),numpkinds,fp) == numpkinds ) { if ( numunspents == 0 || fwrite(Uptr,sizeof(*Uptr),numunspents,fp2) == numunspents ) { err = 0; if ( (hdrsi % 100) == 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); OS_removefile(destfname,0); OS_renamefile(fname,destfname); /*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); OS_removefile(destfname,0); OS_renamefile(fname2,destfname); /*if ( OS_copyfile(fname2,destfname,1) < 0 ) { printf("balances error copying (%s) -> (%s)\n",fname2,destfname); return(-1); }*/ if ( (hdrsi % 100) == 0 ) printf("%s -> %s\n",fname,destfname); //OS_removefile(fname,0); //OS_removefile(fname2,0); } if ( bp->ramchain.allocatedA2 == 0 || bp->ramchain.allocatedU2 == 0 ) { printf("account.[%d] files not allocated %u %u\n",bp->hdrsi,(uint32_t)bp->ramchain.allocatedA2,(uint32_t)bp->ramchain.allocatedU2); //break; } } else if ( hdrsi > 0 && hdrsi != coin->bundlescount && (coin->current == 0 || hdrsi != coin->current->hdrsi ) ) { printf("balanceflush num.%d iter.%d error loading [%d] Aptr.%p Uptr.%p numpkinds.%u numunspents.%u\n",coin->bundlescount,iter,hdrsi,Aptr,Uptr,numpkinds,numunspents); return(-1); } } } coin->allbundles = allbundles; coin->balancehash = balancehash; coin->balanceswritten = numhdrsi; if ( 1 ) { for (hdrsi=0; hdrsibundles[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)); //iguana_utxoaddr_gen(myinfo,coin,(coin->balanceswritten - 1) * coin->chain->bundlesize); 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; ipeers->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 iguana_exit(myinfo,0); } coin->balanceswritten = iguana_volatilesinit(myinfo,coin); //printf("flush free\n"); iguana_RTdataset_free(coin); //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; ibundles[i]) != 0 ) { if ( iter == 0 ) { if ( bp->tmpspends != 0 )//bp->ramchain.Xspendinds == 0 && { for (j=0; jnumtmpspends; j++) if ( bp->tmpspends[j].tmpflag != 0 ) { printf("%s vectorsave.[%d] vec.%d still has tmpflag\n",coin->symbol,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); coin->spendvalidated = 0; 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; ibundles[i]) != 0 && bp->tmpspends != 0 ) { for (j=0; jnumtmpspends; 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; ibundles[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; icurrent ) 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 supernet_info *myinfo,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->chain->zcash != 0 ) { printf("need to process joinsplits before can validate.%s\n",coin->symbol); bp->validated = (uint32_t)time(NULL); return(bp->n); } if ( (coin->MAXPEERS > 1 && coin->VALIDATENODE == 0 && coin->FULLNODE == 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_volatilespurge(coin,&bp->ramchain); iguana_volatilesmap(coin,&bp->ramchain); for (i=0; in; i++) { char str[65]; if ( coin->chain->fixit != 0 ) printf("validate %s.[%d:%d] %s\n",coin->symbol,bp->hdrsi,i,bits256_str(str,bp->hashes[i])); if ( (len= iguana_peerblockrequest(myinfo,coin,blockspace,max,0,bp->hashes[i],1)) < 0 ) { errs++; //fprintf(stderr,"-%s.[%d:%d] ",coin->symbol,bp->hdrsi,i); //printf("bundlevalidate: %s delete [%d:%d]\n",coin->symbol,bp->hdrsi,i); 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); printf("%s %s VALIDATED.[%d] ht.%d duration.%d errs.%d total.%lld %u | total errs.%d validated.%d %llx\n",coin->symbol,errs!=0?"NOT":"",bp->hdrsi,bp->bundleheight,(uint32_t)time(NULL) - now,errs,(long long)total,bp->validated,totalerrs,totalvalidated,(long long)validatehash.txid); if ( errs == 0 ) bp->validated = (uint32_t)time(NULL); else bp->startutxo = bp->emitfinish = 0; //iguana_volatilesmap(coin,&bp->ramchain); //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("%s remove.[%d]\n",coin->symbol,bp->hdrsi); iguana_bundleremove(coin,bp->hdrsi,0); return(-errs); } return(bp->n - errs); }