/****************************************************************************** * 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" //#define ENABLE_RAMCHAIN void iguana_RTramchainfree(struct iguana_info *coin,struct iguana_bundle *bp) { //return; #ifdef ENABLE_RAMCHAIN int32_t hdrsi; //portable_mutex_lock(&coin->RTmutex); if ( coin->utxotable != 0 ) { printf("free RTramchain\n"); iguana_utxoupdate(coin,-1,0,0,0,0,-1,0); // free hashtables coin->lastRTheight = coin->RTheight = 0;//(coin->bundlescount-1) * coin->chain->bundlesize; coin->RTgenesis = 0; iguana_utxoaddrs_purge(coin); iguana_ramchain_free(coin,&coin->RTramchain,1); if ( bp != 0 ) bp->ramchain = coin->RTramchain; iguana_mempurge(&coin->RTmem); iguana_mempurge(&coin->RThashmem); for (hdrsi=coin->bundlescount-1; hdrsi>0; 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); } coin->RTdatabad = 0; printf("done RTramchain\n"); } //portable_mutex_unlock(&coin->RTmutex); #endif } void *iguana_ramchainfile(struct supernet_info *myinfo,struct iguana_info *coin,struct iguana_ramchain *dest,struct iguana_ramchain *R,struct iguana_bundle *bp,int32_t bundlei,struct iguana_block *block) { //return(0); #ifdef ENABLE_RAMCHAIN char fname[1024]; long filesize; int32_t err; void *ptr=0; if ( block == bp->blocks[bundlei] && (ptr= iguana_bundlefile(coin,fname,&filesize,bp,bundlei)) != 0 ) { if ( iguana_mapchaininit(fname,coin,R,bp,bundlei,block,ptr,filesize) >= 0 ) { if ( dest != 0 && dest->H.data != 0 ) err = iguana_ramchain_iterate(myinfo,coin,dest,R,bp,bundlei); else err = 0; if ( err != 0 || dest->H.data == 0 || bits256_cmp(R->H.data->firsthash2,block->RO.hash2) != 0 ) { char str[65]; printf("ERROR [%d:%d] %s vs ",bp->hdrsi,bundlei,bits256_str(str,block->RO.hash2)); printf("mapped.%s\n",bits256_str(str,R->H.data->firsthash2)); } else return(ptr); } iguana_blockunmark(coin,block,bp,bundlei,1); iguana_ramchain_free(coin,R,1); } //else printf("ramchainfile ptr.%p block.%p\n",ptr,block); #endif return(0); } void iguana_RTramchainalloc(char *fname,struct iguana_info *coin,struct iguana_bundle *bp) { //return; #ifdef ENABLE_RAMCHAIN uint32_t i,changed = 0; struct iguana_ramchaindata *rdata; struct iguana_ramchain *dest = &coin->RTramchain; struct iguana_blockRO *B; struct iguana_bundle *tmpbp; //portable_mutex_lock(&coin->RTmutex); if ( (rdata= dest->H.data) != 0 ) { i = 0; if ( coin->RTheight != coin->lastRTheight ) changed++; else { B = RAMCHAIN_PTR(rdata,Boffset); for (i=0; inumblocks; i++) if ( bits256_cmp(B[i].hash2,bp->hashes[i]) != 0 ) { char str[65],str2[65]; printf("mismatched hash2 at %d %s vs %s\n",bp->bundleheight+i,bits256_str(str,B[i].hash2),bits256_str(str2,bp->hashes[i])); changed++; iguana_blockunmark(coin,bp->blocks[i],bp,i,1); break; } } if ( changed != 0 ) { printf("RTramchain changed %d bundlei.%d | coin->RTheight %d != %d bp->bundleheight + %d coin->RTramchain.H.data->numblocks\n",coin->RTheight,i,coin->RTheight,bp->bundleheight,rdata->numblocks); iguana_RTramchainfree(coin,bp); } } if ( coin->RTramchain.H.data == 0 ) { iguana_ramchainopen(fname,coin,dest,&coin->RTmem,&coin->RThashmem,bp->bundleheight,bp->hashes[0]); printf("ALLOC RTramchain.(%s) RTrdata %p rdata.%p\n",fname,coin->RTramchain.H.data,bp->ramchain.H.data); dest->H.txidind = dest->H.unspentind = dest->H.spendind = dest->pkind = dest->H.data->firsti; dest->externalind = dest->H.stacksize = 0; dest->H.scriptoffset = 1; if ( 1 ) { for (i=0; ihdrsi; i++) if ( (tmpbp= coin->bundles[i]) != 0 ) { iguana_volatilespurge(coin,&tmpbp->ramchain); iguana_volatilesmap(coin,&tmpbp->ramchain); } sleep(1); } } //portable_mutex_unlock(&coin->RTmutex); #endif } void iguana_rdataset(struct iguana_ramchain *dest,struct iguana_ramchaindata *rdest,struct iguana_ramchain *src) { //return; #ifdef ENABLE_RAMCHAIN *dest = *src; dest->H.data = rdest; *rdest = *src->H.data; rdest->numpkinds = src->pkind; rdest->numexternaltxids = src->externalind; rdest->numtxids = src->H.txidind; rdest->numunspents = src->H.unspentind; rdest->numspends = src->H.spendind; //printf("RT set numtxids.%u numspends.%u\n",rdest->numtxids,rdest->numspends); #endif } void iguana_rdatarestore(struct iguana_ramchain *dest,struct iguana_ramchaindata *rdest,struct iguana_ramchain *src) { //return; #ifdef ENABLE_RAMCHAIN *src = *dest; *src->H.data = *rdest; src->pkind = rdest->numpkinds; src->externalind = rdest->numexternaltxids; src->H.txidind = rdest->numtxids; src->H.unspentind = rdest->numunspents; src->H.spendind = rdest->numspends; printf("RT restore numtxids.%u numspends.%u\n",rdest->numtxids,rdest->numspends); #endif } void iguana_RThdrs(struct iguana_info *coin,struct iguana_bundle *bp,int32_t numaddrs) { //return; #ifdef ENABLE_RAMCHAIN int32_t datalen,i; uint8_t serialized[512]; char str[65]; struct iguana_peer *addr; if ( coin->peers == 0 ) return; datalen = iguana_gethdrs(coin,serialized,coin->chain->gethdrsmsg,bits256_str(str,bp->hashes[0])); for (i=0; ipeers->numranked; i++) { queue_enqueue("hdrsQ",&coin->hdrsQ,queueitem(bits256_str(str,bp->hashes[0])),1); if ( coin->chain->hasheaders == 0 ) queue_enqueue("hdrsQ",&coin->hdrsQ,queueitem(bits256_str(str,coin->blocks.hwmchain.RO.hash2)),1); if ( (addr= coin->peers->ranked[i]) != 0 && addr->usock >= 0 && addr->dead == 0 && datalen > 0 ) { iguana_send(coin,addr,serialized,datalen); //addr->pendhdrs++; } } #endif } void iguana_RTspendvectors(struct supernet_info *myinfo,struct iguana_info *coin,struct iguana_bundle *bp) { //return; #ifdef ENABLE_RAMCHAIN int32_t iterate,lasti,num,hdrsi,orignumemit; struct iguana_ramchain R; struct iguana_ramchaindata RDATA; if ( bp->hdrsi <= 0 ) return; printf("RTspendvectors [%d]\n",bp->hdrsi); bp->ramchain = coin->RTramchain; iguana_rdataset(&R,&RDATA,&coin->RTramchain); if ( (lasti= (coin->RTheight - ((coin->RTheight/bp->n)*bp->n))) >= bp->n-1 ) lasti = bp->n - 1; orignumemit = bp->numtmpspends; iterate = 0; if ( iguana_spendvectors(myinfo,coin,bp,&coin->RTramchain,coin->RTstarti%coin->chain->bundlesize,lasti,0,iterate) < 0 ) { printf("RTutxo error -> RTramchainfree\n"); coin->RTdatabad = 1; return; } else { //printf("RTspendvectors calculated to %d [%d]\n",coin->RTheight,bp->hdrsi); bp->converted = 1; for (hdrsi=num=0; hdrsihdrsi; hdrsi++) { #ifdef __APPLE__ if ( coin->bundles[hdrsi]->lastprefetch == 0 ) { iguana_ramchain_prefetch(coin,&coin->bundles[hdrsi]->ramchain,2); coin->bundles[hdrsi]->lastprefetch = (uint32_t)time(NULL); } #endif num += iguana_convert(coin,IGUANA_NUMHELPERS,coin->bundles[hdrsi],1,orignumemit); } //printf("RTspendvectors converted.%d to %d\n",num,coin->RTheight); //iguana_rdatarestore(&R,&RDATA,&bp->ramchain); bp->converted = (uint32_t)time(NULL); if ( iguana_balancegen(coin,1,bp,coin->RTstarti,coin->RTheight > 0 ? coin->RTheight-1 : bp->bundleheight+bp->n-1,orignumemit) < 0 ) { printf("balancegen error\n"); coin->RTdatabad = 1; } else if ( coin->RTgenesis == 0 && coin->firstRTgenesis == 0 ) coin->firstRTgenesis++, printf(">>>>>> IGUANA %s READY FOR REALTIME RPC <<<<<<\n",coin->symbol); //printf("iguana_balancegen [%d] (%d to %d)\n",bp->hdrsi,coin->RTstarti,(coin->RTheight-1)%bp->n); coin->RTstarti = coin->RTheight; } #endif } int32_t iguana_realtime_update(struct supernet_info *myinfo,struct iguana_info *coin) { int32_t flag = 0; //return(0); #ifdef ENABLE_RAMCHAIN double startmillis0; static double totalmillis0; static int32_t num0; struct iguana_bundle *bp; struct iguana_ramchaindata *rdata; int32_t offset,bundlei,i,n; bits256 hash2,*ptr; struct iguana_peer *addr; struct iguana_block *block=0; struct iguana_blockRO *B; struct iguana_ramchain *dest=0,blockR; if ( coin->peers == 0 && coin->virtualchain == 0 ) return(0); offset = 0;//(strcmp("BTC",coin->symbol) != 0); if ( coin->RTheight >= (coin->current->hdrsi+1)*coin->chain->bundlesize ) { printf("inversion RT %d >= %d\n",coin->RTheight,(coin->current->hdrsi+1)*coin->chain->bundlesize); coin->lastRTheight = coin->RTheight = coin->current->hdrsi*coin->chain->bundlesize; iguana_utxoaddrs_purge(coin); } if ( coin->current != 0 && (coin->blocks.hwmchain.height % coin->chain->bundlesize) == coin->chain->bundlesize-1 && coin->blocks.hwmchain.height/coin->chain->bundlesize == coin->longestchain/coin->chain->bundlesize ) { block = coin->current->blocks[coin->current->n - 1]; if ( _iguana_chainlink(coin,block) <= 0 ) { printf("RT edge case couldnt link\n"); } else { printf("RT edge case.%d\n",block->height); if ( (bp= coin->bundles[coin->RTheight / coin->chain->bundlesize]) != 0 ) iguana_spendvectors(myinfo,coin,bp,&bp->ramchain,0,bp->n,0,0); iguana_update_balances(coin); } } if ( coin->spendvectorsaved <= 1 ) { //printf("%s spendvectorsaved not yet\n",coin->symbol); usleep(100000); return(0); } //portable_mutex_lock(&coin->RTmutex); for (i=0; ibundlescount-1; i++) { if ( (bp= coin->bundles[i]) != 0 && (i > 0 && bp->utxofinish == 0) && bp != coin->current ) { if ( iguana_spendvectors(myinfo,coin,bp,&bp->ramchain,0,bp->n,0,0) < 0 ) { //portable_mutex_unlock(&coin->RTmutex); printf("error generating spendvectors.[%d], skipping\n",i); return(0); } // else printf("generated UTXO.[%d]\n",i); coin->spendvectorsaved = 1; } } //portable_mutex_unlock(&coin->RTmutex); bp = coin->current; if ( bp == 0 )//|| iguana_validated(coin) < bp->hdrsi ) { //printf("bp.%p validated.%d vs hdrsi.%d\n",bp,iguana_validated(coin),bp->hdrsi); return(0); } if ( 0 && coin->RTheight > 0 && coin->spendvectorsaved != 1 && coin->bundlescount-1 != coin->balanceswritten ) { printf("RT mismatch %d != %d\n",coin->bundlescount-1,coin->balanceswritten); iguana_RTramchainfree(coin,coin->current); coin->spendvectorsaved = 0; coin->lastRTheight = coin->RTheight = 0; iguana_utxoaddrs_purge(coin); /*while ( coin->spendvectorsaved <= 1 ) { fprintf(stderr,"wait for spendvectorsaved\n"); sleep(3); }*/ return(0); } if ( coin->RTdatabad == 0 && bp->hdrsi >= (coin->longestchain/coin->chain->bundlesize)-1 && bp->hdrsi >= coin->balanceswritten-2 && ((coin->RTheight < coin->blocks.hwmchain.height-offset && time(NULL) > bp->lastRT) || time(NULL) > bp->lastRT+1) ) //coin->RTheight >= bp->bundleheight && coin->RTheight < bp->bundleheight+bp->n && { if ( coin->RTheight < bp->hdrsi*coin->chain->bundlesize ) { coin->lastRTheight = coin->RTheight = bp->hdrsi*coin->chain->bundlesize; iguana_utxoaddrs_purge(coin); } if ( (block= bp->blocks[0]) == 0 || block->txvalid == 0 || block->mainchain == 0 ) { if ( block != 0 ) { if ( _iguana_chainlink(coin,block) <= 0 ) { iguana_blockunmark(coin,block,bp,0,0); bp->issued[0] = 0; hash2 = bp->hashes[0]; //char str[65]; printf("RT[0] [%d:%d] %s %p\n",bp->hdrsi,0,bits256_str(str,hash2),block); if ( coin->peers != 0 ) { addr = coin->peers->ranked[rand() % 8]; if ( addr != 0 && addr->usock >= 0 && addr->dead == 0 ) iguana_sendblockreqPT(coin,addr,bp,0,hash2,0); } } } } //char str[65]; printf("check longest.%d RTheight.%d hwm.%d %s %p\n",coin->longestchain,coin->RTheight,coin->blocks.hwmchain.height,bits256_str(str,bp->hashes[0]),block); if ( bits256_cmp(coin->RThash1,bp->hashes[1]) != 0 ) coin->RThash1 = bp->hashes[1]; //bp->lastRT = (uint32_t)time(NULL); if ( coin->peers != 0 && coin->RTheight <= coin->longestchain-offset && coin->peers->numranked > 0 && time(NULL) > coin->RThdrstime+16 ) { iguana_RThdrs(coin,bp,coin->peers->numranked); coin->RThdrstime = (uint32_t)time(NULL); } bp->lastRT = (uint32_t)time(NULL); iguana_RTramchainalloc("RTbundle",coin,bp); bp->isRT = 1; //printf("%s rdata.%p RTheight.%d hwm.%d RTdatabad.%d\n",coin->symbol,coin->RTramchain.H.data,coin->RTheight,coin->blocks.hwmchain.height,coin->RTdatabad); while ( (rdata= coin->RTramchain.H.data) != 0 && coin->RTheight <= coin->blocks.hwmchain.height-offset && coin->RTdatabad == 0 ) { dest = &coin->RTramchain; B = RAMCHAIN_PTR(rdata,Boffset); bundlei = (coin->RTheight % coin->chain->bundlesize); if ( (block= iguana_bundleblock(coin,&hash2,bp,bundlei)) != 0 ) { iguana_bundlehashadd(coin,bp,bundlei,block); //printf("RT.%d vs hwm.%d starti.%d bp->n %d block.%p/%p ramchain.%p databad.%d prevnonz.%d\n",coin->RTheight,coin->blocks.hwmchain.height,coin->RTstarti,bp->n,block,bp->blocks[bundlei],dest->H.data,coin->RTdatabad,bits256_nonz(block->RO.prev_block)); } else { //printf("cant find bundleblock [%d:%d]\n",bp->hdrsi,bundlei); iguana_blockQ("RTmissing",coin,bp,bundlei,hash2,1); break; } if ( coin->RTdatabad == 0 && block != 0 && (block->height == 0 || bits256_nonz(block->RO.prev_block) != 0) ) { //printf("bundlei.%d blockht.%d RTheight.%d\n",bundlei,block->height,coin->RTheight); iguana_blocksetcounters(coin,block,dest); startmillis0 = OS_milliseconds(); if ( iguana_ramchainfile(myinfo,coin,dest,&blockR,bp,bundlei,block) == 0 ) { for (i=0; in; i++) if ( GETBIT(bp->haveblock,i) == 0 ) bp->issued[i] = 0; if ( (n= iguana_bundleissuemissing(coin,bp,3,1.)) > 0 ) printf("RT issued %d priority requests [%d] to unstick stuckiters.%d\n",n,bp->hdrsi,coin->stuckiters); for (i=bundlei; in; i++) { block = iguana_bundleblock(coin,&hash2,bp,i); if ( bits256_nonz(hash2) != 0 && (block == 0 || block->txvalid == 0) ) { uint8_t serialized[512]; int32_t len; struct iguana_peer *addr; //char str[65]; printf("RT error [%d:%d] %s %p\n",bp->hdrsi,i,bits256_str(str,hash2),block); if ( coin->peers != 0 ) { addr = coin->peers->ranked[rand() % 8]; if ( addr != 0 && addr->usock >= 0 && addr->dead == 0 && (len= iguana_getdata(coin,serialized,MSG_BLOCK,&hash2,1)) > 0 ) iguana_send(coin,addr,serialized,len); } coin->RTgenesis = 0; } if ( bits256_nonz(hash2) != 0 ) iguana_blockQ("RTerr",coin,bp,i,hash2,1); //break; } return(-1); } else iguana_ramchain_free(coin,&blockR,1); B[bundlei] = block->RO; totalmillis0 += (OS_milliseconds() - startmillis0); num0++; flag++; //coin->blocks.RO[bp->bundleheight+bundlei] = block->RO; coin->RTheight++; coin->lastRTheight = coin->RTheight; //printf(">>>> RT.%d hwm.%d L.%d T.%d U.%d S.%d P.%d X.%d -> size.%ld\n",coin->RTheight,coin->blocks.hwmchain.height,coin->longestchain,dest->H.txidind,dest->H.unspentind,dest->H.spendind,dest->pkind,dest->externalind,(long)dest->H.data->allocsize); if ( coin->RTramchain.H.data != 0 ) coin->RTramchain.H.data->numblocks = bundlei + 1; else break; } else break; } } else { if ( coin->virtualchain == 0 ) { //printf("%s skip RT.(%d %d %d %d %d %d %d %u)\n",coin->symbol,coin->RTdatabad,bp->hdrsi,coin->longestchain/coin->chain->bundlesize,coin->balanceswritten,coin->RTheight,bp->bundleheight,coin->blocks.hwmchain.height,bp->lastRT); //sleep(1); } } n = 0; if ( coin->RTdatabad == 0 && dest != 0 && flag != 0 && coin->RTheight >= coin->blocks.hwmchain.height-offset ) { printf("ramchainiterate.[%d] ave %.2f micros, total %.2f seconds starti.%d num.%d\n",num0,(totalmillis0*1000.)/num0,totalmillis0/1000.,coin->RTstarti,coin->RTheight%bp->n); if ( (n= iguana_walkchain(coin,1)) == coin->RTheight-1+offset ) { //printf("RTgenesis verified\n"); if ( (coin->RTheight % coin->chain->bundlesize) > 3 ) { //portable_mutex_lock(&coin->RTmutex); iguana_RTspendvectors(myinfo,coin,bp); //portable_mutex_unlock(&coin->RTmutex); coin->RTgenesis = (uint32_t)time(NULL); } } else { printf("walkchain error n.%d != %d\n",n,coin->RTheight-1+offset); coin->RTdatabad = 1; } } if ( dest != 0 && flag != 0 ) printf("<<<< flag.%d RT.%d:%d hwm.%d L.%d T.%d U.%d S.%d P.%d X.%d -> size.%ld balance %.8f + %.8f - %.8f = supply %.8f\n",flag,coin->RTheight,n,coin->blocks.hwmchain.height,coin->longestchain,dest->H.txidind,dest->H.unspentind,dest->H.spendind,dest->pkind,dest->externalind,dest->H.data!=0?(long)dest->H.data->allocsize:-1,dstr(coin->histbalance),dstr(coin->RTcredits),dstr(coin->RTdebits),dstr(coin->histbalance + coin->RTcredits - coin->RTdebits)); if ( coin->RTdatabad != 0 ) { bits256 lastbundle; //portable_mutex_lock(&coin->RTmutex); printf("START DATABAD fixing\n"); iguana_RTramchainfree(coin,bp); if ( coin->RTdatabad < 0 ) { memset(lastbundle.bytes,0,sizeof(lastbundle)); iguana_initfinal(myinfo,coin,lastbundle); } coin->RTdatabad = 0; //memset(bp->hashes,0,sizeof(bp->hashes)); memset(bp->blocks,0,sizeof(bp->blocks)); if ( 0 && bp->speculative != 0 ) { ptr = bp->speculative; bp->speculative = 0; memset(ptr,0,sizeof(*bp->speculative)*bp->n); myfree(ptr,(bp->n+1)*sizeof(*bp->speculative)); } iguana_RTramchainalloc("RTbundle",coin,bp); printf("DONE DATABAD fixing\n"); //portable_mutex_unlock(&coin->RTmutex); } #endif return(flag); } void iguana_RTunspent(struct iguana_info *coin,struct iguana_block *block,int64_t polarity,char *coinaddr,uint8_t *rmd160,int32_t type,uint8_t *script,int32_t scriptlen,bits256 txid,int32_t vout,int64_t value) { int32_t i; // fill in array element and update counters if ( 0 && strcmp("BTC",coin->symbol) != 0 ) { for (i=0; i<20; i++) printf("%02x",rmd160[i]); printf(" %s vout.%d %.8f %lld\n",coinaddr,vout,dstr(value),(long long)polarity); } } void iguana_RTspend(struct iguana_info *coin,struct iguana_block *block,int64_t polarity,uint8_t *script,int32_t scriptlen,bits256 txid,int32_t vini,bits256 prev_hash,int32_t prev_vout) { char str[65],str2[65]; // fill in array element and update counters if ( 0 && strcmp("BTC",coin->symbol) != 0 ) printf("%s vini.%d spend.(%s/v%d) %lld\n",bits256_str(str,txid),vini,bits256_str(str2,prev_hash),prev_vout,(long long)polarity); } void iguana_RTtxid(struct iguana_info *coin,struct iguana_block *block,int64_t polarity,int32_t txi,int32_t txn_count,bits256 txid,int32_t numvouts,int32_t numvins,uint32_t locktime,uint32_t version,uint32_t timestamp,void *unspents,void *spends) { char str[65]; // add to hashtable block <-> txids[] if ( 0 && strcmp("BTC",coin->symbol) != 0 ) printf("%s txid.(%s) vouts.%d vins.%d version.%d lock.%u t.%u %lld\n",coin->symbol,bits256_str(str,txid),numvouts,numvins,version,locktime,timestamp,(long long)polarity); } void iguana_RTreset(struct iguana_info *coin) { iguana_utxoaddrs_purge(coin); iguana_utxoupdate(coin,-1,0,0,0,0,-1,0); // free hashtables coin->lastRTheight = 0; coin->RTheight = coin->firstRTheight; printf("%s RTreset %d\n",coin->symbol,coin->RTheight); } void iguana_RTunmap(uint8_t *ptr,uint32_t len) { OS_releasemap(&ptr[-2*sizeof(len)],len+2*sizeof(len)); } void *iguana_RTrawdata(struct iguana_info *coin,bits256 hash2,uint8_t *data,int32_t *recvlenp,int32_t *numtxp,int32_t checkonly) { FILE *fp; char fname[1024],str[65]; long filesize; int32_t len; uint8_t *ptr; uint32_t i,nonz,checknumtx,checklen; sprintf(fname,"%s/%s/RT/%s.raw",GLOBAL_TMPDIR,coin->symbol,bits256_str(str,hash2)); OS_compatible_path(fname); if ( *recvlenp == -1 ) OS_removefile(fname,0); else { if ( (checkonly != 0 || *recvlenp > 0) && (fp= fopen(fname,"rb")) != 0 ) { fseek(fp,0,SEEK_END); filesize = ftell(fp); rewind(fp); if ( fread(&len,1,sizeof(len),fp) == sizeof(len) && len == filesize-sizeof(int32_t)*2 ) { fclose(fp); //printf("already have %s\n",bits256_str(str,hash2)); *recvlenp = 0; if ( checkonly != 0 ) return((void *)"already have rawdata"); return(0); } //printf("len.%d filesize.%ld\n",len,filesize); fclose(fp); } else if ( checkonly == 0 ) { if ( *recvlenp > 0 ) { if ( coin->RTheight == 0 && coin->blocks.hwmchain.height < coin->longestchain-coin->chain->bundlesize && iguana_utxofinished(coin) < coin->bundlescount-3 ) { //printf("skip %s\n",bits256_str(str,hash2)); return(0); } if ( (fp= fopen(fname,"wb")) != 0 ) { if ( fwrite(recvlenp,1,sizeof(*recvlenp),fp) != sizeof(*recvlenp) || fwrite(numtxp,1,sizeof(*numtxp),fp) != sizeof(*numtxp) || fwrite(data,1,*recvlenp,fp) != *recvlenp ) printf("error writing %s len.%d numtx.%d\n",bits256_str(str,hash2),*recvlenp,*numtxp); fclose(fp); printf("numtx.%d len.%d %s hwm.%d L.%d\n",*numtxp,*recvlenp,fname,coin->blocks.hwmchain.height,coin->longestchain); } else printf("couldnt create %s\n",fname); } else if ( (ptr= OS_mapfile(fname,&filesize,0)) != 0 ) { memcpy(&checklen,ptr,sizeof(checklen)); memcpy(&checknumtx,&ptr[sizeof(checklen)],sizeof(checknumtx)); *numtxp = checknumtx; if ( checklen == (int32_t)(filesize - sizeof(checklen) - sizeof(checknumtx)) )//&& checknumtx == *numtxp ) { for (i=nonz=0; ichain->bundlesize*10); for (height=lastheight-100000; heightchain->bundlesize); bundlei = (height % coin->chain->bundlesize); if ( (bp= coin->bundles[hdrsi]) != 0 && bits256_nonz(bp->hashes[bundlei]) != 0 ) iguana_RTrawdata(coin,bp->hashes[bundlei],0,&recvlen,&numtx,0); // delete file } printf("end RTpurge.%d\n",lastheight); } int32_t iguana_RTiterate(struct iguana_info *coin,int32_t offset,struct iguana_block *block,int64_t polarity) { struct iguana_txblock txdata; uint8_t *serialized; int32_t i,n,errs=0,numtx,len; uint32_t recvlen = 0; if ( (numtx= coin->RTnumtx[offset]) == 0 || (serialized= coin->RTrawdata[offset]) == 0 || (recvlen= coin->RTrecvlens[offset]) == 0 ) { char str[65]; //printf("errs.%d cant load %s ht.%d polarity.%lld numtx.%d %p recvlen.%d\n",errs,bits256_str(str,block->RO.hash2),block->height,(long long)polarity,coin->RTnumtx[offset],coin->RTrawdata[offset],coin->RTrecvlens[offset]); coin->RTrecvlens[offset] = 0; coin->RTrawdata[offset] = iguana_RTrawdata(coin,block->RO.hash2,0,&coin->RTrecvlens[offset],&coin->RTnumtx[offset],0); if ( (numtx= coin->RTnumtx[offset]) == 0 || (serialized= coin->RTrawdata[offset]) == 0 || (recvlen= coin->RTrecvlens[offset]) == 0 ) { printf("B errs.%d cant load %s ht.%d polarity.%lld numtx.%d %p recvlen.%d\n",errs,bits256_str(str,block->RO.hash2),block->height,(long long)polarity,coin->RTnumtx[offset],coin->RTrawdata[offset],coin->RTrecvlens[offset]); struct iguana_peer *addr; iguana_blockQ("RTiterate",coin,0,-1,block->RO.hash2,1); if ( coin->peers != 0 && coin->peers->numranked > 0 ) { for (i=0; ipeers->numranked&&i<8; i++) if ( (addr= coin->peers->ranked[i]) != 0 ) iguana_sendblockreqPT(coin,addr,0,-1,block->RO.hash2,1); } return(-1); } } printf("%s RTiterate.%lld offset.%d numtx.%d len.%d\n",coin->symbol,(long long)polarity,offset,coin->RTnumtx[offset],coin->RTrecvlens[offset]); memset(&txdata,0,sizeof(txdata)); if ( coin->RTrawmem.ptr == 0 ) iguana_meminit(&coin->RTrawmem,"RTrawmem",0,IGUANA_MAXPACKETSIZE * 2,0); if ( coin->RTmem.ptr == 0 ) iguana_meminit(&coin->RTmem,"RTmem",0,IGUANA_MAXPACKETSIZE * 2,0); if ( coin->RThashmem.ptr == 0 ) iguana_meminit(&coin->RThashmem,"RThashmem",0,IGUANA_MAXPACKETSIZE * 2,0); iguana_memreset(&coin->RTrawmem), iguana_memreset(&coin->RTmem), iguana_memreset(&coin->RThashmem); if ( (n= iguana_gentxarray(coin,&coin->RTrawmem,&txdata,&len,serialized,recvlen)) > 0 ) { iguana_RTramchaindata(coin,&coin->RTmem,&coin->RThashmem,polarity,block,coin->RTrawmem.ptr,numtx); return(0); } else printf("gentxarray n.%d RO.txn_count.%d recvlen.%d\n",n,numtx,recvlen); iguana_RTreset(coin); return(-1); } struct iguana_block *iguana_RTblock(struct iguana_info *coin,int32_t height) { int32_t offset; offset = height - coin->firstRTheight; //printf("%s iguana_RTblock.%d offset.%d\n",coin->symbol,height,offset); if ( offset < sizeof(coin->RTblocks)/sizeof(*coin->RTblocks) ) return(coin->RTblocks[offset]); else printf("RTblock offset.%d too big\n",offset); return(0); } int32_t iguana_RTblockadd(struct iguana_info *coin,struct iguana_block *block) { int32_t offset; if ( block != 0 ) { offset = block->height - coin->firstRTheight; if ( coin->RTrawdata[offset] == 0 ) coin->RTrawdata[offset] = iguana_RTrawdata(coin,block->RO.hash2,0,&coin->RTrecvlens[offset],&coin->RTnumtx[offset],0); //printf("%s RTblockadd.%d offset.%d numtx.%d len.%d\n",coin->symbol,block->height,offset,coin->RTnumtx[offset],coin->RTrecvlens[offset]); block->RO.txn_count = coin->RTnumtx[offset]; coin->RTblocks[offset] = block; if ( iguana_RTiterate(coin,offset,block,1) < 0 ) return(-1); } return(0); } int32_t iguana_RTblocksub(struct iguana_info *coin,struct iguana_block *block) { int32_t offset; if ( block != 0 ) { offset = block->height - coin->firstRTheight; block->RO.txn_count = coin->RTnumtx[offset]; //printf("%s RTblocksub.%d offset.%d\n",coin->symbol,block->height,offset); if ( iguana_RTiterate(coin,offset,block,-1) < 0 ) return(-1); if ( coin->RTrawdata[offset] != 0 && coin->RTrecvlens[offset] != 0 ) iguana_RTunmap(coin->RTrawdata[offset],coin->RTrecvlens[offset]); coin->RTrawdata[offset] = 0; coin->RTrecvlens[offset] = 0; coin->RTnumtx[offset] = 0; coin->RTblocks[offset] = 0; } return(0); } void iguana_RTnewblock(struct iguana_info *coin,struct iguana_block *block) { int32_t i,n,height,hdrsi,bundlei; struct iguana_block *addblock,*subblock; struct iguana_bundle *bp; if ( coin->RTheight > 0 ) { if ( block->height > coin->lastRTheight ) { n = (block->height - coin->RTheight) + 1; for (i=0; iRTheight + i); hdrsi = (height / coin->chain->bundlesize); bundlei = (height % coin->chain->bundlesize); if ( (bp= coin->bundles[hdrsi]) != 0 && (addblock= bp->blocks[bundlei]) != 0 && addblock->height == coin->RTheight+i ) { if ( iguana_RTblockadd(coin,addblock) < 0 ) break; coin->lastRTheight = addblock->height; } else { printf("missing RTaddblock at i.%d RTheight.%d vs %p %d\n",i,coin->RTheight,addblock,addblock!=0?addblock->height:-1); break; } } coin->RTheight += i; printf(">= RTnewblock RTheight %d prev %d\n",coin->RTheight,coin->lastRTheight); } else if ( block->height == coin->lastRTheight ) { if ( (subblock= iguana_RTblock(coin,block->height)) != 0 && subblock != block ) { if ( iguana_RTblocksub(coin,subblock) < 0 || iguana_RTblockadd(coin,block) < 0 ) return; printf("== RTnewblock RTheight %d prev %d\n",coin->RTheight,coin->lastRTheight); } } else { if ( block->height < coin->firstRTheight ) { if ( coin->lastRTheight > 0 ) printf("ht.%d reorg past firstRTheight.%d\n",block->height,coin->firstRTheight); iguana_RTreset(coin); } else { while ( coin->lastRTheight >= block->height ) { if ( iguana_RTblocksub(coin,iguana_RTblock(coin,coin->lastRTheight--)) < 0 ) { coin->RTheight = coin->lastRTheight+1; return; } } coin->RTheight = coin->lastRTheight+1; if ( iguana_RTblockadd(coin,block) < 0 ) return; coin->lastRTheight = block->height; coin->RTheight = coin->lastRTheight+1; } } } }