/****************************************************************************** * Copyright © 2014-2017 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 iguana_blockfind(str,coin,hash2) iguana_blockhashset(str,coin,-1,hash2,0) int32_t iguana_blockconv(uint8_t zcash,uint8_t auxpow,struct iguana_zblock *zdest,struct iguana_msgzblock *zmsg,bits256 hash2,int32_t height) //uint32_t numtxids,uint32_t numunspents,uint32_t numspends,double PoW) { int32_t i; struct iguana_block *dest = (void *)zdest; struct iguana_msgblock *msg = (void *)zmsg; if ( zcash == 0 ) { memset(dest,0,sizeof(*dest)); dest->RO.version = msg->H.version; dest->RO.prev_block = msg->H.prev_block; dest->RO.merkle_root = msg->H.merkle_root; dest->RO.timestamp = msg->H.timestamp; dest->RO.bits = msg->H.bits; dest->RO.txn_count = msg->txn_count; dest->height = height; dest->RO.hash2 = hash2; dest->RO.nonce = msg->H.nonce; return(msg->txn_count); } else { zdest->RO.allocsize = (int32_t)sizeof(struct iguana_zblock); zdest->RO.txn_count = zmsg->txn_count; zdest->RO.hash2 = hash2; zdest->height = height; zdest->RO.version = zmsg->zH.version; zdest->RO.prev_block = zmsg->zH.prev_block; zdest->RO.merkle_root = zmsg->zH.merkle_root; zdest->RO.timestamp = zmsg->zH.timestamp; zdest->RO.bits = zmsg->zH.bits; zdest->zRO.bignonce = zmsg->zH.bignonce; if ( iguana_rwvarint32(0,zmsg->zH.var_numelements,&zdest->zRO.numelements) != sizeof(zmsg->zH.var_numelements) ) printf("unexpected varint size for zmsg.zH.numelements <- %d\n",zdest->zRO.numelements); for (i=0; izRO.solution[i] = zmsg->zH.solution[i]; return(zmsg->txn_count); } } void iguana_blockunconv(uint8_t zcash,uint8_t auxpow,struct iguana_msgzblock *zmsg,struct iguana_zblock *zsrc,int32_t cleartxn_count) { int32_t i; struct iguana_msgblock *msg = (void *)zmsg; struct iguana_block *src = (void *)zsrc; if ( zcash != 0 ) { memset(zmsg,0,sizeof(*zmsg)); zmsg->zH.version = zsrc->RO.version; zmsg->zH.prev_block = zsrc->RO.prev_block; zmsg->zH.merkle_root = zsrc->RO.merkle_root; zmsg->zH.timestamp = zsrc->RO.timestamp; zmsg->zH.bits = zsrc->RO.bits; zmsg->zH.bignonce = zsrc->zRO.bignonce; if ( iguana_rwvarint32(1,zmsg->zH.var_numelements,&zsrc->zRO.numelements) != sizeof(zmsg->zH.var_numelements) ) printf("unexpected varint size for zmsg.zH.numelements <- %d\n",zsrc->zRO.numelements); for (i=0; izRO.numelements; i++) zmsg->zH.solution[i] = zsrc->zRO.solution[i]; if ( cleartxn_count == 0 ) zmsg->txn_count = zsrc->RO.txn_count; } else { memset(msg,0,sizeof(*msg)); msg->H.version = src->RO.version; msg->H.prev_block = src->RO.prev_block; msg->H.merkle_root = src->RO.merkle_root; msg->H.timestamp = src->RO.timestamp; msg->H.bits = src->RO.bits; msg->H.nonce = src->RO.nonce; if ( cleartxn_count == 0 ) msg->txn_count = src->RO.txn_count; } } void iguana_blockcopy(uint8_t zcash,uint8_t auxpow,struct iguana_info *coin,struct iguana_block *block,struct iguana_block *origblock) { int32_t i; block->RO.hash2 = origblock->RO.hash2; block->RO.merkle_root = origblock->RO.merkle_root; if ( bits256_nonz(block->RO.prev_block) == 0 ) block->RO.prev_block = origblock->RO.prev_block; if ( block->mainchain == 0 ) block->mainchain = origblock->mainchain; if ( block->fpos < 0 ) block->fpos = origblock->fpos; if ( block->fpipbits == 0 ) block->fpipbits = origblock->fpipbits; if ( block->RO.timestamp == 0 ) block->RO.timestamp = origblock->RO.timestamp; if ( block->RO.bits == 0 ) block->RO.bits = origblock->RO.bits; if ( block->RO.txn_count == 0 ) block->RO.txn_count = origblock->RO.txn_count; if ( block->RO.version == 0 ) block->RO.version = origblock->RO.version; if ( block->mainchain == 0 ) block->mainchain = origblock->mainchain; if ( block->valid == 0 ) block->valid = origblock->valid; if ( block->RO.recvlen == 0 ) block->RO.recvlen = origblock->RO.recvlen; if ( zcash == 0 ) { if ( block->RO.nonce == 0 ) block->RO.nonce = origblock->RO.nonce; } else { iguana_blocksizecheck("blockcopy dest",coin->chain->zcash,block); iguana_blocksizecheck("blockcopy src",coin->chain->zcash,origblock); if ( block->RO.allocsize != origblock->RO.allocsize ) printf("missing space for zcash block.%d origblock.%d\n",block->RO.allocsize,origblock->RO.allocsize); //else { struct iguana_zblock *zblock = (void *)block; struct iguana_zblock *origzblock = (void *)origblock; zblock->zRO.bignonce = origzblock->zRO.bignonce; zblock->zRO.numelements = origzblock->zRO.numelements; for (i=0; izRO.solution[i] = origzblock->zRO.solution[i]; } } } /*bits256 iguana_merkle(bits256 *tree,int32_t txn_count) { int32_t i,n=0,prev; uint8_t serialized[sizeof(bits256) * 2]; if ( txn_count == 1 ) return(tree[0]); prev = 0; while ( txn_count > 1 ) { if ( (txn_count & 1) != 0 ) tree[prev + txn_count] = tree[prev + txn_count-1], txn_count++; n += txn_count; for (i=0; i> 1)] = bits256_doublesha256(0,serialized,sizeof(serialized)); } prev = n; txn_count >>= 1; } return(tree[n]); }*/ struct iguana_block *iguana_prevblock(struct iguana_info *coin,struct iguana_block *block,int32_t PoSflag) { int32_t hdrsi,bundlei,height; struct iguana_bundle *bp; if ( (height= block->height - 1) < 0 ) return(0); hdrsi = (height / coin->chain->bundlesize); bundlei = (height % coin->chain->bundlesize); if ( hdrsi < coin->bundlescount && (bp= coin->bundles[hdrsi]) != 0 ) return(bp->blocks[bundlei]); else return(0); } void _iguana_blocklink(struct iguana_info *coin,struct iguana_block *prev,struct iguana_block *block) { char str[65],str2[65]; struct iguana_block *next; if ( memcmp(block->RO.prev_block.bytes,prev->RO.hash2.bytes,sizeof(bits256)) != 0 ) { printf("illegal blocklink mismatched hashes\n"); iguana_exit(0,0); return; } block->hh.prev = prev; if ( (next= prev->hh.next) != 0 ) { if ( next != block ) { if ( memcmp(next->RO.prev_block.bytes,prev->RO.hash2.bytes,sizeof(bits256)) != 0 ) { printf("illegal blocklink next mismatched hashes\n"); return; } if ( memcmp(next->RO.hash2.bytes,block->RO.hash2.bytes,sizeof(bits256)) != 0 ) printf("blocklink collision: %s vs %s\n",bits256_str(str,block->RO.hash2),bits256_str(str2,next->RO.hash2)); else printf("blocklink corruption: identical hashes with diff ptrs %s %p %p\n",bits256_str(str,block->RO.hash2),block,next); } prev->hh.next = block; // could make a linked list of all at same height for multibranch } else prev->hh.next = block; printf("link.(%s) -> (%s)\n",bits256_str(str,prev->RO.hash2),bits256_str(str,block->RO.hash2)); } struct iguana_block *iguana_blockhashset(char *debugstr,struct iguana_info *coin,int32_t height,bits256 hash2,int32_t createflag) { struct iguana_block *block,*prev; int32_t size; #ifndef __APPLE__ #endif portable_mutex_lock(&coin->blocks_mutex); coin->blockdepth++; HASH_FIND(hh,coin->blocks.hash,&hash2,sizeof(hash2),block); if ( block != 0 ) { if ( coin->blockdepth > 0 ) coin->blockdepth--; portable_mutex_unlock(&coin->blocks_mutex); return(block); } if ( createflag > 0 ) { size = (int32_t)((coin->chain->zcash != 0) ? sizeof(struct iguana_zblock) : sizeof(struct iguana_block)); block = calloc(1,size); block->RO.hash2 = hash2; block->RO.allocsize = size; iguana_blocksizecheck("blockhashset",coin->chain->zcash,block); block->hh.itemind = height, block->height = -1; HASH_ADD(hh,coin->blocks.hash,RO.hash2,sizeof(hash2),block); block->hh.next = block->hh.prev = 0; if ( bits256_nonz(block->RO.prev_block) > 0 ) { HASH_FIND(hh,coin->blocks.hash,&block->RO.prev_block,sizeof(block->RO.prev_block),prev); if ( prev != 0 ) _iguana_blocklink(coin,prev,block); } //char str[65]; if ( coin->virtualchain != 0 ) { //printf("%s added.(%s) height.%d (%p %p)\n",coin->symbol,bits256_str(str,hash2),height,block->hh.prev,block->hh.next); struct iguana_block *tmp; HASH_FIND(hh,coin->blocks.hash,&hash2,sizeof(hash2),tmp); char str[65]; bits256_str(str,hash2); if ( tmp != block ) printf("%s height.%d search error %p != %p\n",str,height,block,tmp); } } if ( coin->blockdepth > 0 ) coin->blockdepth--; portable_mutex_unlock(&coin->blocks_mutex); /* while ( coin->blockdepth > 0 ) { usleep(100000); if ( coin->blockdepth > 0 ) printf("C %s >>>>>>>>>> OK only if rare %s create blockhashset.%d depth.%d\n",coin->symbol,debugstr,height,coin->blockdepth); //fprintf(stderr,">>>>>>>>>> OK only if rare%s create blockhashset.%d depth.%d\n",debugstr,height,depth); //printf("%d\n",1/(1 - depth/depth)); }*/ return(block); } bits256 *iguana_blockhashptr(struct iguana_info *coin,int32_t height) { int32_t hdrsi,bundlei,bundlesize; struct iguana_bundle *bp; //bits256 *hashptr; if ( height >= 0 && (bundlesize= coin->chain->bundlesize) != 0 ) { hdrsi = (height / bundlesize); bundlei = height - (hdrsi * bundlesize); if ( hdrsi >= 0 && hdrsi < coin->bundlescount && bundlei >= 0 && bundlei < bundlesize ) { if ( (bp= coin->bundles[hdrsi]) != 0 ) return(&bp->hashes[bundlei]); else return(0); } } return(0); } bits256 iguana_blockhash(struct iguana_info *coin,int32_t height) { bits256 *hash2p; static const bits256 zero; if ( (hash2p= iguana_blockhashptr(coin,height)) != 0 ) return(*hash2p); return(zero); } struct iguana_block *iguana_blockptr(char *debugstr,struct iguana_info *coin,int32_t height) { static const bits256 zero; bits256 hash2 = iguana_blockhash(coin,height); if ( memcmp(zero.bytes,hash2.bytes,sizeof(zero)) != 0 ) return(iguana_blockfind(debugstr,coin,hash2)); return(0); } int32_t iguana_blocksizecheck(char *debugstr,uint8_t zcash,struct iguana_block *block) { int32_t bsize = zcash != 0 ? sizeof(struct iguana_zblock) : sizeof(struct iguana_block); if ( block->RO.allocsize != bsize ) { if ( block->RO.allocsize == 0 || block->RO.allocsize < bsize ) { //printf("%s block validate warning: mismatched size %d vs %d\n",debugstr,block->RO.allocsize,bsize); block->RO.allocsize = bsize; } else return(-1); return(bsize); } return(0); } int32_t iguana_blockROsize(uint8_t zcash) { return((int32_t)(sizeof(struct iguana_blockRO) + zcash*sizeof(struct iguana_msgzblockhdr))); } void *iguana_blockzcopyRO(uint8_t zcash,struct iguana_blockRO *dest,int32_t desti,struct iguana_blockRO *src,int32_t srci) { int32_t bROsize = iguana_blockROsize(zcash); /** * The memory address calculation was done in a non-portable way using * long value which has 4 bytes in 64bit windows (causing invalide memory address) * due to data truncation, * the solution is to use portable way to calculate the address * in all platform sizeof(char) / sizeof(uchar) == 1 * @author - fadedreamz@gmail.com */ #if defined(_M_X64) dest = (void *)((unsigned char *)dest + desti*bROsize); src = (void *)((unsigned char *)src + srci*bROsize); #else dest = (void *)((long)dest + desti*bROsize); src = (void *)((long)src + srci*bROsize); #endif memcpy(dest,src,bROsize); return(src); } void iguana_blockzcopy(uint8_t zcash,struct iguana_block *dest,struct iguana_block *src) { iguana_blocksizecheck("blockcopy dest",zcash,dest); iguana_blocksizecheck("blockcopy src",zcash,src); if ( zcash == 0 ) *dest = *src; else { if ( src->RO.allocsize != sizeof(struct iguana_zblock) ) printf("warning: iguana_blockcopy src size %d vs %d\n",src->RO.allocsize,(int32_t)sizeof(struct iguana_zblock)); *(struct iguana_zblock *)dest = *(struct iguana_zblock *)src; dest->RO.allocsize = sizeof(struct iguana_zblock); } } int32_t iguana_blockvalidate(struct supernet_info *myinfo,struct iguana_info *coin,int32_t *validp,struct iguana_block *block,int32_t dispflag) { bits256 hash2; int32_t len; uint8_t serialized[sizeof(struct iguana_msgblock) + 32768]; if ( coin->chain->debug != 0 || coin->chain->zcash != 0 ) { *validp = 1; return(0); } *validp = 0; if ( (len= iguana_serialize_block(myinfo,coin->chain,&hash2,serialized,block)) < 0 ) return(-1); *validp = (memcmp(hash2.bytes,block->RO.hash2.bytes,sizeof(hash2)) == 0); block->valid = *validp; iguana_blocksizecheck("blockvalidate",coin->chain->zcash,block); char str[65]; char str2[65]; if ( *validp == 0 ) { if ( dispflag != 0 ) { static uint32_t counter; //for (i=0; iheight,coin->symbol,counter,bits256_str(str,hash2),bits256_str(str2,block->RO.hash2)); //getchar(); } return(-1); } return(0); } /*void iguana_mergeprevdep(struct iguana_prevdep *destlp,struct iguana_prevdep *srclp) { if ( srclp->numpkinds > destlp->numpkinds ) destlp->numpkinds = srclp->numpkinds; if ( srclp->numtxids > destlp->numtxids ) destlp->numtxids = srclp->numtxids; if ( srclp->numunspents > destlp->numunspents ) destlp->numunspents = srclp->numunspents; if ( srclp->numspends > destlp->numspends ) destlp->numspends = srclp->numspends; if ( srclp->PoW > destlp->PoW ) destlp->PoW = srclp->PoW; } void iguana_blockmerge(struct iguana_block *dest,struct iguana_prevdep *destlp,struct iguana_block *block,struct iguana_prevdep *srclp) { if ( block->numvins > dest->numvins ) dest->numvins = block->numvins; if ( block->numvouts > dest->numvouts ) dest->numvouts = block->numvouts; if ( block->txn_count > dest->txn_count ) dest->txn_count = block->txn_count; if ( dest->height == 0 ) dest->height = block->height; iguana_mergeprevdep(destlp,srclp); }*/ double PoW_from_compact(uint32_t nBits,uint8_t unitval) // NOT consensus safe, but most of the time will be correct { uint32_t nbytes,nbits; int32_t i,n; double PoW; uint64_t mult; nbytes = (nBits >> 24) & 0xFF; nbits = (8 * (nbytes - 3)); PoW = (nBits & 0xFFFFFF); if ( (0) && nbytes > unitval ) { printf("illegal nBits.%x unitval.%02x\n",nBits,unitval); return(0.); } if ( (n= ((8 * (unitval-3)) - nbits)) > 0 ) // 0x1d00ffff is genesis nBits so we map that to 1. { //printf("nbits.%d -> n.%d\n",nbits,n); if ( n < 64 ) PoW /= (1LL << n); else // rare case efficiency not issue { for (i=0; i %.15f diff %.15f | n.%d unitval.%d nbytes.%d\n",nBits,PoW,1./PoW,n,unitval,nbytes); return(PoW); } int32_t iguana_blockunmain(struct iguana_info *coin,struct iguana_block *block) { struct iguana_block *next; int32_t n = 0; while ( block != 0 ) { //printf("n.%d %p (%p %p) mainchain.%d delink %d\n",n,block,block->hh.prev,block->hh.next,block->mainchain,block->height); block->mainchain = 0; next = block->hh.next; block = next; n++; } if ( n > 1000 ) printf("delinked.%d\n",n); return(n); } int32_t iguana_walkchain(struct iguana_info *coin,int32_t skipflag) { char str[65]; int32_t height,hdrsi,bundlei,n = 0; struct iguana_bundle *bp; struct iguana_block *block=0; height = coin->blocks.hwmchain.height; while ( 1 ) //(block= iguana_blockfind("main",coin,iguana_blockhash(coin,height))) != 0 ) { hdrsi = (height / coin->chain->bundlesize); bundlei = (height % coin->chain->bundlesize); if ( (bp= coin->bundles[hdrsi]) == 0 || (block= bp->blocks[bundlei]) == 0 ) { printf("%s walk error [%d:%d] %p vs %p\n",coin->symbol,hdrsi,bundlei,block,bp->blocks[bundlei]); break; } else if ( block->height >= 0 && block->height != height ) printf("%s walkchain height mismatch %d vs %d\n",coin->symbol,block->height,height); iguana_blocksizecheck("walkchain",coin->chain->zcash,block); if ( bits256_nonz(iguana_blockhash(coin,height)) != 0 && bits256_cmp(iguana_blockhash(coin,height),block->RO.hash2) != 0 ) { printf("%s walk error blockhash error at %d %s\n",coin->symbol,height,bits256_str(str,iguana_blockhash(coin,height))); break; } else if ( bits256_cmp(bp->hashes[bundlei],block->RO.hash2) != 0 ) { printf("%s walk error [%d:%d] %s vs %s\n",coin->symbol,hdrsi,bundlei,bits256_str(str,bp->hashes[bundlei]),bits256_str(str,block->RO.hash2)); break; } else if ( block->hdrsi != hdrsi || block->bundlei != bundlei ) { printf("%s walk error [%d:%d] vs [%d:%d]\n",coin->symbol,hdrsi,bundlei,block->hdrsi,block->bundlei); break; } if ( height == 0 ) break; else if ( skipflag != 0 && (height % coin->chain->bundlesize) == 0 ) { n += coin->chain->bundlesize; height -= coin->chain->bundlesize; } else { n++; height--; } } //printf("walk skip.%d n.%d hwm.%d %s\n",skipflag,n,coin->blocks.hwmchain.height,bits256_str(str,coin->blocks.hwmchain.RO.hash2)); return(n); } struct iguana_block *iguana_fastlink(struct iguana_info *coin,int32_t hwmheight) { int32_t hdrsi,bundlei,height; struct iguana_block *block = 0,*prev=0; double prevPoW = 0.; struct iguana_bundle *bp; for (height=0; height<=hwmheight; height++) { hdrsi = (height / coin->chain->bundlesize); bundlei = (height % coin->chain->bundlesize); /*#ifndef __PNACL__ if ( (height % 10000) == 0 ) fprintf(stderr,"."); #endif*/ if ( (bp= coin->bundles[hdrsi]) == 0 ) { printf("iguana_fastlink null bundle.[%d]\n",hdrsi); break; } block = iguana_blockhashset("fastlink",coin,height,bp->hashes[bundlei],1); if ( bp->blocks[bundlei] != 0 && block != bp->blocks[bundlei] ) { printf("iguana_fastlink null block.[%d:%d]\n",hdrsi,bundlei); break; } if ( prev != 0 && bits256_nonz(block->RO.prev_block) == 0 ) { block->RO.prev_block = prev->RO.hash2; printf("%s PATCH.[%d:%d] prev is null\n",coin->symbol,bp->hdrsi,bundlei); break; } bp->blocks[bundlei] = block; coin->blocks.maxblocks = (block->height + 1); if ( coin->blocks.maxblocks > coin->longestchain ) coin->longestchain = coin->blocks.maxblocks; block->valid = block->mainchain = 1; block->hdrsi = hdrsi, block->bundlei = bundlei; block->height = height; //printf("set height.%d for bundlei.%d\n",height,bundlei); block->PoW = PoW_from_compact(block->RO.bits,coin->chain->unitval) + prevPoW; block->hh.prev = prev; if ( prev != 0 ) prev->hh.next = block; iguana_hash2set(coin,"fastlink",bp,bundlei,block->RO.hash2); //iguana_bundlehash2add(coin,0,bp,bundlei,block->RO.hash2); prev = block; prevPoW = block->PoW; } return(block); } int32_t process_iguanablock(void *pblock,void *chainparams); void *CHAINPARMS; void iguana_setchain(void *chainparms) { extern int32_t MAIN_initflag; MAIN_initflag = 1; OS_init(); CHAINPARMS = chainparms; printf("iguana_setchain chainparms.%p\n",chainparms); iguana_launch(0,"iguana_main",iguana_main,0,0); printf("RETURN iguana_setchain chainparms.%p\n",chainparms); } struct iguana_block *_iguana_chainlink(struct supernet_info *myinfo,struct iguana_info *coin,struct iguana_block *newblock) { int32_t valid,bundlei,height=-1; struct iguana_block *hwmchain,*block = 0,*prev=0; bits256 *hash2p=0; double prevPoW = 0.; if ( coin->blocks.hwmchain.height < 0 ) iguana_genesis(myinfo,coin,coin->chain); if ( newblock == 0 || newblock->RO.timestamp == 0 || bits256_nonz(newblock->RO.prev_block) == 0 ) return(0); iguana_blocksizecheck("chainlink new",coin->chain->zcash,newblock); hwmchain = (struct iguana_block *)&coin->blocks.hwmchain; if ( (block= iguana_blockfind("chainlink",coin,newblock->RO.hash2)) != 0 ) { iguana_blockcopy(coin->chain->zcash,coin->chain->auxpow,coin,block,newblock); if ( block->RO.timestamp == 0 ) block->mainchain = block->valid = block->txvalid = 0; iguana_blocksizecheck("chainlink",coin->chain->zcash,block); if ( memcmp(coin->chain->genesis_hashdata,block->RO.hash2.bytes,sizeof(bits256)) == 0 ) { block->PoW = PoW_from_compact(block->RO.bits,coin->chain->unitval), height = 0; if ( isnan(block->PoW) != 0 ) block->PoW = 0.; } else if ( (prev= iguana_blockfind("chainprev",coin,block->RO.prev_block)) != 0 ) { //if ( memcmp(prev->RO.hash2.bytes,coin->blocks.hwmchain.RO.hash2.bytes,sizeof(bits256)) == 0 ) // prev->mainchain = 1; if ( bits256_nonz(prev->RO.hash2) == 0 || (prev->valid == 0 && iguana_blockvalidate(myinfo,coin,&valid,prev,0) < 0) ) { char str[65]; if ( (0) && bits256_nonz(prev->RO.hash2) != 0 ) printf("(%s) notready v.%d m.%d h.%d\n",bits256_str(str,prev->RO.hash2),prev->valid,prev->mainchain,prev->height); return(0); } else prev->valid = 1; if ( prev->valid != 0 && prev->mainchain != 0 && prev->height >= 0 ) { prevPoW = prev->PoW; block->PoW = PoW_from_compact(block->RO.bits,coin->chain->unitval) + prevPoW; /*if ( (next= prev->hh.next) != 0 ) { if ( next->mainchain != 0 && block->PoW < next->PoW ) return(0); //printf("block->PoW %f next %f\n",block->PoW,next->PoW); hwmchain = next; }*/ height = prev->height + 1; } } else { if ( bits256_nonz(block->RO.prev_block) != 0 ) { //printf("chainlink error: cant find prev.(%s)\n",bits256_str(str,block->RO.prev_block)); iguana_blockunmark(coin,block,0,-1,0); //memset(&block->RO.prev_block.bytes,0,sizeof(block->RO.prev_block)); //getchar(); } return(0); } //char str[65]; printf("extend? %s.h%d: %.15f vs %.15f ht.%d vs %d\n",bits256_str(str,block->RO.hash2),height,block->PoW,coin->blocks.hwmchain.PoW,height,coin->blocks.hwmchain.height); if ( height < 0 || iguana_blockvalidate(myinfo,coin,&valid,newblock,0) < 0 || valid == 0 ) return(0); block->height = height; block->valid = 1; if ( block->PoW >= hwmchain->PoW ) { block->hh.prev = prev; if ( prev != 0 ) { //if ( prev->hh.next != block ) // iguana_blockunmain(coin,prev->hh.next); prev->hh.next = block; } if ( coin->isRT != 0 || block->height >= hwmchain->height ) { coin->blocks.maxblocks = (block->height + 1); //printf("[%s] <- ht.%d %f\n",bits256_str(str,block->RO.hash2),coin->blocks.hwmchain.height,coin->blocks.hwmchain.PoW); char str[65],str2[65]; bits256 zero; memset(&zero,0,sizeof(zero)); bits256_str(str,newblock->RO.hash2); if ( hash2p != 0 ) bits256_str(str2,*hash2p); else str2[0] = 0; if ( coin->blocks.maxblocks > coin->longestchain ) coin->longestchain = coin->blocks.maxblocks; if ( (0) && (block->height % coin->chain->bundlesize) == 0 ) { printf("EXTENDMAIN %s %d <- (%s) n.%u max.%u PoW %f numtx.%d valid.%d\n",str,block->height,str2,hwmchain->height+1,coin->blocks.maxblocks,block->PoW,block->RO.txn_count,block->valid); //iguana_walkchain(coin); } struct iguana_bundle *bp; int32_t hdrsi; bundlei = (block->height % coin->chain->bundlesize); hdrsi = (block->height / coin->chain->bundlesize); if ( bundlei == 0 ) { if ( hdrsi < coin->bundlescount ) { if ( (bp= coin->bundles[hdrsi]) != 0 && bits256_cmp(block->RO.hash2,bp->hashes[0]) != 0 ) { printf(">>>>>>>>>>>>>> interloper bundle.[%d] ht.%d %s != %s\n",hdrsi,block->height,bits256_str(str,bp->hashes[0]),bits256_str(str2,block->RO.hash2)); coin->bundles[hdrsi] = 0; } } bp = iguana_bundlecreate(coin,&bundlei,block->height,block->RO.hash2,zero,0); if ( bp != 0 && bp->hdrsi == coin->bundlescount-1 ) { //printf("created last bundle ht.%d\n",bp->bundleheight); iguana_blockreq(coin,block->height,1); } } else { if ( (bp= coin->bundles[hdrsi]) != 0 ) { if ( memcmp(bp->hashes[bundlei].bytes,block->RO.hash2.bytes,sizeof(bits256)) != 0 || block != bp->blocks[bundlei] ) { if ( bits256_nonz(bp->hashes[bundlei]) != 0 ) { if ( bp->blocks[bundlei] == 0 && block != 0 ) bp->blocks[bundlei] = block; else { //char str[65],str2[65]; //printf("ERROR: need to fix up bundle for height.%d (%p %p) (%s %s)\n",block->height,block,bp->blocks[bundlei],bits256_str(str,block->RO.hash2),bits256_str(str2,bp->hashes[bundlei])); bp->blocks[bundlei] = block; bp->hashes[bundlei] = block->RO.hash2; //if ( bp == coin->current && coin->RTheight > 0 ) // coin->RTdatabad = 1; //iguana_bundleremove(coin,bp->hdrsi,0); //exit(-1); //getchar(); } } iguana_blockunmark(coin,block,bp,bundlei,0); iguana_bundlehash2add(coin,0,bp,bundlei,block->RO.hash2); } else { bp->blocks[bundlei] = block; bp->hashes[bundlei] = block->RO.hash2; iguana_bundlehash2add(coin,0,bp,bundlei,block->RO.hash2); } if ( coin->started != 0 && bundlei == coin->minconfirms && (block->height > coin->longestchain-coin->chain->bundlesize*2 || ((block->height / coin->chain->bundlesize) % 10) == 9) ) { //printf("savehdrs.[%d] ht.%d\n",bp->hdrsi,block->height); iguana_savehdrs(coin); //printf("done savehdrs.%d\n",bp->hdrsi); } } } block->mainchain = 1; if ( coin->blocks.pending > 0 ) coin->blocks.pending--; /*if ( block->serdata != 0 ) { printf(" call process_iguanablock2.%p ht.%d nbits.%08x\n",block->serdata,block->height,*(uint32_t *)&block->serdata[72]); process_iguanablock(block->serdata,CHAINPARMS); }*/ iguana_blockzcopy(coin->chain->zcash,(void *)&coin->blocks.hwmchain,block); if ( coin->RTheight > 0 ) iguana_RTnewblock(myinfo,coin,block); block->hdrsi = hdrsi; block->bundlei = bundlei; if ( (0) && (bp= coin->bundles[hdrsi]) != 0 ) { if ( bp->blocks[bundlei] != block || bits256_cmp(bp->hashes[bundlei],block->RO.hash2) != 0 ) printf("new hwm [%d:%d] mismatched bundle block\n",hdrsi,bundlei); } return(block); } } } else { char str[65]; printf("chainlink error from block.%p %s\n",block,bits256_str(str,newblock->RO.hash2)); } return(0); } /*void iguana_blocksetheights(struct iguana_info *coin,struct iguana_block *block) { int32_t height; if ( (height= block->height) < 0 ) return; while ( block != 0 && block->height != height ) { block->height = height; iguana_bundlehash2add(coin,0,coin->bundles[height/coin->chain->bundlesize],height % coin->chain->bundlesize,block->RO.hash2); block = block->hh.next, height++; } }*/ int32_t iguana_chainextend(struct supernet_info *myinfo,struct iguana_info *coin,struct iguana_block *newblock) { struct iguana_block *block,*prev; int32_t valid,oldhwm; char str[65]; if ( iguana_blockvalidate(myinfo,coin,&valid,newblock,0) < 0 || valid == 0 ) { printf("chainextend: newblock.%s didnt validate\n",bits256_str(str,newblock->RO.hash2)); return(-1); } else { block = iguana_blockhashset("chainextend",coin,-1,newblock->RO.hash2,1); if ( block != newblock ) iguana_blockcopy(coin->chain->zcash,coin->chain->auxpow,coin,block,newblock); block->valid = 1; if ( block->hh.prev == 0 && (prev= iguana_blockfind("extendprev",coin,block->RO.prev_block)) != 0 ) { if ( prev->hh.next == 0 && block->hh.prev == 0 ) prev->hh.next = block, block->hh.prev = prev; //printf("extend newblock.%s prevm.%d\n",bits256_str(str,block->prev_block),prev->mainchain); if ( prev->mainchain == 0 ) { if ( (block= iguana_blockfind("extendmain",coin,coin->blocks.hwmchain.RO.hash2)) != 0 && block->mainchain == 0 ) { //printf("c hwmchain is not mainchain anymore?\n"); prev->mainchain = 1; } else return(0); } } if ( memcmp(block->RO.prev_block.bytes,coin->blocks.hwmchain.RO.hash2.bytes,sizeof(bits256)) != 0 ) return(0); } if ( block != 0 ) { oldhwm = coin->blocks.hwmchain.height; //printf("link.%s\n",bits256_str(str,block->hash2)); while ( block != 0 && memcmp(block->RO.hash2.bytes,coin->blocks.hwmchain.RO.hash2.bytes,sizeof(bits256)) != 0 && _iguana_chainlink(myinfo,coin,block) == block && coin->blocks.hwmchain.height != oldhwm ) { oldhwm = coin->blocks.hwmchain.height; block = block->hh.next; if ( block != 0 ) { if ( bits256_nonz(block->RO.prev_block) == 0 ) break; //printf("next link.%s\n",bits256_str(str,block->hash2)); } } } if ( (block= iguana_blockfind("extendcheck",coin,coin->blocks.hwmchain.RO.hash2)) != 0 && block->mainchain == 0 ) { printf("hwmchain is not mainchain anymore?\n"); block->mainchain = 1; } return(coin->blocks.hwmchain.height); }