/****************************************************************************** * 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. * * * ******************************************************************************/ // included from datachain.c int32_t datachain_rwgenesis(int32_t rwflag,uint8_t *serialized,struct gecko_genesis_opreturn *opret) { int32_t len = 0; if ( rwflag == 0 ) { memcpy(opret->type,&serialized[len],sizeof(opret->type)), len += sizeof(opret->type); memcpy(opret->symbol,&serialized[len],sizeof(opret->symbol)), len += sizeof(opret->symbol); memcpy(opret->name,&serialized[len],sizeof(opret->name)), len += sizeof(opret->name); } else { memcpy(&serialized[len],opret->type,sizeof(opret->type)), len += sizeof(opret->type); memcpy(&serialized[len],opret->symbol,sizeof(opret->symbol)), len += sizeof(opret->symbol); memcpy(&serialized[len],opret->name,sizeof(opret->name)), len += sizeof(opret->name); } len += iguana_rwnum(rwflag,&serialized[len],sizeof(opret->PoSvalue),&opret->PoSvalue); len += iguana_rwnum(rwflag,&serialized[len],sizeof(opret->netmagic),&opret->netmagic); len += iguana_rwnum(rwflag,&serialized[len],sizeof(opret->timestamp),&opret->timestamp); len += iguana_rwnum(rwflag,&serialized[len],sizeof(opret->nBits),&opret->nBits); len += iguana_rwnum(rwflag,&serialized[len],sizeof(opret->nonce),&opret->nonce); len += iguana_rwnum(rwflag,&serialized[len],sizeof(opret->blocktime),&opret->blocktime); len += iguana_rwnum(rwflag,&serialized[len],sizeof(opret->port),&opret->port); if ( rwflag == 0 ) { opret->version = serialized[len++]; opret->pubval = serialized[len++]; opret->p2shval = serialized[len++]; opret->wifval = serialized[len++]; memcpy(opret->rmd160,&serialized[len],20), len += 20; } else { serialized[len++] = opret->version; serialized[len++] = opret->pubval; serialized[len++] = opret->p2shval; serialized[len++] = opret->wifval; memcpy(&serialized[len],opret->rmd160,20), len += 20; } //printf("opreturn len.%d\n",len); return(len); } bits256 datachain_opreturn_convert(uint8_t *txidbytes,int32_t *txlenp,struct iguana_msgblock *msg,struct gecko_genesis_opreturn *opret) { bits256 txid,zero; int32_t minerpaymentlen=0; uint8_t minerpayment[512]; char coinbasestr[128],name[64],symbol[64]; if ( opret->PoSvalue > 0 ) minerpaymentlen = bitcoin_standardspend(minerpayment,0,opret->rmd160); memset(zero.bytes,0,sizeof(zero)); memset(symbol,0,sizeof(symbol)), memcpy(symbol,opret->symbol,sizeof(opret->symbol)); memset(name,0,sizeof(name)), memcpy(name,opret->name,sizeof(opret->name)); sprintf(coinbasestr,"%s_%s",symbol,name); *txlenp = iguana_coinbase(1,GECKO_DEFAULTVERSION,txidbytes,opret->timestamp,zero,(uint8_t *)coinbasestr,(int32_t)strlen(coinbasestr)+1,minerpayment,minerpaymentlen,opret->PoSvalue,&txid); memset(msg,0,sizeof(*msg)); msg->H.version = opret->version; msg->H.merkle_root = txid; msg->H.timestamp = opret->timestamp; msg->H.bits = opret->nBits; msg->H.nonce = opret->nonce; return(txid); } int32_t datachain_genesis_verify(struct gecko_genesis_opreturn *opret) { int32_t txlen,datalen; bits256 txid,threshold,hash2; uint8_t serialized[1024],txidbytes[1024]; struct iguana_msgblock msg; char str[65],str2[65]; txid = datachain_opreturn_convert(txidbytes,&txlen,&msg,opret); if ( opret->nBits >= GECKO_EASIESTDIFF ) threshold = bits256_from_compact(GECKO_EASIESTDIFF); else threshold = bits256_from_compact(opret->nBits); datalen = iguana_rwblockhdr(1,0,serialized,&msg); hash2 = iguana_calcblockhash("virtual",blockhash_sha256,serialized,datalen); //for (i=0; i 0 ) { //printf(" valid blockhash!\n"); return(0); } else { printf(" ERROR invalid blockhash! txid.%s %s\n",bits256_str(str2,txid),bits256_str(str,hash2)); return(-1); } } int32_t datachain_opreturn_create(uint8_t *serialized,char *symbol,char *name,char *coinaddr,int64_t PoSvalue,uint32_t nBits,uint16_t blocktime,uint16_t port,uint8_t p2shval,uint8_t wifval) { int32_t i,len,datalen,txlen; struct gecko_genesis_opreturn opret; bits256 threshold,txid,hash2; struct iguana_info *btcd; struct iguana_msgblock msg; uint8_t txidbytes[1024]; btcd = iguana_coinfind("BTCD"); memset(&opret,0,sizeof(opret)); opret.type[0] = 'N', opret.type[1] = 'E', opret.type[2] = 'W'; memcpy(opret.symbol,symbol,sizeof(opret.symbol)); memcpy(opret.name,name,sizeof(opret.name)); opret.version = GECKO_DEFAULTVERSION; opret.PoSvalue = PoSvalue; opret.nBits = nBits; opret.p2shval = p2shval; opret.wifval = wifval; opret.blocktime = blocktime; opret.port = port; opret.timestamp = (uint32_t)time(NULL); OS_randombytes((void *)&opret.netmagic,sizeof(opret.netmagic)); bitcoin_addr2rmd160(&opret.pubval,opret.rmd160,coinaddr); txid = datachain_opreturn_convert(txidbytes,&txlen,&msg,&opret); if ( nBits >= GECKO_EASIESTDIFF ) threshold = bits256_from_compact(GECKO_EASIESTDIFF); else threshold = bits256_from_compact(nBits); for (i=0; i<100000000; i++) { opret.nonce = msg.H.nonce = i; datalen = iguana_rwblockhdr(1,0,serialized,&msg); hash2 = iguana_calcblockhash(symbol,btcd->chain->hashalgo,serialized,datalen); if ( bits256_cmp(threshold,hash2) > 0 ) break; } //char str[65],str2[65]; //for (i=0; iopreturn,"NEW",3) == 0 ) { //int32_t i; for (i=0; i<76; i++) // printf("%02x",event->opreturn[i]); //printf(" <- event\n"); if ( (len= datachain_rwgenesis(0,event->opreturn,&opret)) <= event->oplen ) { datachain_genesis_verify(&opret); memset(symbol,0,sizeof(symbol)), memcpy(symbol,opret.symbol,sizeof(opret.symbol)); memset(name,0,sizeof(name)), memcpy(name,opret.name,sizeof(opret.name)); hash2 = datachain_opreturn_convert(txidbytes,&txlen,&msg,&opret); if ( opret.nBits >= GECKO_EASIESTDIFF ) threshold = bits256_from_compact(GECKO_EASIESTDIFF); else threshold = bits256_from_compact(opret.nBits); msg.txn_count = 1; //n = iguana_serialize_block(virt->chain,&hash2,serialized,newblock); datalen = iguana_rwblockhdr(1,0,serialized,&msg); hash2 = iguana_calcblockhash(symbol,btcd->chain->hashalgo,serialized,datalen); for (i=0; i 0 ) { bitcoin_address(issuer,60,opret.rmd160,20); bits256_str(hashstr,hash2); for (j=0,i=3; i>=0; i--,j++) buf[i] = (opret.netmagic >> (j*8)); init_hexbytes_noT(magicstr,buf,4); for (j=0,i=3; i>=0; i--,j++) buf[i] = (opret.nBits >> (j*8)); init_hexbytes_noT(nbitstr,buf,4); init_hexbytes_noT(blockstr,serialized,datalen); strcat(blockstr,"01"), datalen++; init_hexbytes_noT(&blockstr[datalen << 1],txidbytes,txlen); sprintf(argbuf,"{\"name\":\"%s\",\"symbol\":\"%s\",\"netmagic\":\"%s\",\"port\":%u,\"blocktime\":%u,\"pubval\":\"%02x\",\"p2shval\":\"%02x\",\"wifval\":\"%02x\",\"unitval\":\"%02x\",\"genesishash\":\"%s\",\"genesis\":{\"version\":1,\"timestamp\":%u,\"nBits\":\"%s\",\"nonce\":%d,\"merkle_root\":\"%s\"},\"genesisblock\":\"%s\"}",name,symbol,magicstr,opret.port,opret.blocktime,opret.pubval,opret.p2shval,opret.wifval,(opret.nBits >> 24) & 0xff,hashstr,opret.timestamp,nbitstr,opret.nonce,bits256_str(str2,msg.H.merkle_root),blockstr); if ( (valsobj= cJSON_Parse(argbuf)) != 0 ) { printf("datachain.NEW (%s/%s port.%u blocktime.%d) issuer.%s (%s)\n",opret.symbol,opret.name,opret.port,opret.blocktime,issuer,jprint(valsobj,0)); if ( (chain= gecko_chain(myinfo,chainname,valsobj)) != 0 && (virt= chain->info) != 0 ) printf("duplicate chain.%s rejected\n",opret.symbol); else if ( (virt= basilisk_geckochain(myinfo,symbol,chainname,valsobj)) != 0 ) chain->info = virt; free_json(valsobj); } } else printf("failed PoW test for genesis.%s\n",opret.symbol); } else printf("opret unexpected len.%d vs %d\n",len,event->oplen); } }