/****************************************************************************** * 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. * * * ******************************************************************************/ // // LP_scan.c // marketmaker // int32_t LP_blockinit(struct iguana_info *coin,int32_t height) { int32_t i,iter,numtx,checkht=-1; cJSON *blockobj,*txs,*txobj; bits256 txid; struct LP_transaction *tx; if ( (blockobj= LP_blockjson(&checkht,coin->symbol,0,height)) != 0 && checkht == height ) { if ( (txs= jarray(&numtx,blockobj,"tx")) != 0 ) { //printf("LP_blockinit %s ht.%d numtx.%d\n",coin->symbol,height,numtx); for (iter=0; iter<2; iter++) { txobj = 0; for (i=0; iheight == 0 ) tx->height = height; else if ( tx->height != height ) { printf("LP_blockinit: tx->height %d != %d\n",tx->height,height); tx->height = height; } if ( iter == 1 ) txobj = LP_transactioninit(coin,txid,iter,0); } else txobj = LP_transactioninit(coin,txid,iter,0); if ( txobj != 0 ) free_json(txobj), txobj = 0; } } } free_json(blockobj); } if ( checkht == height ) return(0); else return(-1); } int32_t LP_scanblockchain(struct iguana_info *coin,int32_t startheight,int32_t endheight) { int32_t ht,n = 0; for (ht=startheight; ht<=endheight; ht++) { if ( LP_blockinit(coin,ht) < 0 ) { printf("error loading block.%d of (%d, %d)\n",ht,startheight,endheight); return(ht-1); } n++; if ( (n % 1000) == 0 ) printf("%.1f%% ",100. * (double)n/(endheight-startheight+1)); } return(endheight); } char *banned_txids[] = { "78cb4e21245c26b015b888b14c4f5096e18137d2741a6de9734d62b07014dfca", //233559 "00697be658e05561febdee1aafe368b821ca33fbb89b7027365e3d77b5dfede5", //234172 "e909465788b32047c472d73e882d79a92b0d550f90be008f76e1edaee6d742ea", //234187 "f56c6873748a327d0b92b8108f8ec8505a2843a541b1926022883678fb24f9dc", //234188 "abf08be07d8f5b3a433ddcca7ef539e79a3571632efd6d0294ec0492442a0204", //234213 "3b854b996cc982fba8c06e76cf507ae7eed52ab92663f4c0d7d10b3ed879c3b0", //234367 "fa9e474c2cda3cb4127881a40eb3f682feaba3f3328307d518589024a6032cc4", //234635 "ca746fa13e0113c4c0969937ea2c66de036d20274efad4ce114f6b699f1bc0f3", //234662 "43ce88438de4973f21b1388ffe66e68fda592da38c6ef939be10bb1b86387041", //234697 "0aeb748de82f209cd5ff7d3a06f65543904c4c17387c9d87c65fd44b14ad8f8c", //234899 "bbd3a3d9b14730991e1066bd7c626ca270acac4127131afe25f877a5a886eb25", //235252 "fa9943525f2e6c32cbc243294b08187e314d83a2870830180380c3c12a9fd33c", //235253 "a01671c8775328a41304e31a6693bbd35e9acbab28ab117f729eaba9cb769461", //235265 "2ef49d2d27946ad7c5d5e4ab5c089696762ff04e855f8ab48e83bdf0cc68726d", //235295 "c85dcffb16d5a45bd239021ad33443414d60224760f11d535ae2063e5709efee", //235296 // all vouts banned "c4ea1462c207547cd6fb6a4155ca6d042b22170d29801a465db5c09fec55b19d", //246748 "305dc96d8bc23a69d3db955e03a6a87c1832673470c32fe25473a46cc473c7d1", //247204 }; int32_t komodo_bannedset(int32_t *indallvoutsp,bits256 *array,int32_t max) { int32_t i; if ( sizeof(banned_txids)/sizeof(*banned_txids) > max ) { printf("komodo_bannedset: buffer too small %ld vs %d\n",(long)sizeof(banned_txids)/sizeof(*banned_txids),max); exit(-1); } for (i=0; i b) */ aval = ((struct LP_address *)a)->balance; bval = ((struct LP_address *)b)->balance; //printf("%.8f vs %.8f -> %d\n",dstr(aval),dstr(bval),(int32_t)(bval - aval)); return((aval == bval) ? 0 : ((aval < bval) ? 1 : -1)); } // a primitive restore can be done by loading the previous snapshot and creating a virtual tx for all the balance at height-1. this wont allow anything but new snapshots, but for many use cases that is all that is needed cJSON *LP_snapshot(struct iguana_info *coin,int32_t height) { static bits256 bannedarray[64]; static int32_t numbanned,indallvouts,maxsnapht; static char lastcoin[65]; struct LP_transaction *tx,*tmp; struct LP_address *ap,*atmp; int32_t isKMD,i,j,n,skipflag=0,startht,endht,ht; uint64_t banned_balance=0,balance=0,noaddr_balance=0; cJSON *retjson,*array,*item; if ( bannedarray[0].txid == 0 ) numbanned = komodo_bannedset(&indallvouts,bannedarray,(int32_t)(sizeof(bannedarray)/sizeof(*bannedarray))); startht = 1; endht = height-1; if ( strcmp(coin->symbol,lastcoin) == 0 ) { if ( maxsnapht > height ) skipflag = 1; else startht = maxsnapht+1; } else { maxsnapht = 0; strcpy(lastcoin,coin->symbol); } retjson = cJSON_CreateObject(); if ( skipflag == 0 && startht < endht ) { if ( (ht= LP_scanblockchain(coin,startht,endht)) < endht ) { if ( ht > maxsnapht ) { maxsnapht = ht; printf("maxsnapht.%d for %s\n",maxsnapht,coin->symbol); } sleep(10); if ( (ht= LP_scanblockchain(coin,maxsnapht+1,endht)) < endht ) { if ( ht > maxsnapht ) { maxsnapht = ht; printf("maxsnapht.%d for %s\n",maxsnapht,coin->symbol); } jaddstr(retjson,"error","blockchain scan error"); return(retjson); } } if ( ht > maxsnapht ) { maxsnapht = ht; printf("maxsnapht.%d for %s\n",maxsnapht,coin->symbol); } } portable_mutex_lock(&coin->txmutex); portable_mutex_lock(&coin->addrmutex); HASH_ITER(hh,coin->addresses,ap,atmp) { ap->balance = 0; } isKMD = (strcmp(coin->symbol,"KMD") == 0) ? 1 : 0; HASH_ITER(hh,coin->transactions,tx,tmp) { if ( tx->height < height ) { if ( isKMD != 0 ) { for (j=0; jtxid) == 0 ) break; if ( j < numbanned ) { for (i=0; inumvouts; i++) banned_balance += tx->outpoints[i].value; //char str[256]; printf("skip banned %s bannedtotal: %.8f\n",bits256_str(str,tx->txid),dstr(banned_balance)); continue; } } for (i=0; inumvouts; i++) { if ( (ht=tx->outpoints[i].spendheight) > 0 && ht < height ) continue; if ( tx->outpoints[i].coinaddr[0] != 0 && (ap= _LP_address(coin,tx->outpoints[i].coinaddr)) != 0 ) { balance += tx->outpoints[i].value; ap->balance += tx->outpoints[i].value; //printf("(%s/%s) %.8f %.8f\n",tx->outpoints[i].coinaddr,ap->coinaddr,dstr(tx->outpoints[i].value),dstr(ap->balance)); } else noaddr_balance += tx->outpoints[i].value; } } } HASH_SORT(coin->addresses,sort_balance); portable_mutex_unlock(&coin->addrmutex); portable_mutex_unlock(&coin->txmutex); printf("%s balance %.8f at height.%d\n",coin->symbol,dstr(balance),height); array = cJSON_CreateArray(); n = 0; HASH_ITER(hh,coin->addresses,ap,atmp) { if ( ap->balance != 0 ) { item = cJSON_CreateObject(); jaddnum(item,ap->coinaddr,dstr(ap->balance)); jaddi(array,item); n++; } } jadd(retjson,"balances",array); jaddstr(retjson,"coin",coin->symbol); jaddnum(retjson,"height",height); jaddnum(retjson,"numaddresses",n); jaddnum(retjson,"total",dstr(balance)); jaddnum(retjson,"noaddr_total",dstr(noaddr_balance)); return(retjson); } char *LP_snapshot_balance(struct iguana_info *coin,int32_t height,cJSON *argjson) { cJSON *snapjson,*retjson,*balances,*array,*addrs,*child,*item,*item2; char *coinaddr,*refaddr; int32_t i,n,j,m; uint64_t total=0,value,balance = 0; retjson = cJSON_CreateObject(); array = cJSON_CreateArray(); if ( (snapjson= LP_snapshot(coin,height)) != 0 ) { total = jdouble(snapjson,"total") * SATOSHIDEN; if ( (addrs= jarray(&m,argjson,"addresses")) != 0 ) { if ( (balances= jarray(&n,snapjson,"balances")) != 0 ) { for (i=0; ichild) != 0 ) { value = (uint64_t)(child->valuedouble * SATOSHIDEN); if ( (refaddr= get_cJSON_fieldname(child)) != 0 ) { //printf("check %s %.8f against %d\n",refaddr,dstr(value),m); for (j=0; jsymbol); jaddnum(retjson,"height",height); jaddnum(retjson,"balance",dstr(balance)); jaddnum(retjson,"total",dstr(total)); return(jprint(retjson,1)); } char *LP_dividends(struct iguana_info *coin,int32_t height,cJSON *argjson) { cJSON *array,*retjson,*item,*child,*exclude=0; int32_t i,j,emitted=0,dusted=0,n,execflag=0,flag,iter,numexcluded=0; char buf[1024],*field,*prefix="",*suffix=""; uint64_t dustsum=0,excluded=0,total=0,dividend=0,value,val,emit=0,dust=0; double ratio = 1.; if ( (retjson= LP_snapshot(coin,height)) != 0 ) { //printf("SNAPSHOT.(%s)\n",retstr); if ( (array= jarray(&n,retjson,"balances")) != 0 ) { if ( (n= cJSON_GetArraySize(array)) != 0 ) { if ( argjson != 0 ) { exclude = jarray(&numexcluded,argjson,"exclude"); dust = (uint64_t)(jdouble(argjson,"dust") * SATOSHIDEN); dividend = (uint64_t)(jdouble(argjson,"dividend") * SATOSHIDEN); if ( jstr(argjson,"prefix") != 0 ) prefix = jstr(argjson,"prefix"); if ( jstr(argjson,"suffix") != 0 ) suffix = jstr(argjson,"suffix"); execflag = jint(argjson,"system"); } for (iter=0; iter<2; iter++) { for (i=0; ichild) != 0 ) { value = (uint64_t)(child->valuedouble * SATOSHIDEN); if ( (field= get_cJSON_fieldname(child)) != 0 ) { for (j=0; j= dust ) { sprintf(buf,"%s %s %.8f %s",prefix,field,dstr(val),suffix); if ( execflag != 0 ) { if ( system(buf) != 0 ) printf("error system.(%s)\n",buf); } else printf("%s\n",buf); emit += val; emitted++; } else dustsum += val, dusted++; } } } } if ( iter == 0 ) { if ( total > 0 ) { if ( dividend == 0 ) dividend = total; ratio = (double)dividend / total; } else break; } } } } free_json(retjson); retjson = cJSON_CreateObject(); jaddstr(retjson,"coin",coin->symbol); jaddnum(retjson,"height",height); jaddnum(retjson,"total",dstr(total)); jaddnum(retjson,"emitted",emitted); jaddnum(retjson,"excluded",dstr(excluded)); if ( dust != 0 ) { jaddnum(retjson,"dust",dstr(dust)); jaddnum(retjson,"dusted",dusted); } if ( dustsum != 0 ) jaddnum(retjson,"dustsum",dstr(dustsum)); jaddnum(retjson,"dividend",dstr(dividend)); jaddnum(retjson,"dividends",dstr(emit)); jaddnum(retjson,"ratio",ratio); if ( execflag != 0 ) jaddnum(retjson,"system",execflag); /*if ( prefix[0] != 0 ) jaddstr(retjson,"prefix",prefix); if ( suffix[0] != 0 ) jaddstr(retjson,"suffix",suffix);*/ return(jprint(retjson,1)); } return(clonestr("{\"error\":\"symbol not found\"}")); } int32_t LP_spendsearch(char *coinaddr,bits256 *spendtxidp,int32_t *indp,char *symbol,bits256 searchtxid,int32_t searchvout) { struct LP_transaction *tx; struct iguana_info *coin; *indp = -1; if ( (coin= LP_coinfind(symbol)) == 0 || coin->inactive != 0 ) return(-1); memset(spendtxidp,0,sizeof(*spendtxidp)); if ( (tx= LP_transactionfind(coin,searchtxid)) != 0 ) { if ( searchvout < tx->numvouts && tx->outpoints[searchvout].spendvini >= 0 ) { *spendtxidp = tx->outpoints[searchvout].spendtxid; *indp = tx->outpoints[searchvout].spendvini; LP_swap_getcoinaddr(symbol,coinaddr,*spendtxidp,*indp); return(tx->outpoints[searchvout].spendheight); } } return(-1); } int32_t LP_mempoolscan(char *symbol,bits256 searchtxid) { int32_t i,n; cJSON *array,*txobj; bits256 txid,zero; struct iguana_info *coin; struct LP_transaction *tx; if ( (coin= LP_coinfind(symbol)) == 0 || coin->inactive != 0 || coin->electrum != 0 ) return(-1); memset(zero.bytes,0,sizeof(zero)); if ( (array= LP_getmempool(symbol,0,searchtxid,zero)) != 0 ) { if ( is_cJSON_Array(array) != 0 && (n= cJSON_GetArraySize(array)) > 0 ) { for (i=0; iinactive != 0 ) { printf("LP_waitmempool missing coin.%p or inactive\n",coin); return(-1); } expiration = (uint32_t)time(NULL) + duration; while ( LP_STOP_RECEIVED == 0 ) { if ( LP_gettx_presence(symbol,txid) != 0 ) numconfirms = 0; else { if ( coin->electrum == 0 ) { if ( LP_mempoolscan(symbol,txid) >= 0 ) numconfirms = 0; } else { memset(zero.bytes,0,sizeof(zero)); if ( (array= electrum_address_getmempool(symbol,coin->electrum,&array,coinaddr,txid,zero)) != 0 ) { //char str[65]; printf("check %s mempool.(%s)\n",bits256_str(str,txid),jprint(array,0)); if ( (n= cJSON_GetArraySize(array)) > 0 ) { for (i=0; isymbol,coinaddr,1,txid,zero); struct LP_address_utxo *up; if ( (up= LP_address_utxofind(coin,coinaddr,txid,vout)) != 0 ) { char str[65]; printf("address_utxofind found confirmed %s %s %s ht.%d vs %d\n",symbol,coinaddr,bits256_str(str,txid),up->U.height,coin->height); if ( coin->electrum != 0 && (array= electrum_address_gethistory(symbol,coin->electrum,&array,coinaddr,txid)) != 0 ) free_json(array); if ( coin->height >= up->U.height ) numconfirms = (coin->height - up->U.height + 1); } } } if ( time(NULL) > expiration || numconfirms >= 0 ) break; sleep(10); } //if ( numconfirms <= 0 ) // numconfirms = LP_numconfirms(symbol,coinaddr,txid,vout,1); // no, no recursion occurs! return(numconfirms); } int32_t LP_mempool_vinscan(bits256 *spendtxidp,int32_t *spendvinp,char *symbol,char *coinaddr,bits256 searchtxid,int32_t searchvout,bits256 searchtxid2,int32_t searchvout2) { struct iguana_info *coin; int32_t selector; cJSON *array; char addr[64]; if ( symbol == 0 || symbol[0] == 0 || bits256_nonz(searchtxid) == 0 || bits256_nonz(searchtxid2) == 0 ) return(-1); if ( (coin= LP_coinfind(symbol)) == 0 || coin->inactive != 0 ) return(-1); if ( time(NULL) > coin->lastmempool+LP_MEMPOOL_TIMEINCR ) { if ( (array= LP_getmempool(symbol,coinaddr,searchtxid,searchtxid2)) != 0 ) { free_json(array); coin->lastmempool = (uint32_t)time(NULL); } } if ( (selector= LP_spendsearch(addr,spendtxidp,spendvinp,symbol,searchtxid,searchvout)) >= 0 ) return(selector); else if ( (selector= LP_spendsearch(addr,spendtxidp,spendvinp,symbol,searchtxid2,searchvout2)) >= 0 ) return(selector); return(-1); }