/****************************************************************************** * 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_utxo.c // marketmaker // uint64_t LP_value_extract(cJSON *obj,int32_t addinterest) { double val = 0.; uint64_t value = 0; int32_t electrumflag; electrumflag = (jobj(obj,"tx_hash") != 0); if ( electrumflag == 0 ) { if ( (val= jdouble(obj,"amount")) < SMALLVAL ) val = jdouble(obj,"value"); value = (val + 0.0000000049) * SATOSHIDEN; } else value = j64bits(obj,"value"); if ( value != 0 ) { if ( addinterest != 0 && jobj(obj,"interest") != 0 ) value += (jdouble(obj,"interest") * SATOSHIDEN); } return(value); } int32_t LP_destaddr(char *destaddr,cJSON *item) { int32_t m,retval = -1; cJSON *addresses,*skey; char *addr; if ( (skey= jobj(item,"scriptPubKey")) != 0 && (addresses= jarray(&m,skey,"addresses")) != 0 ) { item = jitem(addresses,0); if ( (addr= jstr(item,0)) != 0 ) { safecopy(destaddr,addr,64); retval = 0; } //printf("item.(%s) -> dest.(%s)\n",jprint(item,0),destaddr); } return(retval); } int32_t LP_txdestaddr(char *destaddr,bits256 txid,int32_t vout,cJSON *txobj) { int32_t n,retval = -1; cJSON *vouts; if ( (vouts= jarray(&n,txobj,"vout")) != 0 && vout < n ) retval = LP_destaddr(destaddr,jitem(vouts,vout)); return(retval); } struct LP_address *_LP_address(struct iguana_info *coin,char *coinaddr) { struct LP_address *ap = 0; if ( (ap= _LP_addressfind(coin,coinaddr)) == 0 ) ap = _LP_addressadd(coin,coinaddr); return(ap); } struct LP_address *LP_addressfind(struct iguana_info *coin,char *coinaddr) { struct LP_address *ap = 0; if ( coin != 0 ) { portable_mutex_lock(&coin->addrmutex); ap = _LP_addressfind(coin,coinaddr); portable_mutex_unlock(&coin->addrmutex); } return(ap); } struct LP_address *LP_address(struct iguana_info *coin,char *coinaddr) { struct LP_address *ap = 0; if ( coin != 0 ) { portable_mutex_lock(&coin->addrmutex); ap = _LP_address(coin,coinaddr); portable_mutex_unlock(&coin->addrmutex); } return(ap); } int32_t LP_address_minmax(uint64_t *minp,uint64_t *maxp,struct LP_address *ap) { struct LP_address_utxo *up,*tmp; int32_t n = 0; *minp = *maxp = 0; DL_FOREACH_SAFE(ap->utxos,up,tmp) { if ( up->spendheight <= 0 ) { if ( up->U.value > *maxp ) *maxp = up->U.value; if ( *minp == 0 || up->U.value < *minp ) *minp = up->U.value; n++; } } if ( 0 && n > 0 ) printf("n.%d %s min %.8f max %.8f\n",n,ap->coinaddr,dstr(*minp),dstr(*maxp)); return(n); } struct LP_utxoinfo *LP_allocated(bits256 txid,int32_t vout) { struct LP_utxoinfo *utxo; if ( (utxo= _LP_utxofind(0,txid,vout)) != 0 && LP_isavailable(utxo) == 0 ) { char str[65]; printf("%s/v%d not available\n",bits256_str(str,txid),vout); return(utxo); } if ( (utxo= _LP_utxo2find(0,txid,vout)) != 0 && LP_isavailable(utxo) == 0 ) { char str[65]; printf("%s/v%d not available2\n",bits256_str(str,txid),vout); return(utxo); } if ( (utxo= _LP_utxofind(1,txid,vout)) != 0 && LP_isavailable(utxo) == 0 ) { char str[65]; printf("%s/v%d not available\n",bits256_str(str,txid),vout); return(utxo); } if ( (utxo= _LP_utxo2find(1,txid,vout)) != 0 && LP_isavailable(utxo) == 0 ) { char str[65]; printf("%s/v%d not available2\n",bits256_str(str,txid),vout); return(utxo); } return(0); } int32_t LP_address_utxo_ptrs(struct iguana_info *coin,int32_t iambob,struct LP_address_utxo **utxos,int32_t max,struct LP_address *ap,char *coinaddr) { struct LP_address_utxo *up,*tmp; struct LP_transaction *tx; cJSON *txout; int32_t n = 0; //printf("LP_address_utxo_ptrs for (%s).(%s)\n",ap->coinaddr,coinaddr); if ( strcmp(ap->coinaddr,coinaddr) != 0 ) printf("UNEXPECTED coinaddr mismatch (%s) != (%s)\n",ap->coinaddr,coinaddr); portable_mutex_lock(&LP_utxomutex); DL_FOREACH_SAFE(ap->utxos,up,tmp) { //char str[65]; printf("LP_address_utxo_ptrs %s n.%d %.8f %s v%d spendheight.%d allocated.%p\n",ap->coinaddr,n,dstr(up->U.value),bits256_str(str,up->U.txid),up->U.vout,up->spendheight,LP_allocated(up->U.txid,up->U.vout)); if ( up->spendheight <= 0 ) { if ( coin->electrum == 0 ) { if ( (txout= LP_gettxout(coin->symbol,coinaddr,up->U.txid,up->U.vout)) != 0 ) free_json(txout); else { char str[65]; printf("%s %s payment %s/v%d is spent\n",coin->symbol,coinaddr,bits256_str(str,up->U.txid),up->U.vout); up->spendheight = 1; if ( (tx= LP_transactionfind(coin,up->U.txid)) != 0 && up->U.vout < tx->numvouts ) tx->outpoints[up->U.vout].spendheight = 1; continue; } } if ( LP_allocated(up->U.txid,up->U.vout) == 0 ) { utxos[n++] = up; if ( n >= max ) break; } } } portable_mutex_unlock(&LP_utxomutex); //printf("return n.%d\n",n); return(n); } struct LP_address_utxo *LP_address_utxofind(struct iguana_info *coin,char *coinaddr,bits256 txid,int32_t vout) { struct LP_address *ap; struct LP_address_utxo *up,*tmp; //printf("LP_address_utxofind %s add addr.%s\n",coin->symbol,coinaddr); if ( (ap= _LP_address(coin,coinaddr)) != 0 ) { DL_FOREACH_SAFE(ap->utxos,up,tmp) { if ( vout == up->U.vout && bits256_cmp(up->U.txid,txid) == 0 ) return(up); } } return(0); } int32_t LP_address_utxoadd(char *debug,struct iguana_info *coin,char *coinaddr,bits256 txid,int32_t vout,uint64_t value,int32_t height,int32_t spendheight) { struct LP_address *ap; cJSON *txobj; struct LP_address_utxo *up,*tmp; int32_t flag,retval = 0; char str[65]; if ( coin == 0 ) return(0); if ( spendheight > 0 ) // dont autocreate entries for spends we dont care about ap = LP_addressfind(coin,coinaddr); else ap = LP_address(coin,coinaddr); //printf("%s add addr.%s ht.%d ap.%p\n",coin->symbol,coinaddr,height,ap); if ( ap != 0 ) { flag = 0; DL_FOREACH_SAFE(ap->utxos,up,tmp) { if ( vout == up->U.vout && bits256_cmp(up->U.txid,txid) == 0 ) { flag = 1; if ( height > 0 && up->U.height != height ) up->U.height = height, flag |= 2; if ( spendheight > 0 && up->spendheight != spendheight ) up->spendheight = spendheight, flag |= 4; if ( value != 0 && up->U.value == 0 && up->U.value != value ) up->U.value = value, flag |= 8; //printf("found >>>>>>>>>> %s %s %s/v%d ht.%d %.8f\n",coin->symbol,coinaddr,bits256_str(str,txid),vout,height,dstr(value)); break; } } if ( flag == 0 && value != 0 ) { if ( coin->electrum == 0 ) { if ( (txobj= LP_gettxout(coin->symbol,coinaddr,txid,vout)) == 0 ) { //printf("prevent utxoadd since gettxout %s %s %s/v%d missing\n",coin->symbol,coinaddr,bits256_str(str,txid),vout); return(0); } else free_json(txobj); } up = calloc(1,sizeof(*up)); up->U.txid = txid; up->U.vout = vout; up->U.height = height; up->U.value = value; up->spendheight = spendheight; portable_mutex_lock(&coin->addrmutex); DL_APPEND(ap->utxos,up); portable_mutex_unlock(&coin->addrmutex); retval = 1; if ( value == 0 ) printf("%s null? ADD UTXO >> %s %s %s/v%d ht.%d %.8f\n",debug,coin->symbol,coinaddr,bits256_str(str,txid),vout,height,dstr(value)); } } // else printf("cant get ap %s %s\n",coin->symbol,coinaddr); //printf("done %s add addr.%s ht.%d\n",coin->symbol,coinaddr,height); return(retval); } cJSON *LP_address_item(struct iguana_info *coin,struct LP_address_utxo *up,int32_t electrumret) { cJSON *item = cJSON_CreateObject(); if ( electrumret == 0 ) { jaddbits256(item,"txid",up->U.txid); jaddnum(item,"vout",up->U.vout); if ( up->U.height > 0 ) jaddnum(item,"confirmations",LP_getheight(coin) - up->U.height + 1); jaddnum(item,"amount",dstr(up->U.value)); jaddstr(item,"scriptPubKey",""); } else { jaddbits256(item,"tx_hash",up->U.txid); jaddnum(item,"tx_pos",up->U.vout); jaddnum(item,"height",up->U.height); jadd64bits(item,"value",up->U.value); if ( up->U.value == 0 ) printf("ERROR LP_address_item illegal.(%s)\n",jprint(item,0)); } return(item); } uint64_t _LP_unspents_metric(uint64_t total,int32_t n) { return((total<<16) | (n & 0xffff)); } 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]); } bits256 validate_merkle(int32_t pos,bits256 txid,cJSON *proofarray,int32_t proofsize) { int32_t i; uint8_t serialized[sizeof(bits256) * 2]; bits256 hash,proof; hash = txid; for (i=0; i>= 1; } return(hash); } int32_t LP_merkleproof(struct iguana_info *coin,struct electrum_info *ep,bits256 txid,int32_t height) { cJSON *merkobj,*merkles,*hdrobj; bits256 roothash,merkleroot; int32_t m,SPV = 0; if ( (merkobj= electrum_getmerkle(coin->symbol,ep,&merkobj,txid,height)) != 0 ) { char str[65],str2[65],str3[65]; SPV = -1; memset(roothash.bytes,0,sizeof(roothash)); if ( (merkles= jarray(&m,merkobj,"merkle")) != 0 ) { roothash = validate_merkle(jint(merkobj,"pos"),txid,merkles,m); if ( (hdrobj= electrum_getheader(coin->symbol,ep,&hdrobj,height)) != 0 ) { if ( jobj(hdrobj,"merkle_root") != 0 ) { merkleroot = jbits256(hdrobj,"merkle_root"); if ( bits256_cmp(merkleroot,roothash) == 0 ) { SPV = height; //printf("validated MERK %s ht.%d -> %s root.(%s)\n",bits256_str(str,up->U.txid),up->U.height,jprint(merkobj,0),bits256_str(str2,roothash)); } else printf("ERROR MERK %s ht.%d -> %s root.(%s) vs %s (%s)\n",bits256_str(str,txid),height,jprint(merkobj,0),bits256_str(str2,roothash),bits256_str(str3,merkleroot),jprint(hdrobj,0)); } else SPV = 0; free_json(hdrobj); } else printf("couldnt get header for ht.%d\n",height); } if ( SPV < 0 ) printf("MERKLE DIDNT VERIFY.(%s)\n",jprint(merkobj,0)); free_json(merkobj); } return(SPV); } cJSON *LP_address_utxos(struct iguana_info *coin,char *coinaddr,int32_t electrumret) { cJSON *array,*item; int32_t n; uint64_t total; struct LP_address *ap=0,*atmp; struct LP_address_utxo *up,*tmp; cJSON *txobj; array = cJSON_CreateArray(); if ( coinaddr != 0 && coinaddr[0] != 0 ) { //portable_mutex_lock(&coin->addrmutex); if ( (ap= _LP_addressfind(coin,coinaddr)) != 0 ) { total = n = 0; DL_FOREACH_SAFE(ap->utxos,up,tmp) { if ( up->spendheight <= 0 && up->U.height > 0 ) { if ( coin->electrum == 0 ) { if ( (txobj= LP_gettxout(coin->symbol,coinaddr,up->U.txid,up->U.vout)) == 0 ) up->spendheight = 1; else free_json(txobj); } if ( up->spendheight <= 0 && up->U.value != 0 ) { if ( coin->electrum == 0 || up->SPV > 0 ) { jaddi(array,LP_address_item(coin,up,electrumret)); n++; total += up->U.value; } } //printf("new array %s\n",jprint(array,0)); } } ap->total = total; ap->n = n; } //portable_mutex_unlock(&coin->addrmutex); } else { HASH_ITER(hh,coin->addresses,ap,atmp) { if ( ap->total > 0 && ap->n > 0 ) { item = cJSON_CreateObject(); jadd64bits(item,ap->coinaddr,_LP_unspents_metric(ap->total,ap->n)); jaddi(array,item); } } } //printf("%s %s utxos.(%s) ap.%p\n",coin->symbol,coinaddr,jprint(array,0),ap); return(array); } cJSON *LP_address_balance(struct iguana_info *coin,char *coinaddr,int32_t electrumret) { cJSON *array,*retjson; int32_t i,n; uint64_t balance = 0; if ( (array= LP_address_utxos(coin,coinaddr,1)) != 0 ) { if ( (n= cJSON_GetArraySize(array)) > 0 ) { for (i=0; isymbol); jaddstr(retjson,"address",coinaddr); jaddnum(retjson,"balance",dstr(balance)); return(retjson); } int32_t LP_unspents_array(struct iguana_info *coin,char *coinaddr,cJSON *array) { int32_t i,n,v,ht,errs,height,count=0; uint64_t value,val; cJSON *item,*txobj; bits256 txid; if ( (n= cJSON_GetArraySize(array)) <= 0 ) return(0); //printf("%s %s LP_unspents.(%s)\n",coin->symbol,coinaddr,jprint(array,0)); for (i=0; ielectrum == 0 && (txobj= LP_gettxout(coin->symbol,coinaddr,txid,v)) != 0 ) { value = LP_value_extract(txobj,0); if ( value != 0 && value != val ) { char str[65]; printf("REJECT %s %s/v%d value.%llu vs %llu (%s)\n",coin->symbol,bits256_str(str,txid),v,(long long)value,(long long)val,jprint(txobj,0)); errs++; } ht = LP_txheight(coin,txid); //if ( coin->height != 0 ) // ht = LP_getheight(coin) - jint(txobj,"confirmations") + 1; //else ht = 0; /*if ( ht != 0 && ht < height-2 ) { printf("REJECT %s %s/v%d ht.%d vs %d confs.%d (%s)\n",symbol,bits256_str(str,txid),v,ht,height,jint(txobj,"confirmations"),jprint(item,0)); errs++; }*/ free_json(txobj); } if ( errs == 0 ) { //printf("from LP_unspents_array\n"); LP_address_utxoadd("LP_unspents_array",coin,coinaddr,txid,v,val,height,-1); count++; } } return(count); } void LP_utxosetkey(uint8_t *key,bits256 txid,int32_t vout) { memcpy(key,txid.bytes,sizeof(txid)); memcpy(&key[sizeof(txid)],&vout,sizeof(vout)); } struct LP_utxoinfo *_LP_utxofind(int32_t iambob,bits256 txid,int32_t vout) { struct LP_utxoinfo *utxo=0; uint8_t key[sizeof(txid) + sizeof(vout)]; /*if ( iambob != 0 ) { static uint32_t counter; if ( counter++ < 3 ) printf("_LP_utxofind deprecated iambob\n"); return(0); }*/ LP_utxosetkey(key,txid,vout); HASH_FIND(hh,G.LP_utxoinfos[iambob],key,sizeof(key),utxo); return(utxo); } struct LP_utxoinfo *_LP_utxo2find(int32_t iambob,bits256 txid2,int32_t vout2) { struct LP_utxoinfo *utxo=0; uint8_t key2[sizeof(txid2) + sizeof(vout2)]; /*if ( iambob != 0 ) { printf("_LP_utxo2find deprecated iambob\n"); return(0); }*/ LP_utxosetkey(key2,txid2,vout2); HASH_FIND(hh2,G.LP_utxoinfos2[iambob],key2,sizeof(key2),utxo); return(utxo); } struct LP_utxoinfo *LP_utxofind(int32_t iambob,bits256 txid,int32_t vout) { struct LP_utxoinfo *utxo=0; /*if ( iambob != 0 ) { printf("LP_utxofind deprecated iambob\n"); return(0); }*/ portable_mutex_lock(&LP_utxomutex); utxo = _LP_utxofind(iambob,txid,vout); portable_mutex_unlock(&LP_utxomutex); return(utxo); } struct LP_utxoinfo *LP_utxo2find(int32_t iambob,bits256 txid2,int32_t vout2) { struct LP_utxoinfo *utxo=0; /*if ( iambob != 0 ) { printf("LP_utxo2find deprecated iambob\n"); return(0); }*/ portable_mutex_lock(&LP_utxomutex); utxo = _LP_utxo2find(iambob,txid2,vout2); portable_mutex_unlock(&LP_utxomutex); return(utxo); } struct LP_transaction *LP_transactionfind(struct iguana_info *coin,bits256 txid) { struct LP_transaction *tx; portable_mutex_lock(&coin->txmutex); HASH_FIND(hh,coin->transactions,txid.bytes,sizeof(txid),tx); portable_mutex_unlock(&coin->txmutex); return(tx); } struct LP_transaction *LP_transactionadd(struct iguana_info *coin,bits256 txid,int32_t height,int32_t numvouts,int32_t numvins) { struct LP_transaction *tx; int32_t i; if ( (tx= LP_transactionfind(coin,txid)) == 0 ) { //char str[65]; printf("%s ht.%d u.%u NEW TXID.(%s) vouts.[%d]\n",coin->symbol,height,timestamp,bits256_str(str,txid),numvouts); //if ( bits256_nonz(txid) == 0 && tx->height == 0 ) // getchar(); tx = calloc(1,sizeof(*tx) + (sizeof(*tx->outpoints) * numvouts)); for (i=0; ioutpoints[i].spendvini = -1; tx->height = height; tx->numvouts = numvouts; tx->numvins = numvins; //tx->timestamp = timestamp; tx->txid = txid; portable_mutex_lock(&coin->txmutex); HASH_ADD_KEYPTR(hh,coin->transactions,tx->txid.bytes,sizeof(tx->txid),tx); portable_mutex_unlock(&coin->txmutex); } // else printf("warning adding already existing txid %s\n",bits256_str(str,tx->txid)); return(tx); } cJSON *LP_transactioninit(struct iguana_info *coin,bits256 txid,int32_t iter,cJSON *txobj) { struct LP_transaction *tx; int32_t i,height,numvouts,numvins,spentvout; cJSON *vins,*vouts,*vout,*vin; bits256 spenttxid; char str[65]; if ( coin->inactive != 0 ) return(0); if ( txobj != 0 || (txobj= LP_gettx(coin->symbol,txid)) != 0 ) { if ( coin->electrum == 0 ) height = LP_txheight(coin,txid); else height = -1; vins = jarray(&numvins,txobj,"vin"); vouts = jarray(&numvouts,txobj,"vout"); // maybe filter so only addresses we care about are using RAM if ( iter == 0 && vouts != 0 && (tx= LP_transactionadd(coin,txid,height,numvouts,numvins)) != 0 ) { //printf("create txid %s numvouts.%d numvins.%d\n",bits256_str(str,txid),numvouts,numvins); for (i=0; ioutpoints[i].value = LP_value_extract(vout,0); tx->outpoints[i].interest = SATOSHIDEN * jdouble(vout,"interest"); LP_destaddr(tx->outpoints[i].coinaddr,vout); //printf("from transaction init %s %s %s/v%d <- %.8f\n",coin->symbol,tx->outpoints[i].coinaddr,bits256_str(str,txid),i,dstr(tx->outpoints[i].value)); LP_address_utxoadd("LP_transactioninit iter0",coin,tx->outpoints[i].coinaddr,txid,i,tx->outpoints[i].value,height,-1); } //printf("numvouts.%d\n",numvouts); } if ( iter == 1 && vins != 0 ) { for (i=0; inumvouts ) { if ( tx->outpoints[spentvout].spendheight <= 0 ) { tx->outpoints[spentvout].spendtxid = txid; tx->outpoints[spentvout].spendvini = i; tx->outpoints[spentvout].spendheight = height > 0 ? height : 1; LP_address_utxoadd("LP_transactioninit iter1",coin,tx->outpoints[spentvout].coinaddr,spenttxid,spentvout,tx->outpoints[spentvout].value,-1,height>0?height:1); if ( 0 && strcmp(coin->symbol,"REVS") == 0 ) printf("spend %s %s/v%d at ht.%d\n",coin->symbol,bits256_str(str,tx->txid),spentvout,height); } } else printf("LP_transactioninit: %s spentvout.%d < numvouts.%d spendheight.%d\n",bits256_str(str,spenttxid),spentvout,tx->numvouts,tx->outpoints[spentvout].spendheight); } //else printf("LP_transactioninit: couldnt find (%s) ht.%d %s\n",bits256_str(str,spenttxid),height,jprint(vin,0)); if ( bits256_cmp(spenttxid,txid) == 0 ) printf("spending same tx's %p vout ht.%d %s.[%d] s%d\n",tx,height,bits256_str(str,txid),tx!=0?tx->numvouts:0,spentvout); } } return(txobj); } //else printf("LP_transactioninit error for %s %s\n",coin->symbol,bits256_str(str,txid)); return(0); } int32_t LP_txheight(struct iguana_info *coin,bits256 txid) { bits256 blockhash; struct LP_transaction *tx; cJSON *blockobj,*txobj; int32_t height = 0; if ( coin == 0 ) return(-1); if ( coin->electrum == 0 ) { if ( (txobj= LP_gettx(coin->symbol,txid)) != 0 ) { //*timestampp = juint(txobj,"locktime"); //*blocktimep = juint(txobj,"blocktime"); blockhash = jbits256(txobj,"blockhash"); if ( bits256_nonz(blockhash) != 0 && (blockobj= LP_getblock(coin->symbol,blockhash)) != 0 ) { height = jint(blockobj,"height"); //char str[65]; //if ( strcmp(coin->symbol,"CHIPS") != 0 && strcmp(coin->symbol,"BTC") != 0 ) // printf("%s %s LP_txheight.%d\n",coin->symbol,bits256_str(str,txid),height); free_json(blockobj); } // else printf("%s LP_txheight error (%s)\n",coin->symbol,jprint(txobj,0)); likely just unconfirmed free_json(txobj); } } else { if ( (tx= LP_transactionfind(coin,txid)) != 0 ) height = tx->height; } return(height); } int32_t LP_numconfirms(char *symbol,char *coinaddr,bits256 txid,int32_t vout,int32_t mempool) { struct iguana_info *coin; int32_t ht,numconfirms = 100; cJSON *txobj; if ( (coin= LP_coinfind(symbol)) == 0 || coin->inactive != 0 ) return(-1); if ( coin->electrum == 0 ) { numconfirms = -1; if ( (txobj= LP_gettxout(symbol,coinaddr,txid,vout)) != 0 ) { numconfirms = jint(txobj,"confirmations"); free_json(txobj); } else if ( mempool != 0 && LP_mempoolscan(symbol,txid) >= 0 ) numconfirms = 0; } else { LP_listunspent_issue(symbol,coinaddr,1); if ( (ht= LP_txheight(coin,txid)) > 0 && ht <= coin->height ) numconfirms = (LP_getheight(coin) - ht + 1); else if ( mempool != 0 ) { if ( LP_waitmempool(symbol,coinaddr,txid,vout,30) >= 0 ) numconfirms = 0; } } return(numconfirms); } uint64_t LP_txinterestvalue(uint64_t *interestp,char *destaddr,struct iguana_info *coin,bits256 txid,int32_t vout) { uint64_t interest,value = 0; cJSON *txobj; *interestp = 0; destaddr[0] = 0; if ( (txobj= LP_gettxout(coin->symbol,destaddr,txid,vout)) != 0 ) { if ( (value= LP_value_extract(txobj,0)) == 0 ) { char str[65]; printf("%s LP_txvalue.%s strange utxo.(%s) vout.%d\n",coin->symbol,bits256_str(str,txid),jprint(txobj,0),vout); } else if ( strcmp(coin->symbol,"KMD") == 0 ) { if ( coin->electrum == 0 ) { if ((interest= jdouble(txobj,"interest")) != 0. ) { //printf("add interest of %.8f to %.8f\n",interest,dstr(value)); *interestp = SATOSHIDEN * interest; } } else *interestp = LP_komodo_interest(txid,value); } LP_destaddr(destaddr,txobj); //char str[65]; printf("dest.(%s) %.8f <- %s.(%s) txobj.(%s)\n",destaddr,dstr(value),coin->symbol,bits256_str(str,txid),jprint(txobj,0)); free_json(txobj); } //else { char str[65]; printf("null gettxout return %s/v%d\n",bits256_str(str,txid),vout); } return(value); } int64_t basilisk_txvalue(char *symbol,bits256 txid,int32_t vout) { char destaddr[64]; uint64_t value,interest = 0; struct iguana_info *coin; if ( (coin= LP_coinfind(symbol)) == 0 || coin->inactive != 0 ) return(0); //char str[65]; printf("%s txvalue.(%s)\n",symbol,bits256_str(str,txid)); value = LP_txinterestvalue(&interest,destaddr,coin,txid,vout); return(value + interest); } uint64_t LP_txvalue(char *coinaddr,char *symbol,bits256 txid,int32_t vout) { struct LP_transaction *tx; cJSON *txobj=0; struct iguana_info *coin; if ( bits256_nonz(txid) == 0 ) return(0); if ( (coin= LP_coinfind(symbol)) == 0 || coin->inactive != 0 ) return(0); if ( coinaddr != 0 ) coinaddr[0] = 0; if ( (tx= LP_transactionfind(coin,txid)) == 0 ) { txobj = LP_transactioninit(coin,txid,0,0); txobj = LP_transactioninit(coin,txid,1,txobj); if ( txobj != 0 ) free_json(txobj); tx = LP_transactionfind(coin,txid); } if ( tx != 0 ) { if ( vout < tx->numvouts ) { /*if ( bits256_nonz(tx->outpoints[vout].spendtxid) != 0 ) { //printf("LP_txvalue %s/v%d is spent at %s\n",bits256_str(str,txid),vout,bits256_str(str2,tx->outpoints[vout].spendtxid)); return(0); } else { if ( coinaddr != 0 ) { //if ( tx->outpoints[vout].coinaddr[0] == 0 ) // tx->outpoints[vout].value = LP_txinterestvalue(&tx->outpoints[vout].interest,tx->outpoints[vout].coinaddr,coin,txid,vout); strcpy(coinaddr,tx->outpoints[vout].coinaddr); //printf("(%s) return value %.8f + interest %.8f\n",coinaddr,dstr(tx->outpoints[vout].value),dstr(tx->outpoints[vout].interest)); } return(tx->outpoints[vout].value + 0*tx->outpoints[vout].interest); }*/ return(tx->outpoints[vout].value); } else printf("LP_txvalue vout.%d >= tx->numvouts.%d\n",vout,tx->numvouts); } else if ( coin->electrum == 0 ) { uint64_t value; char _coinaddr[64]; if ( (txobj= LP_gettxout(coin->symbol,coinaddr,txid,vout)) != 0 ) { value = LP_value_extract(txobj,0);//SATOSHIDEN * (jdouble(txobj,"value") + jdouble(txobj,"interest")); if ( coinaddr == 0 ) coinaddr = _coinaddr; LP_destaddr(coinaddr,txobj); //printf("pruned node? LP_txvalue couldnt find %s tx %s, but gettxout %.8f\n",coin->symbol,bits256_str(str,txid),dstr(value)); if ( value != 0 ) { free_json(txobj); return(value); } } //printf("pruned node? LP_txvalue couldnt find %s tx %s/v%d (%s)\n",coin->symbol,bits256_str(str,txid),vout,txobj!=0?jprint(txobj,0):""); if ( txobj != 0 ) free_json(txobj); } return(0); } int32_t LP_iseligible(uint64_t *valp,uint64_t *val2p,int32_t iambob,char *symbol,bits256 txid,int32_t vout,uint64_t satoshis,bits256 txid2,int32_t vout2) { uint64_t val,val2=0,txfee,threshold=0; int32_t bypass = 0; char destaddr[64],destaddr2[64]; struct LP_transaction *tx; struct LP_address_utxo *up; struct iguana_info *coin = LP_coinfind(symbol); if ( bits256_nonz(txid) == 0 || bits256_nonz(txid2) == 0 ) { printf("null txid not eligible\n"); return(-1); } destaddr[0] = destaddr2[0] = 0; if ( coin != 0 && IAMLP != 0 && coin->inactive != 0 ) bypass = 1; if ( bypass != 0 ) val = satoshis; else val = LP_txvalue(destaddr,symbol,txid,vout); txfee = LP_txfeecalc(LP_coinfind(symbol),0,0); if ( val >= satoshis && val > (1+LP_MINSIZE_TXFEEMULT)*txfee ) { threshold = (iambob != 0) ? LP_DEPOSITSATOSHIS(satoshis) : (LP_DEXFEE(satoshis) + txfee); if ( bypass != 0 ) val2 = threshold; else val2 = LP_txvalue(destaddr2,symbol,txid2,vout2); if ( val2 >= threshold ) { if ( bypass == 0 && strcmp(destaddr,destaddr2) != 0 ) printf("mismatched %s destaddr (%s) vs (%s)\n",symbol,destaddr,destaddr2); else if ( bypass == 0 && ((iambob == 0 && val2 > val) || (iambob != 0 && val2 <= satoshis)) ) printf("iambob.%d ineligible due to offsides: val %.8f and val2 %.8f vs %.8f diff %lld\n",iambob,dstr(val),dstr(val2),dstr(satoshis),(long long)(val2 - val)); else { *valp = val; *val2p = val2; if ( destaddr[0] == 0 ) strcpy(destaddr,destaddr2); if ( coin != 0 ) { if ( (tx= LP_transactionfind(coin,txid)) != 0 && vout < tx->numvouts && tx->outpoints[vout].spendheight > 0 ) return(0); if ( (tx= LP_transactionfind(coin,txid2)) != 0 && vout2 < tx->numvouts && tx->outpoints[vout2].spendheight > 0 ) return(0); if ( (up= LP_address_utxofind(coin,destaddr,txid,vout)) != 0 && up->spendheight > 0 ) return(0); if ( (up= LP_address_utxofind(coin,destaddr,txid2,vout2)) != 0 && up->spendheight > 0 ) return(0); } return(1); } } // else printf("no val2\n"); } /*char str2[65]; if ( val != 0 && val2 != 0 ) printf("spent.%d %s txid or value %.8f < %.8f or val2 %.8f < %.8f, %s/v%d %s/v%d or < 10x txfee %.8f\n",iambob,symbol,dstr(val),dstr(satoshis),dstr(val2),dstr(threshold),bits256_str(str,txid),vout,bits256_str(str2,txid2),vout2,dstr(txfee)); if ( val == 0 ) LP_address_utxoadd(coin,destaddr,txid,vout,satoshis,-1,1); if ( val2 == 0 ) LP_address_utxoadd(coin,destaddr,txid2,vout2,threshold,-1,1); for (iter=0; iter<2; iter++) { if ( (utxo= LP_utxofind(iter,txid,vout)) != 0 ) { //printf("iambob.%d case 00\n",iter); if ( utxo->T.spentflag == 0 ) utxo->T.spentflag = (uint32_t)time(NULL); } if ( (utxo= LP_utxo2find(iter,txid,vout)) != 0 ) { //printf("iambob.%d case 01\n",iter); if ( utxo->T.spentflag == 0 ) utxo->T.spentflag = (uint32_t)time(NULL); } if ( (utxo= LP_utxofind(iter,txid2,vout2)) != 0 ) { //printf("iambob.%d case 10\n",iter); if ( utxo->T.spentflag == 0 ) utxo->T.spentflag = (uint32_t)time(NULL); } if ( (utxo= LP_utxo2find(iter,txid2,vout2)) != 0 ) { //printf("iambob.%d case 11\n",iter); if ( utxo->T.spentflag == 0 ) utxo->T.spentflag = (uint32_t)time(NULL); } }*/ *valp = val; *val2p = val2; return(0); } int32_t LP_inventory_prevent(int32_t iambob,char *symbol,bits256 txid,int32_t vout) { struct LP_utxoinfo *utxo; struct LP_transaction *tx; struct iguana_info *coin; if ( (utxo= LP_utxofind(iambob,txid,vout)) != 0 || (utxo= LP_utxo2find(iambob,txid,vout)) != 0 ) { if ( (coin= LP_coinfind(symbol)) != 0 && (tx= LP_transactionfind(coin,txid)) != 0 ) { if ( tx->outpoints[vout].spendheight > 0 ) utxo->T.spentflag = tx->outpoints[vout].spendheight; else utxo->T.spentflag = 0; } if ( utxo->T.spentflag != 0 ) { //char str[65]; printf("prevent adding iambob.%d %s/v%d to inventory\n",iambob,bits256_str(str,txid),vout); return(1); } } return(0); } int32_t LP_undospends(struct iguana_info *coin,int32_t lastheight) { int32_t i,ht,num = 0; struct LP_transaction *tx,*tmp; HASH_ITER(hh,coin->transactions,tx,tmp) { for (i=0; inumvouts; i++) { if ( bits256_nonz(tx->outpoints[i].spendtxid) == 0 ) continue; if ( (ht= tx->outpoints[i].spendheight) == 0 ) { tx->outpoints[i].spendheight = LP_txheight(coin,tx->outpoints[i].spendtxid); } if ( (ht= tx->outpoints[i].spendheight) != 0 && ht > lastheight ) { char str[65]; printf("clear spend %s/v%d at ht.%d > lastheight.%d\n",bits256_str(str,tx->txid),i,ht,lastheight); tx->outpoints[i].spendheight = 0; tx->outpoints[i].spendvini = -1; memset(tx->outpoints[i].spendtxid.bytes,0,sizeof(bits256)); } } } return(num); }