/****************************************************************************** * 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_ordermatch.c // marketmaker // struct LP_quoteinfo LP_Alicequery,LP_Alicereserved; double LP_Alicemaxprice; bits256 LP_Alicedestpubkey,LP_bobs_reserved; uint32_t Alice_expiration,Bob_expiration; struct { uint64_t aliceid; double bestprice; uint32_t starttime,counter; } Bob_competition[512]; void LP_failedmsg(uint32_t requestid,uint32_t quoteid,double val) { char *msg; cJSON *retjson; if ( IPC_ENDPOINT >= 0 ) { retjson = cJSON_CreateObject(); jaddstr(retjson,"method","failed"); jaddnum(retjson,"error",val); jaddnum(retjson,"requestid",requestid); jaddnum(retjson,"quoteid",quoteid); msg = jprint(retjson,1); LP_queuecommand(0,msg,IPC_ENDPOINT,-1,0); free(msg); } } double LP_bob_competition(int32_t *counterp,uint64_t aliceid,double price,int32_t counter) { int32_t i,firsti = -1; uint32_t now = (uint32_t)time(NULL); *counterp = 0; for (i=0; i Bob_competition[i].starttime+LP_AUTOTRADE_TIMEOUT ) { //printf("aliceid.%llu expired\n",(long long)aliceid); Bob_competition[i].bestprice = 0.; Bob_competition[i].starttime = now; Bob_competition[i].counter = 0; } if ( price != 0. && (Bob_competition[i].bestprice == 0. || price < Bob_competition[i].bestprice) ) { Bob_competition[i].bestprice = price; //printf("Bob competition aliceid.%llu <- bestprice %.8f\n",(long long)aliceid,price); } Bob_competition[i].counter += counter; *counterp = Bob_competition[i].counter; return(Bob_competition[i].bestprice); } else if ( Bob_competition[i].aliceid == 0 ) firsti = i; } if ( firsti < 0 ) firsti = (LP_rand() % (sizeof(Bob_competition)/sizeof(*Bob_competition))); Bob_competition[firsti].starttime = (uint32_t)time(NULL); Bob_competition[firsti].counter = counter; Bob_competition[firsti].aliceid = aliceid; Bob_competition[firsti].bestprice = price; *counterp = counter; //printf("Bob competition aliceid.%llu %.8f\n",(long long)aliceid,price); return(price); } uint64_t LP_txfeecalc(struct iguana_info *coin,uint64_t txfee,int32_t txlen) { if ( coin != 0 ) { if ( strcmp(coin->symbol,"BTC") == 0 ) { if ( txlen == 0 ) txlen = LP_AVETXSIZE; coin->rate = LP_getestimatedrate(coin); if ( (txfee= SATOSHIDEN * coin->rate * txlen) <= 20000 ) { //coin->rate = -1.; coin->rate = _LP_getestimatedrate(coin); if ( (txfee= SATOSHIDEN * coin->rate * txlen) <= 20000 ) txfee = 20000; } } else txfee = coin->txfee; if ( txfee < LP_MIN_TXFEE ) txfee = LP_MIN_TXFEE; } return(txfee); } int32_t LP_quote_checkmempool(struct LP_quoteinfo *qp,struct LP_utxoinfo *autxo,struct LP_utxoinfo *butxo) { int32_t selector,spendvini; bits256 spendtxid; if ( butxo != 0 && (selector= LP_mempool_vinscan(&spendtxid,&spendvini,qp->srccoin,qp->coinaddr,qp->txid,qp->vout,qp->txid2,qp->vout2)) >= 0 ) { char str[65]; printf("LP_tradecommand selector.%d in mempool %s vini.%d",selector,bits256_str(str,spendtxid),spendvini); return(-1); } if ( autxo != 0 && (selector= LP_mempool_vinscan(&spendtxid,&spendvini,qp->destcoin,qp->destaddr,qp->desttxid,qp->destvout,qp->feetxid,qp->feevout)) >= 0 ) { char str[65]; printf("LP_tradecommand dest selector.%d in mempool %s vini.%d",selector,bits256_str(str,spendtxid),spendvini); return(-1); } return(0); } double LP_quote_validate(struct LP_utxoinfo *autxo,struct LP_utxoinfo *butxo,struct LP_quoteinfo *qp,int32_t iambob) { double qprice=0.; char str[65],srccoin[65],destcoin[65],bobtomic[64],alicetomic[64]; cJSON *txout; uint64_t txfee,desttxfee,srcvalue=0,srcvalue2=0,destvalue=0,destvalue2=0; LP_etomicsymbol(srccoin,bobtomic,qp->srccoin); LP_etomicsymbol(destcoin,alicetomic,qp->destcoin); //printf(">>>>>>> quote satoshis.(%.8f %.8f) %s %.8f -> %s %.8f\n",dstr(qp->satoshis),dstr(qp->destsatoshis),qp->srccoin,dstr(qp->satoshis),qp->destcoin,dstr(qp->destsatoshis)); if ( butxo != 0 ) { if ( LP_iseligible(&srcvalue,&srcvalue2,1,srccoin,qp->txid,qp->vout,qp->satoshis,qp->txid2,qp->vout2) == 0 ) { //printf("bob not eligible %s (%.8f %.8f)\n",jprint(LP_quotejson(qp),1),dstr(srcvalue),dstr(srcvalue2)); return(-2); } if ( (txout= LP_gettxout(srccoin,qp->coinaddr,qp->txid,qp->vout)) != 0 ) free_json(txout); else { printf("%s %s payment %s/v%d is spent\n",srccoin,qp->coinaddr,bits256_str(str,qp->txid),qp->vout); return(-21); } if ( (txout= LP_gettxout(srccoin,qp->coinaddr,qp->txid2,qp->vout2)) != 0 ) free_json(txout); else { printf("%s %s deposit %s/v%d is spent\n",srccoin,qp->coinaddr,bits256_str(str,qp->txid2),qp->vout2); return(-22); } if ( bits256_cmp(butxo->deposit.txid,qp->txid2) != 0 || butxo->deposit.vout != qp->vout2 ) { char str[65],str2[65]; printf("%s != %s v%d != %d\n",bits256_str(str,butxo->deposit.txid),bits256_str(str2,qp->txid2),butxo->deposit.vout,qp->vout2); return(-6); } if ( strcmp(butxo->coinaddr,qp->coinaddr) != 0 ) { printf("(%s) != (%s)\n",butxo->coinaddr,qp->coinaddr); return(-7); } } if ( autxo != 0 ) { if ( LP_iseligible(&destvalue,&destvalue2,0,destcoin,qp->desttxid,qp->destvout,qp->destsatoshis,qp->feetxid,qp->feevout) == 0 ) { //alice not eligible 0.36893923 -> dest 0.55020000 1.49130251 (0.61732249 0.00104324) 14b8b74808d2d34a70e5eddd1cad47d855858f8b23cac802576d4d37b5f8af8f/v1 abec6e76169bcb738235ca67fab02cc55390f39e422aa71f1badf8747c290cc4/v1 char str[65],str2[65]; printf("alice not eligible %.8f -> dest %.8f %.8f (%.8f %.8f) %s/v%d %s/v%d\n",dstr(qp->satoshis),dstr(qp->destsatoshis),(double)qp->destsatoshis/qp->satoshis,dstr(destvalue),dstr(destvalue2),bits256_str(str,qp->desttxid),qp->destvout,bits256_str(str2,qp->feetxid),qp->feevout); return(-3); } if ( (txout= LP_gettxout(destcoin,qp->destaddr,qp->desttxid,qp->destvout)) != 0 ) free_json(txout); else { printf("%s %s Apayment %s/v%d is spent\n",destcoin,qp->destaddr,bits256_str(str,qp->desttxid),qp->destvout); return(-23); } if ( (txout= LP_gettxout(destcoin,qp->destaddr,qp->feetxid,qp->feevout)) != 0 ) free_json(txout); else { printf("%s %s dexfee %s/v%d is spent\n",destcoin,qp->destaddr,bits256_str(str,qp->feetxid),qp->feevout); return(-24); } } //printf("checked autxo and butxo\n"); if ( LP_quote_checkmempool(qp,autxo,butxo) < 0 ) return(-4); if ( iambob == 0 && autxo != 0 ) { if ( bits256_cmp(autxo->fee.txid,qp->feetxid) != 0 || autxo->fee.vout != qp->feevout ) return(-9); if ( strcmp(autxo->coinaddr,qp->destaddr) != 0 ) return(-10); } if ( autxo != 0 && destvalue < qp->desttxfee+qp->destsatoshis ) { printf("destvalue %.8f destsatoshis %.8f is too small txfee %.8f?\n",dstr(destvalue),dstr(qp->destsatoshis),dstr(qp->desttxfee)); return(-11); } if ( butxo != 0 && srcvalue < qp->txfee+qp->satoshis ) { printf("srcvalue %.8f [%.8f] satoshis %.8f is too small txfee %.8f?\n",dstr(srcvalue),dstr(srcvalue) - dstr(qp->txfee+qp->satoshis),dstr(qp->satoshis),dstr(qp->txfee)); return(-33); } LP_txfees(&txfee,&desttxfee,qp->srccoin,qp->destcoin); if ( txfee < qp->txfee ) txfee = qp->txfee; if ( desttxfee < qp->desttxfee ) desttxfee = qp->desttxfee; if ( qp->satoshis != 0 ) qprice = ((double)qp->destsatoshis / (qp->satoshis-qp->txfee)); //printf("qprice %.8f <- %.8f/%.8f txfees.(%.8f %.8f) vs (%.8f %.8f)\n",qprice,dstr(qp->destsatoshis),dstr(qp->satoshis),dstr(qp->txfee),dstr(qp->desttxfee),dstr(txfee),dstr(desttxfee)); if ( qp->txfee < LP_REQUIRED_TXFEE*txfee || qp->desttxfee < LP_REQUIRED_TXFEE*desttxfee ) { printf("error -14: txfee %.8f < %.8f or desttxfee %.8f < %.8f\n",dstr(qp->txfee),dstr(LP_REQUIRED_TXFEE*txfee),dstr(qp->desttxfee),dstr(LP_REQUIRED_TXFEE*desttxfee)); return(-14); } if ( butxo != 0 ) { if ( qp->satoshis < (srcvalue / LP_MINVOL) || srcvalue < qp->txfee*LP_MINSIZE_TXFEEMULT ) { printf("utxo payment %.8f is less than %f covered by Q %.8f or <10x txfee %.8f [%d %d]\n",dstr(srcvalue),1./LP_MINVOL,dstr(qp->satoshis),dstr(qp->txfee),qp->satoshis < (srcvalue / LP_MINVOL),srcvalue < qp->txfee*LP_MINSIZE_TXFEEMULT); return(-12); } } if ( autxo != 0 ) { if ( qp->destsatoshis < (destvalue / LP_MINCLIENTVOL) || destvalue < qp->desttxfee*LP_MINSIZE_TXFEEMULT ) { printf("destsatoshis %.8f is less than %f of value %.8f or < 10x txfee %.8f\n",dstr(qp->destsatoshis),1./LP_MINCLIENTVOL,dstr(destvalue),dstr(qp->desttxfee)); return(-13); } } return(qprice); } int32_t LP_arrayfind(cJSON *array,bits256 txid,int32_t vout) { int32_t i,n = cJSON_GetArraySize(array); cJSON *item; for (i=0; ipair\n"); else { for (i=0; i<10000; i++) { r = (10000 + (LP_rand() % 50000)) & 0xffff; if ( LP_fixed_pairport != 0 ) r = LP_fixed_pairport; nanomsg_transportname(0,pairstr,LP_myipaddr,r); nanomsg_transportname(1,bindaddr,LP_myipaddr,r); if ( nn_bind(pairsock,bindaddr) >= 0 ) { //timeout = 1; //nn_setsockopt(pairsock,NN_SOL_SOCKET,NN_SNDTIMEO,&timeout,sizeof(timeout)); //nn_setsockopt(pairsock,NN_SOL_SOCKET,NN_RCVTIMEO,&timeout,sizeof(timeout)); //printf("nanobind %s to %d\n",pairstr,pairsock); return(pairsock); } // else printf("error binding to %s for %s\n",bindaddr,pairstr); if ( LP_fixed_pairport != 0 ) break; } printf("%d ports all used\n",i); nn_close(pairsock); pairsock = -1; } } else pairsock = LP_initpublicaddr(ctx,&mypullport,pairstr,"127.0.0.1",0,1); return(pairsock); } int32_t LP_nearest_utxovalue(struct iguana_info *coin,char *coinaddr,struct LP_address_utxo **utxos,int32_t n,uint64_t targetval) { int32_t i,replacei,bestheight,mini = -1; struct LP_address_utxo *up,*bestup; struct electrum_info *backupep=0,*ep; int64_t dist,bestdist; uint64_t mindist = (1LL << 60); if ( (ep= coin->electrum) != 0 ) { if ( (backupep= ep->prev) == 0 ) backupep = ep; } //printf("LP_nearest_utxovalue %s %s utxos[%d] target %.8f\n",coin->symbol,coinaddr,n,dstr(targetval)); for (i=0; iU.value - targetval); //printf("nearest i.%d target %.8f val %.8f dist %.8f mindist %.8f mini.%d spent.%d\n",i,dstr(targetval),dstr(up->U.value),dstr(dist),dstr(mindist),mini,up->spendheight); if ( up->spendheight <= 0 ) { if ( dist >= 0 && dist < mindist ) { //printf("(%.8f %.8f %.8f).%d ",dstr(up->U.value),dstr(dist),dstr(mindist),mini); mini = i; mindist = dist; } } } } if ( mini >= 0 && (bestup= utxos[mini]) != 0 ) { bestdist = (bestup->U.value - targetval); replacei = -1; bestheight = bestup->U.height; for (i=0; iU.value - targetval); if ( dist > 0 && up->U.height < bestheight ) { if ( (double)dist/bestdist < sqrt(((double)bestheight - up->U.height)/1000) ) { replacei = i; bestheight = up->U.height; } //else printf("almost ratio %.3f dist %.8f vs best %.8f, ht %d vs best ht %d\n",(double)dist/bestdist,dstr(dist),dstr(bestdist),up->U.height,bestheight); } } } if ( replacei >= 0 ) { //printf("REPLACE bestdist %.8f height %d with dist %.8f height %d\n",dstr(bestdist),bestup->U.height,dstr(utxos[replacei]->U.value - targetval),utxos[replacei]->U.height); return(replacei); } } //printf("return mini.%d\n",mini); return(mini); } void LP_butxo_set(struct LP_utxoinfo *butxo,int32_t iambob,struct iguana_info *coin,struct LP_address_utxo *up,struct LP_address_utxo *up2,int64_t satoshis) { butxo->pubkey = G.LP_mypub25519; safecopy(butxo->coin,coin->symbol,sizeof(butxo->coin)); safecopy(butxo->coinaddr,coin->smartaddr,sizeof(butxo->coinaddr)); butxo->payment.txid = up->U.txid; butxo->payment.vout = up->U.vout; butxo->payment.value = up->U.value; if ( (butxo->iambob= iambob) != 0 ) { butxo->deposit.txid = up2->U.txid; butxo->deposit.vout = up2->U.vout; butxo->deposit.value = up2->U.value; } else { butxo->fee.txid = up2->U.txid; butxo->fee.vout = up2->U.vout; butxo->fee.value = up2->U.value; } butxo->swap_satoshis = satoshis; } void LP_abutxo_set(struct LP_utxoinfo *autxo,struct LP_utxoinfo *butxo,struct LP_quoteinfo *qp) { if ( butxo != 0 ) { memset(butxo,0,sizeof(*butxo)); butxo->pubkey = qp->srchash; safecopy(butxo->coin,qp->srccoin,sizeof(butxo->coin)); safecopy(butxo->coinaddr,qp->coinaddr,sizeof(butxo->coinaddr)); butxo->payment.txid = qp->txid; butxo->payment.vout = qp->vout; //butxo->payment.value = qp->value; butxo->iambob = 1; butxo->deposit.txid = qp->txid2; butxo->deposit.vout = qp->vout2; //butxo->deposit.value = up2->U.value; butxo->swap_satoshis = qp->satoshis; } if ( autxo != 0 ) { memset(autxo,0,sizeof(*autxo)); autxo->pubkey = qp->desthash; safecopy(autxo->coin,qp->destcoin,sizeof(autxo->coin)); safecopy(autxo->coinaddr,qp->destaddr,sizeof(autxo->coinaddr)); autxo->payment.txid = qp->desttxid; autxo->payment.vout = qp->destvout; //autxo->payment.value = qp->value; autxo->iambob = 0; autxo->fee.txid = qp->feetxid; autxo->fee.vout = qp->feevout; //autxo->deposit.value = up2->U.value; autxo->swap_satoshis = qp->destsatoshis; } } uint64_t LP_basesatoshis(double relvolume,double price,uint64_t txfee,uint64_t desttxfee) { //printf("basesatoshis %.8f (rel %.8f / price %.8f)\n",dstr(SATOSHIDEN * ((relvolume) / price) + 2*txfee),relvolume,price); if ( relvolume > dstr(desttxfee) && price > SMALLVAL ) return(SATOSHIDEN * (relvolume / price) + 2*txfee); else return(0); } struct LP_utxoinfo *LP_address_myutxopair(struct LP_utxoinfo *butxo,int32_t iambob,struct LP_address_utxo **utxos,int32_t max,struct iguana_info *coin,char *coinaddr,uint64_t txfee,double relvolume,double price,uint64_t desttxfee) { struct LP_address *ap; uint64_t fee,targetval,targetval2; int32_t m,mini; struct LP_address_utxo *up,*up2; double ratio; if ( coin->etomic[0] != 0 ) { if ( (coin= LP_coinfind("ETOMIC")) != 0 ) coinaddr = coin->smartaddr; } if ( coin == 0 ) return(0); memset(butxo,0,sizeof(*butxo)); if ( iambob != 0 ) { targetval = LP_basesatoshis(relvolume,price,txfee,desttxfee) + 3*txfee; targetval2 = (targetval / 8) * 9 + 3*txfee; fee = txfee; ratio = LP_MINVOL; } else { targetval = relvolume*SATOSHIDEN + 3*desttxfee; targetval2 = (targetval / 777) + 3*desttxfee; fee = desttxfee; ratio = LP_MINCLIENTVOL; } if ( coin != 0 && (ap= LP_address(coin,coinaddr)) != 0 ) { if ( (m= LP_address_utxo_ptrs(coin,iambob,utxos,max,ap,coinaddr)) > 1 ) { if ( 0 ) { int32_t i; for (i=0; iU.value >= targetval ) printf("%.8f ",dstr(utxos[i]->U.value)); printf("targetval %.8f vol %.8f price %.8f txfee %.8f %s %s\n",dstr(targetval),relvolume,price,dstr(fee),coin->symbol,coinaddr); } while ( 1 ) { mini = -1; if ( targetval != 0 && (mini= LP_nearest_utxovalue(coin,coinaddr,utxos,m,targetval+fee)) >= 0 ) { up = utxos[mini]; utxos[mini] = 0; //printf("found mini.%d %.8f for targetval %.8f -> targetval2 %.8f, ratio %.2f\n",mini,dstr(up->U.value),dstr(targetval),dstr(targetval2),(double)up->U.value/targetval); if ( (double)up->U.value/targetval < ratio-1 ) { if ( 0 ) { int32_t i; for (i=0; iU.value >= targetval2 ) printf("%.8f ",dstr(utxos[i]->U.value)); printf("targetval2 %.8f vol %.8f price %.8f txfee %.8f %s %s\n",dstr(targetval2),relvolume,price,dstr(fee),coin->symbol,coinaddr); } if ( (mini= LP_nearest_utxovalue(coin,coinaddr,utxos,m,(targetval2+2*fee) * 1.01)) >= 0 ) { if ( up != 0 && (up2= utxos[mini]) != 0 ) { LP_butxo_set(butxo,iambob,coin,up,up2,targetval); return(butxo); } else printf("cant find utxos[mini %d]\n",mini); } //else printf("cant find targetval2 %.8f\n",dstr(targetval2)); } //else printf("failed ratio test %.8f\n",(double)up->U.value/targetval); } else if ( targetval != 0 && mini >= 0 ) printf("targetval %.8f mini.%d\n",dstr(targetval),mini); if ( targetval == 0 || mini < 0 ) break; } } //else printf("no %s %s utxos pass LP_address_utxo_ptrs filter %.8f %.8f\n",coin->symbol,coinaddr,dstr(targetval),dstr(targetval2)); } printf("address_myutxopair couldnt find %s %s targets %.8f %.8f\n",coin->symbol,coinaddr,dstr(targetval),dstr(targetval2)); return(0); } int32_t LP_connectstartbob(void *ctx,int32_t pubsock,char *base,char *rel,double price,struct LP_quoteinfo *qp) { char pairstr[512],otheraddr[64]; cJSON *reqjson; bits256 privkey; int32_t i,pair=-1,retval = -1,DEXselector = 0; int64_t dtrust; struct basilisk_swap *swap; struct iguana_info *ecoin,*coin,*kmdcoin; qp->quotetime = (uint32_t)time(NULL); if ( (coin= LP_coinfind(qp->srccoin)) == 0 ) { printf("cant find coin.%s\n",qp->srccoin); LP_failedmsg(qp->R.requestid,qp->R.quoteid,-3000); return(-1); } privkey = LP_privkey(coin->symbol,coin->smartaddr,coin->taddr); if ( coin->etomic[0] != 0 ) { if ( (ecoin= LP_coinfind("ETOMIC")) != 0 ) privkey = LP_privkey(ecoin->symbol,ecoin->smartaddr,ecoin->taddr); } if ( bits256_nonz(privkey) != 0 && bits256_cmp(G.LP_mypub25519,qp->srchash) == 0 ) { LP_requestinit(&qp->R,qp->srchash,qp->desthash,base,qp->satoshis-qp->txfee,rel,qp->destsatoshis-qp->desttxfee,qp->timestamp,qp->quotetime,DEXselector); dtrust = LP_dynamictrust(qp->othercredits,qp->desthash,LP_kmdvalue(qp->destcoin,qp->destsatoshis)); if ( (swap= LP_swapinit(1,0,privkey,&qp->R,qp,dtrust > 0)) == 0 ) { printf("cant initialize swap\n"); LP_failedmsg(qp->R.requestid,qp->R.quoteid,-3001); return(-1); } if ( (pair= LP_nanobind(ctx,pairstr)) >= 0 ) { swap->N.pair = pair; if ( OS_thread_create(malloc(sizeof(pthread_t)),NULL,(void *)LP_bobloop,(void *)swap) == 0 ) { reqjson = LP_quotejson(qp); LP_swapsfp_update(qp->R.requestid,qp->R.quoteid); jaddstr(reqjson,"method","connected"); jaddstr(reqjson,"pair",pairstr); if ( (kmdcoin= LP_coinfind("KMD")) != 0 ) jadd(reqjson,"proof",LP_instantdex_txids(0,kmdcoin->smartaddr)); //char str[65]; printf("BOB pubsock.%d binds to %d (%s)\n",pubsock,pair,bits256_str(str,qp->desthash)); LP_importaddress(qp->destcoin,qp->destaddr); LP_otheraddress(qp->srccoin,otheraddr,qp->destcoin,qp->destaddr); LP_importaddress(qp->srccoin,otheraddr); bits256 zero; memset(zero.bytes,0,sizeof(zero)); for (i=0; i<1; i++) { LP_reserved_msg(1,qp->srccoin,qp->destcoin,qp->desthash,jprint(reqjson,0)); break; sleep(10); if ( swap->received != 0 ) { printf("swap %u-%u has started t%u\n",swap->I.req.requestid,swap->I.req.quoteid,swap->received); break; } printf("bob tries %u-%u again i.%d\n",swap->I.req.requestid,swap->I.req.quoteid,i); LP_reserved_msg(1,qp->srccoin,qp->destcoin,zero,jprint(reqjson,0)); } sleep(1); printf("send CONNECT for %u-%u\n",qp->R.requestid,qp->R.quoteid); LP_reserved_msg(1,qp->srccoin,qp->destcoin,zero,jprint(reqjson,0)); if ( IPC_ENDPOINT >= 0 ) LP_queuecommand(0,jprint(reqjson,1),IPC_ENDPOINT,-1,0); else free_json(reqjson); retval = 0; } else { LP_failedmsg(qp->R.requestid,qp->R.quoteid,-3002); printf("error launching swaploop\n"); } } else { LP_failedmsg(qp->R.requestid,qp->R.quoteid,-3003); printf("couldnt bind to any port %s\n",pairstr); } } else { LP_failedmsg(qp->R.requestid,qp->R.quoteid,-3004); printf("cant find privkey for %s\n",coin->smartaddr); } if ( retval < 0 ) { if ( pair >= 0 ) nn_close(pair); LP_availableset(qp->txid,qp->vout); LP_availableset(qp->txid2,qp->vout2); } return(retval); } char *LP_trade(void *ctx,char *myipaddr,int32_t mypubsock,struct LP_quoteinfo *qp,double maxprice,int32_t timeout,int32_t duration,uint32_t tradeid,bits256 destpubkey,char *uuidstr) { double price; price = 0.; memset(qp->txid.bytes,0,sizeof(qp->txid)); qp->txid2 = qp->txid; qp->aliceid = LP_aliceid_calc(qp->desttxid,qp->destvout,qp->feetxid,qp->feevout); if ( (qp->tradeid= tradeid) == 0 ) qp->tradeid = LP_rand(); qp->srchash = destpubkey; strncpy(qp->uuidstr,uuidstr,sizeof(qp->uuidstr)-1); LP_query(ctx,myipaddr,mypubsock,"request",qp); LP_Alicequery = *qp, LP_Alicemaxprice = maxprice, Alice_expiration = qp->timestamp + timeout, LP_Alicedestpubkey = destpubkey; char str[65]; printf("LP_trade %s/%s %.8f vol %.8f dest.(%s) maxprice %.8f etomicdest.(%s) uuid.%s\n",qp->srccoin,qp->destcoin,dstr(qp->satoshis),dstr(qp->destsatoshis),bits256_str(str,LP_Alicedestpubkey),maxprice,qp->etomicdest,qp->uuidstr); return(LP_recent_swaps(0,uuidstr)); } int32_t LP_quotecmp(int32_t strictflag,struct LP_quoteinfo *qp,struct LP_quoteinfo *qp2) { if ( bits256_nonz(LP_Alicedestpubkey) != 0 ) { if (bits256_cmp(LP_Alicedestpubkey,qp->srchash) != 0 ) { printf("reject quote from non-matching pubkey\n"); return(-1); } else printf("dont reject quote from destpubkey\n"); } if ( bits256_cmp(qp->desthash,qp2->desthash) == 0 && strcmp(qp->srccoin,qp2->srccoin) == 0 && strcmp(qp->destcoin,qp2->destcoin) == 0 && bits256_cmp(qp->desttxid,qp2->desttxid) == 0 && qp->destvout == qp2->destvout && bits256_cmp(qp->feetxid,qp2->feetxid) == 0 && qp->feevout == qp2->feevout && qp->destsatoshis == qp2->destsatoshis && qp->txfee >= qp2->txfee && qp->desttxfee == qp2->desttxfee ) { if ( strictflag == 0 || (qp->aliceid == qp2->aliceid && qp->R.requestid == qp2->R.requestid && qp->R.quoteid == qp2->R.quoteid && qp->vout == qp2->vout && qp->vout2 == qp2->vout2 && qp->satoshis == qp2->satoshis && bits256_cmp(qp->txid,qp2->txid) == 0 && bits256_cmp(qp->txid2,qp2->txid2) == 0 && bits256_cmp(qp->srchash,qp2->srchash) == 0) ) return(0); else printf("strict compare failure\n"); } return(-1); } void LP_alicequery_clear() { memset(&LP_Alicequery,0,sizeof(LP_Alicequery)); memset(&LP_Alicedestpubkey,0,sizeof(LP_Alicedestpubkey)); LP_Alicemaxprice = 0.; Alice_expiration = 0; } int32_t LP_alice_eligible(uint32_t quotetime) { if ( Alice_expiration != 0 && quotetime > Alice_expiration ) { printf("time expired for Alice_request\n"); LP_alicequery_clear(); } return(Alice_expiration == 0 || time(NULL) < Alice_expiration); } char *LP_connectedalice(struct LP_quoteinfo *qp,char *pairstr) // alice { cJSON *retjson; char otheraddr[64],*msg; double bid,ask,price,qprice; int32_t pairsock = -1; int32_t DEXselector = 0; struct LP_utxoinfo *autxo,A,B,*butxo; struct basilisk_swap *swap; struct iguana_info *coin; if ( bits256_cmp(qp->desthash,G.LP_mypub25519) != 0 ) { LP_aliceid(qp->tradeid,qp->aliceid,"error1",0,0); LP_failedmsg(qp->R.requestid,qp->R.quoteid,-4000); return(clonestr("{\"result\",\"update stats\"}")); } printf("CONNECTED numpending.%d tradeid.%u requestid.%u quoteid.%u pairstr.%s\n",G.LP_pendingswaps,qp->tradeid,qp->R.requestid,qp->R.quoteid,pairstr!=0?pairstr:""); LP_requestinit(&qp->R,qp->srchash,qp->desthash,qp->srccoin,qp->satoshis-qp->txfee,qp->destcoin,qp->destsatoshis-qp->desttxfee,qp->timestamp,qp->quotetime,DEXselector); //printf("calculated requestid.%u quoteid.%u\n",qp->R.requestid,qp->R.quoteid); memset(&LP_Alicereserved,0,sizeof(LP_Alicereserved)); LP_aliceid(qp->tradeid,qp->aliceid,"connected",qp->R.requestid,qp->R.quoteid); autxo = &A; butxo = &B; memset(autxo,0,sizeof(*autxo)); memset(butxo,0,sizeof(*butxo)); LP_abutxo_set(autxo,butxo,qp); if ( (qprice= LP_quote_validate(autxo,butxo,qp,0)) <= SMALLVAL ) { LP_availableset(qp->desttxid,qp->vout); LP_availableset(qp->feetxid,qp->feevout); LP_aliceid(qp->tradeid,qp->aliceid,"error4",0,0); LP_failedmsg(qp->R.requestid,qp->R.quoteid,qprice); printf("quote %s/%s validate error %.0f\n",qp->srccoin,qp->destcoin,qprice); return(clonestr("{\"error\":\"quote validation error\"}")); } if ( LP_myprice(&bid,&ask,qp->srccoin,qp->destcoin) <= SMALLVAL || bid <= SMALLVAL ) { printf("this node has no price for %s/%s (%.8f %.8f)\n",qp->destcoin,qp->srccoin,bid,ask); LP_availableset(qp->desttxid,qp->vout); LP_availableset(qp->feetxid,qp->feevout); LP_aliceid(qp->tradeid,qp->aliceid,"error5",0,0); LP_failedmsg(qp->R.requestid,qp->R.quoteid,-4002); return(clonestr("{\"error\":\"no price set\"}")); } //LP_RTmetrics_update(qp->srccoin,qp->destcoin); printf("%s/%s bid %.8f ask %.8f values %.8f %.8f\n",qp->srccoin,qp->destcoin,bid,ask,dstr(butxo->payment.value),dstr(butxo->deposit.value)); price = bid; if ( (coin= LP_coinfind(qp->destcoin)) == 0 ) { LP_aliceid(qp->tradeid,qp->aliceid,"error6",0,0); LP_failedmsg(qp->R.requestid,qp->R.quoteid,-4003); return(clonestr("{\"error\":\"cant get alicecoin\"}")); } qp->privkey = LP_privkey(coin->symbol,qp->destaddr,coin->taddr); if ( bits256_nonz(qp->privkey) != 0 )//&& qp->quotetime >= qp->timestamp-3 ) { retjson = cJSON_CreateObject(); if ( (swap= LP_swapinit(0,0,qp->privkey,&qp->R,qp,LP_dynamictrust(qp->othercredits,qp->srchash,LP_kmdvalue(qp->srccoin,qp->satoshis)) > 0)) == 0 ) { jaddstr(retjson,"error","couldnt swapinit"); LP_availableset(qp->desttxid,qp->vout); LP_availableset(qp->feetxid,qp->feevout); LP_aliceid(qp->tradeid,qp->aliceid,"error7",qp->R.requestid,qp->R.quoteid); LP_failedmsg(qp->R.requestid,qp->R.quoteid,-4004); return(jprint(retjson,1)); } if ( pairstr == 0 || pairstr[0] == 0 || (pairsock= nn_socket(AF_SP,NN_PAIR)) < 0 ) { LP_aliceid(qp->tradeid,qp->aliceid,"error8",qp->R.requestid,qp->R.quoteid); LP_failedmsg(qp->R.requestid,qp->R.quoteid,-4005); jaddstr(retjson,"error","couldnt create pairsock"); } else if ( nn_connect(pairsock,pairstr) >= 0 ) { //timeout = 1; //nn_setsockopt(pairsock,NN_SOL_SOCKET,NN_SNDTIMEO,&timeout,sizeof(timeout)); //nn_setsockopt(pairsock,NN_SOL_SOCKET,NN_RCVTIMEO,&timeout,sizeof(timeout)); swap->tradeid = qp->tradeid; swap->N.pair = pairsock; //autxo->S.swap = swap; //swap->utxo = autxo; LP_importaddress(qp->srccoin,qp->coinaddr); LP_otheraddress(qp->destcoin,otheraddr,qp->srccoin,qp->coinaddr); LP_importaddress(qp->srccoin,otheraddr); LP_aliceid(qp->tradeid,qp->aliceid,"started",qp->R.requestid,qp->R.quoteid); printf("alice pairstr.(%s) pairsock.%d pthread_t %ld\n",pairstr,pairsock,sizeof(pthread_t)); if ( OS_thread_create(malloc(sizeof(pthread_t)),NULL,(void *)LP_aliceloop,(void *)swap) == 0 ) { retjson = LP_quotejson(qp); jaddstr(retjson,"result","success"); LP_swapsfp_update(qp->R.requestid,qp->R.quoteid); if ( IPC_ENDPOINT >= 0 ) { msg = jprint(retjson,0); LP_queuecommand(0,msg,IPC_ENDPOINT,-1,0); free(msg); } //jaddnum(retjson,"requestid",qp->R.requestid); //jaddnum(retjson,"quoteid",qp->R.quoteid); } else { LP_aliceid(qp->tradeid,qp->aliceid,"error9",qp->R.requestid,qp->R.quoteid); jaddstr(retjson,"error","couldnt aliceloop"); LP_failedmsg(qp->R.requestid,qp->R.quoteid,-4006); } } else { LP_aliceid(qp->tradeid,qp->aliceid,"error10",qp->R.requestid,qp->R.quoteid); printf("connect error %s\n",nn_strerror(nn_errno())); LP_failedmsg(qp->R.requestid,qp->R.quoteid,-4007); } //printf("connected result.(%s)\n",jprint(retjson,0)); if ( jobj(retjson,"error") != 0 ) { LP_availableset(qp->desttxid,qp->vout); LP_availableset(qp->feetxid,qp->feevout); } return(jprint(retjson,1)); } else { LP_availableset(qp->desttxid,qp->vout); LP_availableset(qp->feetxid,qp->feevout); LP_aliceid(qp->tradeid,qp->aliceid,"error11",0,0); printf("no privkey found coin.%s %s taddr.%u\n",qp->destcoin,qp->destaddr,coin->taddr); LP_failedmsg(qp->R.requestid,qp->R.quoteid,-4008); return(clonestr("{\"error\",\"no privkey\"}")); } } int32_t LP_aliceonly(char *symbol) { if ( strcmp(symbol,"GAME") == 0 ) return(1); else return(0); } int32_t LP_validSPV(char *symbol,char *coinaddr,bits256 txid,int32_t vout) { struct electrum_info *ep,*backupep; cJSON *txobj; struct LP_address_utxo *up; struct iguana_info *coin; int32_t height; struct LP_transaction *tx; coin = LP_coinfind(symbol); if ( coin != 0 && (ep= coin->electrum) != 0 ) { if ( (up= LP_address_utxofind(coin,coinaddr,txid,vout)) == 0 ) { if ( (txobj= electrum_transaction(&height,symbol,ep,&txobj,txid,coinaddr)) != 0 ) free_json(txobj); if ( (tx= LP_transactionfind(coin,txid)) != 0 ) { if ( vout < tx->numvouts && tx->height > 0 ) { printf("added missing utxo for SPV checking\n"); LP_address_utxoadd(0,(uint32_t)time(NULL),"LP_validSPV",coin,coinaddr,txid,vout,tx->outpoints[vout].value,tx->height,-1); } } } if ( (up= LP_address_utxofind(coin,coinaddr,txid,vout)) != 0 ) { if ( up->SPV > 0 ) return(0); if ( up->SPV < 0 ) return(-1); if ( (backupep= ep->prev) == 0 ) backupep = ep; up->SPV = LP_merkleproof(coin,coinaddr,backupep,up->U.txid,up->U.height); if ( up->SPV < 0 ) return(-1); } } return(0); } double LP_trades_alicevalidate(void *ctx,struct LP_quoteinfo *qp) { double qprice; struct LP_utxoinfo A,B,*autxo,*butxo; char str[65]; autxo = &A; butxo = &B; memset(autxo,0,sizeof(*autxo)); memset(butxo,0,sizeof(*butxo)); LP_abutxo_set(autxo,butxo,qp); if ( (qprice= LP_quote_validate(autxo,butxo,qp,0)) <= SMALLVAL ) { printf("reserved quote validate error %.0f\n",qprice); return((int32_t)qprice); } if ( LP_validSPV(qp->srccoin,qp->coinaddr,qp->txid,qp->vout) < 0 ) { sleep(1); if ( LP_validSPV(qp->srccoin,qp->coinaddr,qp->txid,qp->vout) < 0 ) { printf("LP_trades_alicevalidate %s src %s failed SPV check\n",qp->srccoin,bits256_str(str,qp->txid)); return(-44); } } else if ( LP_validSPV(qp->srccoin,qp->coinaddr,qp->txid2,qp->vout2) < 0 ) { sleep(1); if ( LP_validSPV(qp->srccoin,qp->coinaddr,qp->txid2,qp->vout2) < 0 ) { printf("LP_trades_alicevalidate %s src2 %s failed SPV check\n",qp->srccoin,bits256_str(str,qp->txid2)); return(-55); } } return(qprice); } void LP_reserved(void *ctx,char *myipaddr,int32_t mypubsock,struct LP_quoteinfo *qp) { double price=0.,maxprice = LP_Alicemaxprice; //if ( LP_quotecmp(0,qp,&LP_Alicequery) == 0 ) { price = LP_pricecache(qp,qp->srccoin,qp->destcoin,qp->txid,qp->vout); if ( LP_pricevalid(price) > 0 && maxprice > SMALLVAL && price <= maxprice ) { qp->tradeid = LP_Alicequery.tradeid; LP_Alicereserved = *qp; LP_alicequery_clear(); //printf("send CONNECT\n"); LP_query(ctx,myipaddr,mypubsock,"connect",qp); } else printf("LP_reserved %llu price %.8f vs maxprice %.8f\n",(long long)qp->aliceid,price,maxprice); } //else printf("probably a timeout, reject reserved due to not eligible.%d or mismatched quote price %.8f vs maxprice %.8f\n",LP_alice_eligible(qp->quotetime),price,maxprice); } double LP_trades_bobprice(double *bidp,double *askp,struct LP_quoteinfo *qp) { double price; struct iguana_info *coin; char str[65]; price = LP_myprice(bidp,askp,qp->srccoin,qp->destcoin); if ( (coin= LP_coinfind(qp->srccoin)) == 0 || price <= SMALLVAL || *askp <= SMALLVAL ) { //printf("this node has no price for %s/%s\n",qp->srccoin,qp->destcoin); return(0.); } price = *askp; //printf("MYPRICE %s/%s %.8f vs qprice %.8f\n",qp->srccoin,qp->destcoin,price,(double)qp->destsatoshis/qp->satoshis); if ( LP_validSPV(qp->destcoin,qp->destaddr,qp->desttxid,qp->destvout) < 0 ) { printf("LP_trades_bobprice %s dest %s failed SPV check\n",qp->destcoin,bits256_str(str,qp->desttxid)); return(0.); } else if (LP_validSPV(qp->destcoin,qp->destaddr,qp->feetxid,qp->feevout) < 0 ) { printf("LP_trades_bobprice %s dexfee %s failed SPV check\n",qp->destcoin,bits256_str(str,qp->feetxid)); return(0.); } return(*askp); } double LP_trades_pricevalidate(struct LP_quoteinfo *qp,struct iguana_info *coin,double price) { double qprice; struct LP_utxoinfo A,B,*autxo,*butxo; autxo = &A; butxo = &B; memset(autxo,0,sizeof(*autxo)); memset(butxo,0,sizeof(*butxo)); LP_abutxo_set(autxo,butxo,qp); if ( coin->etomic[0] == 0 && strcmp(qp->coinaddr,coin->smartaddr) != 0 ) { printf("bob is patching qp->coinaddr %s mismatch != %s\n",qp->coinaddr,coin->smartaddr); strcpy(qp->coinaddr,coin->smartaddr); } if ( butxo == 0 || bits256_nonz(butxo->payment.txid) == 0 || bits256_nonz(butxo->deposit.txid) == 0 || butxo->payment.vout < 0 || butxo->deposit.vout < 0 ) { char str[65],str2[65]; printf("couldnt find bob utxos for autxo %s/v%d %s/v%d %.8f -> %.8f\n",bits256_str(str,qp->txid),qp->vout,bits256_str(str2,qp->txid2),qp->vout2,dstr(qp->satoshis),dstr(qp->destsatoshis)); return(-66); } if ( (qprice= LP_quote_validate(autxo,butxo,qp,1)) <= SMALLVAL ) { printf("quote %s/%s validate error %.0f\n",qp->srccoin,qp->destcoin,qprice); return(-3); } if ( qprice < (price - 0.00000001) * 0.998 ) { printf(" quote price %.8f (%llu/%llu %.8f) too low vs %.8f for %s/%s price %.8f %.8f\n",qprice,(long long)qp->destsatoshis,(long long)(qp->satoshis-qp->txfee),(double)qp->destsatoshis/(qp->satoshis-qp->txfee),price,qp->srccoin,qp->destcoin,price,(price - 0.00000001) * 0.998); return(-77); } return(qprice); } struct LP_quoteinfo *LP_trades_gotrequest(void *ctx,struct LP_quoteinfo *qp,struct LP_quoteinfo *newqp,char *pairstr) { double price=0.,p=0.,qprice,myprice,bestprice,range,bid,ask; struct iguana_info *coin,*othercoin; struct LP_utxoinfo A,B,*autxo,*butxo; cJSON *reqjson; char str[65]; struct LP_address_utxo *utxos[4096]; int32_t i,r,counter,max = (int32_t)(sizeof(utxos)/sizeof(*utxos)); *newqp = *qp; qp = newqp; //printf("bob %s received REQUEST.(%llu)\n",bits256_str(str,G.LP_mypub25519),(long long)qp->aliceid); if ( (coin= LP_coinfind(qp->srccoin)) == 0 || (othercoin= LP_coinfind(qp->destcoin)) == 0 ) return(0); if ( (myprice= LP_trades_bobprice(&bid,&ask,qp)) == 0. ) { printf("myprice %.8f bid %.8f ask %.8f\n",myprice,bid,ask); return(0); } autxo = &A; butxo = &B; memset(autxo,0,sizeof(*autxo)); memset(butxo,0,sizeof(*butxo)); LP_abutxo_set(autxo,butxo,qp); strcpy(qp->coinaddr,coin->smartaddr); if ( bits256_nonz(qp->srchash) == 0 || bits256_cmp(qp->srchash,G.LP_mypub25519) == 0 ) { qprice = (double)qp->destsatoshis / (qp->satoshis - qp->txfee); strcpy(qp->gui,G.gui); if ( coin->etomic[0] != 0 ) strcpy(qp->etomicsrc,coin->smartaddr); else if ( othercoin->etomic[0] != 0 ) strcpy(qp->etomicsrc,othercoin->smartaddr); if ( coin->etomic[0] != 0 )//|| othercoin->etomic[0] != 0 ) { struct iguana_info *ecoin; if ( (ecoin= LP_coinfind("ETOMIC")) != 0 ) strcpy(qp->coinaddr,ecoin->smartaddr); else { printf("ETOMIC coin not found\n"); return(0); } } strcpy(butxo->coinaddr,qp->coinaddr); qp->srchash = G.LP_mypub25519; memset(&qp->txid,0,sizeof(qp->txid)); memset(&qp->txid2,0,sizeof(qp->txid2)); qp->vout = qp->vout2 = -1; } else return(0); if ( qprice >= myprice ) { r = (LP_rand() % 90) + 10; range = (qprice - myprice); price = myprice + ((r * range) / 100.); bestprice = LP_bob_competition(&counter,qp->aliceid,price,0); printf("%llu >>>>>>> myprice %.8f qprice %.8f r.%d range %.8f -> %.8f, bestprice %.8f counter.%d\n",(long long)qp->aliceid,myprice,qprice,r,range,price,bestprice,counter); if ( counter > 3 && price > bestprice+SMALLVAL ) // skip if late or bad price return(0); } else { //printf("ignore as qprice %.8f vs myprice %.8f\n",qprice,myprice); return(0); } //LP_RTmetrics_update(qp->srccoin,qp->destcoin); if ( LP_RTmetrics_blacklisted(qp->desthash) >= 0 ) { printf("request from blacklisted %s, ignore\n",bits256_str(str,qp->desthash)); return(0); } //printf("LP_address_utxo_reset.%s\n",coin->symbol); //LP_address_utxo_reset(coin); //printf("done LP_address_utxo_reset.%s\n",coin->symbol); if ( coin->etomic[0] != 0 ) strcpy(qp->etomicsrc,coin->smartaddr); else if ( othercoin->etomic[0] != 0 ) strcpy(qp->etomicsrc,othercoin->smartaddr); if ( coin->etomic[0] != 0 )//|| othercoin->etomic[0] != 0 ) { struct iguana_info *ecoin; if ( (ecoin= LP_coinfind("ETOMIC")) != 0 ) strcpy(qp->coinaddr,ecoin->smartaddr); else { printf("ETOMIC coin not found\n"); return(0); } } i = 0; while ( i < 33 && price >= myprice ) { if ( (butxo= LP_address_myutxopair(butxo,1,utxos,max,LP_coinfind(qp->srccoin),qp->coinaddr,qp->txfee,dstr(qp->destsatoshis),price,qp->desttxfee)) != 0 ) { strcpy(qp->gui,G.gui); strcpy(qp->coinaddr,coin->smartaddr); qp->srchash = G.LP_mypub25519; qp->txid = butxo->payment.txid; qp->vout = butxo->payment.vout; qp->txid2 = butxo->deposit.txid; qp->vout2 = butxo->deposit.vout; qp->satoshis = butxo->swap_satoshis;// + qp->txfee; qp->quotetime = (uint32_t)time(NULL); } else { printf("i.%d cant find utxopair aliceid.%llu %s/%s %.8f -> relvol %.8f\n",i,(long long)qp->aliceid,qp->srccoin,qp->destcoin,dstr(LP_basesatoshis(dstr(qp->destsatoshis),price,qp->txfee,qp->desttxfee)),dstr(qp->destsatoshis)); return(0); } if ( qp->satoshis <= qp->txfee ) return(0); p = (double)qp->destsatoshis / (qp->satoshis - qp->txfee); if ( LP_trades_pricevalidate(qp,coin,p) < 0. ) return(0); if ( i == 0 && p < myprice ) { price = qprice; printf("reset price <- qprice %.8f\n",qprice); } else { if ( qprice >= p ) break; price *= 0.995; } i++; } printf("i.%d qprice %.8f myprice %.8f price %.8f [%.8f]\n",i,qprice,myprice,price,p); if ( LP_allocated(qp->txid,qp->vout) == 0 && LP_allocated(qp->txid2,qp->vout2) == 0 ) { //printf("found unallocated txids\n"); reqjson = LP_quotejson(qp); LP_unavailableset(qp->txid,qp->vout,qp->timestamp + LP_RESERVETIME,qp->desthash); LP_unavailableset(qp->txid2,qp->vout2,qp->timestamp + LP_RESERVETIME,qp->desthash); if ( qp->quotetime == 0 ) qp->quotetime = (uint32_t)time(NULL); jaddnum(reqjson,"quotetime",qp->quotetime); jaddnum(reqjson,"pending",qp->timestamp + LP_RESERVETIME); jaddstr(reqjson,"method","reserved"); LP_reserved_msg(1,qp->srccoin,qp->destcoin,qp->desthash,jprint(reqjson,0)); bits256 zero; memset(zero.bytes,0,sizeof(zero)); LP_reserved_msg(1,qp->srccoin,qp->destcoin,zero,jprint(reqjson,0)); free_json(reqjson); //printf("Send RESERVED id.%llu\n",(long long)qp->aliceid); return(qp); } else printf("request processing selected ineligible utxos?\n"); return(0); } struct LP_quoteinfo *LP_trades_gotreserved(void *ctx,struct LP_quoteinfo *qp,struct LP_quoteinfo *newqp) { char *retstr; double qprice; char str[65]; printf("alice %s received RESERVED.(%llu) %.8f\n",bits256_str(str,G.LP_mypub25519),(long long)qp->aliceid,(double)qp->destsatoshis/(qp->satoshis+1)); *newqp = *qp; qp = newqp; if ( (qprice= LP_trades_alicevalidate(ctx,qp)) > 0. ) { //printf("got qprice %.8f\n",qprice); LP_aliceid(qp->tradeid,qp->aliceid,"reserved",0,0); if ( (retstr= LP_quotereceived(qp)) != 0 ) free(retstr); return(qp); } else LP_failedmsg(qp->R.requestid,qp->R.quoteid,qprice); return(0); } struct LP_quoteinfo *LP_trades_gotconnect(void *ctx,struct LP_quoteinfo *qp,struct LP_quoteinfo *newqp,char *pairstr) { double myprice,qprice,bid,ask; struct iguana_info *coin; *newqp = *qp; qp = newqp; if ( (coin= LP_coinfind(qp->srccoin)) == 0 ) return(0); if ( (myprice= LP_trades_bobprice(&bid,&ask,qp)) == 0. ) return(0); if ( (qprice= LP_trades_pricevalidate(qp,coin,myprice)) < 0. ) return(0); if ( LP_reservation_check(qp->txid,qp->vout,qp->desthash) == 0 && LP_reservation_check(qp->txid2,qp->vout2,qp->desthash) == 0 ) { char str[65]; printf("bob %s received CONNECT.(%llu)\n",bits256_str(str,G.LP_mypub25519),(long long)qp->aliceid); LP_connectstartbob(ctx,LP_mypubsock,qp->srccoin,qp->destcoin,qprice,qp); return(qp); } else { LP_failedmsg(qp->R.requestid,qp->R.quoteid,-1); printf("connect message from non-reserved (%llu)\n",(long long)qp->aliceid); } return(0); } struct LP_quoteinfo *LP_trades_gotconnected(void *ctx,struct LP_quoteinfo *qp,struct LP_quoteinfo *newqp,char *pairstr) { char *retstr; int32_t changed; double val; //char str[65]; printf("alice %s received CONNECTED.(%llu)\n",bits256_str(str,G.LP_mypub25519),(long long)qp->aliceid); *newqp = *qp; qp = newqp; if ( (val= LP_trades_alicevalidate(ctx,qp)) > 0. ) { printf("CONNECTED ALICE\n"); LP_aliceid(qp->tradeid,qp->aliceid,"connected",0,0); if ( (retstr= LP_connectedalice(qp,pairstr)) != 0 ) free(retstr); LP_mypriceset(&changed,qp->destcoin,qp->srccoin,0.); LP_alicequery_clear(); return(qp); } else LP_failedmsg(qp->R.requestid,qp->R.quoteid,val); //printf("LP_trades_alicevalidate error\n"); return(0); } int32_t LP_trades_bestpricecheck(void *ctx,struct LP_trade *tp) { double qprice; int32_t flag = 0; struct LP_quoteinfo Q; int64_t dynamictrust; char *retstr; struct LP_pubkey_info *pubp; Q = tp->Q; //printf("check bestprice %.8f vs new price %.8f\n",tp->bestprice,(double)Q.destsatoshis/Q.satoshis); if ( Q.satoshis != 0 && (pubp= LP_pubkeyadd(Q.srchash)) != 0 )//(qprice= LP_trades_alicevalidate(ctx,&Q)) > 0. ) { qprice = (double)Q.destsatoshis / (Q.satoshis - Q.txfee); LP_aliceid(Q.tradeid,tp->aliceid,"reserved",0,0); if ( (retstr= LP_quotereceived(&Q)) != 0 ) free(retstr); //LP_trades_gotreserved(ctx,&Q,&tp->Qs[LP_RESERVED]); dynamictrust = LP_dynamictrust(Q.othercredits,Q.srchash,LP_kmdvalue(Q.srccoin,Q.satoshis)); if ( tp->bestprice == 0. ) flag = 1; else if ( qprice < tp->bestprice && pubp->slowresponse <= tp->bestresponse*1.05 ) flag = 1; else if ( qprice < tp->bestprice*1.01 && dynamictrust > tp->besttrust && pubp->slowresponse <= tp->bestresponse*1.1 ) flag = 1; else if ( qprice <= tp->bestprice && pubp->unconfcredits > tp->bestunconfcredits && pubp->slowresponse <= tp->bestresponse ) flag = 1; if ( flag != 0 ) { tp->Qs[LP_CONNECT] = tp->Q; tp->bestprice = qprice; tp->besttrust = dynamictrust; tp->bestunconfcredits = pubp->unconfcredits; tp->bestresponse = pubp->slowresponse; printf("aliceid.%llu got new bestprice %.8f dynamictrust %.8f (unconf %.8f) slowresponse.%d\n",(long long)tp->aliceid,tp->bestprice,dstr(dynamictrust),dstr(tp->bestunconfcredits),tp->bestresponse); return(qprice); } //else printf("qprice %.8f dynamictrust %.8f not good enough\n",qprice,dstr(dynamictrust)); } else printf("alice didnt validate\n"); return(0); } void LP_tradesloop(void *ctx) { struct LP_trade *qtp,*tp,*tmp; struct LP_quoteinfo *qp,Q; uint32_t now; int32_t timeout,funcid,flag,nonz; struct iguana_info *coin; struct LP_pubkey_info *pubp; strcpy(LP_tradesloop_stats.name,"LP_tradesloop"); LP_tradesloop_stats.threshold = 30000; sleep(5); while ( LP_STOP_RECEIVED == 0 ) { LP_millistats_update(&LP_tradesloop_stats); nonz = 0; HASH_ITER(hh,LP_trades,tp,tmp) { if ( tp->negotiationdone != 0 ) continue; timeout = LP_AUTOTRADE_TIMEOUT; if ( (coin= LP_coinfind(tp->Q.srccoin)) != 0 && coin->electrum != 0 ) timeout += LP_AUTOTRADE_TIMEOUT * .5; if ( (coin= LP_coinfind(tp->Q.destcoin)) != 0 && coin->electrum != 0 ) timeout += LP_AUTOTRADE_TIMEOUT * .5; now = (uint32_t)time(NULL); if ( now > tp->lastprocessed ) { if ( tp->iambob == 0 ) { if ( tp->bestprice > 0. ) { if ( tp->connectsent == 0 ) { LP_Alicemaxprice = tp->bestprice; LP_reserved(ctx,LP_myipaddr,LP_mypubsock,&tp->Qs[LP_CONNECT]); // send LP_CONNECT tp->connectsent = now; //printf("send LP_connect aliceid.%llu %.8f\n",(long long)tp->aliceid,tp->bestprice); } else if ( now < tp->firstprocessed+timeout && ((tp->firstprocessed - now) % 20) == 19 ) { //LP_Alicemaxprice = tp->bestprice; //LP_reserved(ctx,LP_myipaddr,LP_mypubsock,&tp->Qs[LP_CONNECT]); // send LP_CONNECT //printf("mark slow LP_connect aliceid.%llu %.8f\n",(long long)tp->aliceid,tp->bestprice); if ( (pubp= LP_pubkeyfind(tp->Qs[LP_CONNECT].srchash)) != 0 ) pubp->slowresponse++; } } } } } now = (uint32_t)time(NULL); HASH_ITER(hh,LP_trades,tp,tmp) { timeout = LP_AUTOTRADE_TIMEOUT; if ( (coin= LP_coinfind(tp->Q.srccoin)) != 0 && coin->electrum != 0 ) timeout += LP_AUTOTRADE_TIMEOUT * .5; if ( (coin= LP_coinfind(tp->Q.destcoin)) != 0 && coin->electrum != 0 ) timeout += LP_AUTOTRADE_TIMEOUT * .5; if ( now > tp->firstprocessed+timeout*10 ) { //printf("purge swap aliceid.%llu\n",(long long)tp->aliceid); portable_mutex_lock(&LP_tradesmutex); HASH_DELETE(hh,LP_trades,tp); portable_mutex_unlock(&LP_tradesmutex); free(tp); } } DL_FOREACH_SAFE(LP_tradesQ,qtp,tmp) { now = (uint32_t)time(NULL); Q = qtp->Q; funcid = qtp->funcid; //printf("dequeue %p funcid.%d aliceid.%llu iambob.%d\n",qtp,funcid,(long long)qtp->aliceid,qtp->iambob); portable_mutex_lock(&LP_tradesmutex); DL_DELETE(LP_tradesQ,qtp); HASH_FIND(hh,LP_trades,&qtp->aliceid,sizeof(qtp->aliceid),tp); if ( tp == 0 ) { if ( now > Q.timestamp+LP_AUTOTRADE_TIMEOUT*2 ) // eat expired free(qtp); else { tp = qtp; HASH_ADD(hh,LP_trades,aliceid,sizeof(tp->aliceid),tp); portable_mutex_unlock(&LP_tradesmutex); if ( tp->iambob != 0 && funcid == LP_REQUEST ) // bob maybe sends LP_RESERVED { if ( (qp= LP_trades_gotrequest(ctx,&Q,&tp->Qs[LP_REQUEST],tp->pairstr)) != 0 ) tp->Qs[LP_RESERVED] = Q; } else if ( tp->iambob == 0 && funcid == LP_RESERVED ) // alice maybe sends LP_CONNECT { LP_trades_bestpricecheck(ctx,tp); } else if ( tp->iambob == 0 && funcid == LP_CONNECTED ) { tp->negotiationdone = now; //printf("alice sets negotiationdone.%u\n",now); LP_trades_gotconnected(ctx,&tp->Q,&tp->Qs[LP_CONNECTED],tp->pairstr); } nonz++; tp->firstprocessed = tp->lastprocessed = (uint32_t)time(NULL); if ( funcid == LP_CONNECT && tp->negotiationdone == 0 ) // bob all done { tp->negotiationdone = now; //printf("bob sets negotiationdone.%u\n",now); LP_trades_gotconnect(ctx,&tp->Q,&tp->Qs[LP_CONNECT],tp->pairstr); } } continue; } portable_mutex_unlock(&LP_tradesmutex); tp->Q = qtp->Q; if ( qtp->iambob == tp->iambob && qtp->pairstr[0] != 0 ) safecopy(tp->pairstr,qtp->pairstr,sizeof(tp->pairstr)); //printf("finished dequeue %p funcid.%d aliceid.%llu iambob.%d/%d done.%u\n",qtp,funcid,(long long)qtp->aliceid,qtp->iambob,tp->iambob,tp->negotiationdone); free(qtp); flag = 0; if ( tp->iambob == 0 ) { if ( funcid == LP_RESERVED ) { if ( tp->connectsent == 0 ) flag = LP_trades_bestpricecheck(ctx,tp); } else if ( funcid == LP_CONNECTED && tp->negotiationdone == 0 ) // alice all done tp->connectsent != 0 && { flag = 1; tp->negotiationdone = now; LP_trades_gotconnected(ctx,&tp->Q,&tp->Qs[LP_CONNECTED],tp->pairstr); } } else { if ( funcid == LP_REQUEST ) // bob maybe sends LP_RESERVED { if ( (qp= LP_trades_gotrequest(ctx,&Q,&tp->Qs[LP_REQUEST],tp->pairstr)) != 0 ) { tp->Qs[LP_RESERVED] = Q; flag = 1; } } else if ( funcid == LP_CONNECT && tp->negotiationdone == 0 ) // bob all done { flag = 1; tp->negotiationdone = now; //printf("bob sets negotiationdone.%u\n",now); LP_trades_gotconnect(ctx,&tp->Q,&tp->Qs[LP_CONNECT],tp->pairstr); } } if ( flag != 0 ) { tp->lastprocessed = (uint32_t)time(NULL); nonz++; } } if ( nonz == 0 ) sleep(1); } } void LP_tradecommandQ(struct LP_quoteinfo *qp,char *pairstr,int32_t funcid) { struct LP_trade *qtp; uint64_t aliceid; int32_t iambob; if ( funcid < 0 || funcid >= sizeof(qtp->Qs)/sizeof(*qtp->Qs) ) return; if ( funcid == LP_REQUEST || funcid == LP_CONNECT ) iambob = 1; else iambob = 0; aliceid = qp->aliceid; portable_mutex_lock(&LP_tradesmutex); qtp = calloc(1,sizeof(*qtp)); qtp->funcid = funcid; qtp->iambob = iambob; qtp->aliceid = aliceid; qtp->newtime = (uint32_t)time(NULL); qtp->Q = *qp; if ( pairstr != 0 ) safecopy(qtp->pairstr,pairstr,sizeof(qtp->pairstr)); DL_APPEND(LP_tradesQ,qtp); portable_mutex_unlock(&LP_tradesmutex); //printf("queue.%d %p\n",funcid,qtp); } int32_t LP_tradecommand(void *ctx,char *myipaddr,int32_t pubsock,cJSON *argjson,uint8_t *data,int32_t datalen) { int32_t Qtrades = 1; char *method,str[65]; int32_t i,num,DEXselector = 0; uint64_t aliceid; double qprice,bestprice,price,bid,ask; cJSON *proof; uint64_t rq; struct iguana_info *coin; struct LP_quoteinfo Q,Q2; int32_t counter,retval=-1; if ( (method= jstr(argjson,"method")) != 0 && (strcmp(method,"reserved") == 0 ||strcmp(method,"connected") == 0 || strcmp(method,"request") == 0 || strcmp(method,"connect") == 0) ) { if ( LP_quoteparse(&Q,argjson) < 0 ) { printf("ERROR parsing.(%s)\n",jprint(argjson,0)); return(1); } if ( Q.satoshis < Q.txfee ) return(1); LP_requestinit(&Q.R,Q.srchash,Q.desthash,Q.srccoin,Q.satoshis-Q.txfee,Q.destcoin,Q.destsatoshis-Q.desttxfee,Q.timestamp,Q.quotetime,DEXselector); rq = ((uint64_t)Q.R.requestid << 32) | Q.R.quoteid; if ( Q.timestamp > 0 && time(NULL) > Q.timestamp + LP_AUTOTRADE_TIMEOUT*20 ) // eat expired packets, some old timestamps floating about? { printf("aliceid.%llu is expired by %d\n",(long long)Q.aliceid,(uint32_t)time(NULL) - (Q.timestamp + LP_AUTOTRADE_TIMEOUT*20)); return(1); } LP_tradecommand_log(argjson); qprice = (double)Q.destsatoshis / (Q.satoshis - Q.txfee); //jdouble(argjson,"price"); //printf("%s\n",jprint(argjson,0)); printf("%-4d (%-10u %10u) %12s id.%-20llu %5s/%-5s %12.8f -> %12.8f (%11.8f) | RT.%d %d n%d\n",(uint32_t)time(NULL) % 3600,Q.R.requestid,Q.R.quoteid,method,(long long)Q.aliceid,Q.srccoin,Q.destcoin,dstr(Q.satoshis),dstr(Q.destsatoshis),qprice,LP_RTcount,LP_swapscount,G.netid); retval = 1; aliceid = j64bits(argjson,"aliceid"); if ( strcmp(method,"reserved") == 0 ) { bestprice = LP_bob_competition(&counter,aliceid,qprice,1); //printf("%s lag %ld: aliceid.%llu price %.8f -> bestprice %.8f Alice max %.8f\n",jprint(argjson,0),Q.quotetime - (time(NULL)-20),(long long)aliceid,qprice,bestprice,LP_Alicemaxprice); if ( 1 ) { if ( LP_Alicemaxprice == 0. ) return(retval); if ( bits256_nonz(LP_Alicedestpubkey) != 0 ) { if (bits256_cmp(LP_Alicedestpubkey,Q.srchash) != 0 ) { printf("got reserved response from different node %s\n",bits256_str(str,Q.srchash)); return(retval); } else printf("got reserved response from destpubkey %s\n",bits256_str(str,Q.srchash)); } } if ( bits256_cmp(G.LP_mypub25519,Q.desthash) == 0 && bits256_cmp(G.LP_mypub25519,Q.srchash) != 0 ) // alice { if ( Qtrades == 0 ) { if ( Q.quotetime > time(NULL)-20 && LP_alice_eligible(Q.quotetime) > 0 ) { LP_trades_gotreserved(ctx,&Q,&Q2); if ( LP_quotecmp(0,&Q,&LP_Alicequery) == 0 ) LP_reserved(ctx,LP_myipaddr,LP_mypubsock,&Q); } } else LP_tradecommandQ(&Q,jstr(argjson,"pair"),LP_RESERVED); } } else if ( strcmp(method,"connected") == 0 ) { bestprice = LP_bob_competition(&counter,aliceid,qprice,1000); if ( bits256_cmp(G.LP_mypub25519,Q.desthash) == 0 && bits256_cmp(G.LP_mypub25519,Q.srchash) != 0 ) // alice { static uint64_t rqs[1024]; for (i=0; i 0 ) Q.othercredits = LP_instantdex_proofcheck(Q.srccoin,Q.coinaddr,proof,num); if ( Qtrades == 0 ) LP_trades_gotconnected(ctx,&Q,&Q2,jstr(argjson,"pair")); else LP_tradecommandQ(&Q,jstr(argjson,"pair"),LP_CONNECTED); } } price = LP_myprice(&bid,&ask,Q.srccoin,Q.destcoin); if ( (coin= LP_coinfind(Q.srccoin)) == 0 || coin->inactive != 0 ) { //printf("%s is not active\n",Q.srccoin); return(retval); } if ( price <= SMALLVAL || ask <= SMALLVAL ) { //printf("this node has no price for %s/%s\n",Q.srccoin,Q.destcoin); return(retval); } if ( LP_aliceonly(Q.srccoin) > 0 ) { printf("{\"error\":\"GAME can only be alice coin\"}\n"); return(retval); } if ( strcmp(method,"request") == 0 ) // bob { //if ( LP_Alicemaxprice != 0. ) // return(retval); bestprice = LP_bob_competition(&counter,aliceid,qprice,-1); if ( Qtrades == 0 )//|| (bits256_cmp(Q.srchash,G.LP_mypub25519) == 0 && bits256_cmp(G.LP_mypub25519,Q.desthash) != 0) ) LP_trades_gotrequest(ctx,&Q,&Q2,jstr(argjson,"pair")); else LP_tradecommandQ(&Q,jstr(argjson,"pair"),LP_REQUEST); } else if ( strcmp(method,"connect") == 0 ) { LP_bob_competition(&counter,aliceid,qprice,1000); if ( bits256_cmp(G.LP_mypub25519,Q.srchash) == 0 && bits256_cmp(G.LP_mypub25519,Q.desthash) != 0 ) // bob { static uint64_t rqs[1024]; for (i=0; i 0 ) Q.othercredits = LP_instantdex_proofcheck(Q.destcoin,Q.destaddr,proof,num); if ( Qtrades == 0 ) LP_trades_gotconnect(ctx,&Q,&Q2,jstr(argjson,"pair")); else LP_tradecommandQ(&Q,jstr(argjson,"pair"),LP_CONNECT); } } return(retval); } return(retval); } char *LP_autobuy(void *ctx,int32_t fomoflag,char *myipaddr,int32_t mypubsock,char *base,char *rel,double maxprice,double relvolume,int32_t timeout,int32_t duration,char *gui,uint32_t nonce,bits256 destpubkey,uint32_t tradeid) { uint64_t desttxfee,txfee,balance; uint32_t lastnonce; int64_t bestsatoshis=0,destsatoshis; struct iguana_info *basecoin,*relcoin; struct LP_utxoinfo *autxo,B,A; struct LP_quoteinfo Q; bits256 pubkeys[100]; struct LP_address_utxo *utxos[4096]; int32_t num=0,maxiters=100,i,max=(int32_t)(sizeof(utxos)/sizeof(*utxos)); char _uuidstr[65],*uuidstr; basecoin = LP_coinfind(base); relcoin = LP_coinfind(rel); if ( gui == 0 ) gui = "nogui"; if ( basecoin == 0 || basecoin->inactive != 0 || relcoin == 0 || relcoin->inactive != 0 ) return(clonestr("{\"error\":\"base or rel not found or inactive\"}")); if ( LP_aliceonly(base) > 0 ) return(clonestr("{\"error\":\"GAME can only be alice coin\"}")); printf("LP_autobuy %s/%s price %.8f vol %.8f nonce %u\n",base,rel,maxprice,relvolume,nonce); if ( (lastnonce= LP_lastnonce) != 0 && nonce <= lastnonce ) { printf("nonce.%u not bigger than lastnonce.%u\n",nonce,lastnonce); return(clonestr("{\"error\":\"invalid nonce\"}")); } LP_lastnonce = nonce; if ( duration <= 0 ) duration = LP_ORDERBOOK_DURATION; if ( timeout <= 0 ) timeout = LP_AUTOTRADE_TIMEOUT; if ( basecoin->electrum != 0 && relcoin->electrum != 0 ) { if ( timeout < 2*LP_AUTOTRADE_TIMEOUT ) timeout = 2*LP_AUTOTRADE_TIMEOUT; } else if ( basecoin->electrum != 0 || relcoin->electrum != 0 ) { if ( timeout < 1.5*LP_AUTOTRADE_TIMEOUT ) timeout = 1.5*LP_AUTOTRADE_TIMEOUT; } if ( time(NULL) < Alice_expiration ) { cJSON *retjson = cJSON_CreateObject(); jaddstr(retjson,"error","only one pending request at a time"); jaddnum(retjson,"wait",Alice_expiration-time(NULL)); return(jprint(retjson,1)); } else LP_alicequery_clear(); if ( relcoin->etomic[0] != 0 ) LP_address_utxo_reset(&num,LP_coinfind("ETOMIC")); else { LP_address_utxo_reset(&num,relcoin); if ( num <= 1 ) { if ( time(NULL) > relcoin->lastautosplit+300 ) { relcoin->lastautosplit = (uint32_t)time(NULL); return(LP_autosplit(relcoin)); } return(clonestr("{\"error\":\"not enough utxo, please make more deposits\"}")); } } LP_txfees(&txfee,&desttxfee,base,rel); if ( txfee != 0 && txfee < 10000 ) txfee = 10000; if ( desttxfee != 0 && desttxfee < 10000 ) desttxfee = 10000; if ( fomoflag != 0 ) { uint64_t median,minutxo,maxutxo; maxprice = 0.; // fomo -> price is 1. and needs to be set LP_address_minmax(0,&median,&minutxo,&maxutxo,relcoin,relcoin->smartaddr); // limit to largest utxo if ( maxutxo > 0 ) { relvolume = MIN(relvolume,dstr(maxutxo) - dstr(desttxfee)*3); printf("maxutxo %.8f relvolume %.8f desttxfee %.8f\n",dstr(maxutxo),relvolume,dstr(desttxfee)); maxprice = LP_fomoprice(base,rel,&relvolume); printf("fomoprice %.8f relvolume %.8f\n",maxprice,relvolume); if ( maxprice == 0. ) return(clonestr("{\"error\":\"no orderbook entry found to handle request\"}")); } else printf("no utxo available\n"); } if ( maxprice <= 0. || relvolume <= 0. || LP_priceinfofind(base) == 0 || LP_priceinfofind(rel) == 0 ) return(clonestr("{\"error\":\"invalid parameter\"}")); if ( strcmp("BTC",rel) == 0 ) maxprice *= 1.01; else maxprice *= 1.001; memset(pubkeys,0,sizeof(pubkeys)); destsatoshis = SATOSHIDEN * relvolume + 2*desttxfee; autxo = 0; for (i=0; ismartaddr,txfee,dstr(destsatoshis),maxprice,desttxfee)) != 0 ) break; destsatoshis *= 0.98; if ( destsatoshis < desttxfee*LP_MINSIZE_TXFEEMULT ) break; } if ( destsatoshis < desttxfee*LP_MINSIZE_TXFEEMULT || i == maxiters ) { return(clonestr("{\"error\":\"cant find a deposit that is close enough in size. make another deposit that is just a bit larger than what you want to trade\"}")); } printf("bestfit.[%d] selected alice (%.8f %.8f) for %.8f sats %.8f\n",i,dstr(autxo->payment.value),dstr(autxo->fee.value),dstr(destsatoshis),dstr(autxo->swap_satoshis)); if ( destsatoshis - desttxfee < autxo->swap_satoshis ) { destsatoshis -= desttxfee; autxo->swap_satoshis = destsatoshis; //printf("first path dest %.8f from %.8f\n",dstr(destsatoshis),dstr(autxo->swap_satoshis)); } else if ( autxo->swap_satoshis - desttxfee < destsatoshis ) { autxo->swap_satoshis -= desttxfee; destsatoshis = autxo->swap_satoshis; printf("second path dest %.8f from %.8f\n",dstr(destsatoshis),dstr(autxo->swap_satoshis)); } if ( destsatoshis < (autxo->payment.value / LP_MINCLIENTVOL) || autxo->payment.value < desttxfee*LP_MINSIZE_TXFEEMULT ) { printf("destsatoshis %.8f vs utxo %.8f this would have triggered an quote error -13\n",dstr(destsatoshis),dstr(autxo->payment.value)); return(clonestr("{\"error\":\"cant find a deposit that is close enough in size. make another deposit that is a bit larger than what you want to trade\"}")); } bestsatoshis = 1.001 * LP_basesatoshis(dstr(destsatoshis),maxprice,txfee,desttxfee); memset(&B,0,sizeof(B)); strcpy(B.coin,base); if ( LP_quoteinfoinit(&Q,&B,rel,maxprice,bestsatoshis,destsatoshis) < 0 ) return(clonestr("{\"error\":\"cant set ordermatch quote\"}")); if ( LP_quotedestinfo(&Q,autxo->payment.txid,autxo->payment.vout,autxo->fee.txid,autxo->fee.vout,G.LP_mypub25519,autxo->coinaddr) < 0 ) return(clonestr("{\"error\":\"cant set ordermatch quote info\"}")); if ( relcoin->etomic[0] != 0 || basecoin->etomic[0] != 0 ) { struct iguana_info *coin; if ( relcoin->etomic[0] != 0 ) strcpy(Q.etomicdest,relcoin->smartaddr); else if (basecoin->etomic[0] != 0 ) { strcpy(Q.etomicdest,basecoin->smartaddr); printf("Q.etomicdest (%s)\n",Q.etomicdest); } if ( relcoin->etomic[0] != 0 ) { if ((coin= LP_coinfind("ETOMIC")) != 0 ) strcpy(Q.destaddr,coin->smartaddr); else return(clonestr("{\"error\":\"cant find ETOMIC\"}")); } } int32_t changed; LP_mypriceset(&changed,rel,base,1. / maxprice); LP_mypriceset(&changed,base,rel,0.); if ( (uuidstr= jstr(argjson,"uuid")) == 0 ) { uint8_t uuidhash[256]; bits256 hash; uint64_t millis; int32_t len = 0; memcpy(uuidhash,&G.LP_mypub25519,sizeof(bits256)), len += sizeof(bits256); millis = OS_milliseconds(); memcpy(&uuidhash[len],&millis,sizeof(millis)), len += sizeof(millis); memcpy(&uuidhash[len],base,(int32_t)strlen(base)), len += (int32_t)strlen(base); memcpy(&uuidhash[len],rel,(int32_t)strlen(rel)), len += (int32_t)strlen(rel); vcalc_sha256(0,hash.bytes,uuidhash,len); uuidstr = _uuidstr; bits256_str(uuidstr,hash); char str[65]; printf("%s %llu %s %s -> uuid.%s\n",bits256_str(str,G.LP_mypub25519),(long long)millis,base,rel,uuidstr); } return(LP_trade(ctx,myipaddr,mypubsock,&Q,maxprice,timeout,duration,tradeid,destpubkey,uuidstr)); }