/****************************************************************************** * 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_prices.c // marketmaker // struct LP_orderbookentry { bits256 pubkey; double price; uint64_t minsatoshis,maxsatoshis; uint32_t timestamp; int32_t numutxos; char coinaddr[64]; }; #define LP_MAXPRICEINFOS 256 struct LP_priceinfo { char symbol[16]; uint64_t coinbits; int32_t ind,pad; double diagval,high[2],low[2],last[2],bid[2],ask[2]; //volume,btcvolume,prevday; // mostly bittrex info double relvals[LP_MAXPRICEINFOS]; double myprices[LP_MAXPRICEINFOS]; double minprices[LP_MAXPRICEINFOS]; // autoprice double margins[LP_MAXPRICEINFOS]; //double maxprices[LP_MAXPRICEINFOS]; // autofill of base/rel //double relvols[LP_MAXPRICEINFOS]; FILE *fps[LP_MAXPRICEINFOS]; } LP_priceinfos[LP_MAXPRICEINFOS]; int32_t LP_numpriceinfos; struct LP_cacheinfo { UT_hash_handle hh; struct LP_quoteinfo Q; uint8_t key[sizeof(bits256)+sizeof(uint64_t)*2+sizeof(int32_t)]; double price; uint32_t timestamp; } *LP_cacheinfos; struct LP_pubkeyinfo { UT_hash_handle hh; bits256 pubkey; double matrix[LP_MAXPRICEINFOS][LP_MAXPRICEINFOS]; uint32_t timestamp,istrusted,numerrors; uint8_t rmd160[20],pubsecp[33]; } *LP_pubkeyinfos; int32_t LP_pricevalid(double price) { if ( price > SMALLVAL && isnan(price) == 0 && price < SATOSHIDEN ) return(1); else return(0); } struct LP_priceinfo *LP_priceinfofind(char *symbol) { int32_t i; struct LP_priceinfo *pp; uint64_t coinbits; if ( symbol == 0 || symbol[0] == 0 ) return(0); if ( LP_numpriceinfos > 0 ) { coinbits = stringbits(symbol); pp = LP_priceinfos; for (i=0; icoinbits == coinbits ) return(pp); } return(0); } struct LP_priceinfo *LP_priceinfoptr(int32_t *indp,char *base,char *rel) { struct LP_priceinfo *basepp,*relpp; if ( (basepp= LP_priceinfofind(base)) != 0 && (relpp= LP_priceinfofind(rel)) != 0 ) { *indp = relpp->ind; return(basepp); } else { *indp = -1; return(0); } } int32_t LP_cachekey(uint8_t *key,char *base,char *rel,bits256 txid,int32_t vout) { uint64_t basebits,relbits; int32_t offset = 0; basebits = stringbits(base); relbits = stringbits(rel); memcpy(&key[offset],&basebits,sizeof(basebits)), offset += sizeof(basebits); memcpy(&key[offset],&relbits,sizeof(relbits)), offset += sizeof(relbits); memcpy(&key[offset],&txid,sizeof(txid)), offset += sizeof(txid); memcpy(&key[offset],&vout,sizeof(vout)), offset += sizeof(vout); return(offset); } struct LP_cacheinfo *LP_cachefind(char *base,char *rel,bits256 txid,int32_t vout) { struct LP_cacheinfo *ptr=0; uint8_t key[sizeof(bits256)+sizeof(uint64_t)*2+sizeof(vout)]; if ( base == 0 || rel == 0 ) return(0); if ( LP_cachekey(key,base,rel,txid,vout) == sizeof(key) ) { portable_mutex_lock(&LP_cachemutex); HASH_FIND(hh,LP_cacheinfos,key,sizeof(key),ptr); portable_mutex_unlock(&LP_cachemutex); } else printf("LP_cachefind keysize mismatch?\n"); if ( 0 && ptr != 0 && ptr->timestamp != 0 && ptr->timestamp < time(NULL)-LP_CACHEDURATION ) { printf("expire price %.8f\n",ptr->price); ptr->price = 0.; ptr->timestamp = 0; memset(&ptr->Q,0,sizeof(ptr->Q)); } return(ptr); } struct LP_pubkeyinfo *LP_pubkey_rmd160find(uint8_t rmd160[20]) { struct LP_pubkeyinfo *pubp=0,*tmp; portable_mutex_lock(&LP_pubkeymutex); HASH_ITER(hh,LP_pubkeyinfos,pubp,tmp) { if ( memcmp(rmd160,pubp->rmd160,sizeof(pubp->rmd160)) == 0 ) break; pubp = 0; } portable_mutex_unlock(&LP_pubkeymutex); return(pubp); } struct LP_address *_LP_addressfind(struct iguana_info *coin,char *coinaddr) { uint8_t rmd160[20],addrtype; struct LP_address *ap; struct LP_pubkeyinfo *pubp; HASH_FIND(hh,coin->addresses,coinaddr,strlen(coinaddr),ap); if ( ap != 0 && bits256_nonz(ap->pubkey) == 0 ) { bitcoin_addr2rmd160(coin->taddr,&addrtype,rmd160,coinaddr); if ( (pubp= LP_pubkey_rmd160find(rmd160)) != 0 ) { ap->pubkey = pubp->pubkey; memcpy(ap->pubsecp,pubp->pubsecp,sizeof(ap->pubsecp)); } } return(ap); } struct LP_address *_LP_addressadd(struct iguana_info *coin,char *coinaddr) { uint8_t rmd160[20],addrtype; struct LP_address *ap; struct LP_pubkeyinfo *pubp; ap = calloc(1,sizeof(*ap)); safecopy(ap->coinaddr,coinaddr,sizeof(ap->coinaddr)); bitcoin_addr2rmd160(coin->taddr,&addrtype,rmd160,coinaddr); if ( (pubp= LP_pubkey_rmd160find(rmd160)) != 0 ) { ap->pubkey = pubp->pubkey; memcpy(ap->pubsecp,pubp->pubsecp,sizeof(ap->pubsecp)); } //printf("LP_ADDRESS %s ADD.(%s)\n",coin->symbol,coinaddr); HASH_ADD_KEYPTR(hh,coin->addresses,ap->coinaddr,strlen(ap->coinaddr),ap); return(ap); } struct LP_pubkeyinfo *LP_pubkeyfind(bits256 pubkey) { struct LP_pubkeyinfo *pubp=0; portable_mutex_lock(&LP_pubkeymutex); HASH_FIND(hh,LP_pubkeyinfos,&pubkey,sizeof(pubkey),pubp); portable_mutex_unlock(&LP_pubkeymutex); return(pubp); } struct LP_pubkeyinfo *LP_pubkeyadd(bits256 pubkey) { struct LP_pubkeyinfo *pubp=0; if ( (pubp= LP_pubkeyfind(pubkey)) == 0 ) { portable_mutex_lock(&LP_pubkeymutex); pubp = calloc(1,sizeof(*pubp)); pubp->pubkey = pubkey; if ( bits256_cmp(G.LP_mypub25519,pubkey) == 0 ) { memcpy(pubp->rmd160,G.LP_myrmd160,sizeof(pubp->rmd160)); memcpy(pubp->pubsecp,G.LP_pubsecp,sizeof(pubp->pubsecp)); } HASH_ADD_KEYPTR(hh,LP_pubkeyinfos,&pubp->pubkey,sizeof(pubp->pubkey),pubp); portable_mutex_unlock(&LP_pubkeymutex); if ( (pubp= LP_pubkeyfind(pubkey)) == 0 ) printf("pubkeyadd find error after add\n"); } return(pubp); } int32_t LP_pubkey_istrusted(bits256 pubkey) { struct LP_pubkeyinfo *pubp; if ( (pubp= LP_pubkeyfind(pubkey)) != 0 ) return(pubp->istrusted != 0); return(0); } char *LP_pubkey_trustset(bits256 pubkey,uint32_t trustval) { struct LP_pubkeyinfo *pubp; if ( (pubp= LP_pubkeyfind(pubkey)) != 0 ) { pubp->istrusted = trustval; return(clonestr("{\"result\":\"success\"}")); } return(clonestr("{\"error\":\"pubkey not found\"}")); } uint64_t LP_unspents_metric(struct iguana_info *coin,char *coinaddr) { cJSON *array,*item; int32_t i,n; uint64_t metric=0,total; LP_listunspent_both(coin->symbol,coinaddr); if ( (array= LP_address_utxos(coin,coinaddr,1)) != 0 ) { total = 0; if ( (n= cJSON_GetArraySize(array)) > 0 ) { for (i=0; imatrix[baseid][relid]; if ( LP_pricevalid(price) > 0 ) { item = cJSON_CreateArray(); jaddistr(item,base); jaddistr(item,LP_priceinfos[relid].symbol); jaddinum(item,price); jaddi(array,item); } } } jaddbits256(obj,"pubkey",pubp->pubkey); for (i=0; irmd160); i++) { if ( pubp->rmd160[i] != 0 ) { init_hexbytes_noT(hexstr,pubp->rmd160,sizeof(pubp->rmd160)); jaddstr(obj,"rmd160",hexstr); for (j=0; ipubsecp); i++) { if ( pubp->pubsecp[i] != 0 ) { init_hexbytes_noT(hexstr2,pubp->pubsecp,sizeof(pubp->pubsecp)); jaddstr(obj,"pubsecp",hexstr2); //printf("nonz rmd160 (%s %s)\n",hexstr,hexstr2); break; } } break; } } jaddnum(obj,"timestamp",pubp->timestamp); jadd(obj,"asks",array); if ( pubp->istrusted != 0 ) jaddnum(obj,"istrusted",pubp->istrusted); return(obj); } char *LP_prices() { struct LP_pubkeyinfo *pubp,*tmp; cJSON *array = cJSON_CreateArray(); HASH_ITER(hh,LP_pubkeyinfos,pubp,tmp) { jaddi(array,LP_pubkeyjson(pubp)); } return(jprint(array,1)); } void LP_prices_parse(struct LP_peerinfo *peer,cJSON *obj) { static uint8_t zeroes[20]; struct LP_pubkeyinfo *pubp; struct LP_priceinfo *basepp,*relpp; uint32_t timestamp; bits256 pubkey; cJSON *asks,*item; uint8_t rmd160[20]; int32_t i,n,relid,mismatch; char *base,*rel,*hexstr,*pubsecpstr; double askprice; uint32_t now; now = (uint32_t)time(NULL); pubkey = jbits256(obj,"pubkey"); if ( bits256_nonz(pubkey) != 0 && (pubp= LP_pubkeyadd(pubkey)) != 0 ) { if ( (hexstr= jstr(obj,"rmd160")) != 0 && strlen(hexstr) == 2*sizeof(rmd160) ) { decode_hex(rmd160,sizeof(rmd160),hexstr); if ( memcmp(pubp->rmd160,rmd160,sizeof(rmd160)) != 0 ) mismatch = 1; else mismatch = 0; if ( bits256_cmp(pubkey,G.LP_mypub25519) == 0 && mismatch == 0 ) peer->needping = 0; if ( mismatch != 0 && memcmp(zeroes,rmd160,sizeof(rmd160)) != 0 ) { for (i=0; i<20; i++) printf("%02x",pubp->rmd160[i]); memcpy(pubp->rmd160,rmd160,sizeof(pubp->rmd160)); if ( (pubsecpstr= jstr(obj,"pubsecp")) != 0 && is_hexstr(pubsecpstr,0) == 66 ) { decode_hex(pubp->pubsecp,sizeof(pubp->pubsecp),pubsecpstr); char str[65]; printf(" -> rmd160.(%s) for %s (%s)\n",hexstr,bits256_str(str,pubkey),pubsecpstr); } } } timestamp = juint(obj,"timestamp"); if ( timestamp > now ) timestamp = now; if ( timestamp > pubp->timestamp && (asks= jarray(&n,obj,"asks")) != 0 ) { pubp->timestamp = timestamp; for (i=0; i 0 ) { if ( (basepp= LP_priceinfoptr(&relid,base,rel)) != 0 ) { //char str[65]; printf("gotprice %s %s/%s (%d/%d) %.8f\n",bits256_str(str,pubkey),base,rel,basepp->ind,relid,askprice); pubp->matrix[basepp->ind][relid] = askprice; if ( (relpp= LP_priceinfofind(rel)) != 0 ) { dxblend(&basepp->relvals[relpp->ind],askprice,0.9); dxblend(&relpp->relvals[basepp->ind],1. / askprice,0.9); } } } } } } } void LP_peer_pricesquery(struct LP_peerinfo *peer) { char *retstr; cJSON *array; int32_t i,n; peer->needping = (uint32_t)time(NULL); if ( (retstr= issue_LP_getprices(peer->ipaddr,peer->port)) != 0 ) { if ( (array= cJSON_Parse(retstr)) != 0 ) { if ( is_cJSON_Array(array) && (n= cJSON_GetArraySize(array)) > 0 ) { for (i=0; ineedping != 0 ) { //printf("%s needs ping\n",peer->ipaddr); } } double LP_pricecache(struct LP_quoteinfo *qp,char *base,char *rel,bits256 txid,int32_t vout) { struct LP_cacheinfo *ptr; if ( (ptr= LP_cachefind(base,rel,txid,vout)) != 0 ) { if ( qp != 0 ) (*qp) = ptr->Q; if ( ptr->price == 0. && ptr->Q.satoshis != 0 ) { ptr->price = (double)ptr->Q.destsatoshis / ptr->Q.satoshis; if ( LP_pricevalid(ptr->price) <= 0 ) ptr->price = 0.; printf("LP_pricecache: set %s/%s ptr->price %.8f\n",base,rel,ptr->price); } printf(">>>>>>>>>> found %s/%s %.8f\n",base,rel,ptr->price); return(ptr->price); } //char str[65]; printf("cachemiss %s/%s %s/v%d\n",base,rel,bits256_str(str,txid),vout); return(0.); } void LP_priceinfoupdate(char *base,char *rel,double price) { struct LP_priceinfo *basepp,*relpp; if ( LP_pricevalid(price) > 0 ) { if ( (basepp= LP_priceinfofind(base)) != 0 && (relpp= LP_priceinfofind(rel)) != 0 ) { //dxblend(&basepp->relvals[relpp->ind],price,0.9); //dxblend(&relpp->relvals[basepp->ind],1. / price,0.9); basepp->relvals[relpp->ind] = price; relpp->relvals[basepp->ind] = 1. / price; } } } double LP_myprice(double *bidp,double *askp,char *base,char *rel) { struct LP_priceinfo *basepp,*relpp; double val; *bidp = *askp = 0.; if ( (basepp= LP_priceinfofind(base)) != 0 && (relpp= LP_priceinfofind(rel)) != 0 ) { *askp = basepp->myprices[relpp->ind]; if ( LP_pricevalid(*askp) > 0 ) { val = relpp->myprices[basepp->ind]; if ( LP_pricevalid(val) > 0 ) { *bidp = 1. / val; return((*askp + *bidp) * 0.5); } else { *bidp = 0.; return(*askp); } } else { val = relpp->myprices[basepp->ind]; if ( LP_pricevalid(val) > 0 ) { *bidp = 1. / val; *askp = 0.; return(*bidp); } } } return(0.); } char *LP_myprices() { int32_t baseid,relid; double bid,ask; char *base,*rel; cJSON *item,*array; array = cJSON_CreateArray(); for (baseid=0; baseid SMALLVAL ) { item = cJSON_CreateObject(); jaddstr(item,"base",base); jaddstr(item,"rel",rel); jaddnum(item,"bid",bid); jaddnum(item,"ask",ask); jaddi(array,item); } } } return(jprint(array,1)); } int32_t LP_mypriceset(int32_t *changedp,char *base,char *rel,double price) { struct LP_priceinfo *basepp,*relpp; struct LP_pubkeyinfo *pubp; *changedp = 0; if ( base != 0 && rel != 0 && LP_pricevalid(price) > 0 && (basepp= LP_priceinfofind(base)) != 0 && (relpp= LP_priceinfofind(rel)) != 0 ) { if ( fabs(basepp->myprices[relpp->ind] - price) > SMALLVAL ) *changedp = 1; basepp->myprices[relpp->ind] = price; // ask //printf("LP_mypriceset base.%s rel.%s <- price %.8f\n",base,rel,price); //relpp->myprices[basepp->ind] = (1. / price); // bid if ( (pubp= LP_pubkeyadd(G.LP_mypub25519)) != 0 ) { pubp->matrix[basepp->ind][relpp->ind] = price; //pubp->matrix[relpp->ind][basepp->ind] = (1. / price); pubp->timestamp = (uint32_t)time(NULL); } return(0); } else return(-1); } double LP_price(char *base,char *rel) { struct LP_priceinfo *basepp; int32_t relind; double price = 0.; if ( (basepp= LP_priceinfoptr(&relind,base,rel)) != 0 ) { if ( (price= basepp->myprices[relind]) == 0. ) price = basepp->relvals[relind]; } return(price); } cJSON *LP_priceinfomatrix(int32_t usemyprices) { int32_t i,j,n,m; double total,sum,val; struct LP_priceinfo *pp; uint32_t now; struct LP_cacheinfo *ptr,*tmp; cJSON *vectorjson = cJSON_CreateObject(); now = (uint32_t)time(NULL); HASH_ITER(hh,LP_cacheinfos,ptr,tmp) { if ( ptr->timestamp < now-3600*2 || ptr->price == 0. ) continue; LP_priceinfoupdate(ptr->Q.srccoin,ptr->Q.destcoin,ptr->price); } pp = LP_priceinfos; total = m = 0; for (i=0; idiagval = sum = n = 0; for (j=0; jmyprices[j]) == 0. ) val = pp->relvals[j]; if ( val > SMALLVAL ) { sum += val; n++; } } if ( n > 0 ) { pp->diagval = sum / n; total += pp->diagval, m++; } } if ( m > 0 ) { pp = LP_priceinfos; for (i=0; idiagval > SMALLVAL ) { pp->diagval /= total; jaddnum(vectorjson,pp->symbol,pp->diagval); } } } return(vectorjson); } struct LP_priceinfo *LP_priceinfoadd(char *symbol) { struct LP_priceinfo *pp; cJSON *retjson; if ( symbol == 0 ) return(0); if ( LP_numpriceinfos >= sizeof(LP_priceinfos)/sizeof(*LP_priceinfos) ) { printf("cant add any more priceinfos\n"); return(0); } pp = &LP_priceinfos[LP_numpriceinfos]; memset(pp,0,sizeof(*pp)); safecopy(pp->symbol,symbol,sizeof(pp->symbol)); pp->coinbits = stringbits(symbol); pp->ind = LP_numpriceinfos++; LP_numpriceinfos++; if ( (retjson= LP_priceinfomatrix(0)) != 0 ) free_json(retjson); return(pp); } struct LP_cacheinfo *LP_cacheadd(char *base,char *rel,bits256 txid,int32_t vout,double price,struct LP_quoteinfo *qp) { char str[65]; struct LP_cacheinfo *ptr=0; if ( base == 0 || rel == 0 ) return(0); if ( LP_pricevalid(price) > 0 ) { if ( (ptr= LP_cachefind(base,rel,txid,vout)) == 0 ) { ptr = calloc(1,sizeof(*ptr)); if ( LP_cachekey(ptr->key,base,rel,txid,vout) == sizeof(ptr->key) ) { portable_mutex_lock(&LP_cachemutex); HASH_ADD(hh,LP_cacheinfos,key,sizeof(ptr->key),ptr); portable_mutex_unlock(&LP_cachemutex); } else printf("LP_cacheadd keysize mismatch?\n"); } ptr->Q = *qp; ptr->timestamp = (uint32_t)time(NULL); if ( price != ptr->price ) { ptr->price = price; LP_priceinfoupdate(base,rel,price); printf("updated %s/v%d %s/%s %llu price %.8f\n",bits256_str(str,txid),vout,base,rel,(long long)qp->satoshis,price); } else ptr->price = price; } return(ptr); } static int _cmp_orderbook(const void *a,const void *b) { int32_t retval = 0; #define ptr_a (*(struct LP_orderbookentry **)a)->price #define ptr_b (*(struct LP_orderbookentry **)b)->price if ( ptr_b > ptr_a ) retval = -1; else if ( ptr_b < ptr_a ) retval = 1; else { #undef ptr_a #undef ptr_b #define ptr_a ((struct LP_orderbookentry *)a)->maxsatoshis #define ptr_b ((struct LP_orderbookentry *)b)->maxsatoshis if ( ptr_b > ptr_a ) return(-1); else if ( ptr_b < ptr_a ) return(1); } // printf("%.8f vs %.8f -> %d\n",ptr_a,ptr_b,retval); return(retval); #undef ptr_a #undef ptr_b } static int _revcmp_orderbook(const void *a,const void *b) { int32_t retval = 0; #define ptr_a (*(struct LP_orderbookentry **)a)->price #define ptr_b (*(struct LP_orderbookentry **)b)->price if ( ptr_b > ptr_a ) retval = 1; else if ( ptr_b < ptr_a ) retval = -1; else { #undef ptr_a #undef ptr_b #define ptr_a ((struct LP_orderbookentry *)a)->maxsatoshis #define ptr_b ((struct LP_orderbookentry *)b)->maxsatoshis if ( ptr_b > ptr_a ) return(-1); else if ( ptr_b < ptr_a ) return(1); } // printf("%.8f vs %.8f -> %d\n",ptr_a,ptr_b,retval); return(retval); #undef ptr_a #undef ptr_b } cJSON *LP_orderbookjson(char *symbol,struct LP_orderbookentry *op) { cJSON *item = cJSON_CreateObject(); if ( LP_pricevalid(op->price) > 0 ) { jaddstr(item,"coin",symbol); jaddstr(item,"address",op->coinaddr); jaddnum(item,"price",op->price); jaddnum(item,"numutxos",op->numutxos); jaddnum(item,"minvolume",dstr(op->minsatoshis)); jaddnum(item,"maxvolume",dstr(op->maxsatoshis)); jaddbits256(item,"pubkey",op->pubkey); jaddnum(item,"age",time(NULL)-op->timestamp); } return(item); } struct LP_orderbookentry *LP_orderbookentry(char *address,char *base,char *rel,double price,int32_t numutxos,uint64_t minsatoshis,uint64_t maxsatoshis,bits256 pubkey,uint32_t timestamp) { struct LP_orderbookentry *op; if ( (op= calloc(1,sizeof(*op))) != 0 ) { safecopy(op->coinaddr,address,sizeof(op->coinaddr)); op->price = price; op->numutxos = numutxos; op->minsatoshis = minsatoshis; op->maxsatoshis = maxsatoshis; op->pubkey = pubkey; op->timestamp = timestamp; } return(op); } int32_t LP_orderbook_utxoentries(uint32_t now,int32_t polarity,char *base,char *rel,struct LP_orderbookentry *(**arrayp),int32_t num,int32_t cachednum,int32_t duration) { char coinaddr[64]; uint8_t zeroes[20]; struct LP_pubkeyinfo *pubp=0,*tmp; struct LP_priceinfo *basepp; struct LP_orderbookentry *op; struct LP_address *ap; struct iguana_info *basecoin; uint32_t oldest; double price; int32_t baseid,relid,n; uint64_t minsatoshis,maxsatoshis; if ( (basepp= LP_priceinfoptr(&relid,base,rel)) != 0 ) baseid = basepp->ind; else return(num); if ( (basecoin= LP_coinfind(base)) == 0 ) return(-1); now = (uint32_t)time(NULL); oldest = now - duration; memset(zeroes,0,sizeof(zeroes)); HASH_ITER(hh,LP_pubkeyinfos,pubp,tmp) { if ( memcmp(zeroes,pubp->rmd160,sizeof(pubp->rmd160)) == 0 ) { //printf("skip pubp since no rmd160\n"); continue; } bitcoin_address(coinaddr,basecoin->taddr,basecoin->pubtype,pubp->rmd160,sizeof(pubp->rmd160)); minsatoshis = maxsatoshis = n = 0; ap = 0; if ( (price= pubp->matrix[baseid][relid]) > SMALLVAL ) { if ( (ap= LP_addressfind(basecoin,coinaddr)) != 0 ) { n = LP_address_minmax(&minsatoshis,&maxsatoshis,ap); if ( polarity > 0 ) { minsatoshis *= price; maxsatoshis *= price; } //printf("%s/%s %s n.%d ap->n.%d %.8f\n",base,rel,coinaddr,n,ap->n,dstr(ap->total)); } if ( (op= LP_orderbookentry(coinaddr,base,rel,polarity > 0 ? price : 1./price,n,minsatoshis,maxsatoshis,pubp->pubkey,pubp->timestamp)) != 0 ) { *arrayp = realloc(*arrayp,sizeof(*(*arrayp)) * (num+1)); (*arrayp)[num++] = op; } } //printf("pubp.(%s) %.8f %p\n",coinaddr,price,ap); } return(num); } char *LP_orderbook(char *base,char *rel,int32_t duration) { uint32_t now,i; struct LP_priceinfo *basepp=0,*relpp=0; struct LP_orderbookentry **bids = 0,**asks = 0; cJSON *retjson,*array; struct iguana_info *basecoin,*relcoin; int32_t n,numbids=0,numasks=0,cachenumbids,cachenumasks,baseid,relid; basecoin = LP_coinfind(base); relcoin = LP_coinfind(rel); if ( basecoin == 0 || relcoin == 0 ) return(clonestr("{\"error\":\"base or rel not added\"}")); if ( (basepp= LP_priceinfofind(base)) == 0 || (relpp= LP_priceinfofind(rel)) == 0 ) return(clonestr("{\"error\":\"base or rel not added\"}")); if ( duration <= 0 ) duration = LP_ORDERBOOK_DURATION; baseid = basepp->ind; relid = relpp->ind; now = (uint32_t)time(NULL); basecoin->obooktime = now; relcoin->obooktime = now; cachenumbids = numbids, cachenumasks = numasks; //printf("start cache.(%d %d) numbids.%d numasks.%d\n",cachenumbids,cachenumasks,numbids,numasks); numasks = LP_orderbook_utxoentries(now,1,base,rel,&asks,numasks,cachenumasks,duration); numbids = LP_orderbook_utxoentries(now,-1,rel,base,&bids,numbids,cachenumbids,duration); retjson = cJSON_CreateObject(); array = cJSON_CreateArray(); if ( numbids > 1 ) qsort(bids,numbids,sizeof(*bids),_revcmp_orderbook); if ( numasks > 1 ) { //for (i=0; iprice); //printf(" -> "); qsort(asks,numasks,sizeof(*asks),_cmp_orderbook); //for (i=0; iprice); //printf("sorted asks.%d\n",numasks); } for (i=n=0; inumutxos == 0 )//|| relcoin->electrum == 0 ) LP_address(relcoin,bids[i]->coinaddr), n++; free(bids[i]); bids[i] = 0; } if ( n > 0 && relcoin->lastmonitor > 3600 ) relcoin->lastmonitor -= 3600; jadd(retjson,"bids",array); jaddnum(retjson,"numbids",numbids); array = cJSON_CreateArray(); for (i=n=0; inumutxos == 0 )//|| basecoin->electrum == 0 ) LP_address(basecoin,asks[i]->coinaddr), n++; free(asks[i]); asks[i] = 0; } if ( n > 0 && basecoin->lastmonitor > 3600 ) basecoin->lastmonitor -= 3600; jadd(retjson,"asks",array); jaddnum(retjson,"numasks",numasks); jaddstr(retjson,"base",base); jaddstr(retjson,"rel",rel); jaddnum(retjson,"timestamp",now); if ( bids != 0 ) free(bids); if ( asks != 0 ) free(asks); return(jprint(retjson,1)); } char *LP_pricestr(char *base,char *rel,double origprice) { cJSON *retjson; double price = 0.; if ( base != 0 && base[0] != 0 && rel != 0 && rel[0] != 0 ) { price = LP_price(base,rel); if ( origprice > SMALLVAL && origprice < price ) price = origprice; } if ( LP_pricevalid(price) > 0 ) { retjson = cJSON_CreateObject(); jaddstr(retjson,"result","success"); jaddstr(retjson,"method","postprice"); jaddbits256(retjson,"pubkey",G.LP_mypub25519); jaddstr(retjson,"base",base); jaddstr(retjson,"rel",rel); jaddnum(retjson,"price",price); jadd(retjson,"theoretical",LP_priceinfomatrix(0)); jadd(retjson,"quotes",LP_priceinfomatrix(1)); return(jprint(retjson,1)); } else return(clonestr("{\"error\":\"cant find baserel pair\"}")); } void LP_priceupdate(char *base,char *rel,double price,double avebid,double aveask,double highbid,double lowask,double PAXPRICES[32]) { LP_priceinfoupdate(base,rel,price); } void LP_pricefname(char *fname,char *base,char *rel) { sprintf(fname,"%s/PRICES/%s_%s",GLOBAL_DBDIR,base,rel); OS_compatible_path(fname); } void LP_priceitemadd(cJSON *retarray,uint32_t timestamp,double avebid,double aveask,double highbid,double lowask) { cJSON *item = cJSON_CreateArray(); jaddinum(item,timestamp); jaddinum(item,avebid); jaddinum(item,aveask); jaddinum(item,highbid); jaddinum(item,lowask); jaddi(retarray,item); } cJSON *LP_pricearray(char *base,char *rel,uint32_t firsttime,uint32_t lasttime,int32_t timescale) { cJSON *retarray; char askfname[1024],bidfname[1024]; uint64_t bidprice64,askprice64; uint32_t bidnow,asknow,bidi,aski,lastbidi,lastaski; int32_t numbids,numasks; double bidemit,askemit,bidsum,asksum,bid,ask,highbid,lowbid,highask,lowask,bidemit2,askemit2; FILE *askfp=0,*bidfp=0; if ( timescale <= 0 ) timescale = 60; if ( lasttime == 0 ) lasttime = (uint32_t)-1; LP_pricefname(askfname,base,rel); LP_pricefname(bidfname,rel,base); retarray = cJSON_CreateArray(); lastbidi = lastaski = 0; numbids = numasks = 0; bidsum = asksum = askemit = bidemit = highbid = lowbid = highask = lowask = 0.; if ( (bidfp= fopen(bidfname,"rb")) != 0 && (askfp= fopen(askfname,"rb")) != 0 ) { while ( bidfp != 0 || askfp != 0 ) { bidi = aski = 0; bidemit = askemit = bidemit2 = askemit2 = 0.; if ( bidfp != 0 && fread(&bidnow,1,sizeof(bidnow),bidfp) == sizeof(bidnow) && fread(&bidprice64,1,sizeof(bidprice64),bidfp) == sizeof(bidprice64) ) { //printf("bidnow.%u %.8f\n",bidnow,dstr(bidprice64)); if ( bidnow != 0 && bidprice64 != 0 && bidnow >= firsttime && bidnow <= lasttime ) { bidi = bidnow / timescale; if ( bidi != lastbidi ) { if ( bidsum != 0. && numbids != 0 ) { bidemit = bidsum / numbids; bidemit2 = highbid; } bidsum = highbid = lowbid = 0.; numbids = 0; } if ( (bid= 1. / dstr(bidprice64)) != 0. ) { if ( bid > highbid ) highbid = bid; if ( lowbid == 0. || bid < lowbid ) lowbid = bid; bidsum += bid; numbids++; //printf("bidi.%u num.%d %.8f [%.8f %.8f]\n",bidi,numbids,bid,lowbid,highbid); } } } else fclose(bidfp), bidfp = 0; if ( askfp != 0 && fread(&asknow,1,sizeof(asknow),askfp) == sizeof(asknow) && fread(&askprice64,1,sizeof(askprice64),askfp) == sizeof(askprice64) ) { //printf("asknow.%u %.8f\n",asknow,dstr(askprice64)); if ( asknow != 0 && askprice64 != 0 && asknow >= firsttime && asknow <= lasttime ) { aski = asknow / timescale; if ( aski != lastaski ) { if ( asksum != 0. && numasks != 0 ) { askemit = asksum / numasks; askemit2 = lowask; } asksum = highask = lowask = 0.; numasks = 0; } if ( (ask= dstr(askprice64)) != 0. ) { if ( ask > highask ) highask = ask; if ( lowask == 0. || ask < lowask ) lowask = ask; asksum += ask; numasks++; //printf("aski.%u num.%d %.8f [%.8f %.8f]\n",aski,numasks,ask,lowask,highask); } } } else fclose(askfp), askfp = 0; if ( bidemit != 0. || askemit != 0. ) { if ( bidemit != 0. && askemit != 0. && lastbidi == lastaski ) { LP_priceitemadd(retarray,lastbidi * timescale,bidemit,askemit,bidemit2,askemit2); highbid = lowbid = highask = lowask = 0.; } else { if ( bidemit != 0. ) { printf("bidonly %.8f %.8f\n",bidemit,highbid); LP_priceitemadd(retarray,lastbidi * timescale,bidemit,0.,bidemit2,0.); highbid = lowbid = 0.; } if ( askemit != 0. ) { printf("askonly %.8f %.8f\n",askemit,lowask); LP_priceitemadd(retarray,lastaski * timescale,0.,askemit,0.,askemit2); highask = lowask = 0.; } } } if ( bidi != 0 ) lastbidi = bidi; if ( aski != 0 ) lastaski = aski; } } else printf("couldnt open either %s %p or %s %p\n",bidfname,bidfp,askfname,askfp); if ( bidfp != 0 ) fclose(bidfp); if ( askfp != 0 ) fclose(askfp); return(retarray); } void LP_pricefeedupdate(bits256 pubkey,char *base,char *rel,double price) { struct LP_priceinfo *basepp,*relpp; uint32_t now; uint64_t price64; struct LP_pubkeyinfo *pubp; char str[65],fname[512]; FILE *fp; //printf("check PRICEFEED UPDATE.(%s/%s) %.8f %s\n",base,rel,price,bits256_str(str,pubkey)); if ( LP_pricevalid(price) > 0 && (basepp= LP_priceinfofind(base)) != 0 && (relpp= LP_priceinfofind(rel)) != 0 ) { if ( (fp= basepp->fps[relpp->ind]) == 0 ) { LP_pricefname(fname,base,rel); fp = basepp->fps[relpp->ind] = OS_appendfile(fname); } if ( fp != 0 ) { now = (uint32_t)time(NULL); price64 = price * SATOSHIDEN; fwrite(&now,1,sizeof(now),fp); fwrite(&price64,1,sizeof(price64),fp); fflush(fp); } if ( (fp= relpp->fps[basepp->ind]) == 0 ) { sprintf(fname,"%s/PRICES/%s_%s",GLOBAL_DBDIR,rel,base); fp = relpp->fps[basepp->ind] = OS_appendfile(fname); } if ( fp != 0 ) { now = (uint32_t)time(NULL); price64 = (1. / price) * SATOSHIDEN; fwrite(&now,1,sizeof(now),fp); fwrite(&price64,1,sizeof(price64),fp); fflush(fp); } if ( (pubp= LP_pubkeyadd(pubkey)) != 0 ) { if ( fabs(pubp->matrix[basepp->ind][relpp->ind] - price) > SMALLVAL ) { if ( (rand() % 5000) == 0 ) printf("PRICEFEED UPDATE.(%-6s/%6s) %12.8f %s %12.8f\n",base,rel,price,bits256_str(str,pubkey),1./price); pubp->matrix[basepp->ind][relpp->ind] = price; dxblend(&basepp->relvals[relpp->ind],price,0.9); dxblend(&relpp->relvals[basepp->ind],1. / price,0.9); } pubp->timestamp = (uint32_t)time(NULL); } else printf("error creating pubkey entry\n"); } else if ( (rand() % 100) == 0 ) printf("error finding %s/%s %.8f\n",base,rel,price); }