/****************************************************************************** * 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_rpc.c // marketmaker // char *LP_issue_curl(char *debugstr,char *destip,uint16_t port,char *url) { char *retstr = 0; int32_t maxerrs; struct LP_peerinfo *peer = 0; peer = LP_peerfind((uint32_t)calc_ipbits(destip),port); maxerrs = LP_MAXPEER_ERRORS; if ( peer == 0 || (peer->errors < maxerrs || peer->good >= LP_MINPEER_GOOD) ) { if ( (retstr= issue_curlt(url,LP_HTTP_TIMEOUT)) == 0 ) { if ( peer != 0 ) { peer->errors++; peer->good *= LP_PEERGOOD_ERRORDECAY; } else printf("%s error on (%s:%u) without peer\n",debugstr,destip,port); } else if ( peer != 0 ) peer->good++; } return(retstr); } char *LP_isitme(char *destip,uint16_t destport) { if ( LP_mypeer != 0 && strcmp(destip,LP_mypeer->ipaddr) == 0 && LP_mypeer->port == destport ) { //printf("no need to notify ourselves\n"); return(clonestr("{\"result\":\"success\"}")); } else return(0); } char *issue_LP_getpeers(char *destip,uint16_t destport,char *ipaddr,uint16_t port,int32_t numpeers) { char url[512],*retstr; sprintf(url,"http://%s:%u/api/stats/getpeers?ipaddr=%s&port=%u&numpeers=%d",destip,destport,ipaddr,port,numpeers); retstr = LP_issue_curl("getpeers",destip,port,url); //printf("%s -> getpeers.(%s)\n",destip,retstr); return(retstr); } char *issue_LP_notify(char *destip,uint16_t destport,char *ipaddr,uint16_t port,int32_t numpeers,uint32_t sessionid,char *rmd160str,bits256 pub) { char url[512],*retstr,str[65]; if ( (retstr= LP_isitme(destip,destport)) != 0 ) return(retstr); sprintf(url,"http://%s:%u/api/stats/notify?ipaddr=%s&port=%u&numpeers=%d&session=%u",destip,destport,ipaddr,port,numpeers,sessionid); if ( rmd160str != 0 && bits256_nonz(pub) != 0 ) { sprintf(url+strlen(url),"&rmd160=%s&pub=%s",rmd160str,bits256_str(str,pub)); //printf("SEND (%s)\n",url); } return(LP_issue_curl("notify",destip,destport,url)); //return(issue_curlt(url,LP_HTTP_TIMEOUT)); } char *issue_LP_getprices(char *destip,uint16_t destport) { char url[512]; sprintf(url,"http://%s:%u/api/stats/getprices",destip,destport); //printf("getutxo.(%s)\n",url); return(LP_issue_curl("getprices",destip,destport,url)); //return(issue_curlt(url,LP_HTTP_TIMEOUT)); } char *issue_LP_listunspent(char *destip,uint16_t destport,char *symbol,char *coinaddr) { char url[512]; sprintf(url,"http://%s:%u/api/stats/listunspent?coin=%s&address=%s",destip,destport,symbol,coinaddr); //printf("listunspent.(%s)\n",url); return(LP_issue_curl("listunspent",destip,destport,url)); } char *LP_apicall(struct iguana_info *coin,char *method,char *params) { cJSON *retjson; char *retstr; if ( coin == 0 ) return(0); if ( coin->electrum != 0 ) { if ( (retjson= electrum_submit(coin->symbol,coin->electrum,&retjson,method,params,LP_HTTP_TIMEOUT)) != 0 ) { retstr = jprint(retjson,0); //printf("got.%p (%s)\n",retjson,retstr); return(retstr); } return(clonestr("{\"error\":\"electrum no response\"}")); } else return(bitcoind_passthru(coin->symbol,coin->serverport,coin->userpass,method,params)); } cJSON *bitcoin_json(struct iguana_info *coin,char *method,char *params) { cJSON *retjson = 0; char *retstr; // "getinfo", "getrawmempool", "paxprice", "gettxout", "getrawtransaction", "getblock", "listunspent", "listtransactions", "validateaddress", "importprivkey" // bitcoind_passthru callers: "importaddress", "estimatefee", "getblockhash", "sendrawtransaction", "signrawtransaction" if ( coin != 0 ) { //printf("issue.(%s, %s, %s, %s, %s)\n",coin->symbol,coin->serverport,coin->userpass,method,params); if ( coin->electrum != 0 && (strcmp(method,"getblock") == 0 || strcmp(method,"paxprice") == 0 || strcmp(method,"getrawmempool") == 0) ) return(cJSON_Parse("{\"error\":\"illegal electrum call\"}")); if ( coin->inactive == 0 || strcmp(method,"importprivkey") == 0 || strcmp(method,"validateaddress") == 0 ) { if ( coin->electrum == 0 ) { retstr = bitcoind_passthru(coin->symbol,coin->serverport,coin->userpass,method,params); if ( retstr != 0 && retstr[0] != 0 ) { //printf("%s: %s.%s -> (%s)\n",coin->symbol,method,params,retstr); retjson = cJSON_Parse(retstr); free(retstr); } } else { if ( (retjson= electrum_submit(coin->symbol,coin->electrum,&retjson,method,params,LP_HTTP_TIMEOUT)) != 0 ) { if ( jobj(retjson,"error") != 0 ) { free_json(retjson); retjson = 0; } //printf("electrum %s.%s -> (%s)\n",method,params,jprint(retjson,0)); /*if ( (resultjson= jobj(retjson,"result")) != 0 ) { resultjson = jduplicate(resultjson); free_json(retjson); retjson = resultjson; }*/ } } } else retjson = cJSON_Parse("{\"result\":\"disabled\"}"); } else printf("bitcoin_json cant talk to NULL coin\n"); return(retjson); } void LP_unspents_mark(char *symbol,cJSON *vins) { printf("LOCK (%s)\n",jprint(vins,0)); } char *NXTnodes[] = { "62.75.159.113", "91.44.203.238", "82.114.88.225", "78.63.207.76", "188.174.110.224", "91.235.72.49", "213.144.130.91", "209.222.98.250", "216.155.128.10", "178.33.203.157", "162.243.122.251", "69.163.47.173", "193.151.106.129", "78.94.2.74", "192.3.196.10", "173.33.112.87", "104.198.173.28", "35.184.154.126", "174.140.167.239", "23.88.113.131", "198.71.84.173", "178.150.207.53", "23.88.61.53", "192.157.233.106", "192.157.241.212", "23.89.192.88", "23.89.200.27", "192.157.241.139", "23.89.200.63", "23.89.192.98", "163.172.214.102", "176.9.85.5", "80.150.243.88", "80.150.243.92", "80.150.243.98", "109.70.186.198", "146.148.84.237", "104.155.56.82", "104.197.157.140", "37.48.73.249", "146.148.77.226", "84.57.170.200", "107.161.145.131", "80.150.243.97", "80.150.243.93", "80.150.243.100", "80.150.243.95", "80.150.243.91", "80.150.243.99", "80.150.243.96", "93.231.187.177", "212.237.23.85", "35.158.179.254", "46.36.66.41", "185.170.113.79", "163.172.68.112", "78.47.35.210", "77.90.90.75", "94.177.196.134", "212.237.22.215", "94.177.234.11", "167.160.180.199", "54.68.189.9", "94.159.62.14", "195.181.221.89", "185.33.145.94", "195.181.209.245", "195.181.221.38", "195.181.221.162", "185.33.145.12", "185.33.145.176", "178.79.128.235", "94.177.214.120", "94.177.199.41", "94.177.214.200", "94.177.213.201", "212.237.13.162", "195.181.221.236", "195.181.221.185", "185.28.103.187", "185.33.146.244", "217.61.123.71", "195.181.214.45", "195.181.212.99", "195.181.214.46", "195.181.214.215", "195.181.214.68", "217.61.123.118", "195.181.214.79", "217.61.123.14", "217.61.124.100", "195.181.214.111", "85.255.0.176", "81.2.254.116", "217.61.123.184", "195.181.212.231", "94.177.214.110", "195.181.209.164", "104.129.56.238", "85.255.13.64", "167.160.180.206", "217.61.123.226", "167.160.180.208", "93.186.253.127", "212.237.6.208", "94.177.207.190", "217.61.123.119", "85.255.1.245", "217.61.124.157", "37.59.57.141", "167.160.180.58", "104.223.53.14", "217.61.124.69", "195.181.212.103", "85.255.13.141", "104.207.133.204", "71.90.7.107", "107.150.18.108", "23.94.134.161", "80.150.243.13", "80.150.243.11", "185.81.165.52", "80.150.243.8" }; cJSON *LP_assethbla(char *assetid) { char url[1024],*retstr; int32_t n; cJSON *array,*bid=0,*ask=0,*retjson; sprintf(url,"http://%s:7876/nxt?=%%2Fnxt&requestType=getBidOrders&asset=%s&firstIndex=0&lastIndex=0",NXTnodes[rand() % (sizeof(NXTnodes)/sizeof(*NXTnodes))],assetid); if ( (retstr= issue_curlt(url,LP_HTTP_TIMEOUT)) != 0 ) { bid = cJSON_Parse(retstr); free(retstr); } sprintf(url,"http://%s:7876/nxt?=%%2Fnxt&requestType=getAskOrders&asset=%s&firstIndex=0&lastIndex=0",NXTnodes[rand() % (sizeof(NXTnodes)/sizeof(*NXTnodes))],assetid); if ( (retstr= issue_curlt(url,LP_HTTP_TIMEOUT)) != 0 ) { ask = cJSON_Parse(retstr); free(retstr); } retjson = cJSON_CreateObject(); if ( bid != 0 && ask != 0 ) { if ( (array= jarray(&n,bid,"bidOrders")) != 0 ) jadd(retjson,"bid",jduplicate(jitem(array,0))); if ( (array= jarray(&n,ask,"askOrders")) != 0 ) jadd(retjson,"ask",jduplicate(jitem(array,0))); } if ( bid != 0 ) free_json(bid); if ( ask != 0 ) free_json(ask); return(retjson); } int32_t LP_getheight(struct iguana_info *coin) { cJSON *retjson; char *method = "getinfo"; int32_t height; if ( coin == 0 ) return(-1); height = coin->height; if ( coin->electrum == 0 && time(NULL) > coin->heighttime+60 ) { if ( strcmp(coin->symbol,"BTC") == 0 ) method = "getblockchaininfo"; if ( (retjson= bitcoin_json(coin,method,"[]")) != 0 ) { coin->height = height = jint(retjson,"blocks"); free_json(retjson); coin->heighttime = (uint32_t)time(NULL); } } return(height); } cJSON *LP_getmempool(char *symbol,char *coinaddr) { cJSON *array; struct iguana_info *coin; if ( symbol == 0 || symbol[0] == 0 ) return(cJSON_Parse("{\"error\":\"null symbol\"}")); coin = LP_coinfind(symbol); if ( coin == 0 || (coin->electrum != 0 && coinaddr == 0) ) return(cJSON_Parse("{\"error\":\"no native coin\"}")); if ( coin->electrum == 0 ) return(bitcoin_json(coin,"getrawmempool","[]")); else return(electrum_address_getmempool(symbol,coin->electrum,&array,coinaddr)); } cJSON *LP_paxprice(char *fiat) { char buf[128],lfiat[65]; struct iguana_info *coin = LP_coinfind("KMD"); strcpy(lfiat,fiat); tolowercase(lfiat); sprintf(buf,"[\"%s\", \"kmd\"]",lfiat); return(bitcoin_json(coin,"paxprice",buf)); } cJSON *LP_gettx(char *symbol,bits256 txid) { char buf[128],str[65],*hexstr; int32_t len; bits256 checktxid; cJSON *retjson; struct iguana_info *coin; struct iguana_msgtx msgtx; uint8_t *extraspace,*serialized; if ( symbol == 0 || symbol[0] == 0 ) return(cJSON_Parse("{\"error\":\"null symbol\"}")); coin = LP_coinfind(symbol); if ( coin == 0 ) return(cJSON_Parse("{\"error\":\"no coin\"}")); if ( bits256_nonz(txid) == 0 ) return(cJSON_Parse("{\"error\":\"null txid\"}")); if ( coin->electrum == 0 ) { sprintf(buf,"[\"%s\", 1]",bits256_str(str,txid)); return(bitcoin_json(coin,"getrawtransaction",buf)); } else { sprintf(buf,"[\"%s\"]",bits256_str(str,txid)); if ( (retjson= bitcoin_json(coin,"blockchain.transaction.get",buf)) != 0 ) { hexstr = jprint(retjson,1); if ( strlen(hexstr) > 10000 ) { static uint32_t counter; if ( counter++ < 3 ) printf("rawtransaction too big %d\n",(int32_t)strlen(hexstr)); free(hexstr); return(cJSON_Parse("{\"error\":\"transaction too big\"}")); } if ( hexstr[0] == '"' && hexstr[strlen(hexstr)-1] == '"' ) hexstr[strlen(hexstr)-1] = 0; if ( (len= is_hexstr(hexstr+1,0)) > 2 ) { memset(&msgtx,0,sizeof(msgtx)); len = (int32_t)strlen(hexstr+1) >> 1; serialized = malloc(len); decode_hex(serialized,len,hexstr+1); free(hexstr); //printf("DATA.(%s)\n",hexstr+1); extraspace = calloc(1,1000000); retjson = bitcoin_data2json(coin->taddr,coin->pubtype,coin->p2shtype,coin->isPoS,coin->height,&checktxid,&msgtx,extraspace,1000000,serialized,len,0,0); free(serialized); free(extraspace); //printf("TX.(%s) match.%d\n",jprint(retjson,0),bits256_cmp(txid,checktxid)); return(retjson); } else printf("non-hex tx.(%s)\n",hexstr); free(hexstr); return(cJSON_Parse("{\"error\":\"non hex transaction\"}")); } else printf("failed blockchain.transaction.get %s %s\n",coin->symbol,buf); return(cJSON_Parse("{\"error\":\"no transaction bytes\"}")); } } cJSON *LP_gettxout(char *symbol,bits256 txid,int32_t vout) { char buf[128],str[65],coinaddr[64],*hexstr; uint64_t value; uint8_t *serialized; cJSON *sobj,*addresses,*item,*array,*hexobj,*retjson=0; int32_t i,n,v,len; bits256 t; struct iguana_info *coin; if ( symbol == 0 || symbol[0] == 0 ) return(cJSON_Parse("{\"error\":\"null symbol\"}")); coin = LP_coinfind(symbol); if ( coin == 0 ) return(cJSON_Parse("{\"error\":\"no coin\"}")); if ( bits256_nonz(txid) == 0 ) return(cJSON_Parse("{\"error\":\"null txid\"}")); if ( coin->electrum == 0 ) { sprintf(buf,"[\"%s\", %d, true]",bits256_str(str,txid),vout); return(bitcoin_json(coin,"gettxout",buf)); } else { printf("gettxout v%d\n",vout); sprintf(buf,"[\"%s\"]",bits256_str(str,txid)); if ( (hexobj= bitcoin_json(coin,"blockchain.transaction.get",buf)) != 0 ) { hexstr = jprint(hexobj,1); if ( strlen(hexstr) > 10000 ) { static uint32_t counter; if ( counter++ < 3 ) printf("rawtransaction too big %d\n",(int32_t)strlen(hexstr)); free(hexstr); return(cJSON_Parse("{\"error\":\"transaction too big\"}")); } if ( hexstr[0] == '"' && hexstr[strlen(hexstr)-1] == '"' ) hexstr[strlen(hexstr)-1] = 0; if ( (len= is_hexstr(hexstr+1,0)) > 2 ) { len = (int32_t)strlen(hexstr+1) >> 1; serialized = malloc(len); decode_hex(serialized,len,hexstr+1); LP_swap_coinaddr(coin,coinaddr,&value,serialized,len,vout); //printf("HEX.(%s) len.%d %s %.8f\n",hexstr+1,len,coinaddr,dstr(value)); free(hexstr); if ( (array= electrum_address_listunspent(coin->symbol,0,&array,coinaddr)) != 0 ) { //printf("array.(%s)\n",jprint(array,0)); if ( array != 0 && (n= cJSON_GetArraySize(array)) > 0 ) { for (i=0; ielectrum != 0 ) { retjson = cJSON_CreateObject(); jaddstr(retjson,"address",address); bitcoin_addr2rmd160(coin->taddr,&addrtype,rmd160,address); bitcoin_address(checkaddr,coin->taddr,addrtype,rmd160,20); jadd(retjson,"isvalid",strcmp(address,checkaddr)==0? cJSON_CreateTrue() : cJSON_CreateFalse()); if ( addrtype == coin->pubtype ) { strcpy(script,"76a914"); for (i=0; i<20; i++) sprintf(&script[i*2+6],"%02x",rmd160[i]); script[i*2+6] = 0; strcat(script,"88ac"); jaddstr(retjson,"scriptPubKey",script); } bitcoin_address(coinaddr,coin->taddr,coin->pubtype,G.LP_myrmd160,20); jadd(retjson,"ismine",strcmp(address,coin->smartaddr) == 0 ? cJSON_CreateTrue() : cJSON_CreateFalse()); jadd(retjson,"iswatchonly",cJSON_CreateFalse()); jadd(retjson,"isscript",addrtype == coin->p2shtype ? cJSON_CreateTrue() : cJSON_CreateFalse()); return(retjson); } else { sprintf(buf,"[\"%s\"]",address); return(bitcoin_json(coin,"validateaddress",buf)); } } int32_t LP_address_ismine(char *symbol,char *address) { int32_t doneflag = 0; cJSON *retjson; if ( symbol == 0 || symbol[0] == 0 ) return(0); if ( (retjson= LP_validateaddress(symbol,address)) != 0 ) { if ( jobj(retjson,"ismine") != 0 && is_cJSON_True(jobj(retjson,"ismine")) != 0 ) { doneflag = 1; //printf("%s ismine (%s)\n",address,jprint(retjson,0)); } //printf("%s\n",jprint(retjson,0)); free_json(retjson); } return(doneflag); } cJSON *LP_listunspent(char *symbol,char *coinaddr) { char buf[128]; cJSON *retjson; struct iguana_info *coin; if ( symbol == 0 || symbol[0] == 0 ) return(cJSON_Parse("{\"error\":\"null symbol\"}")); coin = LP_coinfind(symbol); //printf("LP_listunspent.(%s %s)\n",symbol,coinaddr); if ( coin == 0 || coin->inactive != 0 ) return(cJSON_Parse("{\"error\":\"no coin\"}")); if ( coin->electrum == 0 ) { if ( LP_address_ismine(symbol,coinaddr) > 0 ) { sprintf(buf,"[0, 99999999, [\"%s\"]]",coinaddr); return(bitcoin_json(coin,"listunspent",buf)); } else return(LP_address_utxos(coin,coinaddr,0)); } else return(electrum_address_listunspent(symbol,coin->electrum,&retjson,coinaddr)); } int32_t LP_listunspent_issue(char *symbol,char *coinaddr) { struct iguana_info *coin; int32_t n = 0; cJSON *retjson=0; char *retstr=0,destip[64]; uint16_t destport; if ( symbol == 0 || symbol[0] == 0 ) return(0); if ( (coin= LP_coinfind(symbol)) != 0 ) { if ( coin->electrum != 0 ) retjson = electrum_address_listunspent(symbol,coin->electrum,&retjson,coinaddr); else { if ( strcmp(coin->smartaddr,coinaddr) == 0 ) { retjson = LP_listunspent(symbol,coinaddr); //printf("SELF_LISTUNSPENT.(%s %s)\n",symbol,coinaddr); } else if ( (destport= LP_randpeer(destip)) > 0 ) { retstr = issue_LP_listunspent(destip,destport,symbol,coinaddr); retjson = cJSON_Parse(retstr); } else printf("LP_listunspent_issue couldnt get a random peer?\n"); if ( retjson != 0 ) { n = cJSON_GetArraySize(retjson); if ( electrum_process_array(coin,0,coinaddr,retjson) != 0 ) LP_postutxos(symbol,coinaddr); // might be good to not saturate } } //printf("issue listunspent %s (%s)\n",coinaddr,jprint(retjson,0)); if ( retjson != 0 ) free_json(retjson); if ( retstr != 0 ) free(retstr); } return(n); } cJSON *LP_importprivkey(char *symbol,char *wifstr,char *label,int32_t flag) { static void *ctx; char buf[512],address[64]; cJSON *retjson; struct iguana_info *coin; int32_t doneflag = 0; if ( symbol == 0 || symbol[0] == 0 ) return(cJSON_Parse("{\"error\":\"null symbol\"}")); coin = LP_coinfind(symbol); if ( coin == 0 ) return(cJSON_Parse("{\"error\":\"no coin\"}")); if ( coin->electrum != 0 ) return(cJSON_Parse("{\"result\":\"electrum should have local wallet\"}")); if ( ctx == 0 ) ctx = bitcoin_ctx(); bitcoin_wif2addr(ctx,coin->wiftaddr,coin->taddr,coin->pubtype,address,wifstr); if ( (retjson= LP_validateaddress(symbol,address)) != 0 ) { if ( jobj(retjson,"ismine") != 0 && is_cJSON_True(jobj(retjson,"ismine")) != 0 ) { doneflag = 1; //printf("%s already ismine\n",address); } //printf("%s\n",jprint(retjson,0)); free_json(retjson); } if ( doneflag == 0 ) { if ( coin->noimportprivkey_flag != 0 ) sprintf(buf,"[\"%s\"]",wifstr); else sprintf(buf,"\"%s\", \"%s\", %s",wifstr,label,flag < 0 ? "false" : "true"); return(bitcoin_json(coin,"importprivkey",buf)); } else return(cJSON_Parse("{\"result\":\"success\"}")); } int32_t LP_importaddress(char *symbol,char *address) { char buf[1024],*retstr; cJSON *validatejson; int32_t isvalid=0,doneflag = 0; struct iguana_info *coin; if ( symbol == 0 || symbol[0] == 0 ) return(-2); coin = LP_coinfind(symbol); if ( coin == 0 ) return(-2); if ( coin->electrum != 0 ) { /*if ( (retjson= electrum_address_subscribe(symbol,coin->electrum,&retjson,address)) != 0 ) { printf("importaddress.(%s) -> %s\n",address,jprint(retjson,0)); free_json(retjson); }*/ return(0); } else { if ( (validatejson= LP_validateaddress(symbol,address)) != 0 ) { if ( (isvalid= is_cJSON_True(jobj(validatejson,"isvalid")) != 0) != 0 ) { if ( is_cJSON_True(jobj(validatejson,"iswatchonly")) != 0 || is_cJSON_True(jobj(validatejson,"ismine")) != 0 ) doneflag = 1; } free_json(validatejson); } if ( isvalid == 0 ) return(-1); if ( doneflag != 0 ) return(0); // success sprintf(buf,"[\"%s\", \"%s\", false]",address,address); if ( (retstr= bitcoind_passthru(symbol,coin->serverport,coin->userpass,"importaddress",buf)) != 0 ) { //printf("importaddress.(%s %s) -> (%s)\n",symbol,address,retstr); free(retstr); } //else printf("importaddress.(%s %s)\n",symbol,address); return(1); } } double LP_getestimatedrate(struct iguana_info *coin) { char buf[512],*retstr; double rate = 0.00000020; if ( coin == 0 ) return(0.0001); if ( (strcmp(coin->symbol,"BTC") == 0 || coin->txfee == 0) ) { if ( coin->rate == 0. || time(NULL) > coin->ratetime+60 ) { sprintf(buf,"[%d]",6); if ( (retstr= LP_apicall(coin,coin->electrum==0?"estimatefee" : "blockchain.estimatefee",buf)) != 0 ) { if ( retstr[0] != '-' ) { rate = atof(retstr) / 1024.; if ( rate < 0.00000020 ) rate = 0.00000020; coin->rate = rate * 1.25; coin->ratetime = (uint32_t)time(NULL); if ( (rand() % 10) == 0 ) printf("estimated rate.(%s) %s -> %.8f\n",coin->symbol,retstr,rate); } free(retstr); } } else rate = coin->rate; } else return((double)coin->txfee / LP_AVETXSIZE); return(SATOSHIDEN * rate); } char *LP_sendrawtransaction(char *symbol,char *signedtx) { cJSON *array; char *paramstr,*tmpstr,*retstr=0; int32_t n; cJSON *retjson; struct iguana_info *coin; if ( symbol == 0 || symbol[0] == 0 ) return(0); coin = LP_coinfind(symbol); if ( coin == 0 ) return(0); if ( coin->electrum == 0 ) { array = cJSON_CreateArray(); jaddistr(array,signedtx); paramstr = jprint(array,1); retstr = bitcoind_passthru(symbol,coin->serverport,coin->userpass,"sendrawtransaction",paramstr); //printf(">>>>>>>>>>> %s dpow_sendrawtransaction.(%s) -> (%s)\n",coin->symbol,paramstr,retstr); free(paramstr); } else { if ( (retjson= electrum_sendrawtransaction(symbol,coin->electrum,&retjson,signedtx)) != 0 ) { retstr = jprint(retjson,1); printf("electrum sendrawtx.(%s) -> %s\n",signedtx,retstr); n = (int32_t)strlen(retstr); if ( retstr[0] == '"' && retstr[n-1] == '"' ) { retstr[n-1] = 0; tmpstr = clonestr(retstr+1); free(retstr); retstr = tmpstr; } } } return(retstr); } char *LP_signrawtx(char *symbol,bits256 *signedtxidp,int32_t *completedp,cJSON *vins,char *rawtx,cJSON *privkeys,struct vin_info *V) { cJSON *array,*json,*retjson; int32_t len; uint8_t *data; char str[65],*paramstr,*retstr,*hexstr,*signedtx=0; struct iguana_msgtx msgtx; struct iguana_info *coin; if ( symbol == 0 || symbol[0] == 0 ) return(0); coin = LP_coinfind(symbol); memset(signedtxidp,0,sizeof(*signedtxidp)); *completedp = 0; if ( coin == 0 ) { printf("LP_signrawtx cant find coin.(%s)\n",symbol); return(0); } //int32_t iguana_signrawtransaction(void *ctx,char *symbol,uint8_t wiftaddr,uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,uint8_t isPoS,int32_t height,struct iguana_msgtx *msgtx,char **signedtxp,bits256 *signedtxidp,struct vin_info *V,int32_t numinputs,char *rawtx,cJSON *vins,cJSON *privkeysjson) memset(&msgtx,0,sizeof(msgtx)); signedtx = 0; memset(signedtxidp,0,sizeof(*signedtxidp)); //printf("locktime.%u sequenceid.%x rawtx.(%s) vins.(%s)\n",locktime,sequenceid,rawtxbytes,jprint(vins,0)); if ( (*completedp= iguana_signrawtransaction(coin->ctx,symbol,coin->wiftaddr,coin->taddr,coin->pubtype,coin->p2shtype,coin->isPoS,1000000,&msgtx,&signedtx,signedtxidp,V,16,rawtx,vins,privkeys)) < 0 ) //if ( (signedtx= LP_signrawtx(symbol,signedtxidp,&completed,vins,rawtxbytes,privkeys,V)) == 0 ) printf("couldnt sign transaction.%s %s\n",rawtx,bits256_str(str,*signedtxidp)); else if ( *completedp == 0 ) { printf("incomplete signing %s (%s)\n",rawtx,jprint(vins,0)); if ( signedtx != 0 ) free(signedtx), signedtx = 0; } else printf("basilisk_swap_bobtxspend %s -> %s\n",rawtx,bits256_str(str,*signedtxidp)); if ( signedtx == 0 ) { retjson = cJSON_CreateObject(); jaddstr(retjson,"error","couldnt sign tx"); jaddstr(retjson,"coin",coin->symbol); jaddstr(retjson,"rawtx",rawtx); jadd(retjson,"vins",vins); jadd(retjson,"privkeys",privkeys); return(jprint(retjson,1)); } return(signedtx); array = cJSON_CreateArray(); jaddistr(array,rawtx); jaddi(array,jduplicate(vins)); jaddi(array,jduplicate(privkeys)); paramstr = jprint(array,1); //printf("signrawtransaction\n"); if ( (retstr= bitcoind_passthru(symbol,coin->serverport,coin->userpass,"signrawtransaction",paramstr)) != 0 ) { if ( (json= cJSON_Parse(retstr)) != 0 ) { if ( (hexstr= jstr(json,"hex")) != 0 ) { len = (int32_t)strlen(hexstr); signedtx = calloc(1,len+1); strcpy(signedtx,hexstr); *completedp = is_cJSON_True(jobj(json,"complete")); len >>= 1; data = malloc(len); decode_hex(data,len,hexstr); *signedtxidp = bits256_doublesha256(0,data,len); } //else printf("%s signrawtransaction.(%s) params.(%s)\n",coin->symbol,retstr,paramstr); free_json(json); } free(retstr); } free(paramstr); return(signedtx); } cJSON *LP_getblock(char *symbol,bits256 txid) { char buf[128],str[65]; struct iguana_info *coin; if ( symbol == 0 || symbol[0] == 0 ) return(cJSON_Parse("{\"error\":\"null symbol\"}")); coin = LP_coinfind(symbol); if ( coin == 0 || coin->electrum != 0 ) return(cJSON_Parse("{\"error\":\"no native coin\"}")); sprintf(buf,"[\"%s\"]",bits256_str(str,txid)); return(bitcoin_json(coin,"getblock",buf)); } // not in electrum path uint64_t LP_txfee(char *symbol) { uint64_t txfee = 0; if ( symbol == 0 || symbol[0] == 0 ) return(LP_MIN_TXFEE); if ( strcmp(symbol,"BTC") != 0 ) txfee = LP_MIN_TXFEE; return(txfee); } char *LP_blockhashstr(char *symbol,int32_t height) { cJSON *array; char *paramstr,*retstr; struct iguana_info *coin; if ( symbol == 0 || symbol[0] == 0 ) return(0); coin = LP_coinfind(symbol); if ( coin == 0 || coin->electrum != 0 ) return(0); array = cJSON_CreateArray(); jaddinum(array,height); paramstr = jprint(array,1); retstr = bitcoind_passthru(symbol,coin->serverport,coin->userpass,"getblockhash",paramstr); free(paramstr); return(retstr); } cJSON *LP_getblockhashstr(char *symbol,char *blockhashstr) { char buf[128]; struct iguana_info *coin; if ( symbol == 0 || symbol[0] == 0 ) return(cJSON_Parse("{\"error\":\"null symbol\"}")); coin = LP_coinfind(symbol); if ( coin == 0 || coin->electrum != 0 ) return(cJSON_Parse("{\"error\":\"no native coin daemon\"}")); sprintf(buf,"[\"%s\"]",blockhashstr); return(bitcoin_json(coin,"getblock",buf)); } cJSON *LP_blockjson(int32_t *heightp,char *symbol,char *blockhashstr,int32_t height) { cJSON *json = 0; int32_t flag = 0; struct iguana_info *coin; if ( symbol == 0 || symbol[0] == 0 ) return(cJSON_Parse("{\"error\":\"null symbol\"}")); coin = LP_coinfind(symbol); if ( coin == 0 || coin->electrum != 0 ) { printf("unexpected electrum path for %s\n",symbol); return(0); } if ( blockhashstr == 0 ) blockhashstr = LP_blockhashstr(symbol,height), flag = 1; if ( blockhashstr != 0 ) { if ( (json= LP_getblockhashstr(symbol,blockhashstr)) != 0 ) { if ( *heightp != 0 ) { *heightp = juint(json,"height"); if ( height >= 0 && *heightp != height ) { printf("unexpected height %d vs %d for %s (%s)\n",*heightp,height,blockhashstr,jprint(json,0)); *heightp = -1; free_json(json); json = 0; } } } if ( flag != 0 && blockhashstr != 0 ) free(blockhashstr); } return(json); }