/****************************************************************************** * Copyright © 2014-2018 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. * * * ******************************************************************************/ /** * - we need to include WinSock2.h header to correctly use windows structure * as the application is still using 32bit structure from mingw so, we need to * add the include based on checking * @author - fadedreamz@gmail.com * @remarks - #if (defined(_M_X64) || defined(__amd64__)) && defined(WIN32) * is equivalent to #if defined(_M_X64) as _M_X64 is defined for MSVC only */ #if defined(_M_X64) #define WIN32_LEAN_AND_MEAN #include #endif #ifdef _WIN32 #include #endif int32_t set_blocking_mode(int32_t sock,int32_t is_blocking) // from https://stackoverflow.com/questions/2149798/how-to-reset-a-socket-back-to-blocking-mode-after-i-set-it-to-nonblocking-mode?utm_medium=organic&utm_source=google_rich_qa&utm_campaign=google_rich_qa { int32_t ret; #ifdef _WIN32 /// @note windows sockets are created in blocking mode by default // currently on windows, there is no easy way to obtain the socket's current blocking mode since WSAIsBlocking was deprecated u_long non_blocking = is_blocking ? 0 : 1; ret = (NO_ERROR == ioctlsocket(sock,FIONBIO,&non_blocking)); #else const int flags = fcntl(sock, F_GETFL, 0); if ((flags & O_NONBLOCK) && !is_blocking) { fprintf(stderr,"set_blocking_mode(): socket was already in non-blocking mode\n"); return ret; } if (!(flags & O_NONBLOCK) && is_blocking) { fprintf(stderr,"set_blocking_mode(): socket was already in blocking mode\n"); return ret; } ret = (0 == fcntl(sock, F_SETFL, is_blocking ? (flags ^ O_NONBLOCK) : (flags | O_NONBLOCK))); #endif if ( ret == 0 ) return(-1); else return(0); } int32_t komodo_connect(int32_t sock,struct sockaddr *saddr,socklen_t addrlen) { struct timeval tv; fd_set wfd,efd; int32_t res,so_error; socklen_t len; #ifdef _WIN32 set_blocking_mode(sock, 0); #else fcntl(sock, F_SETFL, O_NONBLOCK); #endif // _WIN32 res = connect(sock,saddr,addrlen); if ( res == -1 ) { #ifdef _WIN32 // https://msdn.microsoft.com/en-us/library/windows/desktop/ms737625%28v=vs.85%29.aspx - read about WSAEWOULDBLOCK return errno = WSAGetLastError(); printf("[Decker] errno.%d --> ", errno); if ( errno != EINPROGRESS && errno != WSAEWOULDBLOCK ) // connect failed, do something... #else if ( errno != EINPROGRESS ) // connect failed, do something... #endif { printf("close socket ...\n"); closesocket(sock); return(-1); } //printf("continue with select ...\n"); FD_ZERO(&wfd); FD_SET(sock,&wfd); FD_ZERO(&efd); FD_SET(sock,&efd); tv.tv_sec = 10; tv.tv_usec = 0; res = select(sock+1,NULL,&wfd,&efd,&tv); if ( res == -1 ) // select failed, do something... { closesocket(sock); return(-1); } if ( res == 0 ) // connect timed out... { closesocket(sock); return(-1); } if ( FD_ISSET(sock,&efd) ) { // connect failed, do something... getsockopt(sock,SOL_SOCKET,SO_ERROR,&so_error,&len); closesocket(sock); return(-1); } } set_blocking_mode(sock,1); return(0); } int32_t LP_socket(int32_t bindflag,char *hostname,uint16_t port) { int32_t opt,sock,result; char ipaddr[64],checkipaddr[64]; struct timeval timeout; struct sockaddr_in saddr; socklen_t addrlen,slen; addrlen = sizeof(saddr); struct hostent *hostent; /** * gethostbyname() is deprecated and cause crash on x64 windows * the solution is to implement similar functionality by using getaddrinfo() * it is standard posix function and is correctly supported in win32/win64/linux * @author - fadedreamz@gmail.com */ #if defined(_M_X64) struct addrinfo *addrresult = NULL; struct addrinfo *returnptr = NULL; struct addrinfo hints; struct sockaddr_in * sockaddr_ipv4; int retVal; int found = 0; memset(&hints, 0, sizeof(hints)); hints.ai_family = AF_INET; hints.ai_socktype = SOCK_STREAM; hints.ai_protocol = IPPROTO_TCP; #endif if ( parse_ipaddr(ipaddr,hostname) != 0 ) port = parse_ipaddr(ipaddr,hostname); #if defined(_M_X64) retVal = getaddrinfo(ipaddr, NULL, &hints, &addrresult); for (returnptr = addrresult; returnptr != NULL && found == 0; returnptr = returnptr->ai_next) { switch (returnptr->ai_family) { case AF_INET: sockaddr_ipv4 = (struct sockaddr_in *) returnptr->ai_addr; // we want to break from the loop after founding the first ipv4 address found = 1; break; } } // if we iterate through the loop and didn't find anything, // that means we failed in the dns lookup if (found == 0) { printf("getaddrinfo(%s) returned error\n", hostname); freeaddrinfo(addrresult); return(-1); } #else hostent = gethostbyname(ipaddr); if ( hostent == NULL ) { printf("gethostbyname(%s) returned error: %d port.%d ipaddr.(%s)\n",hostname,errno,port,ipaddr); return(-1); } #endif saddr.sin_family = AF_INET; saddr.sin_port = htons(port); //#ifdef _WIN32 // saddr.sin_addr.s_addr = (uint32_t)calc_ipbits("127.0.0.1"); //#else #if defined(_M_X64) saddr.sin_addr.s_addr = sockaddr_ipv4->sin_addr.s_addr; // graceful cleanup sockaddr_ipv4 = NULL; freeaddrinfo(addrresult); #else memcpy(&saddr.sin_addr.s_addr,hostent->h_addr_list[0],hostent->h_length); #endif expand_ipbits(checkipaddr,saddr.sin_addr.s_addr); if ( strcmp(ipaddr,checkipaddr) != 0 ) printf("bindflag.%d iguana_socket mismatch (%s) -> (%s)\n",bindflag,checkipaddr,ipaddr); //#endif if ( (sock= socket(AF_INET,SOCK_STREAM,0)) < 0 ) { if ( errno != ETIMEDOUT ) printf("socket() failed: %s errno.%d", strerror(errno),errno); return(-1); } opt = 1; slen = sizeof(opt); //printf("set keepalive.%d\n",setsockopt(sock,SOL_SOCKET,SO_KEEPALIVE,(void *)&opt,slen)); #ifndef _WIN32 if ( 1 )//&& bindflag != 0 ) { opt = 0; getsockopt(sock,SOL_SOCKET,SO_KEEPALIVE,(void *)&opt,&slen); opt = 1; //printf("keepalive.%d\n",opt); } setsockopt(sock,SOL_SOCKET,SO_REUSEADDR,(void *)&opt,sizeof(opt)); #ifdef __APPLE__ setsockopt(sock,SOL_SOCKET,SO_NOSIGPIPE,&opt,sizeof(opt)); #endif #endif if ( bindflag == 0 ) { //#ifdef _WIN32 if ( 1 ) // connect using async to allow timeout, then switch to sync { uint32_t starttime = (uint32_t)time(NULL); //printf("call connect sock.%d\n",sock); result = komodo_connect(sock,(struct sockaddr *)&saddr,addrlen); //printf("called connect result.%d lag.%d\n",result,(int32_t)(time(NULL) - starttime)); if ( result < 0 ) return(-1); timeout.tv_sec = 10; timeout.tv_usec = 0; setsockopt(sock,SOL_SOCKET,SO_RCVTIMEO,(void *)&timeout,sizeof(timeout)); } //#else else { result = connect(sock,(struct sockaddr *)&saddr,addrlen); if ( result != 0 ) { if ( errno != ECONNRESET && errno != ENOTCONN && errno != ECONNREFUSED && errno != ETIMEDOUT && errno != EHOSTUNREACH ) { //printf("%s(%s) port.%d failed: %s sock.%d. errno.%d\n",bindflag!=0?"bind":"connect",hostname,port,strerror(errno),sock,errno); } if ( sock >= 0 ) closesocket(sock); return(-1); } } //#endif } else { while ( (result= bind(sock,(struct sockaddr*)&saddr,addrlen)) != 0 ) { if ( errno == EADDRINUSE ) { sleep(1); printf("ERROR BINDING PORT.%d. this is normal tcp timeout, unless another process is using port\n",port); fflush(stdout); sleep(3); printf("%s(%s) port.%d try again: %s sock.%d. errno.%d\n",bindflag!=0?"bind":"connect",hostname,port,strerror(errno),sock,errno); if ( bindflag == 1 ) { closesocket(sock); return(-1); } sleep(13); //continue; } if ( errno != ECONNRESET && errno != ENOTCONN && errno != ECONNREFUSED && errno != ETIMEDOUT && errno != EHOSTUNREACH ) { printf("%s(%s) port.%d failed: %s sock.%d. errno.%d\n",bindflag!=0?"bind":"connect",hostname,port,strerror(errno),sock,errno); closesocket(sock); return(-1); } } if ( listen(sock,64) != 0 ) { printf("listen(%s) port.%d failed: %s sock.%d. errno.%d\n",hostname,port,strerror(errno),sock,errno); if ( sock >= 0 ) closesocket(sock); return(-1); } } #ifdef __APPLE__ //timeout.tv_sec = 0; //timeout.tv_usec = 30000; //setsockopt(sock,SOL_SOCKET,SO_RCVTIMEO,(void *)&timeout,sizeof(timeout)); timeout.tv_sec = 0; timeout.tv_usec = 10000; setsockopt(sock,SOL_SOCKET,SO_SNDTIMEO,(void *)&timeout,sizeof(timeout)); #endif return(sock); } int32_t LP_socketsend(int32_t sock,uint8_t *serialized,int32_t len) { int32_t numsent,remains,flags = 0; #ifndef _WIN32 flags = MSG_NOSIGNAL; #endif remains = len; while ( sock >= 0 && remains > 0 ) { if ( (numsent= (int32_t)send(sock,serialized,remains,flags)) < 0 ) { if ( errno == EAGAIN || errno == EWOULDBLOCK ) { sleep(1); continue; } printf("(%s): numsent.%d vs remains.%d len.%d errno.%d (%s) usock.%d\n",serialized,numsent,remains,len,errno,strerror(errno),sock); return(-errno); } else if ( remains > 0 ) { remains -= numsent; serialized += numsent; if ( remains > 0 ) printf("%d LP_socket sent.%d remains.%d of len.%d\n",sock,numsent,remains,len); } //printf("numsent.%d vs remains.%d len.%d sock.%d\n",numsent,remains,len,sock); } return(len); } int32_t LP_socketrecv(int32_t sock,uint8_t *recvbuf,int32_t maxlen) { int32_t recvlen = -1; while ( sock >= 0 ) { if ( (recvlen= (int32_t)recv(sock,recvbuf,maxlen,0)) < 0 ) { if ( errno == EAGAIN ) { //printf("%s recv errno.%d %s len.%d remains.%d\n",ipaddr,errno,strerror(errno),len,remains); //printf("EAGAIN for len %d, remains.%d\n",len,remains); sleep(1); } else return(-errno); } else break; } return(recvlen); } struct electrum_info *Electrums[8192]; int32_t Num_electrums; struct electrum_info *electrum_server(char *symbol,struct electrum_info *ep) { struct electrum_info *rbuf[128],*recent_ep; uint32_t recent,mostrecent = 0; int32_t i,n = 0; portable_mutex_lock(&LP_electrummutex); if ( ep == 0 ) { //printf("find random electrum.%s from %d\n",symbol,Num_electrums); memset(rbuf,0,sizeof(rbuf)); recent_ep = 0; recent = (uint32_t)time(NULL) - 300; for (i=0; isymbol) == 0 && ep->sock >= 0 ) { if ( ep->lasttime > recent ) { rbuf[n++] = ep; if ( n == sizeof(rbuf)/sizeof(*rbuf) ) break; } else if ( ep->lasttime > mostrecent ) { mostrecent = ep->lasttime; recent_ep = ep; } } } ep = recent_ep; if ( n > 0 ) { i = (LP_rand() % n); ep = rbuf[i]; } } else if ( Num_electrums < sizeof(Electrums)/sizeof(*Electrums) ) Electrums[Num_electrums++] = ep; else printf("Electrum server pointer buf overflow %d\n",Num_electrums); portable_mutex_unlock(&LP_electrummutex); return(ep); } int32_t electrum_process_array(struct iguana_info *coin,struct electrum_info *ep,char *coinaddr,cJSON *array,int32_t electrumflag,bits256 reftxid,bits256 reftxid2) { int32_t i,v,n,ht,flag = 0; char str[65]; uint64_t value; bits256 txid; cJSON *item,*retjson,*txobj; struct LP_transaction *tx; if ( array != 0 && coin != 0 && (n= cJSON_GetArraySize(array)) > 0 ) { //printf("PROCESS %s/%s %s num.%d\n",coin->symbol,ep!=0?ep->symbol:"nanolistunspent",coinaddr,n); for (i=0; isymbol,coinaddr,txid,v)) != 0 ) free_json(retjson); else { //printf("external unspent has no gettxout\n"); flag += LP_address_utxoadd(0,(uint32_t)time(NULL),"electrum process",coin,coinaddr,txid,v,value,0,1); } } else { txid = jbits256(item,"tx_hash"); v = jint(item,"tx_pos"); value = j64bits(item,"value"); ht = jint(item,"height"); } if ( bits256_nonz(txid) == 0 ) continue; if ( (tx= LP_transactionfind(coin,txid)) == 0 ) { if ( (bits256_nonz(reftxid) == 0 || bits256_cmp(reftxid,txid) == 0) && (bits256_nonz(reftxid2) == 0 || bits256_cmp(reftxid2,txid) == 0) ) { txobj = LP_transactioninit(coin,txid,0,0); LP_transactioninit(coin,txid,1,txobj); free_json(txobj); tx = LP_transactionfind(coin,txid); } } if ( tx != 0 ) { if (tx->height <= 0 ) { tx->height = ht; if ( ep != 0 && coin != 0 && tx->SPV == 0 ) { if ( 0 && strcmp(coinaddr,coin->smartaddr) == 0 ) tx->SPV = LP_merkleproof(coin,coin->smartaddr,ep,txid,tx->height); //printf("%s %s >>>>>>>>>> set %s <- height %d\n",coin->symbol,coinaddr,bits256_str(str,txid),tx->height); } } if ( v >= 0 && v < tx->numvouts ) { if ( tx->outpoints[v].value == 0 && value != tx->outpoints[v].value ) { printf("%s %s >>>>>>>>>> set %s/v%d <- %.8f vs %.8f\n",coin->symbol,coinaddr,bits256_str(str,txid),v,dstr(value),dstr(tx->outpoints[v].value)); tx->outpoints[v].value = value; } } if ( tx->height > 0 ) { //printf("from electrum_process_array\n"); flag += LP_address_utxoadd(0,(uint32_t)time(NULL),"electrum process2",coin,coinaddr,txid,v,value,tx->height,-1); } //printf("v.%d numvouts.%d %.8f (%s)\n",v,tx->numvouts,dstr(tx->outpoints[jint(item,"tx_pos")].value),jprint(item,0)); } //else printf("cant find tx\n"); } } return(flag); } cJSON *electrum_version(char *symbol,struct electrum_info *ep,cJSON **retjsonp); cJSON *electrum_headers_subscribe(char *symbol,struct electrum_info *ep,cJSON **retjsonp); struct stritem *electrum_sitem(struct electrum_info *ep,char *stratumreq,int32_t timeout,cJSON **retjsonp) { struct stritem *sitem = (struct stritem *)queueitem(stratumreq); sitem->expiration = timeout; sitem->DL.type = ep->stratumid++; sitem->retptrp = (void **)retjsonp; queue_enqueue("sendQ",&ep->sendQ,&sitem->DL); return(sitem); } void electrum_initial_requests(struct electrum_info *ep) { cJSON *retjson; char stratumreq[1024]; retjson = 0; sprintf(stratumreq,"{ \"jsonrpc\":\"2.0\", \"id\": %u, \"method\":\"%s\", \"params\": %s }\n",ep->stratumid,"blockchain.headers.subscribe","[]"); electrum_sitem(ep,stratumreq,3,&retjson); retjson = 0; sprintf(stratumreq,"{ \"jsonrpc\":\"2.0\", \"id\": %u, \"method\":\"%s\", \"params\": %s }\n",ep->stratumid,"server.version","[\"barterDEX\", [\"1.1\", \"1.1\"]]"); electrum_sitem(ep,stratumreq,3,&retjson); retjson = 0; sprintf(stratumreq,"{ \"jsonrpc\":\"2.0\", \"id\": %u, \"method\":\"%s\", \"params\": %s }\n",ep->stratumid,"blockchain.estimatefee","[2]"); electrum_sitem(ep,stratumreq,3,&retjson); } int32_t electrum_kickstart(struct electrum_info *ep) { closesocket(ep->sock);//, ep->sock = -1; if ( (ep->sock= LP_socket(0,ep->ipaddr,ep->port)) < 0 ) { printf("error RE-connecting to %s:%u\n",ep->ipaddr,ep->port); return(-1); } else { ep->stratumid = 0; electrum_initial_requests(ep); printf("RECONNECT ep.%p %s numerrors.%d too big -> new %s:%u sock.%d\n",ep,ep->symbol,ep->numerrors,ep->ipaddr,ep->port,ep->sock); ep->numerrors = 0; } return(0); } int32_t zeroval(); cJSON *electrum_submit(char *symbol,struct electrum_info *ep,cJSON **retjsonp,char *method,char *params,int32_t timeout) { // queue id and string and callback char stratumreq[16384]; uint32_t expiration; struct stritem *sitem; if ( ep == 0 ) ep = electrum_server(symbol,0); while ( ep != 0 ) { if ( strcmp(ep->symbol,symbol) != 0 ) { printf("electrum_submit ep.%p %s %s:%u called for [%s]???\n",ep,ep->symbol,ep->ipaddr,ep->port,symbol); } if ( ep != 0 && ep->sock >= 0 && retjsonp != 0 ) { *retjsonp = 0; sprintf(stratumreq,"{ \"jsonrpc\":\"2.0\", \"id\": %u, \"method\":\"%s\", \"params\": %s }\n",ep->stratumid,method,params); //printf("timeout.%d exp.%d %s %s",timeout,(int32_t)(expiration-time(NULL)),symbol,stratumreq); memset(ep->buf,0,ep->bufsize); sitem = electrum_sitem(ep,stratumreq,timeout,retjsonp); portable_mutex_lock(&ep->mutex); // this helps performance! expiration = (uint32_t)time(NULL) + timeout + 1; while ( *retjsonp == 0 && time(NULL) <= expiration ) usleep(15000); portable_mutex_unlock(&ep->mutex); if ( *retjsonp == 0 || jobj(*retjsonp,"error") != 0 ) { if ( ++ep->numerrors >= LP_ELECTRUM_MAXERRORS ) { // electrum_kickstart(ep); seems to hurt more than help } } else if ( ep->numerrors > 0 ) ep->numerrors--; if ( ep->prev == 0 ) { if ( *retjsonp == 0 ) { //printf("unexpected %s timeout with null retjson: %s %s\n",ep->symbol,method,params); *retjsonp = cJSON_Parse("{\"error\":\"timeout\"}"); } return(*retjsonp); } } //else printf("couldnt find electrum server for (%s %s) or no retjsonp.%p\n",method,params,retjsonp); ep = ep->prev; //if ( ep != 0 ) // printf("using prev ep.%s\n",ep->symbol); } return(0); } cJSON *electrum_noargs(char *symbol,struct electrum_info *ep,cJSON **retjsonp,char *method,int32_t timeout) { cJSON *retjson; if ( retjsonp == 0 ) retjsonp = &retjson; return(electrum_submit(symbol,ep,retjsonp,method,"[]",timeout)); } cJSON *electrum_strarg(char *symbol,struct electrum_info *ep,cJSON **retjsonp,char *method,char *arg,int32_t timeout) { char params[16384]; cJSON *retjson; if ( strlen(arg) < sizeof(params) ) { if ( retjsonp == 0 ) retjsonp = &retjson; sprintf(params,"[\"%s\"]",arg); return(electrum_submit(symbol,ep,retjsonp,method,params,timeout)); } else return(0); } cJSON *electrum_jsonarg(char *symbol,struct electrum_info *ep,cJSON **retjsonp,char *method,cJSON *arg,int32_t timeout) { cJSON *retjson; if ( arg != NULL ) { if ( retjsonp == 0 ) retjsonp = &retjson; return(electrum_submit(symbol,ep,retjsonp,method,jprint(arg,0),timeout)); } else return(0); } cJSON *electrum_intarg(char *symbol,struct electrum_info *ep,cJSON **retjsonp,char *method,int32_t arg,int32_t timeout) { char params[64]; cJSON *retjson; if ( retjsonp == 0 ) retjsonp = &retjson; sprintf(params,"[\"%d\"]",arg); return(electrum_submit(symbol,ep,retjsonp,method,params,timeout)); } cJSON *electrum_hasharg(char *symbol,struct electrum_info *ep,cJSON **retjsonp,char *method,bits256 arg,int32_t timeout) { char params[128],str[65]; cJSON *retjson; if ( retjsonp == 0 ) retjsonp = &retjson; sprintf(params,"[\"%s\"]",bits256_str(str,arg)); return(electrum_submit(symbol,ep,retjsonp,method,params,timeout)); } cJSON *electrum_version(char *symbol,struct electrum_info *ep,cJSON **retjsonp) { char params[128]; cJSON *retjson; if ( retjsonp == 0 ) retjsonp = &retjson; sprintf(params,"[\"barterDEX\", [\"1.1\", \"1.1\"]]"); return(electrum_submit(symbol,ep,retjsonp,"server.version",params,ELECTRUM_TIMEOUT)); } cJSON *electrum_banner(char *symbol,struct electrum_info *ep,cJSON **retjsonp) { return(electrum_noargs(symbol,ep,retjsonp,"server.banner",ELECTRUM_TIMEOUT)); } cJSON *electrum_donation(char *symbol,struct electrum_info *ep,cJSON **retjsonp) { return(electrum_noargs(symbol,ep,retjsonp,"server.donation_address",ELECTRUM_TIMEOUT)); } cJSON *electrum_peers(char *symbol,struct electrum_info *ep,cJSON **retjsonp) { return(electrum_noargs(symbol,ep,retjsonp,"server.peers.subscribe",ELECTRUM_TIMEOUT)); } cJSON *electrum_features(char *symbol,struct electrum_info *ep,cJSON **retjsonp) { return(electrum_noargs(symbol,ep,retjsonp,"server.features",ELECTRUM_TIMEOUT)); } cJSON *electrum_headers_subscribe(char *symbol,struct electrum_info *ep,cJSON **retjsonp) { return(electrum_noargs(symbol,ep,retjsonp,"blockchain.headers.subscribe",ELECTRUM_TIMEOUT)); } cJSON *electrum_script_getbalance(char *symbol,struct electrum_info *ep,cJSON **retjsonp,char *script) { return(electrum_strarg(symbol,ep,retjsonp,"blockchain.scripthash.get_balance",script,ELECTRUM_TIMEOUT)); } cJSON *electrum_script_gethistory(char *symbol,struct electrum_info *ep,cJSON **retjsonp,char *script) { return(electrum_strarg(symbol,ep,retjsonp,"blockchain.scripthash.get_history",script,ELECTRUM_TIMEOUT)); } cJSON *electrum_script_getmempool(char *symbol,struct electrum_info *ep,cJSON **retjsonp,char *script) { return(electrum_strarg(symbol,ep,retjsonp,"blockchain.scripthash.get_mempool",script,ELECTRUM_TIMEOUT)); } cJSON *electrum_script_listunspent(char *symbol,struct electrum_info *ep,cJSON **retjsonp,char *script) { return(electrum_strarg(symbol,ep,retjsonp,"blockchain.scripthash.listunspent",script,ELECTRUM_TIMEOUT)); } cJSON *electrum_script_subscribe(char *symbol,struct electrum_info *ep,cJSON **retjsonp,char *script) { return(electrum_strarg(symbol,ep,retjsonp,"blockchain.scripthash.subscribe",script,ELECTRUM_TIMEOUT)); } cJSON *electrum_address_subscribe(char *symbol,struct electrum_info *ep,cJSON **retjsonp,char *addr) { cJSON *retjson; if ( (retjson= electrum_strarg(symbol,ep,retjsonp,"blockchain.address.subscribe",addr,ELECTRUM_TIMEOUT)) != 0 ) { //printf("subscribe.(%s)\n",jprint(retjson,0)); } return(retjson); } cJSON *electrum_scripthash_cmd(char *symbol,uint8_t taddr,struct electrum_info *ep,cJSON **retjsonp,char *cmd,char *coinaddr) { uint8_t addrtype,rmd160[20]; char btcaddr[64],cmdbuf[128]; //char scripthash[51],rmdstr[41],; bitcoin_addr2rmd160(symbol,taddr,&addrtype,rmd160,coinaddr); bitcoin_address("BTC",btcaddr,0,addrtype,rmd160,20); //init_hexbytes_noT(rmdstr,rmd160,20); //sprintf(scripthash,"%s",rmdstr); //sprintf(cmdbuf,"blockchain.scripthash.%s",cmd); sprintf(cmdbuf,"blockchain.address.%s",cmd); return(electrum_strarg(symbol,ep,retjsonp,cmdbuf,btcaddr,ELECTRUM_TIMEOUT)); } cJSON *electrum_address_gethistory(char *symbol,struct electrum_info *ep,cJSON **retjsonp,char *addr,bits256 reftxid) { char str[65]; struct LP_transaction *tx; cJSON *retjson,*txobj,*item; int32_t i,n,height; bits256 txid; struct iguana_info *coin = LP_coinfind(symbol); if ( coin == 0 ) return(0); if ( strcmp(symbol,"BCH") == 0 ) retjson = electrum_scripthash_cmd(symbol,coin->taddr,ep,retjsonp,"get_history",addr); else retjson = electrum_strarg(symbol,ep,retjsonp,"blockchain.address.get_history",addr,ELECTRUM_TIMEOUT); //printf("history.(%s)\n",jprint(retjson,0)); if ( retjson != 0 && (n= cJSON_GetArraySize(retjson)) > 0 ) { for (i=0; i 0 ) { if ( (tx= LP_transactionfind(coin,txid)) != 0 ) { if ( tx->height > 0 && tx->height != height ) printf("update %s height.%d <- %d\n",bits256_str(str,txid),tx->height,height); tx->height = height; LP_address_utxoadd(0,(uint32_t)time(NULL),"electrum history",coin,addr,txid,0,0,height,-1); } } } } } return(retjson); } int32_t LP_txheight_check(struct iguana_info *coin,char *coinaddr,bits256 txid) { cJSON *retjson; if ( coin->electrum != 0 ) { if ( (retjson= electrum_address_gethistory(coin->symbol,coin->electrum,&retjson,coinaddr,txid)) != 0 ) free_json(retjson); } return(0); } cJSON *electrum_address_getmempool(char *symbol,struct electrum_info *ep,cJSON **retjsonp,char *addr,bits256 reftxid,bits256 reftxid2) { cJSON *retjson; struct iguana_info *coin = LP_coinfind(symbol); if ( coin == 0 ) return(0); if ( strcmp(symbol,"BCH") == 0 ) retjson = electrum_scripthash_cmd(symbol,coin->taddr,ep,retjsonp,"get_mempool",addr); else retjson = electrum_strarg(symbol,ep,retjsonp,"blockchain.address.get_mempool",addr,ELECTRUM_TIMEOUT); //printf("MEMPOOL.(%s)\n",jprint(retjson,0)); electrum_process_array(coin,ep,addr,retjson,1,reftxid,reftxid2); return(retjson); } cJSON *electrum_address_listunspent(char *symbol,struct electrum_info *ep,cJSON **retjsonp,char *addr,int32_t electrumflag,bits256 txid,bits256 txid2) { cJSON *retjson=0; char *retstr; struct LP_address *ap; struct iguana_info *coin; int32_t updatedflag,height,usecache=1; if ( (coin= LP_coinfind(symbol)) == 0 ) return(0); if ( strcmp(addr,INSTANTDEX_KMD) == 0 ) return(cJSON_Parse("[]")); if ( ep == 0 || ep->heightp == 0 ) height = coin->longestchain; else height = *(ep->heightp); if ( (ap= LP_address(coin,addr)) != 0 ) { if ( ap->unspenttime == 0 ) { ap->unspenttime = (uint32_t)time(NULL); ap->unspentheight = height; usecache = 1; } else if ( ap->unspentheight < height ) usecache = 0; else if ( G.LP_pendingswaps != 0 && time(NULL) > ap->unspenttime+13 ) usecache = 0; } //usecache = 0; // disable unspents cache if ( usecache == 0 || electrumflag > 1 ) { if ( strcmp(symbol,"BCH") == 0 ) retjson = electrum_scripthash_cmd(symbol,coin->taddr,ep,retjsonp,"listunspent",addr); else retjson = electrum_strarg(symbol,ep,retjsonp,"blockchain.address.listunspent",addr,ELECTRUM_TIMEOUT); if ( retjson != 0 ) { if ( jobj(retjson,"error") == 0 && is_cJSON_Array(retjson) != 0 ) { if ( 0 && electrumflag > 1 ) printf("%s.%d u.%u/%d t.%ld %s LISTUNSPENT.(%d)\n",coin->symbol,height,ap->unspenttime,ap->unspentheight,time(NULL),addr,(int32_t)strlen(jprint(retjson,0))); updatedflag = 0; if ( electrum_process_array(coin,ep,addr,retjson,electrumflag,txid,txid2) != 0 ) { //LP_postutxos(coin->symbol,addr); updatedflag = 1; } retstr = jprint(retjson,0); LP_unspents_cache(coin->symbol,addr,retstr,1); free(retstr); } else { free_json(retjson); retjson = 0; } if ( ap != 0 ) { ap->unspenttime = (uint32_t)time(NULL); ap->unspentheight = height; } } } if ( retjson == 0 ) { if ( (retstr= LP_unspents_filestr(symbol,addr)) != 0 ) { retjson = cJSON_Parse(retstr); free(retstr); } else retjson = LP_address_utxos(coin,addr,1); } return(retjson); } cJSON *electrum_address_getbalance(char *symbol,struct electrum_info *ep,cJSON **retjsonp,char *addr) { if ( strcmp(symbol,"BCH") == 0 ) return(electrum_scripthash_cmd(symbol,0,ep,retjsonp,"get_balance",addr)); else return(electrum_strarg(symbol,ep,retjsonp,"blockchain.address.get_balance",addr,ELECTRUM_TIMEOUT)); } cJSON *electrum_addpeer(char *symbol,struct electrum_info *ep,cJSON **retjsonp,char *endpoint) { return(electrum_strarg(symbol,ep,retjsonp,"server.add_peer",endpoint,ELECTRUM_TIMEOUT)); } cJSON *electrum_sendrawtransaction(char *symbol,struct electrum_info *ep,cJSON **retjsonp,char *rawtx) { return(electrum_strarg(symbol,ep,retjsonp,"blockchain.transaction.broadcast",rawtx,ELECTRUM_TIMEOUT)); } cJSON *electrum_estimatefee(char *symbol,struct electrum_info *ep,cJSON **retjsonp,int32_t numblocks) { return(electrum_intarg(symbol,ep,retjsonp,"blockchain.estimatefee",numblocks,ELECTRUM_TIMEOUT)); } cJSON *electrum_getchunk(char *symbol,struct electrum_info *ep,cJSON **retjsonp,int32_t n) { return(electrum_intarg(symbol,ep,retjsonp,"blockchain.block.get_chunk",n,ELECTRUM_TIMEOUT)); } cJSON *electrum_getheader(char *symbol,struct electrum_info *ep,cJSON **retjsonp,int32_t n) { return(electrum_intarg(symbol,ep,retjsonp,"blockchain.block.get_header",n,ELECTRUM_TIMEOUT)); } cJSON *LP_cache_transaction(struct iguana_info *coin,bits256 txid,uint8_t *serialized,int32_t len) { cJSON *txobj; struct LP_transaction *tx; if ( (txobj= LP_transaction_fromdata(coin,txid,serialized,len)) != 0 ) { if ( (tx= LP_transactionfind(coin,txid)) == 0 || tx->serialized == 0 ) { txobj = LP_transactioninit(coin,txid,0,txobj); LP_transactioninit(coin,txid,1,txobj); tx = LP_transactionfind(coin,txid); } if ( tx != 0 ) { tx->serialized = serialized; tx->len = len; } else { char str[65]; printf("unexpected couldnt find tx %s %s\n",coin->symbol,bits256_str(str,txid)); free(serialized); } } return(txobj); } cJSON *_electrum_transaction(char *symbol,struct electrum_info *ep,cJSON **retjsonp,bits256 txid) { char *hexstr,str[65]; int32_t len; cJSON *hexjson,*txobj=0; struct iguana_info *coin; uint8_t *serialized; struct LP_transaction *tx; //printf("electrum_transaction %s %s\n",symbol,bits256_str(str,txid)); if ( bits256_nonz(txid) != 0 && (coin= LP_coinfind(symbol)) != 0 ) { if ( (tx= LP_transactionfind(coin,txid)) != 0 && tx->serialized != 0 ) { //char str[65]; printf("%s cache hit -> TRANSACTION.(%s)\n",symbol,bits256_str(str,txid)); if ( (txobj= LP_transaction_fromdata(coin,txid,tx->serialized,tx->len)) != 0 ) { *retjsonp = txobj; return(txobj); } } if ( bits256_cmp(txid,coin->cachedtxid) == 0 ) { if ( (txobj= LP_transaction_fromdata(coin,txid,coin->cachedtxiddata,coin->cachedtxidlen)) != 0 ) { *retjsonp = txobj; return(txobj); } } hexjson = electrum_hasharg(symbol,ep,&hexjson,"blockchain.transaction.get",txid,ELECTRUM_TIMEOUT); hexstr = jprint(hexjson,0); if ( strlen(hexstr) > 100000 ) { static uint32_t counter; if ( counter++ < 3 ) printf("rawtransaction %s %s too big %d\n",coin->symbol,bits256_str(str,txid),(int32_t)strlen(hexstr)); free(hexstr); free_json(hexjson); *retjsonp = cJSON_Parse("{\"error\":\"transaction too big\"}"); return(*retjsonp); } 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); if ( coin->cachedtxiddata != 0 ) free(coin->cachedtxiddata); coin->cachedtxiddata = malloc(len); coin->cachedtxidlen = len; decode_hex(serialized,len,hexstr+1); memcpy(coin->cachedtxiddata,serialized,len); free(hexstr); //printf("DATA.(%s) from (%s)\n",hexstr+1,jprint(hexjson,0)); *retjsonp = LP_cache_transaction(coin,txid,serialized,len); // eats serialized free_json(hexjson); //printf("return from electrum_transaction\n"); return(*retjsonp); } //else printf("%s %s non-hex tx.(%s)\n",coin->symbol,bits256_str(str,txid),jprint(hexjson,0)); free(hexstr); free_json(hexjson); } *retjsonp = 0; return(*retjsonp); } cJSON *electrum_transaction(int32_t *heightp,char *symbol,struct electrum_info *ep,cJSON **retjsonp,bits256 txid,char *SPVcheck) { cJSON *retjson,*array; bits256 zero; struct LP_transaction *tx=0; struct iguana_info *coin; coin = LP_coinfind(symbol); if ( coin == 0 ) return(0); *heightp = 0; if ( ep != 0 ) portable_mutex_lock(&ep->txmutex); retjson = _electrum_transaction(symbol,ep,retjsonp,txid); if ( (tx= LP_transactionfind(coin,txid)) != 0 && ep != 0 && coin != 0 && SPVcheck != 0 && SPVcheck[0] != 0 ) { if ( tx->height <= 0 ) { memset(zero.bytes,0,sizeof(zero)); if ( (array= electrum_address_listunspent(symbol,ep,&array,SPVcheck,2,txid,zero)) != 0 ) { printf("SPVcheck.%s got %d unspents\n",SPVcheck,cJSON_GetArraySize(array)); free_json(array); } } if ( tx->height > 0 ) { if ( tx->SPV == 0 ) tx->SPV = LP_merkleproof(coin,SPVcheck,ep,txid,tx->height); *heightp = tx->height; } char str[65]; printf("%s %s %s SPV height %d SPV %d\n",coin->symbol,SPVcheck,bits256_str(str,txid),tx->height,tx->SPV); } else if ( tx != 0 ) *heightp = tx->height; if ( ep != 0 ) portable_mutex_unlock(&ep->txmutex); return(retjson); } cJSON *electrum_getmerkle(char *symbol,struct electrum_info *ep,cJSON **retjsonp,bits256 txid,int32_t height) { char params[128],str[65]; sprintf(params,"[\"%s\", %d]",bits256_str(str,txid),height); if ( bits256_nonz(txid) == 0 ) return(cJSON_Parse("{\"error\":\"null txid\"}")); return(electrum_submit(symbol,ep,retjsonp,"blockchain.transaction.get_merkle",params,ELECTRUM_TIMEOUT)); } void electrum_test() { cJSON *retjson; int32_t height; bits256 hash,zero; struct electrum_info *ep = 0; char *addr,*script,*symbol = "BTC"; while ( Num_electrums == 0 ) { sleep(1); printf("Num_electrums %p -> %d\n",&Num_electrums,Num_electrums); } memset(zero.bytes,0,sizeof(zero)); printf("found electrum server\n"); if ( (retjson= electrum_version(symbol,ep,0)) != 0 ) printf("electrum_version %s\n",jprint(retjson,1)); if ( (retjson= electrum_banner(symbol,ep,0)) != 0 ) printf("electrum_banner %s\n",jprint(retjson,1)); if ( (retjson= electrum_donation(symbol,ep,0)) != 0 ) printf("electrum_donation %s\n",jprint(retjson,1)); if ( (retjson= electrum_features(symbol,ep,0)) != 0 ) printf("electrum_features %s\n",jprint(retjson,1)); if ( (retjson= electrum_estimatefee(symbol,ep,0,6)) != 0 ) printf("electrum_estimatefee %s\n",jprint(retjson,1)); decode_hex(hash.bytes,sizeof(hash),"0000000000000000005087f8845f9ed0282559017e3c6344106de15e46c07acd"); if ( (retjson= electrum_getheader(symbol,ep,0,3)) != 0 ) printf("electrum_getheader %s\n",jprint(retjson,1)); //if ( (retjson= electrum_getchunk(symbol,ep,0,3)) != 0 ) // printf("electrum_getchunk %s\n",jprint(retjson,1)); decode_hex(hash.bytes,sizeof(hash),"b967a7d55889fe11e993430921574ec6379bc8ce712a652c3fcb66c6be6e925c"); if ( (retjson= electrum_getmerkle(symbol,ep,0,hash,403000)) != 0 ) printf("electrum_getmerkle %s\n",jprint(retjson,1)); if ( (retjson= electrum_transaction(&height,symbol,ep,0,hash,0)) != 0 ) printf("electrum_transaction %s\n",jprint(retjson,1)); addr = "14NeevLME8UAANiTCVNgvDrynUPk1VcQKb"; if ( (retjson= electrum_address_gethistory(symbol,ep,0,addr,zero)) != 0 ) printf("electrum_address_gethistory %s\n",jprint(retjson,1)); if ( (retjson= electrum_address_getmempool(symbol,ep,0,addr,zero,zero)) != 0 ) printf("electrum_address_getmempool %s\n",jprint(retjson,1)); if ( (retjson= electrum_address_getbalance(symbol,ep,0,addr)) != 0 ) printf("electrum_address_getbalance %s\n",jprint(retjson,1)); if ( (retjson= electrum_address_listunspent(symbol,ep,0,addr,1,zero,zero)) != 0 ) printf("electrum_address_listunspent %s\n",jprint(retjson,1)); if ( (retjson= electrum_addpeer(symbol,ep,0,"electrum.be:50001")) != 0 ) printf("electrum_addpeer %s\n",jprint(retjson,1)); if ( (retjson= electrum_sendrawtransaction(symbol,ep,0,"0100000001b7e6d69a0fd650926bd5fbe63cc8578d976c25dbdda8dd61db5e05b0de4041fe000000006b483045022100de3ae8f43a2a026bb46f6b09b890861f8aadcb16821f0b01126d70fa9ae134e4022000925a842073484f1056c7fc97399f2bbddb9beb9e49aca76835cdf6e9c91ef3012103cf5ce3233e6d6e22291ebef454edff2b37a714aed685ce94a7eb4f83d8e4254dffffffff014c4eaa0b000000001976a914b598062b55362952720718e7da584a46a27bedee88ac00000000")) != 0 ) printf("electrum_sendrawtransaction %s\n",jprint(retjson,1)); if ( 0 ) { script = "76a914b598062b55362952720718e7da584a46a27bedee88ac"; if ( (retjson= electrum_script_gethistory(symbol,ep,0,script)) != 0 ) printf("electrum_script_gethistory %s\n",jprint(retjson,1)); if ( (retjson= electrum_script_getmempool(symbol,ep,0,script)) != 0 ) printf("electrum_script_getmempool %s\n",jprint(retjson,1)); if ( (retjson= electrum_script_getbalance(symbol,ep,0,script)) != 0 ) printf("electrum_script_getbalance %s\n",jprint(retjson,1)); if ( (retjson= electrum_script_listunspent(symbol,ep,0,script)) != 0 ) printf("electrum_script_listunspent %s\n",jprint(retjson,1)); if ( (retjson= electrum_script_subscribe(symbol,ep,0,script)) != 0 ) printf("electrum_script_subscribe %s\n",jprint(retjson,1)); } if ( (retjson= electrum_headers_subscribe(symbol,ep,0)) != 0 ) printf("electrum_headers %s\n",jprint(retjson,1)); if ( (retjson= electrum_peers(symbol,ep,0)) != 0 ) printf("electrum_peers %s\n",jprint(retjson,1)); if ( (retjson= electrum_address_subscribe(symbol,ep,0,addr)) != 0 ) printf("electrum_address_subscribe %s\n",jprint(retjson,1)); } struct electrum_info *LP_electrum_info(int32_t *alreadyp,char *symbol,char *ipaddr,uint16_t port,int32_t bufsize) { struct electrum_info *ep=0; int32_t i,sock; struct stritem *sitem; char name[512],*str = "init string"; *alreadyp = 0; portable_mutex_lock(&LP_electrummutex); for (i=0; isymbol,ep->ipaddr,ep->port,symbol,ipaddr,port); if ( strcmp(ep->ipaddr,ipaddr) == 0 && ep->port == port && strcmp(ep->symbol,symbol) == 0 ) { *alreadyp = 1; printf("%s.(%s:%u) already an electrum server\n",symbol,ipaddr,port); break; } ep = 0; } portable_mutex_unlock(&LP_electrummutex); if ( ep == 0 ) { if ( (sock= LP_socket(0,ipaddr,port)) < 0 ) { printf("error connecting to %s:%u\n",ipaddr,port); return(0); } ep = calloc(1,sizeof(*ep) + bufsize); portable_mutex_init(&ep->mutex); portable_mutex_init(&ep->txmutex); ep->sock = sock; safecopy(ep->symbol,symbol,sizeof(ep->symbol)); safecopy(ep->ipaddr,ipaddr,sizeof(ep->ipaddr)); ep->port = port; ep->bufsize = bufsize; ep->coin = LP_coinfind(symbol); ep->lasttime = (uint32_t)time(NULL); sprintf(name,"%s_%s_%u_electrum_sendQ",symbol,ipaddr,port); queue_enqueue(name,&ep->sendQ,queueitem(str)); if ( (sitem= queue_dequeue(&ep->sendQ)) == 0 && strcmp(sitem->str,str) != 0 ) printf("error with string sendQ sitem.%p (%s)\n",sitem,sitem==0?0:sitem->str); sprintf(name,"%s_%s_%u_electrum_pendingQ",symbol,ipaddr,port); queue_enqueue(name,&ep->pendingQ,queueitem(str)); if ( (sitem= queue_dequeue(&ep->pendingQ)) == 0 && strcmp(sitem->str,str) != 0 ) printf("error with string pendingQ sitem.%p (%s)\n",sitem,sitem==0?0:sitem->str); electrum_server(symbol,ep); } return(ep); } int32_t LP_recvfunc(struct electrum_info *ep,char *str,int32_t len) { cJSON *strjson,*errjson,*resultjson,*paramsjson; char *method; int32_t i,n,height; uint32_t idnum=0; struct stritem *stritem; struct iguana_info *coin; struct queueitem *tmp,*item = 0; if ( str == 0 || len == 0 ) return(-1); ep->lasttime = (uint32_t)time(NULL); if ( (strjson= cJSON_Parse(str)) != 0 ) { //printf("%s RECV.(%ld) id.%d (%s)\n",ep->symbol,strlen(str),jint(strjson,"id"),jint(strjson,"id")==0?str:""); resultjson = jobj(strjson,"result"); //printf("strjson.(%s)\n",jprint(strjson,0)); if ( (method= jstr(strjson,"method")) != 0 ) { if ( strcmp(method,"blockchain.headers.subscribe") == 0 ) { //printf("%p headers.(%s)\n",strjson,jprint(strjson,0)); if ( (paramsjson= jarray(&n,strjson,"params")) != 0 ) { for (i=0; icoin,resultjson); }*/ } if ( resultjson != 0 ) { if ( (height= jint(resultjson,"block_height")) > 0 && ep->heightp != 0 && ep->heighttimep != 0 ) { if ( height > *(ep->heightp) ) *(ep->heightp) = height; *(ep->heighttimep) = (uint32_t)time(NULL); if ( (coin= LP_coinfind(ep->symbol)) != 0 ) coin->updaterate = (uint32_t)time(NULL); //printf("%s ELECTRUM >>>>>>>>> set height.%d\n",ep->symbol,height); } } idnum = juint(strjson,"id"); portable_mutex_lock(&ep->pendingQ.mutex); if ( ep->pendingQ.list != 0 ) { DL_FOREACH_SAFE(ep->pendingQ.list,item,tmp) { stritem = (struct stritem *)item; if ( item->type == idnum ) { DL_DELETE(ep->pendingQ.list,item); if ( resultjson != 0 ) *((cJSON **)stritem->retptrp) = jduplicate(resultjson); else *((cJSON **)stritem->retptrp) = strjson, strjson = 0; //printf("matched idnum.%d result.(%s)\n",idnum,jprint(*((cJSON **)stritem->retptrp),0)); //resultjson = strjson = 0; free(item); break; } if ( stritem->expiration < ep->lasttime ) { DL_DELETE(ep->pendingQ.list,item); if ( 0 ) { printf("expired %s (%s)\n",ep->symbol,stritem->str); errjson = cJSON_CreateObject(); jaddnum(errjson,"id",item->type); jaddstr(errjson,"error","timeout"); *((cJSON **)stritem->retptrp) = errjson; } free(item); } } } portable_mutex_unlock(&ep->pendingQ.mutex); if ( strjson != 0 ) free_json(strjson); } return(item != 0); } void LP_dedicatedloop(void *arg) { struct pollfd fds; int32_t i,len,n,flag,timeout = 10; struct iguana_info *coin; struct stritem *sitem; struct electrum_info *ep = arg; if ( (coin= LP_coinfind(ep->symbol)) != 0 ) ep->heightp = &coin->height, ep->heighttimep = &coin->heighttime; electrum_initial_requests(ep); printf("LP_dedicatedloop ep.%p sock.%d for %s:%u num.%d %p %s ht.%d\n",ep,ep->sock,ep->ipaddr,ep->port,Num_electrums,&Num_electrums,ep->symbol,*ep->heightp); while ( ep->sock >= 0 ) { flag = 0; memset(&fds,0,sizeof(fds)); fds.fd = ep->sock; fds.events |= (POLLOUT | POLLIN); if ( poll(&fds,1,timeout) > 0 && (fds.revents & POLLOUT) != 0 && ep->pending == 0 && (sitem= queue_dequeue(&ep->sendQ)) != 0 ) { ep->pending = (uint32_t)time(NULL); if ( LP_socketsend(ep->sock,(uint8_t *)sitem->str,(int32_t)strlen(sitem->str)) <= 0 ) { printf("%s:%u is dead\n",ep->ipaddr,ep->port); closesocket(ep->sock); ep->sock = -1; break; } ep->keepalive = (uint32_t)time(NULL); if ( sitem->expiration != 0 ) sitem->expiration += (uint32_t)time(NULL); else sitem->expiration = (uint32_t)time(NULL) + ELECTRUM_TIMEOUT; queue_enqueue("pendingQ",&ep->pendingQ,&sitem->DL); flag++; } if ( flag == 0 ) { if ( (fds.revents & POLLIN) != 0 ) { len = 0; while ( len+65536 < ep->bufsize ) { if ( (n= LP_socketrecv(ep->sock,&ep->buf[len],ep->bufsize-len)) > 0 ) { len += n; if ( ep->buf[len - 1] == '\n' ) break; memset(&fds,0,sizeof(fds)); fds.fd = ep->sock; fds.events = POLLIN; if ( poll(&fds,1,1000) <= 0 ) { printf("no more electrum data after a second\n"); electrum_kickstart(ep); break; } } else { #ifndef _WIN32 printf("no more electrum data when expected2 len.%d n.%d\n",len,n); electrum_kickstart(ep); #endif break; } } if ( len > 0 ) { ep->pending = 0; LP_recvfunc(ep,(char *)ep->buf,len); flag++; } } if ( flag == 0 ) usleep(100000); } } if ( coin->electrum == ep ) { coin->electrum = ep->prev; printf("set %s electrum to %p\n",coin->symbol,coin->electrum); } else printf("backup electrum server closing\n"); printf(">>>>>>>>>> electrum close %s:%u\n",ep->ipaddr,ep->port); if ( Num_electrums > 0 ) { portable_mutex_lock(&LP_electrummutex); for (i=0; isock = -1; //free(ep); } cJSON *tx_history_to_json(struct LP_tx_history_item *item, struct iguana_info *coin) { cJSON *json = cJSON_CreateObject(); jaddstr(json, "txid", item->txid); jaddstr(json, "category", item->category); jaddnum(json, "amount", item->amount); jaddstr(json, "blockhash", item->blockhash); jaddnum(json, "blockindex", item->blockindex); jaddnum(json, "blocktime", item->blocktime); jaddnum(json, "time", item->time); if (item->blockindex > 0) { jaddnum(json, "confirmations", coin->height - item->blockindex + 1); } else { jaddnum(json, "confirmations", 0); } return json; } int history_item_cmp(struct LP_tx_history_item *item1, struct LP_tx_history_item *item2) { return(item1->time < item2->time); } void LP_electrum_get_tx_until_success(struct iguana_info *coin, char *tx_hash, cJSON **res) { cJSON *params = cJSON_CreateArray(); jaddistr(params, tx_hash); jaddi(params, cJSON_CreateBool(cJSON_True)); while(1) { electrum_jsonarg(coin->symbol, coin->electrum, res, "blockchain.transaction.get", params, ELECTRUM_TIMEOUT); if (jobj(*res, "error") != NULL) { char *msg = jprint(*res, 1); printf("Error getting electrum tx %s %s %s\n", coin->symbol, jstri(params, 0), msg); *res = cJSON_CreateObject(); free(msg); sleep(5); continue; } else { break; } } free_json(params); } char *LP_get_address_from_tx_out(cJSON *tx_out) { cJSON *script_pub_key = jobj(tx_out, "scriptPubKey"); if (script_pub_key == 0) { printf("No scriptPubKey on tx_out: %s\n", jprint(tx_out, 0)); return 0; } struct cJSON *addresses = jobj(script_pub_key, "addresses"); if (addresses == 0) { printf("No addresses on tx_out: %s\n", jprint(tx_out, 0)); return NULL; } if (!is_cJSON_Array(addresses)) { printf("Addresses are not array on tx out: %s\n", jprint(tx_out, 0)); return NULL; } if (cJSON_GetArraySize(addresses) > 1) { printf("Addresses array size is > 1 on tx out: %s\n", jprint(tx_out, 0)); return NULL; } return jstri(addresses, 0); } void LP_electrum_txhistory_loop(void *_coin) { struct iguana_info *coin = _coin; if (strcmp(coin->symbol, "QTUM") == 0 || strcmp(coin->symbol, "CRW") == 0 || strcmp(coin->symbol, "BTX") == 0) { printf("Tx history loop doesn't support QTUM, CRW and BTX! yet\n"); return; } while (coin != NULL && coin->electrum != NULL && coin->inactive == 0) { cJSON *history = cJSON_CreateObject(); if (strcmp(coin->symbol, "BCH") == 0) { electrum_scripthash_cmd(coin->symbol, coin->taddr, coin->electrum, &history, "get_history", coin->smartaddr); } else { electrum_strarg(coin->symbol, coin->electrum, &history, "blockchain.address.get_history", coin->smartaddr, ELECTRUM_TIMEOUT); } if (jobj(history, "error") != NULL) { char *msg = jprint(history, 1); printf("Error getting electrum history of coin %s %s\n", coin->symbol, msg); free(msg); sleep(10); continue; } int history_size = cJSON_GetArraySize(history); for (int i = history_size - 1; i >= 0; i--) { cJSON *history_item = jitem(history, i); char *tx_hash = jstr(history_item, "tx_hash"); struct LP_tx_history_item *iter; int found = 0; int confirmed = 0; portable_mutex_lock(&coin->tx_history_mutex); DL_FOREACH(coin->tx_history, iter) { if (strcmp(iter->txid, tx_hash) == 0) { found = 1; if (iter->blockindex > 0) { confirmed = 1; } break; } } portable_mutex_unlock(&coin->tx_history_mutex); struct LP_tx_history_item *item; if (!found) { // allocate new if not found item = malloc(sizeof(struct LP_tx_history_item)); memset(item, 0, sizeof(struct LP_tx_history_item)); } else if (confirmed == 0) { // update existing if found and not confirmed item = iter; } else { continue; } cJSON *tx_item = cJSON_CreateObject(); LP_electrum_get_tx_until_success(coin, tx_hash, &tx_item); if (!found) { strcpy(item->txid, jstr(tx_item, "txid")); // receive by default, but if at least 1 vin contains our address the category is send strcpy(item->category, "receive"); cJSON *vin = jobj(tx_item, "vin"); cJSON *prev_tx_item = NULL; for (int j = 0; j < cJSON_GetArraySize(vin); j++) { cJSON *vin_item = jitem(vin, j); char *address = jstr(vin_item, "address"); if (address != NULL) { if (strcmp(coin->smartaddr, jstr(vin_item, "address")) == 0) { strcpy(item->category, "send"); break; } } else { // At least BTC and LTC doesn't have an address field for Vins. // Need to get previous tx and check the output cJSON *params = cJSON_CreateArray(); // some transactions use few vouts of one prev tx so we can reuse it if (prev_tx_item == 0 || strcmp(jstr(prev_tx_item, "txid"), jstr(vin_item, "txid")) != 0) { if (prev_tx_item != 0) { free_json(prev_tx_item); prev_tx_item = NULL; } LP_electrum_get_tx_until_success(coin, jstr(vin_item, "txid"), &prev_tx_item); } char *vout_address = LP_get_address_from_tx_out(jitem(jobj(prev_tx_item, "vout"), jint(vin_item, "vout"))); if (strcmp(coin->smartaddr, vout_address) == 0) { strcpy(item->category, "send"); break; } free_json(params); } } int size = 0; cJSON *vout = jarray(&size, tx_item, "vout"); for (int k = 0; k < size; k++) { cJSON *vout_item = jitem(vout, k); char *vout_address = LP_get_address_from_tx_out(vout_item); if (vout_address != 0) { if (strcmp(coin->smartaddr, vout_address) == 0) { if (strcmp(item->category, "receive") == 0) { item->amount += jdouble(vout_item, "value"); } } else { if (strcmp(item->category, "send") == 0) { item->amount -= jdouble(vout_item, "value"); } } } } } if (juint(history_item, "height") > 0) { item->time = juint(tx_item, "time"); strcpy(item->blockhash, jstr(tx_item, "blockhash")); item->blockindex = juint(history_item, "height"); item->blocktime = juint(tx_item, "blocktime"); } else { // set current time temporary until confirmed item->time = (uint32_t)time(NULL); } if (!found) { portable_mutex_lock(&coin->tx_history_mutex); DL_APPEND(coin->tx_history, item); portable_mutex_unlock(&coin->tx_history_mutex); } free_json(tx_item); } int (*ptr)(struct LP_tx_history_item*, struct LP_tx_history_item*) = &history_item_cmp; // we don't want the history to be accessed while sorting struct LP_tx_history_item *_tmp; portable_mutex_lock(&coin->tx_history_mutex); DL_SORT(coin->tx_history, ptr); portable_mutex_unlock(&coin->tx_history_mutex); free_json(history); sleep(10); } } cJSON *LP_electrumserver(struct iguana_info *coin,char *ipaddr,uint16_t port) { struct electrum_info *ep,*prev,*cur; int32_t kickval,already; cJSON *retjson,*array,*item; cur = coin->electrum; if ( ipaddr == 0 || ipaddr[0] == 0 || port == 0 ) { ep = coin->electrum; coin->electrum = 0; coin->inactive = (uint32_t)time(NULL); retjson = cJSON_CreateObject(); jaddstr(retjson,"result","success"); jaddstr(retjson,"status","electrum mode disabled, now in disabled native coin mode"); if ( ep != 0 ) { array = cJSON_CreateArray(); while ( ep != 0 ) { item = cJSON_CreateObject(); jaddstr(item,"ipaddr",ep->ipaddr); jaddnum(item,"port",ep->port); jaddnum(item,"kickstart",electrum_kickstart(ep)); jaddi(array,item); prev = ep->prev; ep->prev = 0; ep = prev; } jadd(retjson,"electrums",array); } //printf("would have disabled %s electrum here\n",coin->symbol); return(retjson); } retjson = cJSON_CreateObject(); jaddstr(retjson,"ipaddr",ipaddr); jaddnum(retjson,"port",port); if ( (ep= LP_electrum_info(&already,coin->symbol,ipaddr,port,IGUANA_MAXPACKETSIZE)) == 0 ) { jaddstr(retjson,"error","couldnt connect to electrum server"); return(retjson); } if ( already == 0 ) { if ( ep != 0 && OS_thread_create(malloc(sizeof(pthread_t)),NULL,(void *)LP_dedicatedloop,(void *)ep) != 0 ) { printf("error launching LP_dedicatedloop %s.(%s:%u)\n",coin->symbol,ep->ipaddr,ep->port); jaddstr(retjson,"error","couldnt launch electrum thread"); } else { //printf("launched %s electrum.(%s:%u)\n",coin->symbol,ep->ipaddr,ep->port); jaddstr(retjson,"result","success"); ep->prev = coin->electrum; coin->electrum = ep; if ( coin->loadedcache == 0 ) { LP_cacheptrs_init(coin); coin->loadedcache = (uint32_t)time(NULL); } if ( 0 && strcmp(coin->symbol,"ZEC") == 0 ) { void for_satinder(); sleep(3); for_satinder(); getchar(); } } } else { if ( coin->electrum == 0 ) { coin->electrum = ep; ep->prev = 0; } jaddstr(retjson,"result","success"); jaddstr(retjson,"status","already there"); if ( ep->numerrors > 0 ) { kickval = electrum_kickstart(ep); jaddnum(retjson,"restart",kickval); } } #ifndef NOTETOMIC if (coin->electrum != 0 && cur == 0 && strcmp(coin->symbol, "ETOMIC") == 0) { cJSON *balance = cJSON_CreateObject(); electrum_address_getbalance(coin->symbol, coin->electrum, &balance, coin->smartaddr); int64_t confirmed = get_cJSON_int(balance, "confirmed"); int64_t unconfirmed = get_cJSON_int(balance, "unconfirmed"); if ((confirmed + unconfirmed) < 20 * SATOSHIDEN && get_etomic_from_faucet(coin->smartaddr) != 1) { cJSON_Delete(balance); return(cJSON_Parse("{\"error\":\"Could not get ETOMIC from faucet!\"}")); } cJSON_Delete(balance); } #endif if (coin->cache_history > 0 && coin->electrum != 0 && cur == 0) { if ( OS_thread_create(malloc(sizeof(pthread_t)),NULL,(void *)LP_electrum_txhistory_loop,(void *)coin) != 0 ) { printf("error launching LP_electrum_tx_history_loop %s.(%s:%u)\n",coin->symbol,ep->ipaddr,ep->port); jaddstr(retjson,"error","couldnt launch electrum tx history thread"); } } //printf("(%s)\n",jprint(retjson,0)); return(retjson); } cJSON *address_history_cached(struct iguana_info *coin) { cJSON *retjson = cJSON_CreateArray(); struct LP_tx_history_item *item; portable_mutex_lock(&coin->tx_history_mutex); DL_FOREACH(coin->tx_history, item) { jaddi(retjson, tx_history_to_json(item, coin)); } portable_mutex_unlock(&coin->tx_history_mutex); return retjson; }