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/******************************************************************************
* 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_nativeDEX.c
// marketmaker
//
// variable timeout based on number of electrums in swap
// listunspent on each new block or 30 seconds if doing swap
// reject swap response from bob?
//
// electrum swaps efficiency
// process stats.log local file -> map of realtime activity!
// select oldest utxo first
// handles <-> pubkeys, deal with offline pubkeys, reputations, bonds etc.
//
// verify portfolio, pricearray, interest to KMD withdraw, reliable networking
// dPoW security -> 4: KMD notarized, 5: BTC notarized, after next notary elections
// bigendian architectures need to use little endian for sighash calcs
#include <stdio.h>
#include "LP_include.h"
portable_mutex_t LP_peermutex,LP_UTXOmutex,LP_utxomutex,LP_commandmutex,LP_cachemutex,LP_swaplistmutex,LP_forwardmutex,LP_pubkeymutex,LP_networkmutex,LP_psockmutex,LP_coinmutex,LP_messagemutex,LP_portfoliomutex,LP_electrummutex,LP_butxomutex,LP_reservedmutex,LP_nanorecvsmutex;
int32_t LP_canbind;
char *Broadcaststr,*Reserved_msgs[1000];
int32_t num_Reserved_msgs,max_Reserved_msgs;
struct LP_peerinfo *LP_peerinfos,*LP_mypeer;
struct LP_forwardinfo *LP_forwardinfos;
struct iguana_info *LP_coins;
struct LP_pubkeyinfo *LP_pubkeyinfos;
#include "LP_network.c"
char *activecoins[] = { "BTC", "KMD" };
char GLOBAL_DBDIR[] = { "DB" };
char LP_myipaddr[64],LP_publicaddr[64],USERHOME[512] = { "/root" };
char LP_gui[16] = { "cli" };
char *default_LPnodes[] = { "5.9.253.195", "5.9.253.196", "5.9.253.197", "5.9.253.198", "5.9.253.199", "5.9.253.200", "5.9.253.201", "5.9.253.202", "5.9.253.203", };//"5.9.253.204" }; //
//uint32_t LP_deadman_switch;
uint16_t LP_fixed_pairport,LP_publicport;
uint32_t LP_lastnonce;
int32_t LP_mybussock = -1;
int32_t LP_mypubsock = -1;
int32_t LP_mypullsock = -1;
int32_t LP_showwif,IAMLP = 0;
double LP_profitratio = 1.;
struct LP_privkey { bits256 privkey; uint8_t rmd160[20]; };
struct LP_globals
{
struct LP_utxoinfo *LP_utxoinfos[2],*LP_utxoinfos2[2];
bits256 LP_mypub25519,LP_privkey,LP_mypriv25519;
uint64_t LP_skipstatus[10000];
uint8_t LP_myrmd160[20],LP_pubsecp[33];
uint32_t LP_sessionid,counter;
int32_t LP_pendingswaps,USERPASS_COUNTER,LP_numprivkeys,initializing,waiting,LP_numskips;
char USERPASS[65],USERPASS_WIFSTR[64],LP_myrmd160str[41],gui[16];
struct LP_privkey LP_privkeys[100];
} G;
// stubs
void tradebot_swap_balancingtrade(struct basilisk_swap *swap,int32_t iambob)
{
}
void tradebot_pendingadd(cJSON *tradejson,char *base,double basevolume,char *rel,double relvolume)
{
// add to trades
}
char *LP_getdatadir()
{
return(USERHOME);
}
char *blocktrail_listtransactions(char *symbol,char *coinaddr,int32_t num,int32_t skip)
{
return(0);
}
#include "LP_socket.c"
#include "LP_secp.c"
#include "LP_bitcoin.c"
#include "LP_coins.c"
#include "LP_rpc.c"
#include "LP_utxo.c"
#include "LP_prices.c"
#include "LP_scan.c"
#include "LP_transaction.c"
#include "LP_remember.c"
#include "LP_swap.c"
#include "LP_peers.c"
#include "LP_utxos.c"
#include "LP_forwarding.c"
#include "LP_signatures.c"
#include "LP_ordermatch.c"
#include "LP_portfolio.c"
#include "LP_messages.c"
#include "LP_commands.c"
char *LP_command_process(void *ctx,char *myipaddr,int32_t pubsock,cJSON *argjson,uint8_t *data,int32_t datalen)
{
char *retstr=0;
if ( jobj(argjson,"result") != 0 || jobj(argjson,"error") != 0 )
return(0);
//double millis = OS_milliseconds();
if ( LP_tradecommand(ctx,myipaddr,pubsock,argjson,data,datalen) <= 0 )
{
if ( (retstr= stats_JSON(ctx,myipaddr,pubsock,argjson,"127.0.0.1",0)) != 0 )
{
//printf("%s PULL.[%d]-> (%s)\n",myipaddr != 0 ? myipaddr : "127.0.0.1",datalen,retstr);
//if ( pubsock >= 0 ) //strncmp("{\"error\":",retstr,strlen("{\"error\":")) != 0 &&
//LP_send(pubsock,retstr,(int32_t)strlen(retstr)+1,0);
}
} //else printf("finished tradecommand (%s)\n",jprint(argjson,0));
//if ( OS_milliseconds()-millis > 100 )
// printf("%.3f %s\n",OS_milliseconds()-millis,jprint(argjson,0));
return(retstr);
}
char *LP_decrypt(uint8_t *ptr,int32_t *recvlenp)
{
uint8_t decoded[LP_ENCRYPTED_MAXSIZE + crypto_box_ZEROBYTES],*nonce,*cipher; int32_t recvlen,cipherlen; char *jsonstr = 0;
recvlen = *recvlenp;
nonce = &ptr[2];
cipher = &ptr[2 + crypto_box_NONCEBYTES];
cipherlen = recvlen - (2 + crypto_box_NONCEBYTES);
if ( cipherlen > 0 && cipherlen <= sizeof(decoded) )
{
if ( (jsonstr= (char *)_SuperNET_decipher(nonce,cipher,decoded,cipherlen,GENESIS_PUBKEY,G.LP_mypriv25519)) != 0 )
{
recvlen = (cipherlen - crypto_box_ZEROBYTES);
if ( strlen(jsonstr)+1 != recvlen )
{
printf("unexpected len %d vs recvlen.%d\n",(int32_t)strlen(jsonstr)+1,recvlen);
jsonstr = 0;
} else printf("decrypted (%s)\n",jsonstr);
}
} else printf("cipher.%d too big for %d\n",cipherlen,(int32_t)sizeof(decoded));
*recvlenp = recvlen;
return(jsonstr);
}
char *LP_process_message(void *ctx,char *typestr,char *myipaddr,int32_t pubsock,uint8_t *ptr,int32_t recvlen,int32_t recvsock)
{
static uint32_t dup,uniq;
int32_t i,len,cipherlen,datalen=0,duplicate=0,encrypted=0; char *method,*method2,*tmp,*cipherstr,*retstr=0,*jsonstr=0; cJSON *argjson; uint32_t crc32;
//double millis = OS_milliseconds();
crc32 = calc_crc32(0,&ptr[2],recvlen-2);
if ( (crc32 & 0xff) == ptr[0] && ((crc32>>8) & 0xff) == ptr[1] )
encrypted = 1;
i = LP_crc32find(&duplicate,-1,crc32);
if ( duplicate != 0 )
dup++;
else uniq++;
if ( (rand() % 10000) == 0 )
printf("%s dup.%d (%u / %u) %.1f%% encrypted.%d recv.%u [%02x %02x] vs %02x %02x\n",typestr,duplicate,dup,dup+uniq,(double)100*dup/(dup+uniq),encrypted,crc32,ptr[0],ptr[1],crc32&0xff,(crc32>>8)&0xff);
if ( duplicate == 0 )
{
if ( i >= 0 )
LP_crc32find(&duplicate,i,crc32);
if ( encrypted != 0 )
jsonstr = LP_decrypt(ptr,&recvlen);
else if ( (datalen= is_hexstr((char *)ptr,0)) > 0 )
{
datalen >>= 1;
jsonstr = malloc(datalen + 1);
decode_hex((void *)jsonstr,datalen,(char *)ptr);
jsonstr[datalen] = 0;
} else jsonstr = (char *)ptr;
if ( jsonstr != 0 && (argjson= cJSON_Parse(jsonstr)) != 0 )
{
uint8_t decoded[LP_ENCRYPTED_MAXSIZE + crypto_box_ZEROBYTES];
//printf("[%s]\n",jsonstr);
cipherlen = 0;
if ( (cipherstr= jstr(argjson,"cipher")) != 0 && (cipherlen= is_hexstr(cipherstr,0)) > 32 && cipherlen <= sizeof(decoded)*2 )
{
method2 = jstr(argjson,"method2");
if ( (method= jstr(argjson,"method")) != 0 && (strcmp(method,"encrypted") == 0 ||(method2 != 0 && strcmp(method2,"encrypted") == 0)) )
{
cipherlen >>= 1;
decode_hex(decoded,cipherlen,cipherstr);
crc32 = calc_crc32(0,&decoded[2],cipherlen-2);
if ( (tmp= LP_decrypt(decoded,&cipherlen)) != 0 )
{
jsonstr = tmp;
free_json(argjson);
argjson = cJSON_Parse(jsonstr);
recvlen = cipherlen;
encrypted = 1;
if ( (crc32 & 0xff) == decoded[0] && ((crc32>>8) & 0xff) == decoded[1] )
{
i = LP_crc32find(&duplicate,-1,crc32);
if ( duplicate == 0 && i >= 0 )
LP_crc32find(&duplicate,i,crc32);
}
printf("%02x %02x %08x duplicate.%d decrypted.(%s)\n",decoded[0],decoded[1],crc32,duplicate,jsonstr);
}
else
{
printf("packet not for this node %u\n",crc32);
}
} else printf("error (%s) method is %s\n",jsonstr,method);
}
if ( jsonstr != 0 && argjson != 0 )
{
len = (int32_t)strlen(jsonstr) + 1;
if ( (method= jstr(argjson,"method")) != 0 && strcmp(method,"broadcast") == 0 )
{
bits256 zero; cJSON *reqjson; char *cipherstr; int32_t cipherlen; uint8_t cipher[LP_ENCRYPTED_MAXSIZE];
if ( (reqjson= LP_dereference(argjson,"broadcast")) != 0 )
{
Broadcaststr = jprint(reqjson,0);
if ( (cipherstr= jstr(reqjson,"cipher")) != 0 )
{
cipherlen = (int32_t)strlen(cipherstr) >> 1;
if ( cipherlen <= sizeof(cipher) )
{
decode_hex(cipher,cipherlen,cipherstr);
LP_queuesend(calc_crc32(0,&cipher[2],cipherlen-2),LP_mypubsock,"","",cipher,cipherlen);
} else retstr = clonestr("{\"error\":\"cipher too big\"}");
}
else
{
memset(zero.bytes,0,sizeof(zero));
if ( (method= jstr(reqjson,"method")) != 0 && (strcmp(method,"request") == 0 || strcmp(method,"requested") == 0 || strcmp(method,"connect") == 0 || strcmp(method,"connected") == 0) )
printf("broadcast.(%s)\n",Broadcaststr);
LP_reserved_msg("","",zero,jprint(reqjson,0));
}
retstr = clonestr("{\"result\":\"success\"}");
free_json(reqjson);
} else retstr = clonestr("{\"error\":\"couldnt dereference sendmessage\"}");
}
else
{
portable_mutex_lock(&LP_commandmutex);
if ( (retstr= LP_command_process(ctx,myipaddr,pubsock,argjson,&((uint8_t *)ptr)[len],recvlen - len)) != 0 )
{
}
portable_mutex_unlock(&LP_commandmutex);
//printf("%.3f %s LP_command_process\n",OS_milliseconds()-millis,jstr(argjson,"method"));
}
free_json(argjson);
}
}
} //else printf("DUPLICATE.(%s)\n",(char *)ptr);
if ( jsonstr != 0 && (void *)jsonstr != (void *)ptr && encrypted == 0 )
free(jsonstr);
if ( ptr != 0 )
nn_freemsg(ptr), ptr = 0;
return(retstr);
}
int32_t LP_sock_check(char *typestr,void *ctx,char *myipaddr,int32_t pubsock,int32_t sock,char *remoteaddr,int32_t maxdepth)
{
int32_t recvlen=1,nonz = 0; cJSON *argjson; void *ptr; char methodstr[64],*retstr,*str; struct nn_pollfd pfd;
if ( sock >= 0 )
{
while ( nonz < maxdepth && recvlen > 0 )
{
nonz++;
memset(&pfd,0,sizeof(pfd));
pfd.fd = sock;
pfd.events = NN_POLLIN;
if ( nn_poll(&pfd,1,1) != 1 )
break;
if ( (recvlen= nn_recv(sock,&ptr,NN_MSG,0)) > 0 )
{
methodstr[0] = 0;
if ( 1 )
{
cJSON *recvjson; //char *mstr,*cstr;
if ( (recvjson= cJSON_Parse((char *)ptr)) != 0 )
{
/*if ( (mstr= jstr(recvjson,"method")) != 0 && strcmp(mstr,"uitem") == 0 &&
(cstr= jstr(recvjson,"coin")) != 0 && strcmp(cstr,"REVS") == 0 )
{
printf("%s RECV.(%s)\n",typestr,(char *)ptr);
}*/
safecopy(methodstr,jstr(recvjson,"method"),sizeof(methodstr));
free_json(recvjson);
}
}
double millis = OS_milliseconds();
if ( (retstr= LP_process_message(ctx,typestr,myipaddr,pubsock,ptr,recvlen,sock)) != 0 )
free(retstr);
if ( Broadcaststr != 0 )
{
//printf("self broadcast.(%s)\n",Broadcaststr);
str = Broadcaststr;
Broadcaststr = 0;
if ( (argjson= cJSON_Parse(str)) != 0 )
{
if ( jobj(argjson,"method") != 0 && strcmp("connect",jstr(argjson,"method")) == 0 )
printf("self.(%s)\n",str);
if ( LP_tradecommand(ctx,myipaddr,pubsock,argjson,0,0) <= 0 )
{
portable_mutex_lock(&LP_commandmutex);
if ( (retstr= stats_JSON(ctx,myipaddr,pubsock,argjson,remoteaddr,0)) != 0 )
free(retstr);
portable_mutex_unlock(&LP_commandmutex);
}
free_json(argjson);
}
free(str);
}
if ( OS_milliseconds()-millis > 1000 )
printf("%.3f LP_process_message (%s)\n",OS_milliseconds()-millis,methodstr);
}
}
}
return(nonz);
}
int32_t LP_nanomsg_recvs(void *ctx)
{
int32_t nonz = 0; char *origipaddr; struct LP_peerinfo *peer,*tmp;
if ( (origipaddr= LP_myipaddr) == 0 )
origipaddr = "127.0.0.1";
//portable_mutex_lock(&LP_nanorecvsmutex);
HASH_ITER(hh,LP_peerinfos,peer,tmp)
{
if ( peer->errors >= LP_MAXPEER_ERRORS )
{
if ( (rand() % 10000) == 0 )
peer->errors--;
else
{
//printf("skip %s\n",peer->ipaddr);
continue;
}
}
//printf("check %s pubsock.%d\n",peer->ipaddr,peer->subsock);
nonz += LP_sock_check("PULL",ctx,origipaddr,LP_mypubsock,peer->subsock,peer->ipaddr,1);
}
/*HASH_ITER(hh,LP_coins,coin,ctmp) // firstrefht,firstscanht,lastscanht
{
if ( coin->inactive != 0 )
continue;
if ( coin->bussock >= 0 )
nonz += LP_sock_check(coin->symbol,ctx,origipaddr,-1,coin->bussock,LP_profitratio - 1.);
}*/
if ( LP_mypullsock >= 0 )
{
nonz += LP_sock_check("SUB",ctx,origipaddr,-1,LP_mypullsock,"127.0.0.1",1);
}
//portable_mutex_unlock(&LP_nanorecvsmutex);
return(nonz);
}
void command_rpcloop(void *myipaddr)
{
int32_t nonz = 0; void *ctx;
ctx = bitcoin_ctx();
while ( 1 )
{
nonz = LP_nanomsg_recvs(ctx);
//if ( LP_mybussock >= 0 )
// nonz += LP_sock_check("BUS",ctx,origipaddr,-1,LP_mybussock);
if ( nonz == 0 )
{
if ( IAMLP != 0 )
usleep(1000);
else usleep(10000);
}
else if ( IAMLP == 0 )
usleep(100);
}
}
void utxosQ_loop(void *myipaddr)
{
while ( 1 )
{
if ( LP_utxosQ_process() == 0 )
usleep(10000);
}
}
int32_t LP_utxos_sync(struct LP_peerinfo *peer)
{
int32_t i,j,n=0,m,v,posted=0; bits256 txid; cJSON *array,*item,*item2,*array2,*array3; uint64_t total,total2,metric; struct iguana_info *coin,*ctmp; struct LP_address *ap; char *retstr,*retstr2,*coinaddr;
if ( strcmp(peer->ipaddr,LP_myipaddr) == 0 )
return(0);
HASH_ITER(hh,LP_coins,coin,ctmp)
{
if ( IAMLP == 0 && coin->inactive != 0 )
continue;
if ( coin->smartaddr[0] == 0 )
continue;
total = 0;
if ( (j= LP_listunspent_both(coin->symbol,coin->smartaddr,0)) == 0 )
continue;
if ( (array= LP_address_utxos(coin,coin->smartaddr,1)) != 0 )
{
if ( (n= cJSON_GetArraySize(array)) > 0 )
{
for (i=0; i<n; i++)
{
item = jitem(array,i);
total += j64bits(item,"value");
}
}
if ( n > 0 && total > 0 && (retstr= issue_LP_listunspent(peer->ipaddr,peer->port,coin->symbol,coin->smartaddr)) != 0 )
{
//printf("UTXO sync.%d %s n.%d total %.8f -> %s (%s)\n",j,coin->symbol,n,dstr(total),peer->ipaddr,retstr);
total2 = 0;
if ( (array2= cJSON_Parse(retstr)) != 0 )
{
if ( (m= cJSON_GetArraySize(array2)) > 0 )
{
for (i=0; i<m; i++)
{
item2 = jitem(array2,i);
total2 += j64bits(item2,"value");
}
}
if ( total != total2 || n != m )
{
for (i=0; i<n; i++)
{
item = jitem(array,i);
txid = jbits256(item,"tx_hash");
v = jint(item,"tx_pos");
for (j=0; j<m; j++)
{
if ( v == jint(jitem(array2,i),"tx_pos") && bits256_cmp(txid,jbits256(jitem(array2,i),"tx_hash")) == 0 )
break;
}
if ( j == m )
{
//printf("%s missing %s %s\n",peer->ipaddr,coin->symbol,jprint(item,0));
if ( (retstr2= issue_LP_uitem(peer->ipaddr,peer->port,coin->symbol,coin->smartaddr,txid,v,jint(item,"height"),j64bits(item,"value"))) != 0 )
free(retstr2);
posted++;
}
}
if ( 0 && posted != 0 )
printf(">>>>>>>> %s compare %s %s (%.8f n%d) (%.8f m%d)\n",peer->ipaddr,coin->symbol,coin->smartaddr,dstr(total),n,dstr(total2),m);
} //else printf("%s matches %s\n",peer->ipaddr,coin->symbol);
free_json(array2);
} else printf("parse error (%s)\n",retstr);
free(retstr);
}
else if ( n != 0 && total != 0 )
{
//printf("no response from %s for %s %s\n",peer->ipaddr,coin->symbol,coin->smartaddr);
for (i=0; i<n; i++)
{
item = jitem(array,i);
txid = jbits256(item,"tx_hash");
v = jint(item,"tx_pos");
if ( (retstr2= issue_LP_uitem(peer->ipaddr,peer->port,coin->symbol,coin->smartaddr,txid,v,jint(item,"height"),j64bits(item,"value"))) != 0 )
free(retstr2);
}
}
free_json(array);
}
if ( 0 && (retstr= issue_LP_listunspent(peer->ipaddr,peer->port,coin->symbol,"")) != 0 )
{
if ( (array2= cJSON_Parse(retstr)) != 0 )
{
if ( (m= cJSON_GetArraySize(array2)) > 0 )
{
for (j=0; j<m; j++)
{
item = jitem(array2,j);
if ( (coinaddr= jfieldname(item)) != 0 )
{
metric = j64bits(item,coinaddr);
//printf("(%s) -> %.8f n.%d\n",coinaddr,dstr(metric>>16),(uint16_t)metric);
if ( (ap= LP_addressfind(coin,coinaddr)) == 0 || _LP_unspents_metric(ap->total,ap->n) != metric )
{
if ( ap == 0 || ap->n < (metric & 0xffff) )
{
if ( (retstr2= issue_LP_listunspent(peer->ipaddr,peer->port,coin->symbol,coinaddr)) != 0 )
{
if ( (array3= cJSON_Parse(retstr2)) != 0 )
{
LP_unspents_array(coin,coinaddr,array3);
//printf("pulled.(%s)\n",retstr2);
free_json(array3);
}
free(retstr2);
}
} //else printf("wait for %s to pull %d vs %d\n",peer->ipaddr,ap!=0?ap->n:-1,(uint16_t)metric);
}
}
}
}
free_json(array2);
}
//printf("processed.(%s)\n",retstr);
free(retstr);
}
}
return(posted);
}
void LP_coinsloop(void *_coins)
{
struct LP_address *ap=0,*atmp; struct LP_address_utxo *up,*tmp; struct iguana_info *coin,*ctmp; char str[65]; struct electrum_info *ep,*backupep=0; bits256 zero; int32_t oldht,j,nonz; char *coins = _coins;
while ( 1 )
{
nonz = 0;
HASH_ITER(hh,LP_coins,coin,ctmp) // firstrefht,firstscanht,lastscanht
{
if ( coins[0] != 0 )
{
if ( strcmp(coins,coin->symbol) != 0 )
continue;
}
else // avoid hardcode special case LP_coinsloop
{
if ( strcmp("BTC",coin->symbol) == 0 || strcmp("KMD",coin->symbol) == 0 )
continue;
}
memset(&zero,0,sizeof(zero));
if ( coin->inactive != 0 )
continue;
if ( (ep= coin->electrum) != 0 )
{
if ( (backupep= ep->prev) == 0 )
backupep = ep;
HASH_ITER(hh,coin->addresses,ap,atmp)
{
DL_FOREACH_SAFE(ap->utxos,up,tmp)
{
if ( up->U.height > 0 && up->spendheight < 0 )
{
if ( up->SPV == 0 )
{
nonz++;
up->SPV = LP_merkleproof(coin,backupep,up->U.txid,up->U.height);
if ( up->SPV > 0 )
printf("%s %s: SPV.%d\n",coin->symbol,bits256_str(str,up->U.txid),up->SPV);
}
else if ( up->SPV == -1 )
{
nonz++;
printf("SPV failure for %s %s\n",coin->symbol,bits256_str(str,up->U.txid));
oldht = up->U.height;
LP_txheight_check(coin,ap->coinaddr,up);
if ( oldht != up->U.height )
up->SPV = LP_merkleproof(coin,backupep,up->U.txid,up->U.height);
if ( up->SPV <= 0 )
up->SPV = -2;
else printf("%s %s: corrected SPV.%d\n",coin->symbol,bits256_str(str,up->U.txid),up->SPV);
}
}
}
}
continue;
}
if ( coin->firstrefht == 0 )
continue;
else if ( coin->firstscanht == 0 )
coin->lastscanht = coin->firstscanht = coin->firstrefht;
else if ( coin->firstrefht < coin->firstscanht )
{
printf("detected %s firstrefht.%d < firstscanht.%d\n",coin->symbol,coin->firstrefht,coin->firstscanht);
coin->lastscanht = coin->firstscanht = coin->firstrefht;
}
if ( coin->lastscanht == coin->longestchain+1 )
{
//printf("%s lastscanht.%d is longest.%d + 1\n",coin->symbol,coin->lastscanht,coin->longestchain);
continue;
}
else if ( coin->lastscanht > coin->longestchain+1 )
{
printf("detected chain rewind lastscanht.%d vs longestchain.%d, first.%d ref.%d\n",coin->lastscanht,coin->longestchain,coin->firstscanht,coin->firstrefht);
LP_undospends(coin,coin->longestchain-1);
//LP_mempoolscan(coin->symbol,zero);
coin->lastscanht = coin->longestchain - 1;
if ( coin->firstscanht < coin->lastscanht )
coin->lastscanht = coin->firstscanht;
continue;
}
nonz++;
//if ( (coin->lastscanht % 1000) == 0 )
printf("[%s]: %s ref.%d scan.%d to %d, longest.%d\n",coins,coin->symbol,coin->firstrefht,coin->firstscanht,coin->lastscanht,coin->longestchain);
for (j=0; j<100; j++)
{
if ( LP_blockinit(coin,coin->lastscanht) < 0 )
{
printf("blockinit.%s %d error\n",coin->symbol,coin->lastscanht);
break;
}
coin->lastscanht++;
if ( coin->lastscanht == coin->longestchain+1 )
break;
}
}
if ( nonz == 0 )
usleep(1000);
}
}
int32_t LP_mainloop_iter(void *ctx,char *myipaddr,struct LP_peerinfo *mypeer,int32_t pubsock,char *pushaddr,uint16_t myport)
{
static uint32_t counter,numpeers;
struct iguana_info *coin,*ctmp; char *retstr,*origipaddr; struct LP_peerinfo *peer,*tmp; uint32_t now; int32_t needpings,height,nonz = 0;
now = (uint32_t)time(NULL);
if ( (origipaddr= myipaddr) == 0 )
origipaddr = "127.0.0.1";
if ( mypeer == 0 )
myipaddr = "127.0.0.1";
numpeers = LP_numpeers();
needpings = 0;
HASH_ITER(hh,LP_peerinfos,peer,tmp)
{
if ( peer->errors >= LP_MAXPEER_ERRORS )
{
if ( (rand() % 10000) == 0 )
{
peer->errors--;
if ( peer->errors < LP_MAXPEER_ERRORS )
peer->diduquery = 0;
}
if ( IAMLP == 0 )
continue;
}
if ( now > peer->lastpeers+60 || (rand() % 10000) == 0 )
{
if ( strcmp(peer->ipaddr,myipaddr) != 0 )
{
nonz++;
LP_peersquery(mypeer,pubsock,peer->ipaddr,peer->port,myipaddr,myport);
peer->diduquery = 0;
LP_peer_pricesquery(peer);
//LP_utxos_sync(peer);
needpings++;
}
peer->lastpeers = now;
}
if ( peer->needping != 0 )
{
LP_utxos_sync(peer);
peer->diduquery = now;
nonz++;
if ( (retstr= issue_LP_notify(peer->ipaddr,peer->port,"127.0.0.1",0,numpeers,G.LP_sessionid,G.LP_myrmd160str,G.LP_mypub25519)) != 0 )
free(retstr);
peer->needping = 0;
needpings++;
}
}
HASH_ITER(hh,LP_coins,coin,ctmp) // firstrefht,firstscanht,lastscanht
{
if ( coin->addr_listunspent_requested != 0 )
{
//printf("PUSH addr_listunspent_requested %u\n",coin->addr_listunspent_requested);
LP_smartutxos_push(coin);
coin->addr_listunspent_requested = 0;
}
if ( coin->inactive == 0 && time(NULL) > coin->lastgetinfo+LP_GETINFO_INCR )
{
nonz++;
if ( (height= LP_getheight(coin)) > coin->longestchain )
{
coin->longestchain = height;
if ( coin->firstrefht != 0 )
printf(">>>>>>>>>> set %s longestchain %d (ref.%d [%d, %d])\n",coin->symbol,height,coin->firstrefht,coin->firstscanht,coin->lastscanht);
} //else LP_mempoolscan(coin->symbol,zero);
coin->lastgetinfo = (uint32_t)time(NULL);
}
}
counter++;
return(nonz);
}
void LP_initcoins(void *ctx,int32_t pubsock,cJSON *coins)
{
int32_t i,n; cJSON *item;
for (i=0; i<sizeof(activecoins)/sizeof(*activecoins); i++)
{
fprintf(stderr,"%s ",activecoins[i]);
LP_coinfind(activecoins[i]);
LP_priceinfoadd(activecoins[i]);
}
if ( (n= cJSON_GetArraySize(coins)) > 0 )
{
for (i=0; i<n; i++)
{
item = jitem(coins,i);
fprintf(stderr,"%s ",jstr(item,"coin"));
LP_coincreate(item);
LP_priceinfoadd(jstr(item,"coin"));
}
}
fprintf(stderr,"privkey updates\n");
}
void LP_initpeers(int32_t pubsock,struct LP_peerinfo *mypeer,char *myipaddr,uint16_t myport,char *seednode)
{
int32_t i,j; uint32_t r;
if ( IAMLP != 0 )
{
LP_mypeer = mypeer = LP_addpeer(mypeer,pubsock,myipaddr,myport,0,0,0,0,G.LP_sessionid);
if ( myipaddr == 0 || mypeer == 0 )
{
printf("couldnt get myipaddr or null mypeer.%p\n",mypeer);
exit(-1);
}
if ( seednode == 0 || seednode[0] == 0 )
{
for (i=0; i<sizeof(default_LPnodes)/sizeof(*default_LPnodes); i++)
{
//if ( (rand() % 100) > 25 )
// continue;
LP_peersquery(mypeer,pubsock,default_LPnodes[i],myport,mypeer->ipaddr,myport);
}
} else LP_peersquery(mypeer,pubsock,seednode,myport,mypeer->ipaddr,myport);
}
else
{
if ( myipaddr == 0 )
{
printf("couldnt get myipaddr\n");
exit(-1);
}
if ( seednode == 0 || seednode[0] == 0 )
{
OS_randombytes((void *)&r,sizeof(r));
for (j=0; j<sizeof(default_LPnodes)/sizeof(*default_LPnodes); j++)
{
i = (r + j) % (sizeof(default_LPnodes)/sizeof(*default_LPnodes));
LP_peersquery(mypeer,pubsock,default_LPnodes[i],myport,"127.0.0.1",myport);
}
} else LP_peersquery(mypeer,pubsock,seednode,myport,"127.0.0.1",myport);
}
}
void LP_pubkeysloop(void *ctx)
{
sleep(10);
while ( 1 )
{
LP_notify_pubkeys(ctx,LP_mypubsock);
sleep(60);
}
}
void LP_privkeysloop(void *ctx)
{
sleep(20);
while ( 1 )
{
LP_privkey_updates(ctx,LP_mypubsock,0);
sleep(60);
}
}
void LP_swapsloop(void *ignore)
{
char *retstr;
sleep(50);
while ( 1 )
{
if ( (retstr= basilisk_swapentry(0,0)) != 0 )
free(retstr);
sleep(600);
}
}
void LP_reserved_msgs(void *ignore)
{
bits256 zero; int32_t flag; struct nn_pollfd pfd;
memset(zero.bytes,0,sizeof(zero));
while ( 1 )
{
if ( num_Reserved_msgs > 0 )
{
flag = 0;
if ( LP_mypubsock >= 0 )
{
memset(&pfd,0,sizeof(pfd));
pfd.fd = LP_mypubsock;
pfd.events = NN_POLLOUT;
if ( nn_poll(&pfd,1,1) == 1 )
flag = 1;
} else flag = 1;
if ( flag == 1 )
{
portable_mutex_lock(&LP_reservedmutex);
num_Reserved_msgs--;
//printf("%d BROADCASTING RESERVED.(%s)\n",num_Reserved_msgs,Reserved_msgs[num_Reserved_msgs]);
LP_broadcast_message(LP_mypubsock,"","",zero,Reserved_msgs[num_Reserved_msgs]);
Reserved_msgs[num_Reserved_msgs] = 0;
portable_mutex_unlock(&LP_reservedmutex);
}
}
usleep(3000);
}
}
int32_t LP_reserved_msg(char *base,char *rel,bits256 pubkey,char *msg)
{
int32_t n = 0;
portable_mutex_lock(&LP_reservedmutex);
if ( num_Reserved_msgs < sizeof(Reserved_msgs)/sizeof(*Reserved_msgs) )
{
Reserved_msgs[num_Reserved_msgs++] = msg;
n = num_Reserved_msgs;
} else LP_broadcast_message(LP_mypubsock,base,rel,pubkey,msg);
portable_mutex_unlock(&LP_reservedmutex);
if ( num_Reserved_msgs > max_Reserved_msgs )
{
max_Reserved_msgs = num_Reserved_msgs;
printf("New max_Reserved_msgs.%d\n",max_Reserved_msgs);
}
return(n);
}
void LPinit(uint16_t myport,uint16_t mypullport,uint16_t mypubport,uint16_t mybusport,char *passphrase,int32_t amclient,char *userhome,cJSON *argjson)
{
char *myipaddr=0; long filesize,n; int32_t timeout,pubsock=-1; struct LP_peerinfo *mypeer=0; char pushaddr[128],subaddr[128],bindaddr[128],*coins_str=0; cJSON *coinsjson=0; void *ctx = bitcoin_ctx();
LP_showwif = juint(argjson,"wif");
if ( passphrase == 0 || passphrase[0] == 0 )
{
printf("jeezy says we cant use the nullstring as passphrase and I agree\n");
exit(-1);
}
IAMLP = !amclient;
#ifndef __linux__
if ( IAMLP != 0 )
{
printf("must run a unix node for LP node\n");
exit(-1);
}
#endif
OS_randombytes((void *)&n,sizeof(n));
if ( jobj(argjson,"gui") != 0 )
safecopy(LP_gui,jstr(argjson,"gui"),sizeof(LP_gui));
if ( jobj(argjson,"canbind") == 0 )
{
#ifndef __linux__
LP_canbind = IAMLP;
#else
LP_canbind = IAMLP;
#endif
}
else
{
LP_canbind = jint(argjson,"canbind");
printf(">>>>>>>>>>> set LP_canbind.%d\n",LP_canbind);
}
if ( LP_canbind > 1000 && LP_canbind < 65536 )
LP_fixed_pairport = LP_canbind;
if ( LP_canbind != 0 )
LP_canbind = 1;
srand((int32_t)n);
if ( userhome != 0 && userhome[0] != 0 )
{
safecopy(USERHOME,userhome,sizeof(USERHOME));
#ifdef __APPLE__
strcat(USERHOME,"/Library/Application Support");
#endif
}
portable_mutex_init(&LP_peermutex);
portable_mutex_init(&LP_utxomutex);
portable_mutex_init(&LP_UTXOmutex);
portable_mutex_init(&LP_commandmutex);
portable_mutex_init(&LP_swaplistmutex);
portable_mutex_init(&LP_cachemutex);
portable_mutex_init(&LP_networkmutex);
portable_mutex_init(&LP_forwardmutex);
portable_mutex_init(&LP_psockmutex);
portable_mutex_init(&LP_coinmutex);
portable_mutex_init(&LP_pubkeymutex);
portable_mutex_init(&LP_electrummutex);
portable_mutex_init(&LP_messagemutex);
portable_mutex_init(&LP_portfoliomutex);
portable_mutex_init(&LP_butxomutex);
portable_mutex_init(&LP_reservedmutex);
portable_mutex_init(&LP_nanorecvsmutex);
#ifndef _WIN32
if ( system("curl -s4 checkip.amazonaws.com > myipaddr") == 0 )
{
char ipfname[64];
strcpy(ipfname,"myipaddr");
if ( (myipaddr= OS_filestr(&filesize,ipfname)) != 0 && myipaddr[0] != 0 )
{
n = strlen(myipaddr);
if ( myipaddr[n-1] == '\n' )
myipaddr[--n] = 0;
strcpy(LP_myipaddr,myipaddr);
} else printf("error getting myipaddr\n");
} else printf("error issuing curl\n");
#else
myipaddr = clonestr("127.0.0.1");
#endif
if ( IAMLP != 0 )
{
pubsock = -1;
nanomsg_transportname(0,subaddr,myipaddr,mypubport);
nanomsg_transportname(1,bindaddr,myipaddr,mypubport);
if ( (pubsock= nn_socket(AF_SP,NN_PUB)) >= 0 )
{
if ( nn_bind(pubsock,bindaddr) >= 0 )
{
timeout = 1;
nn_setsockopt(pubsock,NN_SOL_SOCKET,NN_SNDTIMEO,&timeout,sizeof(timeout));
}
else
{
printf("error binding to (%s).%d\n",subaddr,pubsock);
if ( pubsock >= 0 )
nn_close(pubsock), pubsock = -1;
}
} else printf("error getting pubsock %d\n",pubsock);
printf(">>>>>>>>> myipaddr.%s (%s) pullsock.%d\n",myipaddr,subaddr,pubsock);
LP_mypubsock = pubsock;
}
printf("got %s, initpeers\n",myipaddr);
LP_initpeers(pubsock,mypeer,myipaddr,myport,jstr(argjson,"seednode"));
printf("get public socket\n");
LP_mypullsock = LP_initpublicaddr(ctx,&mypullport,pushaddr,myipaddr,mypullport,0);
strcpy(LP_publicaddr,pushaddr);
LP_publicport = mypullport;
LP_mybussock = LP_coinbus(mybusport);
//LP_deadman_switch = (uint32_t)time(NULL);
printf("canbind.%d my command address is (%s) pullsock.%d pullport.%u\n",LP_canbind,pushaddr,LP_mypullsock,mypullport);
if ( (coinsjson= jobj(argjson,"coins")) == 0 )
{
if ( (coins_str= OS_filestr(&filesize,"coins.json")) != 0 )
{
unstringify(coins_str);
printf("UNSTRINGIFIED.(%s)\n",coins_str);
coinsjson = cJSON_Parse(coins_str);
free(coins_str);
// yes I know this coinsjson is not freed, not sure about if it is referenced
}
}
if ( coinsjson == 0 )
{
printf("no coins object or coins file, must abort\n");
exit(-1);
}
LP_initcoins(ctx,pubsock,coinsjson);
G.waiting = 1;
LP_passphrase_init(passphrase,jstr(argjson,"gui"));
if ( IAMLP != 0 && OS_thread_create(malloc(sizeof(pthread_t)),NULL,(void *)LP_psockloop,(void *)myipaddr) != 0 )
{
printf("error launching LP_psockloop for (%s)\n",myipaddr);
exit(-1);
}
if ( OS_thread_create(malloc(sizeof(pthread_t)),NULL,(void *)LP_reserved_msgs,(void *)myipaddr) != 0 )
{
printf("error launching LP_reserved_msgs for (%s)\n",myipaddr);
exit(-1);
}
if ( OS_thread_create(malloc(sizeof(pthread_t)),NULL,(void *)utxosQ_loop,(void *)myipaddr) != 0 )
{
printf("error launching utxosQ_loop for (%s)\n",myipaddr);
exit(-1);
}
if ( OS_thread_create(malloc(sizeof(pthread_t)),NULL,(void *)stats_rpcloop,(void *)&myport) != 0 )
{
printf("error launching stats rpcloop for port.%u\n",myport);
exit(-1);
}
if ( OS_thread_create(malloc(sizeof(pthread_t)),NULL,(void *)command_rpcloop,(void *)myipaddr) != 0 )
{
printf("error launching command_rpcloop for port.%u\n",myport);
exit(-1);
}
if ( OS_thread_create(malloc(sizeof(pthread_t)),NULL,(void *)queue_loop,(void *)myipaddr) != 0 )
{
printf("error launching queue_loop for port.%u\n",myport);
exit(-1);
}
if ( OS_thread_create(malloc(sizeof(pthread_t)),NULL,(void *)prices_loop,(void *)myipaddr) != 0 )
{
printf("error launching prices_loop for port.%u\n",myport);
exit(-1);
}
if ( OS_thread_create(malloc(sizeof(pthread_t)),NULL,(void *)LP_coinsloop,(void *)"") != 0 )
{
printf("error launching LP_coinsloop for port.%u\n",myport);
exit(-1);
}
if ( OS_thread_create(malloc(sizeof(pthread_t)),NULL,(void *)LP_coinsloop,(void *)"BTC") != 0 )
{
printf("error launching BTC LP_coinsloop for port.%u\n",myport);
exit(-1);
}
if ( OS_thread_create(malloc(sizeof(pthread_t)),NULL,(void *)LP_coinsloop,(void *)"KMD") != 0 )
{
printf("error launching KMD LP_coinsloop for port.%u\n",myport);
exit(-1);
}
if ( OS_thread_create(malloc(sizeof(pthread_t)),NULL,(void *)LP_pubkeysloop,(void *)myipaddr) != 0 )
{
printf("error launching LP_pubkeysloop for ctx.%p\n",ctx);
exit(-1);
}
if ( OS_thread_create(malloc(sizeof(pthread_t)),NULL,(void *)LP_privkeysloop,(void *)&myipaddr) != 0 )
{
printf("error launching LP_privkeysloop for ctx.%p\n",ctx);
exit(-1);
}
if ( OS_thread_create(malloc(sizeof(pthread_t)),NULL,(void *)LP_swapsloop,(void *)&myipaddr) != 0 )
{
printf("error launching LP_swapsloop for port.%u\n",myport);
exit(-1);
}
//if ( (retstr= basilisk_swapentry(0,0)) != 0 )
// free(retstr);
int32_t nonz;
printf("start mainloop\n");
while ( 1 )
{
nonz = 0;
G.waiting = 1;
while ( G.initializing != 0 )
{
fprintf(stderr,".");
sleep(3);
}
if ( LP_mainloop_iter(ctx,myipaddr,mypeer,pubsock,pushaddr,myport) != 0 )
nonz++;
if ( nonz == 0 )
usleep(1000);
else if ( IAMLP == 0 )
usleep(1000);
}
}