TWO_STRINGS(iguana,addnode,activecoin,ipaddr)
{
struct iguana_peer *addr; int32_t i,n;
if ( coin == 0 )
coin = iguana_coinfind(activecoin);
if ( coin != 0 && strcmp(coin->symbol,"RELAY") == 0 )
basilisk_addrelay_info(myinfo,0,(uint32_t)calc_ipbits(ipaddr),GENESIS_PUBKEY);
printf("coin.%p.[%s] addnode.%s -> %s\n",coin,coin!=0?coin->symbol:"",activecoin,ipaddr);
if ( coin != 0 && coin->peers != 0 && ipaddr != 0 && is_ipaddr(ipaddr) != 0 )
{
//iguana_possible_peer(coin,ipaddr);
if ( (addr= iguana_peerslot(coin,(uint32_t)calc_ipbits(ipaddr),1)) != 0 )
{
addr->supernet = 1;
if ( addr->usock >= 0 )
{
if ( (n= coin->peers->numranked) != 0 )
{
for (i=0; i<n; i++)
{
if ( addr == coin->peers->ranked[i] )
break;
}
if ( i == n )
{
if ( i == IGUANA_MAXPEERS )
i--;
else coin->peers->numranked = n+1;
coin->peers->ranked[i] = addr;
addr->recvblocks = coin->peers->ranked[0]->recvblocks + 100;
addr->recvtotal = coin->peers->ranked[0]->recvtotal*1.1 + 100;
printf("set (%s) -> slot.%d numranked.%d\n",ipaddr,i,coin->peers->numranked);
} else printf("(%s) is already peer.%d\n",ipaddr,i);
}
return(clonestr("{\"result\":\"peer was already connected\"}"));
}
if ( addr->pending == 0 )
{
addr->pending = (uint32_t)time(NULL);
iguana_launch(coin,"connection",iguana_startconnection,addr,IGUANA_CONNTHREAD);
return(clonestr("{\"result\":\"addnode submitted\"}"));
} else return(clonestr("{\"result\":\"addnode connection was already pending\"}"));
} else return(clonestr("{\"result\":\"addnode cant find peer slot\"}"));
}
else if ( coin == 0 )
return(clonestr("{\"error\":\"addnode needs active coin, do an addcoin first\"}"));
else return(clonestr("{\"error\":\"addnode needs ipaddr\"}"));
}
int32_t ismyaddress(char *server)
{
char ipaddr[64]; uint32_t ipbits;
if ( strncmp(server,"tcp://",6) == 0 )
server += 6;
else if ( strncmp(server,"ws://",5) == 0 )
server += 5;
if ( (ipbits= is_ipaddr(server)) != 0 )
{
if ( strcmp(server,SUPERNET.myipaddr) == 0 || calc_ipbits(SUPERNET.myipaddr) == ipbits )
{
printf("(%s) MATCHES me (%s)\n",server,SUPERNET.myipaddr);
return(1);
}
}
else
{
if ( SUPERNET.hostname[0] != 0 && strcmp(SUPERNET.hostname,server) == 0 )
return(1);
if ( conv_domainname(ipaddr,server) == 0 && (strcmp(SUPERNET.myipaddr,ipaddr) == 0 || strcmp(SUPERNET.hostname,ipaddr) == 0) )
return(1);
}
//printf("(%s) is not me (%s)\n",server,SUPERNET.myipaddr);
return(0);
}
void iguana_acceptloop(void *args)
{
socklen_t clilen; struct sockaddr_in cli_addr; struct iguana_peer *addr; struct iguana_info *coin = args;
addr = &coin->bindaddr;
memset(addr,0,sizeof(*addr));
iguana_initpeer(coin,addr,(uint32_t)calc_ipbits("127.0.0.1"));
addr->usock = pp_bind("127.0.0.1",coin->chain->portp2p);
printf("iguana_bindloop 127.0.0.1 bind sock.%d\n",addr->usock);
memset(coin->fds,0,sizeof(coin->fds));
while ( 1 )
{
printf("LISTEN on sock.%d\n",addr->usock);
listen(addr->usock,64);
clilen = sizeof(cli_addr);
printf("ACCEPT on sock.%d\n",addr->usock);
coin->fds[coin->numsocks].fd = accept(addr->usock,(struct sockaddr *)&cli_addr,&clilen);
printf("NEWSOCK.%d\n",coin->fds[coin->numsocks].fd);
if ( coin->fds[coin->numsocks].fd < 0 )
{
printf("ERROR on accept\n");
continue;
}
coin->numsocks++;
}
}
struct basilisk_request *basilisk_parsejson(struct basilisk_request *rp,cJSON *reqjson)
{
uint32_t requestid,quoteid;
memset(rp,0,sizeof(*rp));
rp->hash = jbits256(reqjson,"hash");
rp->desthash = jbits256(reqjson,"desthash");
rp->srcamount = j64bits(reqjson,"srcamount");
rp->minamount = j64bits(reqjson,"minamount");
rp->destamount = j64bits(reqjson,"destamount");
requestid = juint(reqjson,"requestid");
quoteid = juint(reqjson,"quoteid");
if ( jstr(reqjson,"relay") != 0 )
rp->relaybits = (uint32_t)calc_ipbits(jstr(reqjson,"relay"));
rp->timestamp = juint(reqjson,"timestamp");
rp->quotetime = juint(reqjson,"quotetime");
safecopy(rp->src,jstr(reqjson,"src"),sizeof(rp->src));
safecopy(rp->dest,jstr(reqjson,"dest"),sizeof(rp->dest));
if ( quoteid != 0 )
{
rp->quoteid = basilisk_quoteid(rp);
if ( quoteid != rp->quoteid )
printf("basilisk_parsejson quoteid.%u != %u error\n",quoteid,rp->quoteid);
}
rp->requestid = basilisk_requestid(rp);
if ( requestid != rp->requestid )
printf("basilisk_parsejson requestid.%u != %u error\n",requestid,rp->requestid);
return(rp);
}
void iguana_startconnection(void *arg)
{
void iguana_dedicatedloop(struct iguana_info *coin,struct iguana_peer *addr);
int32_t status,i,n; char ipaddr[64]; struct iguana_peer *addr = arg; struct iguana_info *coin = 0;
if ( addr == 0 || (coin= iguana_coin(addr->symbol)) == 0 )
{
printf("iguana_startconnection nullptrs addr.%p coin.%p\n",addr,coin);
return;
}
printf("startconnection.(%s)\n",addr->ipaddr);
if ( strcmp(coin->name,addr->coinstr) != 0 )
{
printf("iguana_startconnection.%s mismatched coin.%p (%s) vs (%s)\n",addr->ipaddr,coin,coin->symbol,addr->coinstr);
return;
}
addr->usock = pp_connect(addr->ipaddr,coin->chain->portp2p);
//addr->usock = iguana_connect(coin,addrs,sizeof(addrs)/sizeof(*addrs),addr->ipaddr,coin->chain->portp2p,2);
if ( addr->usock < 0 || coin->peers.shuttingdown != 0 )
{
status = IGUANA_PEER_KILLED;
strcpy(ipaddr,addr->ipaddr);
printf("refused PEER STATUS.%d for %s usock.%d\n",status,addr->ipaddr,addr->usock);
iguana_iAkill(coin,addr,1);
if ( iguana_rwipbits_status(coin,1,addr->ipbits,&status) == 0 )
printf("error updating status.%d for %s\n",status,ipaddr);
addr->pending = 0;
addr->ipbits = 0;
addr->dead = 1;
}
else
{
addr->ready = (uint32_t)time(NULL);
addr->ipbits = (uint32_t)calc_ipbits(addr->ipaddr);
addr->dead = 0;
addr->pending = 0;
addr->height = iguana_set_iAddrheight(coin,addr->ipbits,0);
strcpy(addr->symbol,coin->symbol);
strcpy(addr->coinstr,coin->name);
coin->peers.lastpeer = (uint32_t)time(NULL);
status = IGUANA_PEER_READY;
for (i=n=0; i<coin->MAXPEERS; i++)
if ( coin->peers.active[i].usock > 0 )
n++;
printf("CONNECTED.%d of max.%d! PEER STATUS.%d for %s usock.%d\n",n,coin->MAXPEERS,status,addr->ipaddr,addr->usock);
iguana_iAconnected(coin,addr);
coin->peers.numconnected++;
if ( iguana_rwipbits_status(coin,1,addr->ipbits,&status) == 0 )
printf("error updating status.%d for %s\n",status,addr->ipaddr);
if ( strcmp("127.0.0.1",addr->ipaddr) == 0 )
coin->peers.localaddr = addr;
#ifdef IGUANA_DEDICATED_THREADS
//iguana_launch("recv",iguana_dedicatedrecv,addr,IGUANA_RECVTHREAD);
iguana_dedicatedloop(coin,addr);
#endif
}
//printf("%s ready.%u dead.%d numthreads.%d\n",addr->ipaddr,addr->ready,addr->dead,coin->numthreads);
//queue_enqueue("retryQ",&coin->peers.retryQ,&addr->DL);
}
uint32_t iguana_possible_peer(struct iguana_info *coin,char *ipaddr)
{
char checkaddr[64]; uint32_t ipbits,ind,now = (uint32_t)time(NULL); int32_t i;
struct iguana_iAddr iA; struct iguana_kvitem item;
if ( ipaddr != 0 )
{
//printf("Q possible peer.(%s)\n",ipaddr);
queue_enqueue("possibleQ",&coin->possibleQ,queueitem(ipaddr),1);
return((uint32_t)time(NULL));
}
else if ( (ipaddr= queue_dequeue(&coin->possibleQ,1)) == 0 )
return((uint32_t)time(NULL));
#ifdef IGUANA_DISABLEPEERS
if ( strcmp(ipaddr,"127.0.0.1") != 0 )
{
free_queueitem(ipaddr);
return((uint32_t)time(NULL));
}
#endif
//printf("possible peer.(%s)\n",ipaddr);
for (i=0; i<coin->MAXPEERS; i++)
if ( strcmp(ipaddr,coin->peers.active[i].ipaddr) == 0 )
{
free_queueitem(ipaddr);
return((uint32_t)time(NULL));
}
if ( strncmp("0.0.0",ipaddr,5) != 0 && strcmp("0.0.255.255",ipaddr) != 0 && strcmp("1.0.0.0",ipaddr) != 0 )
{
if ( (ipbits= (uint32_t)calc_ipbits(ipaddr)) != 0 )
{
expand_ipbits(checkaddr,ipbits);
if ( strcmp(checkaddr,ipaddr) == 0 )
{
if ( (ind= iguana_ipbits2ind(coin,&iA,ipbits,1)) > 0 && iA.status != IGUANA_PEER_CONNECTING && iA.status != IGUANA_PEER_READY )
{
if ( (iA.lastconnect == 0 || iA.lastkilled == 0) || (iA.numconnects > 0 && iA.lastconnect > (now - IGUANA_RECENTPEER)) || iA.lastkilled < now-600 )
{
iA.status = IGUANA_PEER_ELIGIBLE;
if ( iguana_rwiAddrind(coin,1,&iA,ind) == 0 )
printf("error updating status for (%s)\n",ipaddr);
else if ( coin->peers.numconnected < coin->MAXPEERS )
{
memset(&item,0,sizeof(item));
item.hh.itemind = ind;
iguana_kvconnectiterator(coin,coin->iAddrs,&item,0,&iA.ipbits,&iA,sizeof(iA));
}
}
}
} else printf("reject ipaddr.(%s)\n",ipaddr);
}
}
free_queueitem(ipaddr);
return((uint32_t)time(NULL));
}
int32_t nn_add_lbservers(uint16_t port,uint16_t globalport,uint16_t relaysport,int32_t priority,int32_t sock,char servers[][MAX_SERVERNAME],int32_t num)
{
int32_t i; char endpoint[512],pubendpoint[512]; struct endpoint epbits; uint32_t ipbits;
if ( num > 0 && servers != 0 && nn_setsockopt(sock,NN_SOL_SOCKET,NN_SNDPRIO,&priority,sizeof(priority)) >= 0 )
{
for (i=0; i<num; i++)
{
if ( (ipbits= (uint32_t)calc_ipbits(servers[i])) == 0 )
{
printf("null ipbits.(%s)\n",servers[i]);
continue;
}
//printf("epbits.%llx ipbits.%x %s\n",*(long long *)&epbits,(uint32_t)ipbits,endpoint);
if ( ismyaddress(servers[i]) == 0 )
{
epbits = calc_epbits("tcp",ipbits,port,NN_REP);
expand_epbits(endpoint,epbits);
if ( nn_connect(sock,endpoint) >= 0 )
{
printf("+R%s ",endpoint);
add_relay(&RELAYS.active,epbits);
}
if ( RELAYS.subclient >= 0 )
{
if ( SUPERNET.iamrelay != 0 )
{
epbits = calc_epbits("tcp",ipbits,relaysport,NN_PUB);
expand_epbits(pubendpoint,epbits);
if ( nn_connect(RELAYS.subclient,pubendpoint) >= 0 )
printf("+P%s ",pubendpoint);
}
epbits = calc_epbits("tcp",ipbits,globalport,NN_PUB);
expand_epbits(pubendpoint,epbits);
if ( nn_connect(RELAYS.subclient,pubendpoint) >= 0 )
printf("+P%s ",pubendpoint);
}
}
}
priority++;
} else printf("error setting priority.%d (%s)\n",priority,nn_errstr());
return(priority);
}
uint64_t call_SuperNET_broadcast(struct pserver_info *pserver,char *msg,int32_t len,int32_t duration)
{
int32_t SuperNET_broadcast(char *msg,int32_t duration);
int32_t SuperNET_narrowcast(char *destip,unsigned char *msg,int32_t len);
char ip_port[64],*ptr;
uint64_t txid = 0;
int32_t port;
if ( 1 || SUPERNET_PORT != _SUPERNET_PORT )
return(0);
if ( Debuglevel > 1 )
printf("call_SuperNET_broadcast.%p %p len.%d\n",pserver,msg,len);
txid = calc_txid((uint8_t *)msg,(int32_t)strlen(msg));
if ( pserver != 0 )
{
port = (pserver->p2pport == 0) ? BTCD_PORT : pserver->p2pport;
//fprintf(stderr,"port.%d\n",port);
sprintf(ip_port,"%s:%d",pserver->ipaddr,port);
txid ^= calc_ipbits(pserver->ipaddr);
if ( Debuglevel > 1 )
{
char debugstr[4096];
init_hexbytes_noT(debugstr,(uint8_t *)msg,len);
debugstr[32] = 0;
fprintf(stderr,"%s NARROWCAST.(%s) txid.%llu (%s)\n",pserver->ipaddr,debugstr,(long long)txid,ip_port);
}
ptr = calloc(1,64 + sizeof(len) + len + 1);
memcpy(ptr,&len,sizeof(len));
memcpy(&ptr[sizeof(len)],ip_port,strlen(ip_port));
memcpy(&ptr[sizeof(len) + 64],msg,len);
queue_enqueue(&NarrowQ,ptr);
return(txid);
}
else
{
char *cmdstr,NXTaddr[64];
cJSON *array;
int32_t valid;
array = cJSON_Parse(msg);
if ( array != 0 )
{
cmdstr = verify_tokenized_json(0,NXTaddr,&valid,array);
if ( cmdstr != 0 )
free(cmdstr);
free_json(array);
if ( Debuglevel > 1 )
{
char debugstr[4096];
init_hexbytes_noT(debugstr,(uint8_t *)msg,len);
debugstr[32] = 0;
printf("BROADCAST parms.(%s) valid.%d duration.%d txid.%llu len.%d\n",debugstr,valid,duration,(long long)txid,len);
}
ptr = calloc(1,sizeof(len) + sizeof(duration) + len);
memcpy(ptr,&len,sizeof(len));
memcpy(&ptr[sizeof(len)],&duration,sizeof(duration));
memcpy(&ptr[sizeof(len) + sizeof(duration)],msg,len);
ptr[sizeof(len) + sizeof(duration) + len] = 0;
queue_enqueue(&BroadcastQ,ptr);
return(txid);
} else printf("cant broadcast non-JSON.(%s)\n",msg);
}
return(txid);
}
TWO_STRINGS(iguana,dpow,symbol,pubkey)
{
char *retstr,srcaddr[64],destaddr[64]; struct iguana_info *src,*dest; cJSON *ismine; int32_t i,srcvalid,destvalid; struct dpow_info *dp = &myinfo->DPOWS[myinfo->numdpows];
destvalid = srcvalid = 0;
if ( myinfo->NOTARY.RELAYID < 0 )
{
if ( (retstr= basilisk_addrelay_info(myinfo,0,(uint32_t)calc_ipbits(myinfo->ipaddr),myinfo->myaddr.persistent)) != 0 )
{
printf("addrelay.(%s)\n",retstr);
free(retstr);
}
if ( myinfo->NOTARY.RELAYID < 0 )
return(clonestr("{\"error\":\"must be running as notary node\"}"));
}
if ( dp->symbol[0] != 0 )
return(clonestr("{\"error\":\"cant dPoW more than one coin at a time\"}"));
if ( pubkey == 0 || pubkey[0] == 0 || is_hexstr(pubkey,0) != 66 )
return(clonestr("{\"error\":\"need 33 byte pubkey\"}"));
if ( symbol == 0 || symbol[0] == 0 )
symbol = "KMD";
//if ( myinfo->numdpows == 1 )
// komodo_assetcoins(-1);
if ( iguana_coinfind(symbol) == 0 )
return(clonestr("{\"error\":\"cant dPoW an inactive coin\"}"));
if ( strcmp(symbol,"KMD") == 0 && iguana_coinfind("BTC") == 0 )
return(clonestr("{\"error\":\"cant dPoW KMD without BTC\"}"));
else if ( myinfo->numdpows == 0 && strcmp(symbol,"KMD") != 0 && iguana_coinfind("KMD") == 0 )
return(clonestr("{\"error\":\"cant dPoW without KMD\"}"));
if ( myinfo->numdpows > 1 )
{
if ( strcmp(symbol,"KMD") == 0 || iguana_coinfind("BTC") == 0 )
{
dp->symbol[0] = 0;
return(clonestr("{\"error\":\"cant dPoW KMD or BTC again\"}"));
}
for (i=1; i<myinfo->numdpows; i++)
if ( strcmp(symbol,myinfo->DPOWS[i].symbol) == 0 )
{
dp->symbol[0] = 0;
return(clonestr("{\"error\":\"cant dPoW same coin again\"}"));
}
}
strcpy(dp->symbol,symbol);
if ( strcmp(dp->symbol,"KMD") == 0 )
{
strcpy(dp->dest,"BTC");
dp->srcconfirms = DPOW_KOMODOCONFIRMS;
}
else
{
strcpy(dp->dest,"KMD");
dp->srcconfirms = DPOW_THIRDPARTY_CONFIRMS;
}
if ( dp->srcconfirms > DPOW_FIFOSIZE )
dp->srcconfirms = DPOW_FIFOSIZE;
src = iguana_coinfind(dp->symbol);
dest = iguana_coinfind(dp->dest);
if ( src == 0 || dest == 0 )
{
dp->symbol[0] = 0;
return(clonestr("{\"error\":\"source coin or dest coin not there\"}"));
}
char tmp[67];
safecopy(tmp,pubkey,sizeof(tmp));
decode_hex(dp->minerkey33,33,tmp);
bitcoin_address(srcaddr,src->chain->pubtype,dp->minerkey33,33);
if ( (retstr= dpow_validateaddress(myinfo,src,srcaddr)) != 0 )
{
json = cJSON_Parse(retstr);
if ( (ismine= jobj(json,"ismine")) != 0 && is_cJSON_True(ismine) != 0 )
srcvalid = 1;
else srcvalid = 0;
free(retstr);
retstr = 0;
}
bitcoin_address(destaddr,dest->chain->pubtype,dp->minerkey33,33);
if ( (retstr= dpow_validateaddress(myinfo,dest,destaddr)) != 0 )
{
json = cJSON_Parse(retstr);
if ( (ismine= jobj(json,"ismine")) != 0 && is_cJSON_True(ismine) != 0 )
destvalid = 1;
else destvalid = 0;
free(retstr);
retstr = 0;
}
for (i=0; i<33; i++)
printf("%02x",dp->minerkey33[i]);
printf(" DPOW with pubkey.(%s) %s.valid%d %s -> %s %s.valid%d\n",tmp,srcaddr,srcvalid,dp->symbol,dp->dest,destaddr,destvalid);
if ( srcvalid <= 0 || destvalid <= 0 )
{
dp->symbol[0] = 0;
return(clonestr("{\"error\":\"source address or dest address has no privkey, importprivkey\"}"));
}
if ( bitcoin_pubkeylen(dp->minerkey33) <= 0 )
{
dp->symbol[0] = 0;
return(clonestr("{\"error\":\"illegal pubkey\"}"));
}
if ( dp->blocks == 0 )
{
dp->maxblocks = 1000000;
dp->blocks = calloc(dp->maxblocks,sizeof(*dp->blocks));
}
portable_mutex_init(&dp->paxmutex);
portable_mutex_init(&dp->dexmutex);
PAX_init();
//printf(">>>>>>>>>>>>>>> call paxpending\n");
//uint8_t buf[32768];
//dpow_paxpending(buf);
myinfo->numdpows++;
return(clonestr("{\"result\":\"success\"}"));
}
