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/******************************************************************************
* 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. *
* *
******************************************************************************/
#include "../iguana/iguana777.h"
#include "../iguana/exchanges777.h"
typedef char *basilisk_servicefunc(struct supernet_info *myinfo,char *CMD,void *addr,char *remoteaddr,uint32_t basilisktag,cJSON *valsobj,uint8_t *data,int32_t datalen,bits256 hash,int32_t from_basilisk);
int32_t basilisk_notarycmd(char *cmd)
{
//&& strcmp(cmd,"DEX") != 0 && strcmp(cmd,"ACC") != 0 && strcmp(cmd,"RID") != 0 &&
if ( strcmp(cmd,"PIN") != 0 && strcmp(cmd,"OUT") != 0 && strcmp(cmd,"MSG") != 0 && strcmp(cmd,"VOT") != 0 )
return(0);
else return(1);
}
/*int32_t basilisk_specialrelay_CMD(char *CMD)
{
if ( strcmp(CMD,"OUT") == 0 || strcmp(CMD,"MSG") == 0 || strcmp(CMD,"BLK") == 0 || strcmp(CMD,"MEM") == 0 || strcmp(CMD,"GTX") == 0 || strcmp(CMD,"RID") == 0 )
return(1);
else return(0);
}*/
cJSON *basilisk_utxosweep(struct supernet_info *myinfo,char *symbol,int64_t *satoshis,uint64_t limit,int32_t maxvins,char *coinaddr)
{
int32_t i,n,numvins = 0; char *retstr; uint64_t value,biggest = 0; struct iguana_info *coin=0; cJSON *item,*biggestitem=0,*array,*utxos = 0;
coin = iguana_coinfind(symbol);
if ( (retstr= dex_listunspent(myinfo,coin,0,0,symbol,coinaddr)) != 0 )
{
//printf("(%s)\n",retstr);
if ( (array= cJSON_Parse(retstr)) != 0 )
{
n = cJSON_GetArraySize(array);
for (i=0; i<n; i++)
{
item = jitem(array,i);
if ( (value= SATOSHIDEN*jdouble(item,"amount")) != 0 || (value= SATOSHIDEN*jdouble(item,"value")) != 0 )
{
//fprintf(stderr,"%.8f ",dstr(value));
if ( value <= limit )
{
//fprintf(stderr,"< ");
if ( utxos == 0 )
utxos = cJSON_CreateArray();
if ( numvins < maxvins )
{
jaddi(utxos,jduplicate(item));
numvins++;
}
}
else if ( value > biggest )
{
//fprintf(stderr,"biggest! ");
if ( biggestitem != 0 )
free_json(biggestitem);
biggestitem = jduplicate(item);
*satoshis = biggest = value;
} //else fprintf(stderr,"> ");
}
}
free_json(array);
if ( utxos == 0 && biggestitem != 0 )
{
fprintf(stderr,"add biggest.(%s)\n",jprint(biggestitem,0));
jaddi(utxos,biggestitem);
}
}
free(retstr);
}
return(utxos);
}
uint32_t basilisk_calcnonce(struct supernet_info *myinfo,uint8_t *data,int32_t datalen,uint32_t nBits)
{
int32_t i,numiters = 0; bits256 hash,hash2,threshold; uint32_t basilisktag;
vcalc_sha256(0,hash.bytes,data,datalen);
if ( nBits >= GECKO_EASIESTDIFF )
threshold = bits256_from_compact(GECKO_EASIESTDIFF);
else threshold = bits256_from_compact(nBits);
for (i=0; i<numiters; i++)
{
//OS_randombytes((void *)hash.uints,sizeof(basilisktag));
hash.uints[0] = rand();
vcalc_sha256(0,hash2.bytes,hash.bytes,sizeof(hash));
if ( bits256_cmp(threshold,hash2) > 0 )
break;
}
iguana_rwnum(0,(void *)hash.uints,sizeof(basilisktag),&basilisktag);
iguana_rwnum(1,&data[-(int32_t)sizeof(basilisktag)],sizeof(basilisktag),&basilisktag);
//char str[65],str2[65]; printf("found hash after numiters.%d %s vs %s basilisktag.%u\n",numiters,bits256_str(str,threshold),bits256_str(str2,hash2),basilisktag);
return(basilisktag);
}
char *basilisk_addhexstr(char **ptrp,cJSON *valsobj,char *strbuf,int32_t strsize,uint8_t *data,int32_t datalen)
{
*ptrp = 0;
if ( data != 0 && datalen > 0 )
{
if ( valsobj != 0 && jobj(valsobj,"data") != 0 )
{
printf("basilisk_addhexstr warning: already have data object\n");
jdelete(valsobj,"data");
}
if ( (datalen<<1)+1 > strsize )
{
strbuf = calloc(1,(datalen << 1) + 1);
*ptrp = (void *)strbuf;
}
init_hexbytes_noT(strbuf,data,datalen);
if ( valsobj != 0 )
jaddstr(valsobj,"data",strbuf);
} else return(0);
return(strbuf);
}
uint8_t *get_dataptr(int32_t hdroffset,uint8_t **ptrp,int32_t *datalenp,uint8_t *space,int32_t spacesize,char *hexstr)
{
*ptrp = 0; uint8_t *data = 0;
if ( hexstr != 0 && (*datalenp= is_hexstr(hexstr,0)) > 0 )
{
*datalenp >>= 1;
if ( (*datalenp+hdroffset) <= spacesize )
{
memset(space,0,hdroffset);
data = &space[hdroffset];
} else *ptrp = data = calloc(1,*datalenp + hdroffset);
decode_hex(&data[hdroffset],*datalenp,hexstr);
}
if ( data != 0 )
return(&data[hdroffset]);
else return(data);
}
uint8_t *basilisk_jsondata(int32_t extraoffset,uint8_t **ptrp,uint8_t *space,int32_t spacesize,int32_t *datalenp,char *symbol,cJSON *sendjson,uint32_t basilisktag)
{
char *sendstr,*hexstr=0; uint8_t *data,hexspace[4096],*allocptr=0,*hexdata=0; int32_t datalen,hexlen=0;
if ( jobj(sendjson,"symbol") == 0 )
jaddstr(sendjson,"symbol",symbol);
if ( (hexstr= jstr(sendjson,"data")) != 0 )
{
hexdata = get_dataptr(0,&allocptr,&hexlen,hexspace,sizeof(hexspace),hexstr);
//printf("jsondata.%s from sendjson\n",hexstr);
jdelete(sendjson,"data");
}
*ptrp = 0;
sendstr = jprint(sendjson,0);
datalen = (int32_t)strlen(sendstr) + 1;
if ( (datalen + extraoffset + BASILISK_HDROFFSET + hexlen) <= spacesize )
data = space;
else
{
data = calloc(1,datalen + extraoffset + BASILISK_HDROFFSET + hexlen);
*ptrp = data;
}
data += extraoffset + BASILISK_HDROFFSET;
memcpy(data,sendstr,datalen);
//printf("jsondata.(%s) + hexlen.%d\n",sendstr,hexlen);
free(sendstr);
if ( hexlen > 0 && hexdata != 0 )
{
//int32_t i; for (i=0; i<hexlen; i++)
// printf("%02x",hexdata[i]);
//printf(" <- hexdata\n");
memcpy(&data[datalen],hexdata,hexlen);
datalen += hexlen;
}
*datalenp = datalen;
if ( allocptr != 0 )
free(allocptr);
return(data);
}
struct basilisk_item *basilisk_itemcreate(struct supernet_info *myinfo,char *CMD,char *symbol,uint32_t basilisktag,int32_t numrequired,cJSON *vals,int32_t timeoutmillis,void *metricfunc)
{
struct basilisk_item *ptr;
ptr = calloc(1,sizeof(*ptr));
ptr->basilisktag = basilisktag;
if ( (ptr->numrequired= numrequired) == 0 )
ptr->numrequired = 1;
strcpy(ptr->CMD,CMD);
safecopy(ptr->symbol,symbol,sizeof(ptr->symbol));
ptr->duration = timeoutmillis;
ptr->expiration = OS_milliseconds() + timeoutmillis;
//printf("itemcreate.%p %s %f timeout.%d\n",ptr,CMD,OS_milliseconds(),timeoutmillis);
return(ptr);
}
int32_t basilisk_sendcmd(struct supernet_info *myinfo,char *destipaddr,char *type,uint32_t *basilisktagp,int32_t encryptflag,int32_t delaymillis,uint8_t *data,int32_t datalen,int32_t fanout,uint32_t nBits) // data must be offset by sizeof(iguana_msghdr)+sizeof(basilisktag)
{
int32_t i,l,s,valid,val,n=0,retval = -1; char cmd[12]; struct iguana_info *coin,*tmp; struct iguana_peer *addr; bits256 hash; uint32_t *alreadysent,r;
if ( fanout <= 0 )
fanout = sqrt(myinfo->NOTARY.NUMRELAYS) + 1;
else if ( fanout > BASILISK_MAXFANOUT )
fanout = BASILISK_MAXFANOUT;
if ( type == 0 )
type = "INF";
if ( strlen(type) > 3 )
{
printf("basilisk_sendcmd illegal type(%s)\n",type);
return(-1);
}
if ( destipaddr != 0 )
{
if ( destipaddr[0] == 0 )
{
destipaddr = 0; // broadcast
}
else if ( strcmp(destipaddr,"127.0.0.1") == 0 || strcmp(destipaddr,myinfo->ipaddr) == 0 )
{
printf("return after locally basilisk_msgprocess\n");
hash = GENESIS_PUBKEY;
basilisk_msgprocess(myinfo,0,0,type,*basilisktagp,data,datalen);
return(0);
}
}
iguana_rwnum(1,&data[-(int32_t)sizeof(*basilisktagp)],sizeof(*basilisktagp),basilisktagp);
if ( *basilisktagp == 0 )
{
if ( nBits != 0 )
*basilisktagp = basilisk_calcnonce(myinfo,data,datalen,nBits);
else *basilisktagp = rand();
iguana_rwnum(1,&data[-(int32_t)sizeof(*basilisktagp)],sizeof(*basilisktagp),basilisktagp);
}
data -= sizeof(*basilisktagp), datalen += sizeof(*basilisktagp);
memset(cmd,0,sizeof(cmd));
sprintf(cmd,"SuperNET%s",type);
if ( destipaddr != 0 )
{
cmd[6] = 'E', cmd[7] = 'T';
HASH_ITER(hh,myinfo->allcoins,coin,tmp)
{
if ( coin->peers == 0 )
continue;
if ( coin->FULLNODE == 0 && coin->VALIDATENODE == 0 )
cmd[0] = 's';
else cmd[0] = 'S';
for (i=0; i<IGUANA_MAXPEERS; i++)
{
addr = &coin->peers->active[i];
if ( addr->usock >= 0 && strcmp(addr->ipaddr,destipaddr) == 0 )
{
return(iguana_queue_send(addr,delaymillis,&data[-(int32_t)sizeof(struct iguana_msghdr)],cmd,datalen));
}
}
}
return(-1);
}
if ( basilisk_notarycmd(type) != 0 && myinfo->NOTARY.NUMRELAYS == 0 )
{
//printf("no notary nodes to send (%s) to\n",type);
return(-1);
}
//portable_mutex_lock(&myinfo->allcoins_mutex);
//dex_reqsend(myinfo,&data[-(int32_t)sizeof(struct iguana_msghdr)],datalen);
alreadysent = calloc(IGUANA_MAXPEERS * IGUANA_MAXCOINS,sizeof(*alreadysent));
HASH_ITER(hh,myinfo->allcoins,coin,tmp)
{
if ( coin->peers == 0 )
continue;
if ( basilisk_notarycmd(type) != 0 && strcmp(coin->symbol,"RELAY") != 0 )
continue;
if ( coin->FULLNODE == 0 && coin->VALIDATENODE == 0 )
cmd[0] = 's';
else cmd[0] = 'S';
r = rand() % IGUANA_MAXPEERS;
for (l=0; l<IGUANA_MAXPEERS; l++)
{
i = (l + r) % IGUANA_MAXPEERS;
addr = &coin->peers->active[i];
if ( addr->supernet != 0 || addr->basilisk != 0 )
valid = 1;
else valid = 0;
if ( addr->usock >= 0 )
{
s = 0;
valid = (addr->supernet != 0);
if ( basilisk_notarycmd(type) != 0 || (strcmp(type,"INF") == 0 && strcmp(coin->symbol,"RELAY") == 0) )
{
valid = 0;
/*OS_randombytes((void *)&r2,sizeof(r2));
if ( (r2 % myinfo->NOTARY.NUMRELAYS) >= sqrt(myinfo->NOTARY.NUMRELAYS) )
{
printf("fanout.%d s.%d n.%d skip %s\n",fanout,s,n,addr->ipaddr);
continue;
}*/
for (s=0; s<myinfo->NOTARY.NUMRELAYS; s++)
if ( addr->ipbits != myinfo->myaddr.myipbits && myinfo->NOTARY.RELAYS[s].ipbits == addr->ipbits )
break;
if ( s == myinfo->NOTARY.NUMRELAYS )
{
//printf("skip non-relay.(%s)\n",addr->ipaddr);
continue;
}
valid = 1;
//printf("send to other relay.(%s)\n",addr->ipaddr);
}
for (s=0; s<n; s++)
if ( alreadysent[s] == addr->ipbits )
{
//printf("already sent to %s\n",addr->ipaddr);
continue;
}
if ( s == n && valid == 1 && (destipaddr == 0 || strcmp(addr->ipaddr,destipaddr) == 0) )
{
val = 0;
//fprintf(stderr,">>> (%s).%u ",addr->ipaddr,coin->chain->portp2p);
//printf("n.%d/fanout.%d i.%d l.%d [%s].tag%u send %s [%x] datalen.%d addr->supernet.%u basilisk.%u to (%s).%d destip.%s\n",n,fanout,i,l,cmd,*(uint32_t *)data,type,*(int32_t *)&data[datalen-4],datalen,addr->supernet,addr->basilisk,addr->ipaddr,addr->A.port,destipaddr!=0?destipaddr:"broadcast");
if ( encryptflag != 0 && bits256_nonz(addr->pubkey) != 0 )
{
void *ptr; uint8_t *cipher,space[8192]; int32_t cipherlen; bits256 privkey;
cmd[6] = 'e', cmd[7] = 't';
memset(privkey.bytes,0,sizeof(privkey));
if ( (cipher= SuperNET_ciphercalc(&ptr,&cipherlen,&privkey,&addr->pubkey,data,datalen,space,sizeof(space))) != 0 )
{
if ( (val= iguana_queue_send(addr,delaymillis,&cipher[-(int32_t)sizeof(struct iguana_msghdr)],cmd,cipherlen)) >= cipherlen )
alreadysent[n++] = (uint32_t)addr->ipbits;
if ( ptr != 0 )
free(ptr);
}
}
else
{
cmd[6] = 'E', cmd[7] = 'T';
if ( (val= iguana_queue_send(addr,delaymillis,&data[-(int32_t)sizeof(struct iguana_msghdr)],cmd,datalen)) >= datalen )
{
alreadysent[n++] = (uint32_t)addr->ipbits;
if ( n >= IGUANA_MAXPEERS*IGUANA_MAXCOINS )
break;
}
}
if ( destipaddr != 0 || (fanout > 0 && n >= fanout) )
{
free(alreadysent);
return(val);
}
else if ( val > retval )
retval = val;
}
}
}
if ( n >= IGUANA_MAXPEERS*IGUANA_MAXCOINS )
break;
}
//portable_mutex_unlock(&myinfo->allcoins_mutex);
free(alreadysent);
return(n);
}
void basilisk_sendback(struct supernet_info *myinfo,char *origCMD,char *symbol,char *remoteaddr,uint32_t basilisktag,char *retstr)
{
uint8_t *data,space[4096],*allocptr; struct iguana_info *virt; cJSON *valsobj; int32_t datalen,encryptflag=0,delaymillis=0;
//printf("%s retstr.(%s) -> remote.(%s) basilisktag.%u\n",origCMD,retstr,remoteaddr,basilisktag);
if ( retstr != 0 && remoteaddr != 0 && remoteaddr[0] != 0 && strcmp(remoteaddr,"127.0.0.1") != 0 )
{
if ( (valsobj= cJSON_Parse(retstr)) != 0 )
{
jaddstr(valsobj,"origcmd",origCMD);
jaddstr(valsobj,"symbol",symbol);
if ( myinfo->ipaddr[0] != 0 )
jaddstr(valsobj,"relay",myinfo->ipaddr);
jaddnum(valsobj,"timestamp",(uint32_t)time(NULL));
if ( (virt= iguana_coinfind(symbol)) != 0 )
{
jaddnum(valsobj,"hwm",virt->blocks.hwmchain.height);
if ( bits256_nonz(virt->blocks.hwmchain.RO.hash2) != 0 )
jaddbits256(valsobj,"chaintip",virt->blocks.hwmchain.RO.hash2);
}
data = basilisk_jsondata(sizeof(struct iguana_msghdr),&allocptr,space,sizeof(space),&datalen,symbol,valsobj,basilisktag);
//printf("sendback.%d -> %s\n",datalen,remoteaddr);
basilisk_sendcmd(myinfo,remoteaddr,"RET",&basilisktag,encryptflag,delaymillis,data,datalen,0,0);
if ( allocptr != 0 )
free(allocptr);
free_json(valsobj);
}
}
}
struct basilisk_item *basilisk_issueremote(struct supernet_info *myinfo,struct iguana_peer *addr,int32_t *numsentp,char *CMD,char *symbol,int32_t blockflag,cJSON *valsobj,int32_t fanout,int32_t numrequired,uint32_t basilisktag,int32_t timeoutmillis,void *deprecated_dontuse,char *retstr,int32_t encryptflag,int32_t delaymillis,uint32_t nBits)
{
struct basilisk_item *pending; uint8_t *allocptr,*data,space[4096]; int32_t datalen;
pending = basilisk_itemcreate(myinfo,CMD,symbol,basilisktag,numrequired,valsobj,timeoutmillis,0);
pending->nBits = nBits;
*numsentp = 0;
if ( retstr != 0 )
{
pending->retstr = retstr;
pending->numresults = pending->numrequired;
}
else
{
valsobj = jduplicate(valsobj);
data = basilisk_jsondata(sizeof(struct iguana_msghdr),&allocptr,space,sizeof(space),&datalen,symbol,valsobj,basilisktag);
free_json(valsobj), valsobj = 0;
*numsentp = pending->numsent = basilisk_sendcmd(myinfo,addr != 0 ? addr->ipaddr : 0,CMD,&pending->basilisktag,encryptflag,delaymillis,data,datalen,fanout,pending->nBits);
if ( blockflag != 0 )
{
portable_mutex_lock(&myinfo->basilisk_mutex);
HASH_ADD(hh,myinfo->basilisks.issued,basilisktag,sizeof(basilisktag),pending);
portable_mutex_unlock(&myinfo->basilisk_mutex);
if ( pending->expiration <= OS_milliseconds() )
pending->expiration = OS_milliseconds() + pending->duration;
strcpy(pending->symbol,"RELAY");
strcpy(pending->CMD,CMD);
//printf("block for %f\n",pending->expiration - OS_milliseconds());
while ( OS_milliseconds() < pending->expiration )
{
portable_mutex_lock(&myinfo->basilisk_mutex);
if ( pending->numresults >= pending->numrequired )
{
portable_mutex_unlock(&myinfo->basilisk_mutex);
//printf("%p <<<<<<<<<<<<< numresults.%d vs numrequired.%d\n",pending,pending->numresults,pending->numrequired);
break;
}
portable_mutex_unlock(&myinfo->basilisk_mutex);
usleep(10000);
}
}
if ( allocptr != 0 )
free(allocptr);
}
return(pending);
}
struct basilisk_item *basilisk_requestservice(struct supernet_info *myinfo,struct iguana_peer *addr,char *CMD,int32_t blockflag,cJSON *valsobj,bits256 hash,uint8_t *data,int32_t datalen,uint32_t nBits)
{
int32_t minfanout,numrequired,timeoutmillis,numsent,delaymillis,encryptflag,fanout; struct basilisk_item *ptr; char buf[4096],*symbol,*str = 0; struct iguana_info *virt;
//printf("request.(%s)\n",jprint(valsobj,0));
basilisk_addhexstr(&str,valsobj,buf,sizeof(buf),data,datalen);
if ( str != 0 )
free(str);
if ( bits256_nonz(hash) == 0 || (bits256_cmp(hash,GENESIS_PUBKEY) != 0 && bits256_nonz(hash) != 0) )
{
if ( jobj(valsobj,"hash") != 0 )
jdelete(valsobj,"hash");
jaddbits256(valsobj,"hash",hash);
}
if ( (timeoutmillis= jint(valsobj,"timeout")) == 0 )
timeoutmillis = BASILISK_TIMEOUT;
minfanout = sqrt(myinfo->NOTARY.NUMRELAYS)+1;
if ( minfanout < 8 )
minfanout = 8;
if ( jobj(valsobj,"fanout") == 0 )
fanout = minfanout;
else fanout = jint(valsobj,"fanout");
if ( fanout < minfanout )
fanout = minfanout;
if ( (numrequired= jint(valsobj,"numrequired")) <= 0 )
numrequired = MIN(fanout/2,sqrt(myinfo->NOTARY.NUMRELAYS)+1);
if ( (symbol= jstr(valsobj,"coin")) != 0 || (symbol= jstr(valsobj,"symbol")) != 0 )
{
if ( (virt= iguana_coinfind(symbol)) != 0 )
{
jaddstr(valsobj,"symbol",symbol);
jaddnum(valsobj,"longest",virt->longestchain);
jaddnum(valsobj,"hwm",virt->blocks.hwmchain.height);
}
}
if ( symbol == 0 )
symbol = "RELAY";
encryptflag = jint(valsobj,"encrypt");
delaymillis = jint(valsobj,"delay");
ptr = basilisk_issueremote(myinfo,addr,&numsent,CMD,symbol,blockflag,valsobj,fanout,numrequired,0,timeoutmillis,0,0,encryptflag,delaymillis,nBits);
return(ptr);
}
char *basilisk_standardservice(char *CMD,struct supernet_info *myinfo,void *_addr,bits256 hash,cJSON *valsobj,char *hexstr,int32_t blockflag) // client side
{
uint32_t nBits = 0; uint8_t space[4096],*allocptr=0,*data = 0; struct basilisk_item *ptr; int32_t i,datalen = 0; cJSON *retjson; char *retstr=0;
if ( myinfo->IAMNOTARY != 0 && myinfo->NOTARY.RELAYID >= 0 && (strcmp(CMD,"INF") != 0 && basilisk_notarycmd(CMD) == 0) )
return(clonestr("{\"error\":\"unsupported special relay command\"}"));
data = get_dataptr(BASILISK_HDROFFSET,&allocptr,&datalen,space,sizeof(space),hexstr);
//printf("request.(%s)\n",jprint(valsobj,0));
ptr = basilisk_requestservice(myinfo,_addr,CMD,blockflag,valsobj,hash,data,datalen,nBits);
if ( allocptr != 0 )
free(allocptr);
if ( ptr != 0 )
{
if ( (retstr= ptr->retstr) != 0 )
ptr->retstr = 0;
else
{
if ( ptr->numresults > 0 )
{
retjson = cJSON_CreateArray();
for (i=0; i<ptr->numresults; i++)
jaddi(retjson,ptr->results[i]), ptr->results[i] = 0;
//printf("numresults.%d (%p)\n",ptr->numresults,ptr);
}
else
{
retjson = cJSON_CreateObject();
if ( ptr->numsent > 0 )
{
//queue_enqueue("submitQ",&myinfo->basilisks.submitQ,&ptr->DL,0);
jaddstr(retjson,"result","error");
jaddnum(retjson,"packetsize",ptr->numsent);
} else jaddstr(retjson,"error","didnt find any nodes to send to");
}
retstr = jprint(retjson,1);
}
ptr->finished = OS_milliseconds() + 10000;
}
if ( (0) && strcmp("MSG",CMD) == 0 )
printf("%s.(%s) -> (%s)\n",CMD,jprint(valsobj,0),retstr!=0?retstr:"");
return(retstr);
}
int32_t basilisk_relayid(struct supernet_info *myinfo,uint32_t ipbits)
{
int32_t j;
for (j=0; j<myinfo->NOTARY.NUMRELAYS; j++)
if ( myinfo->NOTARY.RELAYS[j].ipbits == ipbits )
return(j);
return(-1);
}
#include "basilisk_bitcoin.c"
#include "basilisk_nxt.c"
#include "basilisk_ether.c"
#include "basilisk_waves.c"
#include "basilisk_lisk.c"
#include "smartaddress.c"
#include "basilisk_MSG.c"
#include "tradebots_marketmaker.c"
#include "tradebots_liquidity.c"
#include "basilisk_tradebot.c"
#include "basilisk_swap.c"
#include "basilisk_DEX.c"
#include "basilisk_ping.c"
#include "basilisk_vote.c"
#include "basilisk_CMD.c"
#include "jumblr.c"
void basilisk_functions(struct iguana_info *coin,int32_t protocol)
{
coin->protocol = protocol;
switch ( protocol )
{
/*case IGUANA_PROTOCOL_BITCOIN:
coin->basilisk_balances = basilisk_bitcoinbalances;
coin->basilisk_rawtx = basilisk_bitcoinrawtx;
//coin->basilisk_rawtxmetric = basilisk_bitcoin_rawtxmetric;
coin->basilisk_value = basilisk_bitcoinvalue;
coin->basilisk_valuemetric = basilisk_bitcoin_valuemetric;
break;
case IGUANA_PROTOCOL_IOTA:
coin->basilisk_balances = basilisk_iotabalances;
coin->basilisk_rawtx = basilisk_iotarawtx;
break;
case IGUANA_PROTOCOL_NXT:
coin->basilisk_balances = basilisk_nxtbalances;
coin->basilisk_rawtx = basilisk_nxtrawtx;
break;
case IGUANA_PROTOCOL_ETHER:
coin->basilisk_balances = basilisk_etherbalances;
coin->basilisk_rawtx = basilisk_etherrawtx;
break;
case IGUANA_PROTOCOL_WAVES:
coin->basilisk_balances = basilisk_wavesbalances;
coin->basilisk_rawtx = basilisk_wavesrawtx;
break;
case IGUANA_PROTOCOL_LISK:
coin->basilisk_balances = basilisk_liskbalances;
coin->basilisk_rawtx = basilisk_liskrawtx;
break;*/
}
}
int32_t basilisk_hashes_send(struct supernet_info *myinfo,struct iguana_info *virt,struct iguana_peer *addr,char *CMD,bits256 *hashes,int32_t num)
{
bits256 hash; uint8_t *serialized; int32_t i,len = 0; char *str=0,*retstr,*hexstr,space[4096]; bits256 txid; cJSON *vals;
if ( virt != 0 && addr != 0 )
{
memset(hash.bytes,0,sizeof(hash));
serialized = (void *)hashes;
for (i=0; i<num; i++)
{
txid = hashes[i];
len += iguana_rwbignum(1,&serialized[len],sizeof(txid),txid.bytes);
}
if ( (hexstr= basilisk_addhexstr(&str,0,space,sizeof(space),serialized,len)) != 0 )
{
vals = cJSON_CreateObject();
jaddstr(vals,"symbol",virt->symbol);
if ( (retstr= basilisk_standardservice(CMD,myinfo,addr,hash,vals,hexstr,0)) != 0 )
free(retstr);
free_json(vals);
if ( str != 0 )
free(str);
}
return(0);
} else return(-1);
}
void basilisk_geckoresult(struct supernet_info *myinfo,char *remoteaddr,char *retstr,uint8_t *data,int32_t datalen)
{
struct iguana_info *virt; char *symbol,*str,*type; cJSON *retjson; bits256 hash2;
if ( retstr != 0 && (retjson= cJSON_Parse(retstr)) != 0 )
{
if ( (symbol= jstr(retjson,"symbol")) != 0 && (virt= iguana_coinfind(symbol)) != 0 )
{
if ( data != 0 )
{
str = 0;
if ( (type= jstr(retjson,"type")) != 0 )
{
hash2 = jbits256(retjson,"hash");
if ( strcmp(type,"HDR") == 0 && virt->virtualchain != 0 )
str = gecko_headersarrived(myinfo,virt,remoteaddr,data,datalen,hash2);
else if ( strcmp(type,"MEM") == 0 && virt->virtualchain != 0 )
str = gecko_mempoolarrived(myinfo,virt,remoteaddr,data,datalen,hash2);
else if ( strcmp(type,"BLK") == 0 && virt->virtualchain != 0 )
str = gecko_blockarrived(myinfo,virt,remoteaddr,data,datalen,hash2,0);
else if ( strcmp(type,"GTX") == 0 && virt->virtualchain != 0 )
str = gecko_txarrived(myinfo,virt,remoteaddr,data,datalen,hash2);
}
if ( str != 0 )
free(str);
}
}
free_json(retjson);
}
}
void basilisk_result(struct supernet_info *myinfo,char *remoteaddr,uint32_t basilisktag,cJSON *vals,uint8_t *data,int32_t datalen)
{
char *retstr,CMD[16]; struct basilisk_item *pending; cJSON *item;
if ( vals != 0 )
{
retstr = jprint(vals,0);
safecopy(CMD,jstr(vals,"origcmd"),sizeof(CMD));
//if ( 0 && strcmp("RID",CMD) != 0 )
//printf("(%s) -> Q.%u results vals.(%s)\n",CMD,basilisktag,retstr);//(int32_t)strlen(retstr));
if ( strcmp(CMD,"GET") == 0 )
basilisk_geckoresult(myinfo,remoteaddr,retstr,data,datalen);
else
{
portable_mutex_lock(&myinfo->basilisk_mutex);
HASH_FIND(hh,myinfo->basilisks.issued,&basilisktag,sizeof(basilisktag),pending);
portable_mutex_unlock(&myinfo->basilisk_mutex);
if ( pending != 0 && retstr != 0 )
{
if ( (item= cJSON_Parse(retstr)) != 0 )
{
if ( jobj(item,"myip") == 0 )
jaddstr(item,"myip",remoteaddr);
if ( pending->numresults < sizeof(pending->results)/sizeof(*pending->results) )
{
//printf("%p.(%s).%d\n",pending,jprint(item,0),pending->numresults);
pending->results[pending->numresults++] = item;
}
} else printf("couldnt parse.(%s)\n",retstr);
} //else printf("couldnt find issued.%u\n",basilisktag);
}
free(retstr);
}
}
void basilisk_wait(struct supernet_info *myinfo,struct iguana_info *coin)
{
if ( coin != 0 )
{
while ( coin->basilisk_busy != 0 )
usleep(1000);
}
else
{
while ( myinfo->basilisk_busy != 0 )
usleep(1000);
}
}
void basilisk_msgprocess(struct supernet_info *myinfo,void *_addr,uint32_t senderipbits,char *type,uint32_t basilisktag,uint8_t *data,int32_t datalen)
{
cJSON *valsobj; char *symbol,*retstr=0,remoteaddr[64],CMD[4],cmd[4]; int32_t height,origlen,from_basilisk,i,timeoutmillis,flag,numrequired,jsonlen; uint8_t *origdata; struct iguana_info *coin=0; bits256 hash; struct iguana_peer *addr = _addr;
static basilisk_servicefunc *basilisk_services[][2] =
{
{ (void *)"OUT", &basilisk_respond_OUT }, // send MSG to hash/id/num
{ (void *)"MSG", &basilisk_respond_MSG }, // get MSG (hash, id, num)
{ (void *)"ADD", &basilisk_respond_addrelay }, // relays register with each other bus
{ (void *)"VOT", &basilisk_respond_VOT }, // VOTE handler for something
//{ (void *)"PIN", &basilisk_respond_PIN },
// encrypted data for jumblr
{ (void *)"HOP", &basilisk_respond_forward }, // message forwarding
{ (void *)"BOX", &basilisk_respond_mailbox }, // create/send/check mailbox pubkey
// small virtual private network
{ (void *)"VPN", &basilisk_respond_VPNcreate }, // create virtual network's hub via privkey
{ (void *)"ARC", &basilisk_respond_VPNjoin }, // join
{ (void *)"GAB", &basilisk_respond_VPNmessage }, // private message
{ (void *)"SAY", &basilisk_respond_VPNbroadcast }, // broadcast
{ (void *)"EAR", &basilisk_respond_VPNreceive }, // network receive (via poll)
{ (void *)"END", &basilisk_respond_VPNlogout }, // logout
//{ (void *)"DEX", &basilisk_respond_DEX },
//{ (void *)"RID", &basilisk_respond_RID },
//{ (void *)"ACC", &basilisk_respond_ACC },
{ (void *)"BYE", &basilisk_respond_goodbye }, // disconnect
// gecko chains
{ (void *)"GET", &basilisk_respond_geckoget }, // requests headers, block or tx
{ (void *)"HDR", &basilisk_respond_geckoheaders }, // reports headers
{ (void *)"BLK", &basilisk_respond_geckoblock }, // reports virtchain block
{ (void *)"MEM", &basilisk_respond_mempool }, // reports virtchain mempool
{ (void *)"GTX", &basilisk_respond_geckotx }, // reports virtchain tx
// coin services
{ (void *)"VAL", &basilisk_respond_value },
{ (void *)"BAL", &basilisk_respond_balances },
{ (void *)"INF", &basilisk_respond_getinfo },
};
strncpy(CMD,type,3), CMD[3] = cmd[3] = 0;
if ( isupper((int32_t)CMD[0]) != 0 && isupper((int32_t)CMD[1]) != 0 && isupper((int32_t)CMD[2]) != 0 )
from_basilisk = 1;
else from_basilisk = 0;
origdata = data;
origlen = datalen;
for (i=0; i<3; i++)
{
CMD[i] = toupper((int32_t)CMD[i]);
cmd[i] = tolower((int32_t)CMD[i]);
}
if ( myinfo->IAMNOTARY != 0 )//RELAYID >= 0 )
{
if ( basilisk_notarycmd(CMD) == 0 && strcmp(CMD,"INF") != 0 )
return;
} else if ( basilisk_notarycmd(CMD) != 0 )
return;
symbol = "RELAY";
if ( senderipbits == 0 )
expand_ipbits(remoteaddr,myinfo->myaddr.myipbits);
else expand_ipbits(remoteaddr,senderipbits);
if ( (valsobj= cJSON_Parse((char *)data)) != 0 )
{
if ( jobj(valsobj,"coin") != 0 )
coin = iguana_coinfind(jstr(valsobj,"coin"));
else if ( jobj(valsobj,"symbol") != 0 )
coin = iguana_coinfind(jstr(valsobj,"symbol"));
if ( coin != 0 )
{
if ( (height= juint(valsobj,"hwm")) > 0 )
{
if ( height > addr->height )
addr->height = height;
if ( height > coin->longestchain )
coin->longestchain = height;
}
}
if ( strcmp(type,"RET") == 0 )
{
basilisk_result(myinfo,remoteaddr,basilisktag,valsobj,data,datalen);
return;
}
}
else
{
printf("unexpected binary packet datalen.%d\n",datalen);
return;
}
for (i=flag=0; i<sizeof(basilisk_services)/sizeof(*basilisk_services); i++) // iguana node
if ( strcmp((char *)basilisk_services[i][0],type) == 0 )
{
flag = 1;
break;
}
if ( flag == 0 )
return;
myinfo->basilisk_busy = 1;
if ( valsobj != 0 )
{
jsonlen = (int32_t)strlen((char *)data) + 1;
if ( datalen > jsonlen )
data += jsonlen, datalen -= jsonlen;
else data = 0, datalen = 0;
if ( coin == 0 )
coin = iguana_coinfind(symbol);
if ( coin != 0 )
{
symbol = coin->symbol;
coin->basilisk_busy = 1;
}
hash = jbits256(valsobj,"hash");
timeoutmillis = jint(valsobj,"timeout");
if ( (numrequired= jint(valsobj,"numrequired")) == 0 )
numrequired = sqrt(myinfo->NOTARY.NUMRELAYS)+1;
if ( senderipbits != 0 )
expand_ipbits(remoteaddr,senderipbits);
else remoteaddr[0] = 0;
for (i=0; i<sizeof(basilisk_services)/sizeof(*basilisk_services); i++) // iguana node
{
if ( strcmp((char *)basilisk_services[i][0],type) == 0 )
{
if ( (coin != 0 && coin->FULLNODE > 0) || myinfo->NOTARY.RELAYID >= 0 ) // iguana node
{
//printf("\n call %s from_basilisk.%d (%s)\n",addr->ipaddr,from_basilisk,type);
if ( (retstr= (*basilisk_services[i][1])(myinfo,type,addr,remoteaddr,basilisktag,valsobj,data,datalen,hash,from_basilisk)) != 0 )
{
//printf("%s from_basilisk.%d ret.(%s)\n",addr->ipaddr,from_basilisk,retstr);
//if ( from_basilisk != 0 || strcmp(CMD,"GET") == 0 )
basilisk_sendback(myinfo,CMD,symbol,remoteaddr,basilisktag,retstr);
if ( retstr != 0 )
free(retstr);
break;
} else printf("services null return\n");
} else printf("non-relay got %s unhandled.(%s)\n",coin!=0?coin->symbol:"",type);
}
}
free_json(valsobj);
}
if ( coin != 0 )
coin->basilisk_busy = 0;
myinfo->basilisk_busy = 0;
}
int32_t basilisk_p2pQ_process(struct supernet_info *myinfo,int32_t maxiters)
{
struct basilisk_p2pitem *ptr; char senderip[64]; uint32_t n=0,basilisktag,len;
while ( n < maxiters && (ptr= queue_dequeue(&myinfo->p2pQ)) != 0 )
{
len = 0;
expand_ipbits(senderip,ptr->ipbits);
//printf("p2p.%d from.(%s) %c%c%c datalen.%d\n",n,senderip,ptr->type[0],ptr->type[1],ptr->type[2],ptr->datalen);
if ( ptr->type[0] == 'P' && ptr->type[1] == 'I' && ptr->type[2] == 'N' )
{
if ( myinfo->NOTARY.RELAYID >= 0 )
{
//printf("process ping\n");
basilisk_ping_process(myinfo,ptr->addr,ptr->ipbits,ptr->data,ptr->datalen);
//printf("done process ping\n");
}
}
else
{
len += iguana_rwnum(0,ptr->data,sizeof(basilisktag),&basilisktag);
if ( (0) && myinfo->IAMLP == 0 )
printf("RELAYID.%d ->received.%d basilisk_p2p.(%s) from %s tag.%u\n",myinfo->NOTARY.RELAYID,ptr->datalen,ptr->type,senderip,basilisktag);
basilisk_msgprocess(myinfo,ptr->addr,ptr->ipbits,ptr->type,basilisktag,&ptr->data[len],ptr->datalen - len);
if ( (0) && myinfo->IAMLP == 0 )
printf("processed.%s from %s\n",ptr->type,senderip);
}
free(ptr);
n++;
}
return(n);
}
struct basilisk_p2pitem *basilisk_p2pitem_create(struct iguana_info *coin,struct iguana_peer *addr,char *type,uint32_t ipbits,uint8_t *data,int32_t datalen)
{
struct basilisk_p2pitem *ptr;
ptr = calloc(1,sizeof(*ptr) + datalen + 16);
ptr->coin = coin;
ptr->addr = addr;
ptr->ipbits = ipbits;
ptr->datalen = datalen;
safecopy(ptr->type,type,sizeof(ptr->type));
memcpy(ptr->data,data,datalen);
return(ptr);
}
void basilisk_p2p(struct supernet_info *myinfo,struct iguana_info *coin,struct iguana_peer *addr,char *senderip,uint8_t *data,int32_t datalen,char *type,int32_t encrypted)
{
uint32_t ipbits; int32_t msglen; void *ptr = 0; uint8_t space[4096]; bits256 senderpub;
ipbits = (uint32_t)calc_ipbits(senderip);
if ( encrypted != 0 )
{
printf("encrypted p2p\n");
memset(senderpub.bytes,0,sizeof(senderpub));
if ( (data= SuperNET_deciphercalc(&ptr,&msglen,myinfo->privkey,senderpub,data,datalen,space,sizeof(space))) == 0 )
{
printf("basilisk_p2p decrytion error\n");
return;
} else datalen = msglen;
if ( ptr != 0 )
free(ptr);
}
if ( senderip != 0 && senderip[0] != 0 && strcmp(senderip,"127.0.0.1") != 0 )
ipbits = (uint32_t)calc_ipbits(senderip);
else ipbits = myinfo->myaddr.myipbits;
ptr = basilisk_p2pitem_create(coin,addr,type,ipbits,data,datalen);
queue_enqueue("p2pQ",&myinfo->p2pQ,ptr);
}
int32_t basilisk_issued_purge(struct supernet_info *myinfo,int32_t timepad)
{
struct basilisk_item *tmp,*pending; cJSON *item; int32_t i,n = 0; double startmilli = OS_milliseconds();
portable_mutex_lock(&myinfo->basilisk_mutex);
HASH_ITER(hh,myinfo->basilisks.issued,pending,tmp)
{
if ( pending != 0 && ((pending->finished > 0 && startmilli > pending->finished) || startmilli > pending->expiration+timepad) )
{
HASH_DELETE(hh,myinfo->basilisks.issued,pending);
//printf("%f > %f (%d) clear pending.%p numresults.%d %p\n",startmilli,pending->expiration+timepad,timepad,pending,pending->numresults,pending->retstr);
for (i=0; i<pending->numresults; i++)
if ( (item= pending->results[i]) != 0 )
free_json(item);
if ( pending->retstr != 0 )
free(pending->retstr);
memset(pending,0,sizeof(*pending));
free(pending);
n++;
}
}
portable_mutex_unlock(&myinfo->basilisk_mutex);
return(n);
}
void basilisks_loop(void *arg)
{
static uint32_t counter;
struct iguana_info *relay; struct supernet_info *myinfo = arg; int32_t i,iter; double startmilli,endmilli; struct dpow_info *dp;
iter = 0;
relay = iguana_coinfind("RELAY");
printf("start basilisk loop\n");
while ( 1 )
{
if ( relay == 0 )
relay = iguana_coinfind("RELAY");
startmilli = OS_milliseconds();
endmilli = startmilli + 1000;
//fprintf(stderr,"A ");
basilisk_issued_purge(myinfo,600000);
//fprintf(stderr,"B ");
basilisk_p2pQ_process(myinfo,777);
//fprintf(stderr,"C ");
if ( myinfo->IAMNOTARY != 0 )
{
if ( relay != 0 )
{
//fprintf(stderr,"D ");
basilisk_ping_send(myinfo,relay);
}
counter++;
//fprintf(stderr,"E ");
if ( myinfo->numdpows == 1 )
{
iguana_dPoWupdate(myinfo,&myinfo->DPOWS[0]);
endmilli = startmilli + 100;
}
else if ( myinfo->numdpows > 1 )
{
dp = &myinfo->DPOWS[counter % myinfo->numdpows];
iguana_dPoWupdate(myinfo,dp);
//if ( (counter % myinfo->numdpows) != 0 )
{
//fprintf(stderr,"F ");
iguana_dPoWupdate(myinfo,&myinfo->DPOWS[0]);
}
endmilli = startmilli + 30;
}
//fprintf(stderr,"F ");
}
else
{
//fprintf(stderr,"G ");
dex_updateclient(myinfo);
if ( myinfo->IAMLP != 0 )
endmilli = startmilli + 500;
else endmilli = startmilli + 1000;
}
if ( myinfo->expiration != 0 && (myinfo->dexsock >= 0 || myinfo->IAMLP != 0 || myinfo->DEXactive > time(NULL)) )
{
//fprintf(stderr,"H ");
for (i=0; i<100; i++)
if ( basilisk_requests_poll(myinfo) <= 0 )
break;
}
//printf("RELAYID.%d endmilli %f vs now %f\n",myinfo->NOTARY.RELAYID,endmilli,startmilli);
while ( OS_milliseconds() < endmilli )
usleep(10000);
//printf("finished waiting numdpow.%d\n",myinfo->numdpows);
iter++;
}
}
void basilisks_init(struct supernet_info *myinfo)
{
iguana_initQ(&myinfo->p2pQ,"p2pQ");
iguana_initQ(&myinfo->msgQ,"messageQ");
portable_mutex_init(&myinfo->bu_mutex);
portable_mutex_init(&myinfo->allcoins_mutex);
portable_mutex_init(&myinfo->basilisk_mutex);
portable_mutex_init(&myinfo->smart_mutex);
portable_mutex_init(&myinfo->DEX_mutex);
portable_mutex_init(&myinfo->DEX_swapmutex);
portable_mutex_init(&myinfo->DEX_reqmutex);
portable_mutex_init(&myinfo->gecko_mutex);
portable_mutex_init(&myinfo->messagemutex);
myinfo->basilisks.launched = iguana_launch(iguana_coinfind("BTCD"),"basilisks_loop",basilisks_loop,myinfo,IGUANA_PERMTHREAD);
printf("Basilisk initialized\n");
}
#include "../includes/iguana_apidefs.h"
#include "../includes/iguana_apideclares.h"
#include "../includes/iguana_apideclares2.h"
TWO_STRINGS(tradebot,gensvm,base,rel)
{
#ifdef _WIN
return(clonestr("{\"error\":\"windows doesnt support SVM\"}"));
#else
int32_t numfeatures = 317*61;
struct tradebot_arbpair *pair;
if ( base[0] != 0 && rel[0] != 0 && (pair= tradebots_arbpair_find(base,rel)) != 0 && pair->fp != 0 )
{
tradebots_calcanswers(pair);
ocas_gen(pair->refc,numfeatures,0,(int32_t)(ftell(pair->fp) / sizeof(pair->rawfeatures)));
return(clonestr("{\"result\":\"success\"}"));
} else return(clonestr("{\"error\":\"cant find arbpair\"}"));
#endif
}
ZERO_ARGS(tradebot,openliquidity)
{
int32_t i; cJSON *array = cJSON_CreateArray();
for (i=0; i<sizeof(myinfo->linfos)/sizeof(*myinfo->linfos); i++)
{
if ( myinfo->linfos[i].base[0] != 0 )
jaddi(array,linfo_json(&myinfo->linfos[i]));
}
return(jprint(array,1));
}
ZERO_ARGS(tradebot,allbalances)
{
int32_t i,n; double value,pending; char *base; cJSON *item,*balances = cJSON_CreateObject();
if ( myinfo->liquidity_currencies == 0 )
myinfo->liquidity_currencies = cJSON_Parse("[\"KMD\", \"BTC\"]");
if ( myinfo->liquidity_currencies != 0 && (n= cJSON_GetArraySize(myinfo->liquidity_currencies)) > 0 )
{
for (i=0; i<n; i++)
{
base = jstri(myinfo->liquidity_currencies,i);
value = tradebot_balance(myinfo,base);
pending = tradebot_pending(myinfo,base);
item = cJSON_CreateObject();
jaddnum(item,"value",value);
jaddnum(item,"pending",pending);
jadd(balances,base,item);
}
}
return(jprint(balances,1));
}
ZERO_ARGS(tradebot,anchor)
{
FILE *fp; char *anchorstr,fname[512]; cJSON *anchor; int32_t retval = -1;
if ( (anchorstr= tradebot_allbalances(myinfo,0,0,0)) != 0 )
{
if ( (anchor= cJSON_Parse(anchorstr)) != 0 )
{
if ( jobj(anchor,"error") == 0 )
{
sprintf(fname,"%s/anchor",GLOBAL_DBDIR), OS_compatible_path(fname);
if ( (fp= fopen(fname,"wb")) != 0 )
{
if ( fwrite(anchorstr,1,strlen(anchorstr)+1,fp) == strlen(anchorstr)+1 )
retval = 0;
fclose(fp);
}
}
}
free(anchorstr);
}
if ( retval == 0 )
return(clonestr("{\"result\":\"success\"}"));
else return(clonestr("{\"error\":\"couldnt make anchor file\"}"));
}
ZERO_ARGS(tradebot,portfolio)
{
char *currentstr,*anchorstr,fname[512]; long fsize; cJSON *current,*anchor=0,*portfolio=0;
if ( (currentstr= tradebot_allbalances(myinfo,0,0,0)) != 0 )
{
if ( (current= cJSON_Parse(currentstr)) != 0 )
{
sprintf(fname,"%s/anchor",GLOBAL_DBDIR), OS_compatible_path(fname);
if ( (anchorstr= OS_filestr(&fsize,fname)) != 0 )
{
anchor = cJSON_Parse(anchorstr);
free(anchorstr);
}
if ( anchor == 0 )
anchor = cJSON_Parse("{}");
portfolio = tradebot_balancesdiff(myinfo,current,anchor);
free_json(current);
}
free(currentstr);
}
if ( portfolio == 0 )
return(clonestr("{\"result\":\"success\"}"));
else return(jprint(portfolio,1));
}
ARRAY_OBJ_INT(tradebot,goals,currencies,vals,targettime)
{
static bits256 zero; char *targetcoin; int32_t i,n;
if ( currencies != 0 && vals != 0 )
{
// init things so automatically updates refli.bid and refli.ask
// volume range with margin
// currency percentage value in BTC? target distribution, max percentage, min percentage`
// min price to sell, max price to buy, max volume
n = cJSON_GetArraySize(currencies);
for (i=0; i<n; i++)
{
targetcoin = jstri(currencies,i);
tradebot_liquidity_command(myinfo,targetcoin,zero,vals);
}
return(clonestr("{\"result\":\"success\"}"));
} else return(clonestr("{\"error\":\"no currencies or vals\"}"));
}
HASH_ARRAY_STRING(basilisk,getmessage,hash,vals,hexstr)
{
uint32_t msgid,width,channel; char *retstr;
if ( bits256_cmp(GENESIS_PUBKEY,jbits256(vals,"srchash")) == 0 )
jaddbits256(vals,"srchash",hash);
if ( bits256_cmp(GENESIS_PUBKEY,jbits256(vals,"desthash")) == 0 )
jaddbits256(vals,"desthash",myinfo->myaddr.persistent);
if ( (msgid= juint(vals,"msgid")) == 0 )
{
msgid = (uint32_t)time(NULL);
jdelete(vals,"msgid");
jaddnum(vals,"msgid",msgid);
}
if ( myinfo->NOTARY.RELAYID >= 0 || myinfo->dexsock >= 0 || myinfo->subsock >= 0 )
{
channel = juint(vals,"channel");
width = juint(vals,"width");
retstr = basilisk_iterate_MSG(myinfo,channel,msgid,jbits256(vals,"srchash"),jbits256(vals,"desthash"),width);
//printf("getmessage.(%s)\n",retstr);
return(retstr);
}
//printf("getmessage not relay.%d dexsock.%d subsock.%d\n",myinfo->NOTARY.RELAYID,myinfo->dexsock,myinfo->subsock);
return(basilisk_standardservice("MSG",myinfo,0,jbits256(vals,"desthash"),vals,hexstr,1));
}
HASH_ARRAY_STRING(basilisk,sendmessage,hash,vals,hexstr)
{
int32_t keylen,datalen,allocsize = 65536; uint8_t key[BASILISK_KEYSIZE],*space,*space2,*data,*ptr = 0; char *retstr=0;
space = calloc(1,allocsize);
space2 = calloc(1,allocsize);
data = get_dataptr(BASILISK_HDROFFSET,&ptr,&datalen,&space[BASILISK_KEYSIZE],allocsize-BASILISK_KEYSIZE,hexstr);
if ( myinfo->subsock >= 0 || myinfo->dexsock >= 0 || (myinfo->IAMNOTARY != 0 && myinfo->NOTARY.RELAYID >= 0) )
{
keylen = basilisk_messagekey(key,juint(vals,"channel"),juint(vals,"msgid"),jbits256(vals,"srchash"),jbits256(vals,"desthash"));
if ( data != 0 )
{
retstr = basilisk_respond_addmessage(myinfo,key,keylen,data,datalen,0,juint(vals,"duration"));
} else printf("no get_dataptr\n");
if ( retstr != 0 )
free(retstr);
} //else printf("not notary.%d relayid.%d\n",myinfo->IAMNOTARY,myinfo->NOTARY.RELAYID);
if ( vals != 0 && juint(vals,"fanout") == 0 )
jaddnum(vals,"fanout",MAX(8,(int32_t)sqrt(myinfo->NOTARY.NUMRELAYS)+2));
if ( BASILISK_KEYSIZE+datalen < allocsize )
{
memcpy(space2,key,BASILISK_KEYSIZE);
if ( data != 0 && datalen != 0 )
memcpy(&space2[BASILISK_KEYSIZE],data,datalen);
dex_reqsend(myinfo,"DEX",space2,datalen+BASILISK_KEYSIZE,1,"");
} else printf("sendmessage space too small error for %d\n",datalen);
free(space);
free(space2);
if ( ptr != 0 )
free(ptr);
return(basilisk_standardservice("OUT",myinfo,0,jbits256(vals,"desthash"),vals,hexstr,0));
}
HASH_ARRAY_STRING(basilisk,value,hash,vals,hexstr)
{
char *retstr=0,*symbol,*coinaddr,*infostr; cJSON *retjson,*sobj,*info,*addrs,*txoutjson,*txjson,*array; uint32_t basilisktag,blocktime,numtx=0; bits256 txid,blockhash,merkleroot; struct basilisk_item *ptr,Lptr; uint64_t value; int32_t timeoutmillis,vout,height,n,m;
if ( vals == 0 )
return(clonestr("{\"error\":\"null valsobj\"}"));
//if ( myinfo->IAMNOTARY != 0 || myinfo->NOTARY.RELAYID >= 0 )
// return(clonestr("{\"error\":\"special relays only do OUT and MSG\"}"));
//if ( coin == 0 )
{
if ( (symbol= jstr(vals,"symbol")) != 0 || (symbol= jstr(vals,"coin")) != 0 )
coin = iguana_coinfind(symbol);
}
if ( jobj(vals,"fanout") == 0 )
jaddnum(vals,"fanout",MAX(5,(int32_t)sqrt(myinfo->NOTARY.NUMRELAYS)+1));
txid = jbits256(vals,"txid");
vout = jint(vals,"vout");
if ( coin != 0 )
{
if ( coin->FULLNODE < 0 )
{
if ( (txoutjson= dpow_gettxout(myinfo,coin,txid,vout)) != 0 )
{
if ( (value= SATOSHIDEN*jdouble(txoutjson,"value")) == 0 )
value = SATOSHIDEN*jdouble(txoutjson,"amount");
if ( (coinaddr= jstr(txoutjson,"address")) == 0 )
{
if ( (sobj= jobj(txoutjson,"scriptPubKey")) != 0 && (addrs= jarray(&n,sobj,"addresses")) != 0 && n > 0 )
coinaddr = jstri(addrs,0);
printf("no address, check addrs %p coinaddr.%p\n",sobj,coinaddr);
}
if ( coinaddr != 0 && value != 0 )
{
retjson = cJSON_CreateObject();
jaddstr(retjson,"result","success");
jaddstr(retjson,"address",coinaddr);
jadd64bits(retjson,"satoshis",value);
jaddnum(retjson,"value",dstr(value));
jaddnum(retjson,"amount",dstr(value));
height = dpow_getchaintip(myinfo,&merkleroot,&blockhash,&blocktime,0,&numtx,coin);
jaddnum(retjson,"height",height);
jaddnum(retjson,"numconfirms",jint(txoutjson,"confirmations"));
jaddbits256(retjson,"txid",txid);
jaddnum(retjson,"vout",vout);
jaddstr(retjson,"coin",coin->symbol);
}
else
{
printf("missing fields.(%s)\n",jprint(txoutjson,0));
free_json(txoutjson);
return(clonestr("{\"error\":\"return from gettxout missing fields\"}"));
}
free_json(txoutjson);
return(jprint(retjson,1));
} //else return(clonestr("{\"error\":\"null return from gettxout\"}"));
}
else
{
if ( (basilisktag= juint(vals,"basilisktag")) == 0 )
basilisktag = rand();
if ( (timeoutmillis= juint(vals,"timeout")) <= 0 )
timeoutmillis = BASILISK_TIMEOUT;
if ( coin->FULLNODE > 0 && (ptr= basilisk_bitcoinvalue(&Lptr,myinfo,coin,remoteaddr,basilisktag,timeoutmillis,vals)) != 0 )
{
retstr = ptr->retstr, ptr->retstr = 0;
ptr->finished = OS_milliseconds() + 10000;
return(retstr);
}
}
}
if ( myinfo->reqsock >= 0 )
{
if ( (retstr= _dex_getrawtransaction(myinfo,symbol,txid)) != 0 )
{
if ( (txoutjson= cJSON_Parse(retstr)) != 0 )
{
//printf("TX.(%s)\n",jprint(txoutjson,0));
retjson = cJSON_CreateObject();
jaddstr(retjson,"result","success");
jaddnum(retjson,"numconfirms",jint(txoutjson,"confirmations"));
if ( (height= jint(txoutjson,"height")) == 0 && coin != 0 )
height = coin->longestchain - jint(txoutjson,"confirmations");
jaddnum(retjson,"height",height);
if ( (array= jarray(&n,txoutjson,"vout")) != 0 && vout < n && (txjson= jitem(array,vout)) != 0 )
{
//printf("txjson.(%s)\n",jprint(txjson,0));
if ( (value= jdouble(txjson,"value") * SATOSHIDEN) != 0 )
{
if ( (sobj= jobj(txjson,"scriptPubKey")) != 0 && (addrs= jarray(&m,sobj,"addresses")) != 0 && (coinaddr= jstri(addrs,0)) != 0 )
jaddstr(retjson,"address",coinaddr);
jadd64bits(retjson,"satoshis",value);
jaddnum(retjson,"value",dstr(value));
if ( (infostr= _dex_getinfo(myinfo,symbol)) != 0 )
{
if ( (info= cJSON_Parse(infostr)) != 0 )
{
if ( (height= jint(info,"blocks")) > 0 )
{
height -= jint(txoutjson,"confirmations");
jaddnum(retjson,"height",height);
}
free_json(info);
}
free(infostr);
}
jaddbits256(retjson,"txid",txid);
jaddnum(retjson,"vout",vout);
jaddstr(retjson,"coin",symbol);
free(retstr);
free_json(txoutjson);
return(jprint(retjson,1));
}
}
free_json(txoutjson);
return(jprint(retjson,1));
}
return(retstr);
}
}
return(basilisk_standardservice("VAL",myinfo,0,hash,vals,hexstr,1));
}
HASH_ARRAY_STRING(basilisk,rawtx,hash,vals,hexstr)
{
char *retstr=0,*symbol; uint32_t basilisktag; int32_t timeoutmillis,i,retval = -1; uint64_t amount,txfee; cJSON *retarray;
if ( vals == 0 )
return(clonestr("{\"error\":\"null valsobj\"}"));
//if ( coin == 0 )
{
if ( (symbol= jstr(vals,"symbol")) != 0 || (symbol= jstr(vals,"coin")) != 0 )
coin = iguana_coinfind(symbol);
}
if ( jobj(vals,"numrequired") == 0 )
jaddnum(vals,"numrequired",MIN(3,(int32_t)sqrt(myinfo->NOTARY.NUMRELAYS)+1));
if ( jobj(vals,"fanout") == 0 )
jaddnum(vals,"fanout",MAX(3,(int32_t)sqrt(myinfo->NOTARY.NUMRELAYS)+1));
if ( coin != 0 )
{
//if ( juint(vals,"burn") == 0 )
// jaddnum(vals,"burn",0.0001);
if ( (basilisktag= juint(vals,"basilisktag")) == 0 )
basilisktag = rand();
if ( (timeoutmillis= juint(vals,"timeout")) <= 0 )
timeoutmillis = BASILISK_TIMEOUT;
if ( (retstr= basilisk_bitcoinrawtx(myinfo,coin,remoteaddr,basilisktag,timeoutmillis,vals,0)) != 0 )
{
printf("rawtx.(%s)\n",retstr);
if ( (amount= j64bits(vals,"satoshis")) == 0 )
amount = jdouble(vals,"value") * SATOSHIDEN;
if ( (txfee= j64bits(vals,"txfee")) == 0 )
txfee = coin->chain->txfee;
if ( txfee == 0 )
txfee = 10000;
retval = -1;
if ( (retarray= cJSON_Parse(retstr)) != 0 )
{
if ( is_cJSON_Array(retarray) != 0 )
{
for (i=0; i<cJSON_GetArraySize(retarray); i++)
{
if ( basilisk_vins_validate(myinfo,coin,jitem(retarray,i),amount,txfee) == 0 )
{
retval = 0;
break;
}
}
} else retval = basilisk_vins_validate(myinfo,coin,retarray,amount,txfee);
if ( retval < 0 )
{
printf("ERROR.(%s)\n",retstr);
free(retstr);
retstr = clonestr("{\"error\":\"invalid vin in rawtx\"}");
}
}
}
} else retstr = clonestr("{\"error\":\"no coin specified or found\"}");
return(retstr);
}
STRING_ARG(jumblr,setpassphrase,passphrase)
{
cJSON *retjson,*tmp; char KMDaddr[64],BTCaddr[64],wifstr[64],*smartaddrs; bits256 privkey; struct iguana_info *coinbtc;
if ( passphrase == 0 || passphrase[0] == 0 || (coin= iguana_coinfind("KMD")) == 0 )//|| coin->FULLNODE >= 0 )
return(clonestr("{\"error\":\"no passphrase or no native komodod\"}"));
else
{
safecopy(myinfo->jumblr_passphrase,passphrase,sizeof(myinfo->jumblr_passphrase));
retjson = cJSON_CreateObject();
jaddstr(retjson,"result","success");
privkey = jumblr_privkey(myinfo,BTCaddr,0,KMDaddr,JUMBLR_DEPOSITPREFIX);
smartaddress_add(myinfo,privkey,"deposit","KMD",0.,0.);
myinfo->jumblr_depositkey = curve25519(privkey,curve25519_basepoint9());
bitcoin_priv2wif(wifstr,privkey,coin->chain->wiftype);
if ( coin->FULLNODE < 0 )
jumblr_importprivkey(myinfo,coin,wifstr);
jaddstr(retjson,"KMDdeposit",KMDaddr);
jaddstr(retjson,"BTCdeposit",BTCaddr);
if ( (coinbtc= iguana_coinfind("BTC")) != 0 )
{
bitcoin_priv2wif(wifstr,privkey,coinbtc->chain->wiftype);
if ( coinbtc->FULLNODE < 0 )
jumblr_importprivkey(myinfo,coinbtc,wifstr);
jaddnum(retjson,"BTCdeposits",dstr(jumblr_balance(myinfo,coinbtc,BTCaddr)));
}
privkey = jumblr_privkey(myinfo,BTCaddr,0,KMDaddr,"");
smartaddress_add(myinfo,privkey,"jumblr","KMD",0.,0.);
myinfo->jumblr_pubkey = curve25519(privkey,curve25519_basepoint9());
jaddstr(retjson,"KMDjumblr",KMDaddr);
jaddstr(retjson,"BTCjumblr",BTCaddr);
if ( coinbtc != 0 )
jaddnum(retjson,"BTCjumbled",dstr(jumblr_balance(myinfo,coinbtc,BTCaddr)));
if ( (smartaddrs= InstantDEX_smartaddresses(myinfo,0,0,0)) != 0 )
{
if ( (tmp= cJSON_Parse(smartaddrs)) != 0 )
jadd(retjson,"smartaddresses",tmp);
free(smartaddrs);
}
return(jprint(retjson,1));
}
}
ZERO_ARGS(jumblr,runsilent)
{
myinfo->runsilent = 1;
return(clonestr("{\"result\":\"success\",\"mode\":\"runsilent\"}"));
}
ZERO_ARGS(jumblr,totransparent)
{
myinfo->runsilent = 0;
return(clonestr("{\"result\":\"success\",\"mode\":\"totransparent\"}"));
}
ZERO_ARGS(jumblr,status)
{
cJSON *retjson; char KMDaddr[64],BTCaddr[64]; struct jumblr_item *ptr,*tmp; struct iguana_info *coinbtc; int64_t received,deposited,jumblred,step_t2z,step_z2z,step_z2t,finished,pending,maxval,minval;
if ( strcmp(coin->symbol,"KMD") == 0 && coin->FULLNODE < 0 && myinfo->jumblr_passphrase[0] != 0 )
{
jumblr_opidsupdate(myinfo,coin);
retjson = cJSON_CreateObject();
step_t2z = step_z2z = step_z2t = deposited = finished = pending = 0;
jumblr_privkey(myinfo,BTCaddr,0,KMDaddr,JUMBLR_DEPOSITPREFIX);
jaddstr(retjson,"mode",myinfo->runsilent == 0 ? "totransparent" : "runsilent");
jaddstr(retjson,"KMDdeposit",KMDaddr);
jaddstr(retjson,"BTCdeposit",BTCaddr);
if ( (coinbtc= iguana_coinfind("BTC")) != 0 )
jaddnum(retjson,"BTCdeposits",dstr(jumblr_balance(myinfo,coinbtc,BTCaddr)));
received = jumblr_receivedby(myinfo,coin,KMDaddr);
deposited = jumblr_balance(myinfo,coin,KMDaddr);
jumblr_privkey(myinfo,BTCaddr,0,KMDaddr,"");
jaddstr(retjson,"KMDjumblr",KMDaddr);
jaddstr(retjson,"BTCjumblr",BTCaddr);
if ( coinbtc != 0 )
jaddnum(retjson,"BTCjumbled",dstr(jumblr_balance(myinfo,coinbtc,BTCaddr)));
finished = jumblr_receivedby(myinfo,coin,KMDaddr);
jumblred = jumblr_balance(myinfo,coin,KMDaddr);
HASH_ITER(hh,myinfo->jumblrs,ptr,tmp)
{
if ( strlen(ptr->src) >= 40 )
{
if ( strlen(ptr->dest) >= 40 )
step_z2z += ptr->amount;
else step_z2t += ptr->amount;
} else step_t2z += ptr->amount;
}
jaddstr(retjson,"result","success");
jaddnum(retjson,"deposits",dstr(deposited));
jaddnum(retjson,"t_to_z",dstr(step_t2z));
jaddnum(retjson,"z_to_z",dstr(step_z2z));
jaddnum(retjson,"z_to_t",dstr(step_z2t));
maxval = MAX(step_t2z,MAX(step_z2z,step_z2t));
minval = MIN(step_t2z,MIN(step_z2z,step_z2t));
if ( maxval > minval )
{
pending = (maxval - minval);
if ( pending < finished*.1 )
pending = 0;
}
jaddnum(retjson,"pending",dstr(pending));
jaddnum(retjson,"jumbled",dstr(jumblred));
jaddnum(retjson,"received",dstr(received));
jaddnum(retjson,"finished",dstr(finished));
return(jprint(retjson,1));
}
else
{
printf("(%s) (%s) %d\n",coin->symbol,myinfo->jumblr_passphrase,coin->FULLNODE);
return(clonestr("{\"error\":\"jumblr status no passphrase or no native komodod\"}"));
}
}
HASH_ARRAY_STRING(basilisk,balances,hash,vals,hexstr)
{
char *retstr=0,*symbol; uint32_t basilisktag; struct basilisk_item *ptr,Lptr; int32_t timeoutmillis;
if ( myinfo->NOTARY.RELAYID >= 0 )
return(clonestr("{\"error\":\"special relays only do OUT and MSG\"}"));
if ( vals == 0 )
return(clonestr("{\"error\":\"need vals object\"}"));
if ( (symbol= jstr(vals,"symbol")) != 0 || (symbol= jstr(vals,"coin")) != 0 )
coin = iguana_coinfind(symbol);
if ( jobj(vals,"history") == 0 )
jaddnum(vals,"history",3);
if ( jobj(vals,"fanout") == 0 )
jaddnum(vals,"fanout",MAX(8,(int32_t)sqrt(myinfo->NOTARY.NUMRELAYS)+1));
if ( jobj(vals,"numrequired") == 0 )
jaddnum(vals,"numrequired",MIN(juint(vals,"fanout")/2,(int32_t)sqrt(myinfo->NOTARY.NUMRELAYS)));
if ( jobj(vals,"addresses") == 0 )
{
jadd(vals,"addresses",iguana_getaddressesbyaccount(myinfo,coin,"*"));
//printf("added all %s addresses: %s\n",coin->symbol,jprint(vals,0));
} //else printf("have addresses.(%s)\n",jprint(jobj(vals,"addresses"),0));
if ( (basilisktag= juint(vals,"basilisktag")) == 0 )
basilisktag = rand();
if ( (timeoutmillis= juint(vals,"timeout")) <= 0 )
timeoutmillis = BASILISK_TIMEOUT;
if ( coin != 0 )
{
if ( coin->FULLNODE > 0 || coin->VALIDATENODE > 0 || coin->notarychain >= 0 )
{
if ( (ptr= basilisk_bitcoinbalances(&Lptr,myinfo,coin,remoteaddr,basilisktag,timeoutmillis,vals)) != 0 )
{
retstr = ptr->retstr, ptr->retstr = 0;
ptr->finished = OS_milliseconds() + 10000;
return(retstr);
}
return(clonestr("{\"error\":\"no result\"}"));
}
} else printf("no coin\n");
if ( (retstr= basilisk_standardservice("BAL",myinfo,0,hash,vals,hexstr,1)) != 0 )
{
basilisk_unspents_process(myinfo,coin,retstr);
}
return(retstr);
}
HASH_ARRAY_STRING(basilisk,history,hash,vals,hexstr)
{
int64_t total = 0; int32_t i,n; char *symbol; cJSON *retjson,*unspents,*spends,*array; //struct basilisk_spend *s; struct basilisk_unspent *bu; int32_t i; struct iguana_waccount *wacct,*tmp; struct iguana_waddress *waddr,*tmp2;
if ( vals == 0 )
return(clonestr("{\"error\":\"need vals object\"}"));
//if ( coin == 0 )
{
if ( (symbol= jstr(vals,"symbol")) != 0 || (symbol= jstr(vals,"coin")) != 0 )
coin = iguana_coinfind(symbol);
}
if ( coin == 0 )
return(clonestr("{\"error\":\"couldnt find coin\"}"));
unspents = cJSON_CreateArray();
spends = cJSON_CreateArray();
portable_mutex_lock(&myinfo->bu_mutex);
//HASH_ITER(hh,myinfo->wallet,wacct,tmp)
{
//HASH_ITER(hh,wacct->waddr,waddr,tmp2)
{
if ( myinfo->Cunspents != 0 )
{
//printf("Cunspents.(%s)\n",jprint(waddr->Cunspents,0));
if ( (array= jobj(myinfo->Cunspents,coin->symbol)) != 0 )
{
if ( (n= cJSON_GetArraySize(array)) > 0 )
{
for (i=0; i<n; i++)
total += jdouble(jitem(array,i),"amount") * SATOSHIDEN;
}
jaddi(unspents,jduplicate(array));
}
}
if ( myinfo->Cspends != 0 )
{
//printf("Cspends.(%s)\n",jprint(waddr->Cspends,0));
if ( (array= jobj(myinfo->Cspends,coin->symbol)) != 0 )
jaddi(spends,jduplicate(array));
}
}
}
portable_mutex_unlock(&myinfo->bu_mutex);
retjson = cJSON_CreateObject();
jaddstr(retjson,"result","success");
jadd(retjson,"unspents",unspents);
jadd(retjson,"spends",spends);
jaddstr(retjson,"coin",coin->symbol);
jaddnum(retjson,"balance",dstr(total));
//printf("return history balance %s %.8f\n",coin->symbol,dstr(total));
return(jprint(retjson,1));
}
INT_ARG(passthru,paxfiats,mask)
{
if ( mask == 0 )
mask = -1;
komodo_assetcoins(-1,mask);
return(clonestr("{\"result\":\"success\"}"));
}
INT_ARG(basilisk,paxfiats,mask)
{
if ( mask == 0 )
mask = -1;
komodo_assetcoins(0,mask);
return(clonestr("{\"result\":\"success\"}"));
}
INT_ARG(iguana,paxfiats,mask)
{
if ( mask == 0 )
mask = -1;
komodo_assetcoins(1,mask);
return(clonestr("{\"result\":\"success\"}"));
}
int32_t utxocmp(cJSON *utxo,cJSON *utxo2)
{
bits256 txid,txid2; int32_t vout=-1,vout2=-1;
//printf("cmp (%s) vs (%s)\n",jprint(utxo,0),jprint(utxo2,0));
txid = jbits256(utxo,"txid");
vout = jint(utxo,"vout");
txid2 = jbits256(utxo2,"txid");
vout2 = jint(utxo2,"vout");
if ( bits256_cmp(txid,txid2) == 0 && vout == vout2 )
return(0);
else return(-1);
}
ZERO_ARGS(basilisk,cancelrefresh)
{
myinfo->cancelrefresh = 1;
return(clonestr("{\"result\":\"refresh cancel started\"}"));
}
TWO_STRINGS(basilisk,refresh,symbol,address)
{
cJSON *array=0,*array2=0,*array3,*item,*item2; char *retstr; int32_t i,j,n,m,vout; bits256 txid;
myinfo->cancelrefresh = 0;
if ( symbol != 0 && iguana_isnotarychain(symbol) >= 0 && address != 0 && address[0] != 0 )
{
if ( (retstr= _dex_listunspent(myinfo,symbol,address)) != 0 )
{
array = cJSON_Parse(retstr);
free(retstr);
}
if ( (retstr= _dex_listunspent2(myinfo,symbol,address)) != 0 )
{
if ( array == 0 )
array = cJSON_Parse(retstr);
else array2 = cJSON_Parse(retstr);
free(retstr);
}
if ( array != 0 && array2 != 0 ) // merge
{
m = cJSON_GetArraySize(array2);
array3 = jduplicate(array);
n = cJSON_GetArraySize(array3);
//printf("MERGE %s and %s\n",jprint(array,0),jprint(array2,0));
for (j=0; j<m; j++)
{
if ( myinfo->cancelrefresh != 0 )
break;
item2 = jitem(array2,j);
for (i=0; i<n; i++)
if ( utxocmp(jitem(array,i),item2) == 0 )
break;
if ( i == n )
{
//printf("FOUND NEW %s\n",jprint(item2,0));
jaddi(array3,jduplicate(item2));
}
}
free_json(array);
free_json(array2), array2 = 0;
array = array3, array3 = 0;
}
if ( array != 0 ) // gettxout
{
n = cJSON_GetArraySize(array);
array3 = cJSON_CreateArray();
for (i=0; i<n; i++)
{
if ( myinfo->cancelrefresh != 0 )
break;
item = jitem(array,i);
txid = jbits256(item,"txid");
vout = jint(item,"vout");
if ( (retstr= _dex_gettxout(myinfo,symbol,txid,vout)) != 0 )
{
if ( (item2= cJSON_Parse(retstr)) != 0 )
{
if ( jdouble(item2,"value") > 0 )
{
jaddbits256(item2,"txid",txid);
jaddnum(item2,"vout",vout);
jaddnum(item2,"amount",jdouble(item2,"value"));
//printf("%s\n",jprint(item2,0));
jaddi(array3,item2);
}
else free_json(item2);
}
free(retstr);
}
}
free_json(array);
myinfo->cancelrefresh = 0;
return(jprint(array3,1));
} else return(clonestr("[]"));
}
myinfo->cancelrefresh = 0;
return(clonestr("{\"error\":\"invalid coin or address specified\"}"));
}
STRING_ARRAY_OBJ_STRING(basilisk,utxorawtx,symbol,utxos,vals,ignore)
{
char *destaddr,*changeaddr; int64_t satoshis,txfee; int32_t completed,sendflag,timelock;
timelock = jint(vals,"timelock");
sendflag = jint(vals,"sendflag");
satoshis = jdouble(vals,"amount") * SATOSHIDEN;
destaddr = jstr(vals,"destaddr");
changeaddr = jstr(vals,"changeaddr");
if ( destaddr != 0 && changeaddr != 0 && symbol != 0 && (coin= iguana_coinfind(symbol)) != 0 )
{
txfee = jdouble(vals,"txfee") * SATOSHIDEN;
return(iguana_utxorawtx(myinfo,coin,timelock,destaddr,changeaddr,&satoshis,1,txfee,&completed,sendflag,utxos,0));
}
return(clonestr("{\"error\":\"invalid coin or address specified\"}"));
}
HASH_ARRAY_STRING(basilisk,utxocombine,ignore,vals,symbol)
{
char *coinaddr,*retstr=0; cJSON *utxos; int64_t satoshis,limit,txfee; int32_t maxvins,completed,sendflag,timelock;
timelock = 0;
if ( (maxvins= jint(vals,"maxvins")) == 0 )
maxvins = 20;
sendflag = jint(vals,"sendflag");
coinaddr = jstr(vals,"coinaddr");
limit = jdouble(vals,"maxamount") * SATOSHIDEN;
if ( limit > 0 && symbol != 0 && symbol[0] != 0 && (utxos= basilisk_utxosweep(myinfo,symbol,&satoshis,limit,maxvins,coinaddr)) != 0 && cJSON_GetArraySize(utxos) > 0 )
{
if ( coinaddr != 0 && symbol != 0 && (coin= iguana_coinfind(symbol)) != 0 )
{
txfee = jdouble(vals,"txfee") * SATOSHIDEN;
retstr = iguana_utxorawtx(myinfo,coin,timelock,coinaddr,coinaddr,&satoshis,1,txfee,&completed,sendflag,utxos,0);
}
free_json(utxos);
}
if ( retstr == 0 )
return(clonestr("{\"error\":\"invalid coin or address specified or no available utxos\"}"));
return(retstr);
}
//int64_t iguana_verifytimelock(struct supernet_info *myinfo,struct iguana_info *coin,uint32_t timelocked,char *destaddr,bits256 txid,int32_t vout)
THREE_STRINGS_AND_DOUBLE(tradebot,aveprice,comment,base,rel,basevolume)
{
double retvals[4],aveprice; cJSON *retjson = cJSON_CreateObject();
aveprice = instantdex_avehbla(myinfo,retvals,base,rel,basevolume);
jaddstr(retjson,"result","success");
jaddnum(retjson,"aveprice",aveprice);
jaddnum(retjson,"avebid",retvals[0]);
jaddnum(retjson,"bidvol",retvals[1]);
jaddnum(retjson,"aveask",retvals[2]);
jaddnum(retjson,"askvol",retvals[3]);
return(jprint(retjson,1));
}
ZERO_ARGS(InstantDEX,allcoins)
{
struct iguana_info *tmp; cJSON *native,*notarychains,*basilisk,*virtual,*full,*retjson = cJSON_CreateObject();
full = cJSON_CreateArray();
native = cJSON_CreateArray();
basilisk = cJSON_CreateArray();
virtual = cJSON_CreateArray();
notarychains = cJSON_CreateArray();
HASH_ITER(hh,myinfo->allcoins,coin,tmp)
{
if ( coin->FULLNODE < 0 )
jaddistr(native,coin->symbol);
//else if ( coin->virtualchain != 0 )
// jaddistr(virtual,coin->symbol);
else if ( coin->FULLNODE > 0 )//|| coin->VALIDATENODE > 0 )
jaddistr(full,coin->symbol);
//else if ( coin->notarychain >= 0 )
// jaddistr(notarychains,coin->symbol);
else jaddistr(basilisk,coin->symbol);
}
jadd(retjson,"native",native);
jadd(retjson,"basilisk",basilisk);
jadd(retjson,"full",full);
//jadd(retjson,"virtual",virtual);
//jadd(retjson,"notarychains",notarychains);
return(jprint(retjson,1));
}
STRING_ARG(InstantDEX,available,source)
{
uint64_t total = 0; int32_t i,n=0; char coinaddr[64]; cJSON *item,*unspents,*retjson = 0;
if ( source != 0 && source[0] != 0 && (coin= iguana_coinfind(source)) != 0 )
{
if ( myinfo->expiration != 0 )
{
bitcoin_address(coinaddr,coin->chain->pubtype,myinfo->persistent_pubkey33,33);
if ( (unspents= basilisk_unspents(myinfo,coin,coinaddr)) != 0 )
{
//printf("available.(%s)\n",jprint(unspents,0));
if ( (n= cJSON_GetArraySize(unspents)) > 0 )
{
for (i=0; i<n; i++)
{
item = jitem(unspents,i);
//if ( is_cJSON_True(jobj(item,"spendable")) != 0 )
total += jdouble(item,"amount") * SATOSHIDEN;
//printf("(%s) -> %.8f\n",jprint(item,0),dstr(total));
}
}
free_json(unspents);
}
retjson = cJSON_CreateObject();
jaddnum(retjson,"result",dstr(total));
printf(" n.%d total %.8f (%s)\n",n,dstr(total),jprint(retjson,0));
return(jprint(retjson,1));
}
printf("InstantDEX_available: need to unlock wallet\n");
return(clonestr("{\"error\":\"need to unlock wallet\"}"));
}
printf("InstantDEX_available: %s is not active\n",source!=0?source:"");
return(clonestr("{\"error\":\"specified coin is not active\"}"));
}
HASH_ARRAY_STRING(InstantDEX,request,hash,vals,hexstr)
{
uint8_t serialized[512]; bits256 privkey; char buf[512],BTCaddr[64],KMDaddr[64]; struct basilisk_request R; int32_t jumblr,iambob,optionhours; cJSON *reqjson; uint32_t datalen=0,DEX_channel; struct iguana_info *bobcoin,*alicecoin;
myinfo->DEXactive = (uint32_t)time(NULL) + 3*BASILISK_TIMEOUT + 60;
jadd64bits(vals,"minamount",jdouble(vals,"minprice") * jdouble(vals,"amount") * SATOSHIDEN);
if ( jobj(vals,"desthash") == 0 )
jaddbits256(vals,"desthash",hash);
jadd64bits(vals,"satoshis",jdouble(vals,"amount") * SATOSHIDEN);
jadd64bits(vals,"destsatoshis",jdouble(vals,"destamount") * SATOSHIDEN);
jaddnum(vals,"timestamp",time(NULL));
if ( (jumblr= jint(vals,"usejumblr")) != 0 )
privkey = jumblr_privkey(myinfo,BTCaddr,0,KMDaddr,jumblr == 1 ? JUMBLR_DEPOSITPREFIX : "");
else privkey = myinfo->persistent_priv;
hash = curve25519(privkey,curve25519_basepoint9());
if ( jobj(vals,"srchash") == 0 )
jaddbits256(vals,"srchash",hash);
printf("service.(%s)\n",jprint(vals,0));
memset(&R,0,sizeof(R));
if ( basilisk_request_create(&R,vals,hash,juint(vals,"timestamp"),juint(vals,"DEXselector")) == 0 )
{
iambob = bitcoin_coinptrs(hash,&bobcoin,&alicecoin,R.src,R.dest,privkey,GENESIS_PUBKEY);
if ( (optionhours= jint(vals,"optionhours")) != 0 )
{
printf("iambob.%d optionhours.%d R.requestid.%u vs calc %u, q.%u\n",iambob,R.optionhours,R.requestid,basilisk_requestid(&R),R.quoteid);
if ( iambob != 0 && optionhours > 0 )
{
sprintf(buf,"{\"error\":\"illegal call option request hours.%d when iambob.%d\"}",optionhours,iambob);
printf("ERROR.(%s)\n",buf);
return(clonestr(buf));
}
else if ( iambob == 0 && optionhours < 0 )
{
sprintf(buf,"{\"error\":\"illegal put option request hours.%d when iambob.%d\"}",optionhours,iambob);
printf("ERROR.(%s)\n",buf);
return(clonestr(buf));
}
}
//if ( myinfo->IAMNOTARY != 0 || myinfo->NOTARY.RELAYID >= 0 )
// R.relaybits = myinfo->myaddr.myipbits;
if ( (reqjson= basilisk_requestjson(&R)) != 0 )
free_json(reqjson);
datalen = basilisk_rwDEXquote(1,serialized,&R);
//int32_t i; for (i=0; i<sizeof(R); i++)
// printf("%02x",((uint8_t *)&R)[i]);
printf(" R.requestid.%u vs calc %u, q.%u datalen.%d\n",R.requestid,basilisk_requestid(&R),R.quoteid,datalen);
basilisk_rwDEXquote(0,serialized,&R);
} else printf("error creating request\n");
if ( datalen > 0 )
{
uint32_t msgid;//,crc=0,crcs[2],numiters = 0; uint8_t buf[4096];
memset(hash.bytes,0,sizeof(hash));
msgid = (uint32_t)time(NULL);
DEX_channel = 'D' + ((uint32_t)'E' << 8) + ((uint32_t)'X' << 16);
myinfo->DEXtrades++; // not exact but allows a one side initiated self-trade
basilisk_channelsend(myinfo,hash,hash,DEX_channel,msgid,serialized,datalen,60);
sleep(3);
/*while ( numiters < 10 && (crc= basilisk_crcsend(myinfo,0,buf,sizeof(buf),hash,myinfo->myaddr.persistent,DEX_channel,msgid,serialized,datalen,crcs)) == 0 )
{
//printf("didnt get back what was sent\n");
sleep(3);
basilisk_channelsend(myinfo,myinfo->myaddr.persistent,hash,DEX_channel,msgid,serialized,datalen,60);
numiters++;
}*/
//if ( crc != 0 )//basilisk_channelsend(myinfo,R.srchash,R.desthash,DEX_channel,(uint32_t)time(NULL),serialized,datalen,30) == 0 )
return(clonestr("{\"result\":\"DEX message sent\"}"));
//else return(clonestr("{\"error\":\"DEX message couldnt be sent\"}"));
}
return(clonestr("{\"error\":\"DEX message not sent\"}"));
}
INT_ARG(InstantDEX,automatched,requestid)
{
// return quoteid
myinfo->DEXactive = (uint32_t)time(NULL) + INSTANTDEX_LOCKTIME;
return(clonestr("{\"result\":\"automatched not yet\"}"));
}
int32_t InstantDEX_incoming_func(struct supernet_info *myinfo,void *ptr,uint8_t *data,int32_t datalen)
{
//int32_t i;
//for (i=0; i<datalen; i++)
// printf("%02x",data[i]);
//printf(" <- incoming\n");
return(0);
}
int32_t InstantDEX_process_channelget(struct supernet_info *myinfo,void *ptr,int32_t (*internal_func)(struct supernet_info *myinfo,void *ptr,uint8_t *data,int32_t datalen),uint32_t channel,uint32_t msgid,uint8_t *data,int32_t datalen,uint32_t expiration,uint32_t duration)
{
return((*internal_func)(myinfo,ptr,data,datalen));
}
INT_ARG(InstantDEX,incoming,requestid)
{
static uint32_t counter;
cJSON *retjson,*retarray; bits256 zero; uint32_t DEX_channel,msgid,now,n = myinfo->numsmartaddrs+1; int32_t retval,width,drift=3; bits256 pubkey; uint8_t data[32768];
now = (uint32_t)time(NULL);
memset(&zero,0,sizeof(zero));
width = (now - myinfo->DEXpoll) + 2*drift;
if ( width < (drift+1) )
width = 2*drift+1;
else if ( width > 64 )
width = 64;
if ( (counter % n) == n-1 )
pubkey = myinfo->myaddr.persistent;
else pubkey = myinfo->smartaddrs[counter % n].pubkey;
counter++;
myinfo->DEXpoll = now;
retjson = cJSON_CreateObject();
DEX_channel = 'D' + ((uint32_t)'E' << 8) + ((uint32_t)'X' << 16);
msgid = (uint32_t)time(NULL) + drift;
if ( (retarray= basilisk_channelget(myinfo,zero,pubkey,DEX_channel,msgid,width)) != 0 )
{
//printf("GOT.(%s)\n",jprint(retarray,0));
if ( (retval= basilisk_process_retarray(myinfo,0,InstantDEX_process_channelget,data,sizeof(data),DEX_channel,msgid,retarray,InstantDEX_incoming_func)) > 0 )
{
jaddstr(retjson,"result","success");
} else jaddstr(retjson,"error","cant process InstantDEX retarray");
jadd(retjson,"responses",retarray);
}
else
{
jaddstr(retjson,"error","cant do InstantDEX channelget");
//char str[65]; printf("error channelget %s %x\n",bits256_str(str,pubkey),msgid);
}
return(jprint(retjson,1));
}
/*TWO_INTS(InstantDEX,swapstatus,requestid,quoteid)
{
cJSON *vals; char *retstr;
myinfo->DEXactive = (uint32_t)time(NULL) + INSTANTDEX_LOCKTIME;
//if ( myinfo->IAMLP != 0 )
// return(basilisk_respond_swapstatus(myinfo,myinfo->myaddr.persistent,requestid,quoteid));
//else
{
vals = cJSON_CreateObject();
jaddnum(vals,"requestid",(uint32_t)requestid);
jaddnum(vals,"quoteid",(uint32_t)quoteid);
jaddbits256(vals,"hash",myinfo->myaddr.persistent);
retstr = basilisk_standardservice("SWP",myinfo,0,myinfo->myaddr.persistent,vals,"",1);
free_json(vals);
return(retstr);
}
}*/
TWO_INTS(InstantDEX,accept,requestid,quoteid)
{
cJSON *vals; char *retstr;
myinfo->DEXactive = (uint32_t)time(NULL) + INSTANTDEX_LOCKTIME;
if ( myinfo->IAMLP != 0 || myinfo->dexsock >= 0 || myinfo->subsock >= 0 )
return(basilisk_respond_accept(myinfo,myinfo->persistent_priv,requestid,quoteid,&myinfo->DEXaccept));
else
{
vals = cJSON_CreateObject();
jaddnum(vals,"quoteid",(uint32_t)quoteid);
jaddnum(vals,"requestid",(uint32_t)requestid);
retstr = basilisk_standardservice("ACC",myinfo,0,myinfo->myaddr.persistent,vals,"",1);
free_json(vals);
return(retstr);
}
}
ZERO_ARGS(InstantDEX,init)
{
basilisk_swaps_init(myinfo);
return(clonestr("{\"result\":\"success\"}"));
}
ZERO_ARGS(InstantDEX,getswaplist)
{
return(basilisk_swaplist(myinfo));
}
DOUBLE_ARG(InstantDEX,DEXratio,ratio)
{
if ( ratio < 0.95 || ratio > 1.01 )
return(clonestr("{\"result\":\"error\",\"description\":\"DEXratio must be between 0.95 and 1.01\"}"));
myinfo->DEXratio = ratio;
return(clonestr("{\"result\":\"success\"}"));
}
#include "../includes/iguana_apiundefs.h"