/****************************************************************************** * 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_statemachine.c // marketmaker // /*void basilisk_swaps_init(struct supernet_info *myinfo) { char fname[512]; uint32_t iter,swapcompleted,requestid,quoteid,optionduration,statebits; FILE *fp; bits256 privkey;struct basilisk_request R; struct basilisk_swapmessage M; struct basilisk_swap *swap = 0; sprintf(fname,"%s/SWAPS/list",GLOBAL_DBDIR), OS_compatible_path(fname); if ( (myinfo->swapsfp= fopen(fname,"rb+")) != 0 ) { while ( fread(&requestid,1,sizeof(requestid),myinfo->swapsfp) == sizeof(requestid) && fread("eid,1,sizeof(quoteid),myinfo->swapsfp) == sizeof(quoteid) ) { sprintf(fname,"%s/SWAPS/%u-%u",GLOBAL_DBDIR,requestid,quoteid), OS_compatible_path(fname); printf("%s\n",fname); if ( (fp= fopen(fname,"rb+")) != 0 ) // check to see if completed { memset(&M,0,sizeof(M)); swapcompleted = 1; for (iter=0; iter<2; iter++) { if ( fread(privkey.bytes,1,sizeof(privkey),fp) == sizeof(privkey) && fread(&R,1,sizeof(R),fp) == sizeof(R) && fread(&statebits,1,sizeof(statebits),fp) == sizeof(statebits) && fread(&optionduration,1,sizeof(optionduration),fp) == sizeof(optionduration) ) { while ( 0 && fread(&M,1,sizeof(M),fp) == sizeof(M) ) { M.data = 0; //printf("entry iter.%d crc32.%x datalen.%d\n",iter,M.crc32,M.datalen); if ( M.datalen < 100000 ) { M.data = malloc(M.datalen); if ( fread(M.data,1,M.datalen,fp) == M.datalen ) { if ( calc_crc32(0,M.data,M.datalen) == M.crc32 ) { if ( iter == 1 ) { if ( swap == 0 ) { swap = basilisk_thread_start(privkey,&R,statebits,optionduration,1); swap->I.choosei = swap->I.otherchoosei = -1; } if ( swap != 0 ) basilisk_swapgotdata(swap,M.crc32,M.srchash,M.desthash,M.quoteid,M.msgbits,M.data,M.datalen,1); } } else printf("crc mismatch %x vs %x\n",calc_crc32(0,M.data,M.datalen),M.crc32); } else printf("error reading M.datalen %d\n",M.datalen); free(M.data), M.data = 0; } } } if ( swapcompleted != 0 ) break; rewind(fp); } } } } else myinfo->swapsfp = fopen(fname,"wb+"); }*/ FILE *basilisk_swap_save(struct basilisk_swap *swap,bits256 privkey,struct basilisk_request *rp,uint32_t statebits,int32_t optionduration,int32_t reinit) { FILE *fp=0; /*char fname[512]; sprintf(fname,"%s/SWAPS/%u-%u",GLOBAL_DBDIR,rp->requestid,rp->quoteid), OS_compatible_path(fname); if ( (fp= fopen(fname,"rb+")) == 0 ) { if ( (fp= fopen(fname,"wb+")) != 0 ) { fwrite(privkey.bytes,1,sizeof(privkey),fp); fwrite(rp,1,sizeof(*rp),fp); fwrite(&statebits,1,sizeof(statebits),fp); fwrite(&optionduration,1,sizeof(optionduration),fp); fflush(fp); } } else if ( reinit != 0 ) { }*/ return(fp); } int32_t basilisk_swap_load(uint32_t requestid,uint32_t quoteid,bits256 *privkeyp,struct basilisk_request *rp,uint32_t *statebitsp,int32_t *optiondurationp) { FILE *fp=0; char fname[512]; int32_t retval = -1; sprintf(fname,"%s/SWAPS/%u-%u",GLOBAL_DBDIR,requestid,quoteid), OS_compatible_path(fname); if ( (fp= fopen(fname,"rb+")) != 0 ) { if ( fread(privkeyp,1,sizeof(*privkeyp),fp) == sizeof(*privkeyp) && fread(rp,1,sizeof(*rp),fp) == sizeof(*rp) && fread(statebitsp,1,sizeof(*statebitsp),fp) == sizeof(*statebitsp) && fread(optiondurationp,1,sizeof(*optiondurationp),fp) == sizeof(*optiondurationp) ) retval = 0; fclose(fp); } return(retval); } void basilisk_swap_saveupdate(struct basilisk_swap *swap) { FILE *fp; char fname[512]; sprintf(fname,"%s/SWAPS/%u-%u.swap",GLOBAL_DBDIR,swap->I.req.requestid,swap->I.req.quoteid), OS_compatible_path(fname); if ( (fp= fopen(fname,"wb")) != 0 ) { fwrite(&swap->I,1,sizeof(swap->I),fp); /*fwrite(&swap->bobdeposit,1,sizeof(swap->bobdeposit),fp); fwrite(&swap->bobpayment,1,sizeof(swap->bobpayment),fp); fwrite(&swap->alicepayment,1,sizeof(swap->alicepayment),fp); fwrite(&swap->myfee,1,sizeof(swap->myfee),fp); fwrite(&swap->otherfee,1,sizeof(swap->otherfee),fp); fwrite(&swap->aliceclaim,1,sizeof(swap->aliceclaim),fp); fwrite(&swap->alicespend,1,sizeof(swap->alicespend),fp); fwrite(&swap->bobreclaim,1,sizeof(swap->bobreclaim),fp); fwrite(&swap->bobspend,1,sizeof(swap->bobspend),fp); fwrite(&swap->bobrefund,1,sizeof(swap->bobrefund),fp); fwrite(&swap->alicereclaim,1,sizeof(swap->alicereclaim),fp);*/ fwrite(swap->privkeys,1,sizeof(swap->privkeys),fp); fwrite(swap->otherdeck,1,sizeof(swap->otherdeck),fp); fwrite(swap->deck,1,sizeof(swap->deck),fp); fclose(fp); } } /*int32_t basilisk_swap_loadtx(struct basilisk_rawtx *rawtx,FILE *fp,char *bobcoinstr,char *alicecoinstr) { if ( fread(rawtx,1,sizeof(*rawtx),fp) == sizeof(*rawtx) ) { rawtx->coin = 0; rawtx->vins = 0; if ( strcmp(rawtx->I.coinstr,bobcoinstr) == 0 || strcmp(rawtx->I.coinstr,alicecoinstr) == 0 ) { rawtx->coin = LP_coinfind(rawtx->I.coinstr); if ( rawtx->vinstr[0] != 0 ) rawtx->vins = cJSON_Parse(rawtx->vinstr); printf("loaded.%s len.%d\n",rawtx->name,rawtx->I.datalen); return(0); } } return(-1); }*/ void basilisk_swap_sendabort(struct basilisk_swap *swap) { uint32_t msgbits = 0; uint8_t buf[sizeof(msgbits) + sizeof(swap->I.req.quoteid) + sizeof(bits256)*2]; int32_t sentbytes,offset=0; memset(buf,0,sizeof(buf)); offset += iguana_rwnum(1,&buf[offset],sizeof(swap->I.req.quoteid),&swap->I.req.quoteid); offset += iguana_rwnum(1,&buf[offset],sizeof(msgbits),&msgbits); if ( (sentbytes= nn_send(swap->pushsock,buf,offset,0)) != offset ) { if ( sentbytes < 0 ) { if ( swap->pushsock >= 0 ) // nn_close(swap->pushsock), swap->pushsock = -1; if ( swap->subsock >= 0 ) // nn_close(swap->subsock), swap->subsock = -1; swap->connected = 0; } } else printf("basilisk_swap_sendabort\n"); } void basilisk_psockinit(struct basilisk_swap *swap,int32_t amlp); void basilisk_swapgotdata(struct basilisk_swap *swap,uint32_t crc32,bits256 srchash,bits256 desthash,uint32_t quoteid,uint32_t msgbits,uint8_t *data,int32_t datalen,int32_t reinit) { int32_t i; struct basilisk_swapmessage *mp; for (i=0; inummessages; i++) if ( crc32 == swap->messages[i].crc32 && msgbits == swap->messages[i].msgbits && bits256_cmp(srchash,swap->messages[i].srchash) == 0 && bits256_cmp(desthash,swap->messages[i].desthash) == 0 ) return; //printf(" new message.[%d] datalen.%d Q.%x msg.%x [%llx]\n",swap->nummessages,datalen,quoteid,msgbits,*(long long *)data); swap->messages = realloc(swap->messages,sizeof(*swap->messages) * (swap->nummessages + 1)); mp = &swap->messages[swap->nummessages++]; mp->crc32 = crc32; mp->srchash = srchash; mp->desthash = desthash; mp->msgbits = msgbits; mp->quoteid = quoteid; mp->data = malloc(datalen); mp->datalen = datalen; memcpy(mp->data,data,datalen); if ( reinit == 0 && swap->fp != 0 ) { fwrite(mp,1,sizeof(*mp),swap->fp); fwrite(data,1,datalen,swap->fp); fflush(swap->fp); } } int32_t basilisk_swapget(struct basilisk_swap *swap,uint32_t msgbits,uint8_t *data,int32_t maxlen,int32_t (*basilisk_verify_func)(void *ptr,uint8_t *data,int32_t datalen)) { uint8_t *ptr; bits256 srchash,desthash; uint32_t crc32,_msgbits,quoteid; int32_t i,size,offset,retval = -1; struct basilisk_swapmessage *mp = 0; while ( (size= nn_recv(swap->subsock,&ptr,NN_MSG,0)) >= 0 ) { swap->lasttime = (uint32_t)time(NULL); memset(srchash.bytes,0,sizeof(srchash)); memset(desthash.bytes,0,sizeof(desthash)); //printf("gotmsg.[%d] crc.%x\n",size,crc32); offset = 0; for (i=0; i<32; i++) srchash.bytes[i] = ptr[offset++]; for (i=0; i<32; i++) desthash.bytes[i] = ptr[offset++]; offset += iguana_rwnum(0,&ptr[offset],sizeof(uint32_t),"eid); offset += iguana_rwnum(0,&ptr[offset],sizeof(uint32_t),&_msgbits); if ( size > offset ) { crc32 = calc_crc32(0,&ptr[offset],size-offset); if ( size > offset ) { //printf("size.%d offset.%d datalen.%d\n",size,offset,size-offset); basilisk_swapgotdata(swap,crc32,srchash,desthash,quoteid,_msgbits,&ptr[offset],size-offset,0); } } else if ( bits256_nonz(srchash) == 0 && bits256_nonz(desthash) == 0 ) { if ( swap->aborted == 0 ) { swap->aborted = (uint32_t)time(NULL); printf("got abort signal from other side\n"); } } else printf("basilisk_swapget: got strange packet\n"); if ( ptr != 0 ) nn_freemsg(ptr), ptr = 0; } //char str[65],str2[65]; for (i=0; inummessages; i++) { //printf("%d: %s vs %s\n",i,bits256_str(str,swap->messages[i].srchash),bits256_str(str2,swap->messages[i].desthash)); if ( bits256_cmp(swap->messages[i].desthash,swap->I.myhash) == 0 ) { if ( swap->messages[i].msgbits == msgbits ) { if ( swap->I.iambob == 0 && swap->lasttime != 0 && time(NULL) > swap->lasttime+360 ) { printf("nothing received for a while from Bob, try new sockets\n"); if ( swap->pushsock >= 0 ) // nn_close(swap->pushsock), swap->pushsock = -1; if ( swap->subsock >= 0 ) // nn_close(swap->subsock), swap->subsock = -1; swap->connected = 0; basilisk_psockinit(swap,swap->I.iambob != 0); } mp = &swap->messages[i]; if ( msgbits != 0x80000000 ) break; } } } if ( mp != 0 ) retval = (*basilisk_verify_func)(swap,mp->data,mp->datalen); //printf("mine/other %s vs %s\n",bits256_str(str,swap->I.myhash),bits256_str(str2,swap->I.otherhash)); return(retval); } int32_t basilisk_messagekeyread(uint8_t *key,uint32_t *channelp,uint32_t *msgidp,bits256 *srchashp,bits256 *desthashp) { int32_t keylen = 0; keylen += iguana_rwnum(0,&key[keylen],sizeof(uint32_t),channelp); keylen += iguana_rwnum(0,&key[keylen],sizeof(uint32_t),msgidp); keylen += iguana_rwbignum(0,&key[keylen],sizeof(*srchashp),srchashp->bytes); keylen += iguana_rwbignum(0,&key[keylen],sizeof(*desthashp),desthashp->bytes); return(keylen); } int32_t basilisk_messagekey(uint8_t *key,uint32_t channel,uint32_t msgid,bits256 srchash,bits256 desthash) { int32_t keylen = 0; keylen += iguana_rwnum(1,&key[keylen],sizeof(uint32_t),&channel); keylen += iguana_rwnum(1,&key[keylen],sizeof(uint32_t),&msgid); keylen += iguana_rwbignum(1,&key[keylen],sizeof(srchash),srchash.bytes); keylen += iguana_rwbignum(1,&key[keylen],sizeof(desthash),desthash.bytes); return(keylen); } void LP_channelsend(bits256 srchash,bits256 desthash,uint32_t channel,uint32_t msgid,uint8_t *data,int32_t datalen) { int32_t keylen; uint8_t key[BASILISK_KEYSIZE]; //char *retstr; keylen = basilisk_messagekey(key,channel,msgid,srchash,desthash); //if ( (retstr= _dex_reqsend(myinfo,"DEX",key,keylen,data,datalen)) != 0 ) // free(retstr); } #ifdef adfafds void iguana_ensure_privkey(struct iguana_info *coin,bits256 privkey) { uint8_t pubkey33[33]; struct iguana_waccount *wacct; struct iguana_waddress *waddr,addr; char coinaddr[128]; bitcoin_pubkey33(swap->ctx,pubkey33,privkey); bitcoin_address(coinaddr,coin->pubtype,pubkey33,33); //printf("privkey for (%s)\n",coinaddr); if ( myinfo->expiration != 0 && ((waddr= iguana_waddresssearch(&wacct,coinaddr)) == 0 || bits256_nonz(waddr->privkey) == 0) ) { if ( waddr == 0 ) { memset(&addr,0,sizeof(addr)); iguana_waddresscalc(coin->pubtype,coin->wiftype,&addr,privkey); if ( (wacct= iguana_waccountfind("default")) != 0 ) waddr = iguana_waddressadd(coin,wacct,&addr,0); } if ( waddr != 0 ) { waddr->privkey = privkey; if ( bitcoin_priv2wif(waddr->wifstr,waddr->privkey,coin->wiftype) > 0 ) { if ( (0) && waddr->wiftype != coin->wiftype ) printf("ensurepriv warning: mismatched wiftype %02x != %02x\n",waddr->wiftype,coin->wiftype); if ( (0) && waddr->addrtype != coin->pubtype ) printf("ensurepriv warning: mismatched addrtype %02x != %02x\n",waddr->addrtype,coin->pubtype); } } } } #endif int32_t basilisk_rawtx_return(struct basilisk_rawtx *rawtx,cJSON *item,int32_t lockinputs,struct vin_info *V) { char *signedtx,*txbytes; cJSON *vins,*privkeyarray; int32_t i,n,retval = -1; if ( (txbytes= jstr(item,"rawtx")) != 0 && (vins= jobj(item,"vins")) != 0 ) { privkeyarray = cJSON_CreateArray(); jaddistr(privkeyarray,wifstr); if ( (signedtx= LP_signrawtx(rawtx->coin->symbol,&rawtx->I.signedtxid,&rawtx->I.completed,vins,txbytes,privkeyarray,V)) != 0 ) { if ( lockinputs != 0 ) { //printf("lockinputs\n"); LP_unspentslock(rawtx->coin->symbol,vins); if ( (n= cJSON_GetArraySize(vins)) != 0 ) { bits256 txid; int32_t vout; for (i=0; iI.datalen = (int32_t)strlen(signedtx) >> 1; //rawtx->txbytes = calloc(1,rawtx->I.datalen); decode_hex(rawtx->txbytes,rawtx->I.datalen,signedtx); //printf("%s SIGNEDTX.(%s)\n",rawtx->name,signedtx); free(signedtx); retval = 0; } else printf("error signrawtx\n"); //do a very short timeout so it finishes via local poll free_json(privkeyarray); } return(retval); } cJSON *LP_createvins(struct basilisk_rawtx *dest,struct vin_info *V,struct basilisk_rawtx *rawtx,uint8_t *userdata,int32_t userdatalen,uint32_t sequenceid) { cJSON *vins,*item,*sobj; char hexstr[8192]; vins = cJSON_CreateArray(); item = cJSON_CreateObject(); if ( userdata != 0 && userdatalen > 0 ) { memcpy(V[0].userdata,userdata,userdatalen); V[0].userdatalen = userdatalen; init_hexbytes_noT(hexstr,userdata,userdatalen); jaddstr(item,"userdata",hexstr); #ifdef DISABLE_CHECKSIG needsig = 0; #endif } //printf("rawtx B\n"); if ( bits256_nonz(rawtx->I.actualtxid) != 0 ) jaddbits256(item,"txid",rawtx->I.actualtxid); else jaddbits256(item,"txid",rawtx->I.signedtxid); jaddnum(item,"vout",0); //sobj = cJSON_CreateObject(); init_hexbytes_noT(hexstr,rawtx->spendscript,rawtx->I.spendlen); //jaddstr(sobj,"hex",hexstr); //jadd(item,"scriptPubKey",sobj); jaddstr(item,"scriptPubKey",hexstr); jaddnum(item,"suppress",dest->I.suppress_pubkeys); jaddnum(item,"sequence",sequenceid); if ( (dest->I.redeemlen= rawtx->I.redeemlen) != 0 ) { init_hexbytes_noT(hexstr,rawtx->redeemscript,rawtx->I.redeemlen); memcpy(dest->redeemscript,rawtx->redeemscript,rawtx->I.redeemlen); jaddstr(item,"redeemScript",hexstr); } jaddi(vins,item); return(vins); } int32_t _basilisk_rawtx_gen(char *str,uint32_t swapstarted,uint8_t *pubkey33,int32_t iambob,int32_t lockinputs,struct basilisk_rawtx *rawtx,uint32_t locktime,uint8_t *script,int32_t scriptlen,int64_t txfee,int32_t minconf,int32_t delay,bits256 privkey) { char scriptstr[1024],wifstr[256],coinaddr[64],*signedtx,*rawtxbytes; uint32_t basilisktag; int32_t retval = -1; cJSON *vins,*privkeys,*addresses,*valsobj; struct vin_info *V; init_hexbytes_noT(scriptstr,script,scriptlen); basilisktag = (uint32_t)rand(); valsobj = cJSON_CreateObject(); jaddstr(valsobj,"coin",rawtx->coin->symbol); jaddstr(valsobj,"spendscript",scriptstr); jaddstr(valsobj,"changeaddr",rawtx->coin->smartaddr); jadd64bits(valsobj,"satoshis",rawtx->I.amount); if ( strcmp(rawtx->coin->symbol,"BTC") == 0 && txfee > 0 && txfee < 50000 ) txfee = 50000; jadd64bits(valsobj,"txfee",txfee); jaddnum(valsobj,"minconf",minconf); if ( locktime == 0 ) locktime = (uint32_t)time(NULL) - 777; jaddnum(valsobj,"locktime",locktime); jaddnum(valsobj,"timeout",30000); jaddnum(valsobj,"timestamp",swapstarted+delay); addresses = cJSON_CreateArray(); bitcoin_address(coinaddr,rawtx->coin->pubtype,pubkey33,33); jaddistr(addresses,coinaddr); jadd(valsobj,"addresses",addresses); rawtx->I.locktime = locktime; printf("%s locktime.%u\n",rawtx->name,locktime); V = calloc(256,sizeof(*V)); privkeys = cJSON_CreateArray(); bitcoin_priv2wif(wifstr,privkey,rawtx->coin->wiftype); jaddistr(privkeys,wifstr); vins = LP_createvins(rawtx,V,rawtx,0,0,0xffffffff); rawtx->vins = jduplicate(vins); jdelete(valsobj,"vin"); jadd(valsobj,"vin",vins); if ( (rawtxbytes= bitcoin_json2hex(rawtx->coin->isPoS,&rawtx->I.txid,valsobj,V)) != 0 ) { //printf("rawtx.(%s) vins.%p\n",rawtxbytes,vins); if ( (signedtx= LP_signrawtx(rawtx->coin->symbol,&rawtx->I.signedtxid,&rawtx->I.completed,vins,rawtxbytes,privkeys,V)) != 0 ) { rawtx->I.datalen = (int32_t)strlen(signedtx) >> 1; if ( rawtx->I.datalen <= sizeof(rawtx->txbytes) ) decode_hex(rawtx->txbytes,rawtx->I.datalen,signedtx); else printf("DEX tx is too big %d vs %d\n",rawtx->I.datalen,(int32_t)sizeof(rawtx->txbytes)); if ( signedtx != rawtxbytes ) free(signedtx); if ( rawtx->I.completed != 0 ) retval = 0; else printf("couldnt complete sign transaction %s\n",rawtx->name); } else printf("error signing\n"); free(rawtxbytes); } else printf("error making rawtx\n"); free_json(privkeys); free_json(valsobj); free(V); return(retval); } int32_t _basilisk_rawtx_sign(char *symbol,uint8_t pubtype,uint8_t p2shtype,uint8_t isPoS,uint8_t wiftype,struct basilisk_swap *swap,uint32_t timestamp,uint32_t locktime,uint32_t sequenceid,struct basilisk_rawtx *dest,struct basilisk_rawtx *rawtx,bits256 privkey,bits256 *privkey2,uint8_t *userdata,int32_t userdatalen,int32_t ignore_cltverr) { char *rawtxbytes=0,*signedtx=0,wifstr[128]; cJSON *txobj,*vins,*privkeys; int32_t needsig=1,retval = -1; struct vin_info *V; V = calloc(256,sizeof(*V)); V[0].signers[0].privkey = privkey; bitcoin_pubkey33(swap->ctx,V[0].signers[0].pubkey,privkey); privkeys = cJSON_CreateArray(); bitcoin_priv2wif(wifstr,privkey,wiftype); jaddistr(privkeys,wifstr); if ( privkey2 != 0 ) { V[0].signers[1].privkey = *privkey2; bitcoin_pubkey33(swap->ctx,V[0].signers[1].pubkey,*privkey2); bitcoin_priv2wif(wifstr,*privkey2,wiftype); jaddistr(privkeys,wifstr); V[0].N = V[0].M = 2; //char str[65]; printf("add second privkey.(%s) %s\n",jprint(privkeys,0),bits256_str(str,*privkey2)); } else V[0].N = V[0].M = 1; V[0].suppress_pubkeys = dest->I.suppress_pubkeys; V[0].ignore_cltverr = ignore_cltverr; if ( dest->I.redeemlen != 0 ) memcpy(V[0].p2shscript,dest->redeemscript,dest->I.redeemlen), V[0].p2shlen = dest->I.redeemlen; txobj = bitcoin_txcreate(symbol,isPoS,locktime,userdata == 0 ? 1 : 1,timestamp);//rawtx->coin->locktime_txversion); vins = LP_createvins(dest,V,rawtx,userdata,userdatalen,sequenceid); jdelete(txobj,"vin"); jadd(txobj,"vin",vins); //printf("basilisk_rawtx_sign locktime.%u/%u for %s spendscript.%s -> %s, suppress.%d\n",rawtx->I.locktime,dest->I.locktime,rawtx->name,hexstr,dest->name,dest->I.suppress_pubkeys); txobj = bitcoin_txoutput(txobj,dest->spendscript,dest->I.spendlen,dest->I.amount); if ( (rawtxbytes= bitcoin_json2hex(isPoS,&dest->I.txid,txobj,V)) != 0 ) { //printf("rawtx.(%s) vins.%p\n",rawtxbytes,vins); if ( needsig == 0 ) signedtx = rawtxbytes; if ( signedtx != 0 || (signedtx= LP_signrawtx(symbol,&dest->I.signedtxid,&dest->I.completed,vins,rawtxbytes,privkeys,V)) != 0 ) { dest->I.datalen = (int32_t)strlen(signedtx) >> 1; if ( dest->I.datalen <= sizeof(dest->txbytes) ) decode_hex(dest->txbytes,dest->I.datalen,signedtx); else printf("DEX tx is too big %d vs %d\n",dest->I.datalen,(int32_t)sizeof(dest->txbytes)); if ( signedtx != rawtxbytes ) free(signedtx); if ( dest->I.completed != 0 ) retval = 0; else printf("couldnt complete sign transaction %s\n",rawtx->name); } else printf("error signing\n"); free(rawtxbytes); } else printf("error making rawtx\n"); free_json(privkeys); free_json(txobj); free(V); return(retval); } int32_t basilisk_process_swapverify(void *ptr,int32_t (*internal_func)(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) { struct basilisk_swap *swap = ptr; if ( internal_func != 0 ) return((*internal_func)(swap,data,datalen)); else return(0); } int32_t basilisk_priviextract(struct iguana_info *coin,char *name,bits256 *destp,uint8_t secret160[20],bits256 srctxid,int32_t srcvout) { /*bits256 txid; char str[65]; int32_t i,vini,scriptlen; uint8_t rmd160[20],scriptsig[IGUANA_MAXSCRIPTSIZE]; memset(privkey.bytes,0,sizeof(privkey)); // use dex_listtransactions! if ( (vini= iguana_vinifind(coin,&txid,srctxid,srcvout)) >= 0 ) { if ( (scriptlen= iguana_scriptsigextract(coin,scriptsig,sizeof(scriptsig),txid,vini)) > 32 ) { for (i=0; i<32; i++) privkey.bytes[i] = scriptsig[scriptlen - 33 + i]; revcalc_rmd160_sha256(rmd160,privkey);//.bytes,sizeof(privkey)); if ( memcmp(secret160,rmd160,sizeof(rmd160)) == sizeof(rmd160) ) { *destp = privkey; printf("basilisk_priviextract found privi %s (%s)\n",name,bits256_str(str,privkey)); return(0); } } }*/ return(-1); } int32_t basilisk_verify_privi(void *ptr,uint8_t *data,int32_t datalen); int32_t basilisk_privBn_extract(struct basilisk_swap *swap,uint8_t *data,int32_t maxlen) { if ( basilisk_priviextract(&swap->bobcoin,"privBn",&swap->I.privBn,swap->I.secretBn,swap->bobrefund.I.actualtxid,0) == 0 ) { printf("extracted privBn from blockchain\n"); } else if ( basilisk_swapget(swap,0x40000000,data,maxlen,basilisk_verify_privi) == 0 ) { } if ( bits256_nonz(swap->I.privBn) != 0 && swap->alicereclaim.I.datalen == 0 ) { char str[65]; printf("got privBn.%s\n",bits256_str(str,swap->I.privBn)); return(basilisk_alicepayment_spend(swap,&swap->alicereclaim)); } return(-1); } int32_t basilisk_privAm_extract(struct basilisk_swap *swap) { if ( basilisk_priviextract(&swap->bobcoin,"privAm",&swap->I.privAm,swap->I.secretAm,swap->bobpayment.I.actualtxid,0) == 0 ) { printf("extracted privAm from blockchain\n"); } if ( bits256_nonz(swap->I.privAm) != 0 && swap->bobspend.I.datalen == 0 ) { char str[65]; printf("got privAm.%s\n",bits256_str(str,swap->I.privAm)); return(basilisk_alicepayment_spend(swap,&swap->bobspend)); } return(-1); } int32_t basilisk_verify_otherstatebits(void *ptr,uint8_t *data,int32_t datalen) { int32_t retval; struct basilisk_swap *swap = ptr; if ( datalen == sizeof(swap->I.otherstatebits) ) { retval = iguana_rwnum(0,data,sizeof(swap->I.otherstatebits),&swap->I.otherstatebits); return(retval); } else return(-1); } int32_t basilisk_verify_statebits(void *ptr,uint8_t *data,int32_t datalen) { int32_t retval = -1; uint32_t statebits; struct basilisk_swap *swap = ptr; if ( datalen == sizeof(swap->I.statebits) ) { retval = iguana_rwnum(0,data,sizeof(swap->I.statebits),&statebits); if ( statebits != swap->I.statebits ) { printf("statebits.%x != %x\n",statebits,swap->I.statebits); return(-1); } } return(retval); } void basilisk_sendstate(struct basilisk_swap *swap,uint8_t *data,int32_t maxlen) { int32_t datalen=0; datalen = iguana_rwnum(1,data,sizeof(swap->I.statebits),&swap->I.statebits); LP_swapsend(swap,0x80000000,data,datalen,0,0); } int32_t basilisk_swapiteration(struct basilisk_swap *swap,uint8_t *data,int32_t maxlen) { int32_t j,datalen,retval = 0; uint32_t savestatebits=0,saveotherbits=0; if ( swap->I.iambob != 0 ) swap->I.statebits |= 0x80; while ( swap->aborted == 0 && ((swap->I.otherstatebits & 0x80) == 0 || (swap->I.statebits & 0x80) == 0) && retval == 0 && time(NULL) < swap->I.expiration ) { if ( swap->connected == 0 ) basilisk_psockinit(swap,swap->I.iambob != 0); printf("D r%u/q%u swapstate.%x otherstate.%x remaining %d\n",swap->I.req.requestid,swap->I.req.quoteid,swap->I.statebits,swap->I.otherstatebits,(int32_t)(swap->I.expiration-time(NULL))); if ( swap->I.iambob != 0 && (swap->I.statebits & 0x80) == 0 ) // wait for fee { if ( basilisk_swapget(swap,0x80,data,maxlen,basilisk_verify_otherfee) == 0 ) { // verify and submit otherfee swap->I.statebits |= 0x80; basilisk_sendstate(swap,data,maxlen); } } else if ( swap->I.iambob == 0 ) swap->I.statebits |= 0x80; basilisk_sendstate(swap,data,maxlen); basilisk_swapget(swap,0x80000000,data,maxlen,basilisk_verify_otherstatebits); if ( (swap->I.otherstatebits & 0x80) != 0 && (swap->I.statebits & 0x80) != 0 ) break; if ( swap->I.statebits == savestatebits && swap->I.otherstatebits == saveotherbits ) sleep(DEX_SLEEP + (swap->I.iambob == 0)*1); savestatebits = swap->I.statebits; saveotherbits = swap->I.otherstatebits; basilisk_swapget(swap,0x80000000,data,maxlen,basilisk_verify_otherstatebits); basilisk_sendstate(swap,data,maxlen); if ( (swap->I.otherstatebits & 0x80) == 0 ) LP_swapdata_rawtxsend(swap,0x80,data,maxlen,&swap->myfee,0x40,0); } basilisk_swap_saveupdate(swap); while ( swap->aborted == 0 && retval == 0 && time(NULL) < swap->I.expiration ) // both sides have setup required data and paid txfee { basilisk_swap_saveupdate(swap); if ( swap->connected == 0 ) basilisk_psockinit(swap,swap->I.iambob != 0); //if ( (rand() % 30) == 0 ) printf("E r%u/q%u swapstate.%x otherstate.%x remaining %d\n",swap->I.req.requestid,swap->I.req.quoteid,swap->I.statebits,swap->I.otherstatebits,(int32_t)(swap->I.expiration-time(NULL))); if ( swap->I.iambob != 0 ) { //printf("BOB\n"); if ( (swap->I.statebits & 0x100) == 0 ) { printf("send bobdeposit\n"); swap->I.statebits |= LP_swapdata_rawtxsend(swap,0x200,data,maxlen,&swap->bobdeposit,0x100,0); } // [BLOCKING: altfound] make sure altpayment is confirmed and send payment else if ( (swap->I.statebits & 0x1000) == 0 ) { printf("check alicepayment\n"); if ( basilisk_swapget(swap,0x1000,data,maxlen,basilisk_verify_alicepaid) == 0 ) { swap->I.statebits |= 0x1000; printf("got alicepayment aliceconfirms.%d\n",swap->I.aliceconfirms); } } else if ( (swap->I.statebits & 0x2000) == 0 ) { if ( (swap->I.aliceconfirms == 0 && swap->aliceunconf != 0) || LP_numconfirms(swap,&swap->alicepayment) >= swap->I.aliceconfirms ) { swap->I.statebits |= 0x2000; printf("alicepayment confirmed\n"); } } else if ( (swap->I.statebits & 0x4000) == 0 ) { basilisk_bobscripts_set(swap,0,1); printf("send bobpayment\n"); swap->I.statebits |= LP_swapdata_rawtxsend(swap,0x8000,data,maxlen,&swap->bobpayment,0x4000,0); } // [BLOCKING: privM] Bob waits for privAm either from Alice or alice blockchain else if ( (swap->I.statebits & 0xc0000) != 0xc0000 ) { if ( basilisk_swapget(swap,0x40000,data,maxlen,basilisk_verify_privi) == 0 || basilisk_privAm_extract(swap) == 0 ) // divulges privAm { //printf("got privi spend alicepayment, dont divulge privBn until bobspend propagated\n"); basilisk_alicepayment_spend(swap,&swap->bobspend); if ( LP_swapdata_rawtxsend(swap,0,data,maxlen,&swap->bobspend,0x40000,1) == 0 ) printf("Bob error spending alice payment\n"); else { tradebot_swap_balancingtrade(swap,1); printf("Bob spends alicepayment aliceconfirms.%d\n",swap->I.aliceconfirms); swap->I.statebits |= 0x40000; if ( LP_numconfirms(swap,&swap->bobspend) >= swap->I.aliceconfirms ) { printf("bobspend confirmed\n"); swap->I.statebits |= 0x80000; printf("Bob confirming spend of Alice's payment\n"); sleep(DEX_SLEEP); } retval = 1; } } } if ( swap->bobpayment.I.locktime != 0 && time(NULL) > swap->bobpayment.I.locktime ) { // submit reclaim of payment printf("bob reclaims bobpayment\n"); swap->I.statebits |= (0x40000 | 0x80000); if ( LP_swapdata_rawtxsend(swap,0,data,maxlen,&swap->bobreclaim,0,0) == 0 ) printf("Bob error reclaiming own payment after alice timed out\n"); else { printf("Bob reclaimed own payment\n"); while ( 0 && (swap->I.statebits & 0x100000) == 0 ) // why wait for own tx? { if ( LP_numconfirms(swap,&swap->bobreclaim) >= 1 ) { printf("bobreclaim confirmed\n"); swap->I.statebits |= 0x100000; printf("Bob confirms reclain of payment\n"); break; } } retval = 1; } } } else { //printf("ALICE\n"); // [BLOCKING: depfound] Alice waits for deposit to confirm and sends altpayment if ( (swap->I.statebits & 0x200) == 0 ) { printf("checkfor deposit\n"); if ( basilisk_swapget(swap,0x200,data,maxlen,basilisk_verify_bobdeposit) == 0 ) { // verify deposit and submit, set confirmed height printf("got bobdeposit\n"); swap->I.statebits |= 0x200; } else printf("no valid deposit\n"); } else if ( (swap->I.statebits & 0x400) == 0 ) { if ( basilisk_istrustedbob(swap) != 0 || (swap->I.bobconfirms == 0 && swap->depositunconf != 0) || LP_numconfirms(swap,&swap->bobdeposit) >= swap->I.bobconfirms ) { printf("bobdeposit confirmed\n"); swap->I.statebits |= 0x400; } } else if ( (swap->I.statebits & 0x800) == 0 ) { printf("send alicepayment\n"); swap->I.statebits |= LP_swapdata_rawtxsend(swap,0x1000,data,maxlen,&swap->alicepayment,0x800,0); } // [BLOCKING: payfound] make sure payment is confrmed and send in spend or see bob's reclaim and claim else if ( (swap->I.statebits & 0x8000) == 0 ) { if ( basilisk_swapget(swap,0x8000,data,maxlen,basilisk_verify_bobpaid) == 0 ) { printf("got bobpayment\n"); tradebot_swap_balancingtrade(swap,0); // verify payment and submit, set confirmed height swap->I.statebits |= 0x8000; } } else if ( (swap->I.statebits & 0x10000) == 0 ) { if ( basilisk_istrustedbob(swap) != 0 || (swap->I.bobconfirms == 0 && swap->paymentunconf != 0) || LP_numconfirms(swap,&swap->bobpayment) >= swap->I.bobconfirms ) { printf("bobpayment confirmed\n"); swap->I.statebits |= 0x10000; } } else if ( (swap->I.statebits & 0x20000) == 0 ) { printf("alicespend bobpayment\n"); if ( LP_swapdata_rawtxsend(swap,0,data,maxlen,&swap->alicespend,0x20000,0) != 0 )//&& (swap->aliceunconf != 0 || basilisk_numconfirms(swap,&swap->alicespend) > 0) ) { swap->I.statebits |= 0x20000; } } else if ( (swap->I.statebits & 0x40000) == 0 ) { int32_t numconfs; if ( (numconfs= LP_numconfirms(swap,&swap->alicespend)) >= swap->I.bobconfirms ) { for (j=datalen=0; j<32; j++) data[datalen++] = swap->I.privAm.bytes[j]; printf("send privAm %x\n",swap->I.statebits); swap->I.statebits |= LP_swapsend(swap,0x40000,data,datalen,0x20000,swap->I.crcs_mypriv); printf("Alice confirms spend of Bob's payment\n"); retval = 1; } else printf("alicespend numconfs.%d < %d\n",numconfs,swap->I.bobconfirms); } if ( swap->bobdeposit.I.locktime != 0 && time(NULL) > swap->bobdeposit.I.locktime ) { printf("Alice claims deposit\n"); if ( LP_swapdata_rawtxsend(swap,0,data,maxlen,&swap->aliceclaim,0,0) == 0 ) printf("Alice couldnt claim deposit\n"); else { printf("Alice claimed deposit\n"); retval = 1; } } else if ( swap->aborted != 0 || basilisk_privBn_extract(swap,data,maxlen) == 0 ) { printf("Alice reclaims her payment\n"); swap->I.statebits |= 0x40000000; if ( LP_swapdata_rawtxsend(swap,0,data,maxlen,&swap->alicereclaim,0x40000000,0) == 0 ) printf("Alice error sending alicereclaim\n"); else { printf("Alice reclaimed her payment\n"); retval = 1; } } } if ( (rand() % 30) == 0 ) printf("finished swapstate.%x other.%x\n",swap->I.statebits,swap->I.otherstatebits); if ( swap->I.statebits == savestatebits && swap->I.otherstatebits == saveotherbits ) sleep(DEX_SLEEP + (swap->I.iambob == 0)*1); savestatebits = swap->I.statebits; saveotherbits = swap->I.otherstatebits; basilisk_sendstate(swap,data,maxlen); basilisk_swapget(swap,0x80000000,data,maxlen,basilisk_verify_otherstatebits); } return(retval); } int32_t swapcompleted(struct basilisk_swap *swap) { if ( swap->I.iambob != 0 ) return(swap->I.bobspent); else return(swap->I.alicespent); } cJSON *swapjson(struct basilisk_swap *swap) { cJSON *retjson = cJSON_CreateObject(); return(retjson); } int32_t basilisk_rwDEXquote(int32_t rwflag,uint8_t *serialized,struct basilisk_request *rp) { int32_t len = 0; len += iguana_rwnum(rwflag,&serialized[len],sizeof(rp->requestid),&rp->requestid); len += iguana_rwnum(rwflag,&serialized[len],sizeof(rp->timestamp),&rp->timestamp); // must be 2nd len += iguana_rwnum(rwflag,&serialized[len],sizeof(rp->quoteid),&rp->quoteid); len += iguana_rwnum(rwflag,&serialized[len],sizeof(rp->quotetime),&rp->quotetime); len += iguana_rwnum(rwflag,&serialized[len],sizeof(rp->optionhours),&rp->optionhours); len += iguana_rwnum(rwflag,&serialized[len],sizeof(rp->srcamount),&rp->srcamount); len += iguana_rwnum(rwflag,&serialized[len],sizeof(rp->unused),&rp->unused); len += iguana_rwbignum(rwflag,&serialized[len],sizeof(rp->srchash),rp->srchash.bytes); len += iguana_rwbignum(rwflag,&serialized[len],sizeof(rp->desthash),rp->desthash.bytes); len += iguana_rwnum(rwflag,&serialized[len],sizeof(rp->destamount),&rp->destamount); if ( rwflag != 0 ) { memcpy(&serialized[len],rp->src,sizeof(rp->src)), len += sizeof(rp->src); memcpy(&serialized[len],rp->dest,sizeof(rp->dest)), len += sizeof(rp->dest); } else { memcpy(rp->src,&serialized[len],sizeof(rp->src)), len += sizeof(rp->src); memcpy(rp->dest,&serialized[len],sizeof(rp->dest)), len += sizeof(rp->dest); } //len += iguana_rwnum(rwflag,&serialized[len],sizeof(rp->DEXselector),&rp->DEXselector); //len += iguana_rwnum(rwflag,&serialized[len],sizeof(rp->extraspace),&rp->extraspace); if ( rp->quoteid != 0 && basilisk_quoteid(rp) != rp->quoteid ) printf(" basilisk_rwDEXquote.%d: quoteid.%u mismatch calc %u rp.%p\n",rwflag,rp->quoteid,basilisk_quoteid(rp),rp); if ( basilisk_requestid(rp) != rp->requestid ) printf(" basilisk_rwDEXquote.%d: requestid.%u mismatch calc %u rp.%p\n",rwflag,rp->requestid,basilisk_requestid(rp),rp); return(len); } struct basilisk_request *basilisk_parsejson(struct basilisk_request *rp,cJSON *reqjson) { uint32_t requestid,quoteid; memset(rp,0,sizeof(*rp)); rp->srchash = jbits256(reqjson,"srchash"); rp->desthash = jbits256(reqjson,"desthash"); rp->srcamount = j64bits(reqjson,"srcamount"); //rp->minamount = j64bits(reqjson,"minamount"); //rp->destamount = j64bits(reqjson,"destamount"); rp->destamount = j64bits(reqjson,"destsatoshis"); //printf("parse DESTSATOSHIS.%llu (%s)\n",(long long)rp->destamount,jprint(reqjson,0)); 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 ) { int32_t i; for (i=0; irequestid); } return(rp); } cJSON *basilisk_requestjson(struct basilisk_request *rp) { cJSON *item = cJSON_CreateObject(); /*if ( rp->relaybits != 0 ) { expand_ipbits(ipaddr,rp->relaybits); jaddstr(item,"relay",ipaddr); }*/ jaddbits256(item,"srchash",rp->srchash); if ( bits256_nonz(rp->desthash) != 0 ) jaddbits256(item,"desthash",rp->desthash); jaddstr(item,"src",rp->src); if ( rp->srcamount != 0 ) jadd64bits(item,"srcamount",rp->srcamount); //if ( rp->minamount != 0 ) // jadd64bits(item,"minamount",rp->minamount); jaddstr(item,"dest",rp->dest); if ( rp->destamount != 0 ) { //jadd64bits(item,"destamount",rp->destamount); jadd64bits(item,"destsatoshis",rp->destamount); //printf("DESTSATOSHIS.%llu\n",(long long)rp->destamount); } jaddnum(item,"quotetime",rp->quotetime); jaddnum(item,"timestamp",rp->timestamp); jaddnum(item,"requestid",rp->requestid); jaddnum(item,"quoteid",rp->quoteid); //jaddnum(item,"DEXselector",rp->DEXselector); jaddnum(item,"optionhours",rp->optionhours); //jaddnum(item,"profit",(double)rp->profitmargin / 1000000.); if ( rp->quoteid != 0 && basilisk_quoteid(rp) != rp->quoteid ) printf("quoteid mismatch %u vs %u\n",basilisk_quoteid(rp),rp->quoteid); if ( basilisk_requestid(rp) != rp->requestid ) printf("requestid mismatch %u vs calc %u\n",rp->requestid,basilisk_requestid(rp)); { int32_t i; struct basilisk_request R; if ( basilisk_parsejson(&R,item) != 0 ) { if ( memcmp(&R,rp,sizeof(*rp)-sizeof(uint32_t)) != 0 ) { for (i=0; iI.req.requestid); jaddnum(item,"quoteid",swap->I.req.quoteid); jaddnum(item,"state",swap->I.statebits); jaddnum(item,"otherstate",swap->I.otherstatebits); jadd(item,"request",basilisk_requestjson(&swap->I.req)); return(item); } #ifdef later cJSON *basilisk_privkeyarray(struct iguana_info *coin,cJSON *vins) { cJSON *privkeyarray,*item,*sobj; struct iguana_waddress *waddr; struct iguana_waccount *wacct; char coinaddr[64],account[128],wifstr[64],str[65],typestr[64],*hexstr; uint8_t script[1024]; int32_t i,n,len,vout; bits256 txid,privkey; double bidasks[2]; privkeyarray = cJSON_CreateArray(); if ( (n= cJSON_GetArraySize(vins)) > 0 ) { for (i=0; i= 0 ) { iguana_txidcategory(coin,account,coinaddr,txid,vout); if ( coinaddr[0] == 0 && (sobj= jobj(item,"scriptPubKey")) != 0 && (hexstr= jstr(sobj,"hex")) != 0 && is_hexstr(hexstr,0) > 0 ) { len = (int32_t)strlen(hexstr) >> 1; if ( len < (sizeof(script) << 1) ) { decode_hex(script,len,hexstr); if ( len == 25 && script[0] == 0x76 && script[1] == 0xa9 && script[2] == 0x14 ) bitcoin_address(coinaddr,coin->chain->pubtype,script+3,20); } } if ( coinaddr[0] != 0 ) { if ( (waddr= iguana_waddresssearch(&wacct,coinaddr)) != 0 ) { bitcoin_priv2wif(wifstr,waddr->privkey,coin->chain->wiftype); jaddistr(privkeyarray,waddr->wifstr); } else if ( smartaddress(typestr,bidasks,&privkey,coin->symbol,coinaddr) >= 0 ) { bitcoin_priv2wif(wifstr,privkey,coin->chain->wiftype); jaddistr(privkeyarray,wifstr); } else printf("cant find (%s) in wallet\n",coinaddr); } else printf("cant coinaddr from (%s).v%d\n",bits256_str(str,txid),vout); } else printf("invalid txid/vout %d of %d\n",i,n); } } return(privkeyarray); } #endif #ifdef old void basilisk_swaploop(void *_utxo) { uint8_t *data; uint32_t expiration,savestatebits=0,saveotherbits=0; uint32_t channel; int32_t iters,retval=0,j,datalen,maxlen; struct basilisk_swap *swap; struct LP_utxoinfo *utxo = _utxo; swap = utxo->swap; fprintf(stderr,"start swap iambob.%d\n",swap->I.iambob); maxlen = 1024*1024 + sizeof(*swap); data = malloc(maxlen); expiration = (uint32_t)time(NULL) + 300; //myinfo->DEXactive = expiration; channel = 'D' + ((uint32_t)'E' << 8) + ((uint32_t)'X' << 16); while ( swap->aborted == 0 && (swap->I.statebits & (0x08|0x02)) != (0x08|0x02) && time(NULL) < expiration ) { LP_channelsend(swap->I.req.srchash,swap->I.req.desthash,channel,0x4000000,(void *)&swap->I.req.requestid,sizeof(swap->I.req.requestid)); //,60); if ( swap->connected == 0 ) basilisk_psockinit(swap,swap->I.iambob != 0); if ( swap->connected > 0 ) { printf("A r%u/q%u swapstate.%x\n",swap->I.req.requestid,swap->I.req.quoteid,swap->I.statebits); basilisk_sendstate(swap,data,maxlen); basilisk_sendpubkeys(swap,data,maxlen); // send pubkeys if ( basilisk_checkdeck(swap,data,maxlen) == 0) // check for other deck 0x02 basilisk_sendchoosei(swap,data,maxlen); basilisk_waitchoosei(swap,data,maxlen); // wait for choosei 0x08 if ( (swap->I.statebits & (0x08|0x02)) == (0x08|0x02) ) break; } if ( swap->I.statebits == savestatebits && swap->I.otherstatebits == saveotherbits ) sleep(DEX_SLEEP + (swap->I.iambob == 0)*1); savestatebits = swap->I.statebits; saveotherbits = swap->I.otherstatebits; } if ( swap->connected == 0 ) { printf("couldnt establish connection\n"); retval = -1; } while ( swap->aborted == 0 && retval == 0 && (swap->I.statebits & 0x20) == 0 ) { if ( swap->connected == 0 ) basilisk_psockinit(swap,swap->I.iambob != 0); printf("B r%u/q%u swapstate.%x\n",swap->I.req.requestid,swap->I.req.quoteid,swap->I.statebits); basilisk_sendstate(swap,data,maxlen); basilisk_sendchoosei(swap,data,maxlen); basilisk_sendmostprivs(swap,data,maxlen); if ( basilisk_swapget(swap,0x20,data,maxlen,basilisk_verify_privkeys) == 0 ) { swap->I.statebits |= 0x20; break; } if ( swap->I.statebits == savestatebits && swap->I.otherstatebits == saveotherbits ) sleep(DEX_SLEEP + (swap->I.iambob == 0)*1); savestatebits = swap->I.statebits; saveotherbits = swap->I.otherstatebits; if ( time(NULL) > expiration ) break; } //myinfo->DEXactive = swap->I.expiration; if ( time(NULL) >= expiration ) { retval = -1; //myinfo->DEXactive = 0; } if ( swap->aborted != 0 ) { printf("swap aborted before tx sent\n"); retval = -1; } printf("C r%u/q%u swapstate.%x retval.%d\n",swap->I.req.requestid,swap->I.req.quoteid,swap->I.statebits,retval); iters = 0; while ( swap->aborted == 0 && retval == 0 && (swap->I.statebits & 0x40) == 0 && iters++ < 10 ) // send fee { if ( swap->connected == 0 ) basilisk_psockinit(swap,swap->I.iambob != 0); //printf("sendstate.%x\n",swap->I.statebits); basilisk_sendstate(swap,data,maxlen); //printf("swapget\n"); basilisk_swapget(swap,0x80000000,data,maxlen,basilisk_verify_otherstatebits); //printf("after swapget\n"); if ( swap->I.iambob != 0 && swap->bobdeposit.I.datalen == 0 ) { printf("bobscripts set\n"); if ( basilisk_bobscripts_set(swap,1,1) < 0 ) { sleep(DEX_SLEEP); printf("bobscripts set error\n"); continue; } } if ( swap->I.iambob == 0 ) { /*for (i=0; i<20; i++) printf("%02x",swap->secretAm[i]); printf(" <- secretAm\n"); for (i=0; i<32; i++) printf("%02x",swap->secretAm256[i]); printf(" <- secretAm256\n"); for (i=0; i<32; i++) printf("%02x",swap->pubAm.bytes[i]); printf(" <- pubAm\n"); for (i=0; i<20; i++) printf("%02x",swap->secretBn[i]); printf(" <- secretBn\n"); for (i=0; i<32; i++) printf("%02x",swap->secretBn256[i]); printf(" <- secretBn256\n"); for (i=0; i<32; i++) printf("%02x",swap->pubBn.bytes[i]); printf(" <- pubBn\n"); for (i=0; i<32; i++) printf("%02x",swap->pubA0.bytes[i]); printf(" <- pubA0\n"); for (i=0; i<32; i++) printf("%02x",swap->pubA1.bytes[i]); printf(" <- pubA1\n"); for (i=0; i<32; i++) printf("%02x",swap->pubB0.bytes[i]); printf(" <- pubB0\n"); for (i=0; i<32; i++) printf("%02x",swap->pubB1.bytes[i]); printf(" <- pubB1\n");*/ if ( (retval= basilisk_alicetxs(swap,data,maxlen)) != 0 ) { printf("basilisk_alicetxs error\n"); break; } } } if ( swap->I.iambob == 0 && (swap->I.statebits & 0x40) == 0 ) { printf("couldnt send fee\n"); retval = -8; } if ( retval == 0 ) { if ( swap->I.iambob == 0 && (swap->myfee.I.datalen == 0 || swap->alicepayment.I.datalen == 0 || swap->alicepayment.I.datalen == 0) ) { printf("ALICE's error %d %d %d\n",swap->myfee.I.datalen,swap->alicepayment.I.datalen,swap->alicepayment.I.datalen); retval = -7; } else if ( swap->I.iambob != 0 && swap->bobdeposit.I.datalen == 0 ) //swap->bobpayment.I.datalen == 0 { printf("BOB's error %d %d %d\n",swap->myfee.I.datalen,swap->bobpayment.I.datalen,swap->bobdeposit.I.datalen); retval = -7; } } while ( swap->aborted == 0 && retval == 0 && basilisk_swapiteration(swap,data,maxlen) == 0 ) { if ( swap->I.statebits == savestatebits && swap->I.otherstatebits == saveotherbits ) sleep(DEX_SLEEP + (swap->I.iambob == 0)*1); savestatebits = swap->I.statebits; saveotherbits = swap->I.otherstatebits; basilisk_sendstate(swap,data,maxlen); basilisk_swapget(swap,0x80000000,data,maxlen,basilisk_verify_otherstatebits); basilisk_swap_saveupdate(swap); if ( time(NULL) > swap->I.expiration ) break; } if ( swap->I.iambob != 0 && swap->bobdeposit.I.datalen != 0 && bits256_nonz(swap->bobdeposit.I.actualtxid) != 0 ) { printf("BOB waiting for confirm state.%x\n",swap->I.statebits); sleep(60); // wait for confirm/propagation of msig printf("BOB reclaims refund\n"); basilisk_bobdeposit_refund(swap,0); if ( LP_swapdata_rawtxsend(swap,0,data,maxlen,&swap->bobrefund,0x40000000,0) == 0 ) // use secretBn { printf("Bob submit error getting refund of deposit\n"); } else { // maybe wait for bobrefund to be confirmed for (j=datalen=0; j<32; j++) data[datalen++] = swap->I.privBn.bytes[j]; LP_swapsend(swap,0x40000000,data,datalen,0x40000000,swap->I.crcs_mypriv); } basilisk_swap_saveupdate(swap); } if ( retval != 0 ) basilisk_swap_sendabort(swap); printf("end of atomic swap\n"); if ( swapcompleted(swap) > 0 ) // only if swap completed { if ( swap->I.iambob != 0 ) tradebot_pendingadd(swapjson(swap),swap->I.req.src,dstr(swap->I.req.srcamount),swap->I.req.dest,dstr(swap->I.req.destamount)); else tradebot_pendingadd(swapjson(swap),swap->I.req.dest,dstr(swap->I.req.destamount),swap->I.req.src,dstr(swap->I.req.srcamount)); } printf("%s swap finished statebits %x\n",swap->I.iambob!=0?"BOB":"ALICE",swap->I.statebits); //basilisk_swap_purge(swap); free(data); } #endif int32_t bitcoin_coinptrs(bits256 pubkey,struct iguana_info **bobcoinp,struct iguana_info **alicecoinp,char *src,char *dest,bits256 srchash,bits256 desthash) { struct iguana_info *coin = LP_coinfind(src); if ( coin == 0 || LP_coinfind(dest) == 0 ) return(0); *bobcoinp = *alicecoinp = 0; *bobcoinp = LP_coinfind(dest); *alicecoinp = LP_coinfind(src); if ( bits256_cmp(pubkey,srchash) == 0 ) { if ( strcmp(src,(*bobcoinp)->symbol) == 0 ) return(1); else if ( strcmp(dest,(*alicecoinp)->symbol) == 0 ) return(-1); else return(0); } else if ( bits256_cmp(pubkey,desthash) == 0 ) { if ( strcmp(src,(*bobcoinp)->symbol) == 0 ) return(-1); else if ( strcmp(dest,(*alicecoinp)->symbol) == 0 ) return(1); else return(0); } return(0); } /*void basilisk_swap_purge(struct basilisk_swap *swap) { int32_t i,n; // while still in orderbook, wait //return; portable_mutex_lock(&myinfo->DEX_swapmutex); n = myinfo->numswaps; for (i=0; iswaps[i] == swap ) { myinfo->swaps[i] = myinfo->swaps[--myinfo->numswaps]; myinfo->swaps[myinfo->numswaps] = 0; basilisk_swap_finished(swap); break; } portable_mutex_unlock(&myinfo->DEX_swapmutex); }*/