/****************************************************************************** * 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. * * * ******************************************************************************/ // deprecated #include "iguana777.h" #include "../includes/iguana_apidefs.h" #include "../includes/iguana_apideclares.h" #include "../includes/iguana_apideclares2.h" STRING_ARG(iguana,peers,activecoin) { if ( coin != 0 ) return(jprint(iguana_peersjson(coin,0),1)); else return(clonestr("{\"error\":\"peers needs coin\"}")); } STRING_ARG(iguana,getconnectioncount,activecoin) { int32_t i,num = 0; char buf[512]; if ( coin != 0 && coin->peers != 0 ) { for (i=0; ipeers->active)/sizeof(*coin->peers->active); i++) if ( coin->peers->active[i].usock >= 0 ) num++; sprintf(buf,"{\"result\":\"%d\"}",num); return(clonestr(buf)); } else return(clonestr("{\"error\":\"getconnectioncount needs coin\"}")); } ZERO_ARGS(bitcoinrpc,getdifficulty) { char buf[512]; if ( coin != 0 ) { sprintf(buf,"{\"result\":\"success\",\"proof-of-work\":\"%.8f\",\"search-interval\": 0}",PoW_from_compact(coin->blocks.hwmchain.RO.bits,coin->chain->unitval)); return(clonestr(buf)); } else return(clonestr("{\"error\":\"getdifficulty needs coin\"}")); } STRING_ARG(iguana,addcoin,newcoin) { char *symbol,*seedip; int32_t retval; if ( (symbol= newcoin) == 0 && coin != 0 ) symbol = coin->symbol; if ( symbol != 0 ) { if ( (seedip= jstr(json,"seedipaddr")) != 0 ) safecopy(myinfo->seedipaddr,seedip,sizeof(myinfo->seedipaddr)); printf(">> addcoin.%s seedipaddr.%s\n",symbol,myinfo->seedipaddr); #ifdef __PNACL__ // if ( strcmp(symbol,"BTC") == 0 ) // return(clonestr("{\"result\":\"BTC for chrome app is not yet\"}")); #endif if ( (retval= iguana_launchcoin(myinfo,symbol,json,0)) > 0 ) { if ( myinfo->rpcsymbol[0] == 0 ) safecopy(myinfo->rpcsymbol,symbol,sizeof(myinfo->rpcsymbol)); return(clonestr("{\"result\":\"coin added\"}")); } else if ( retval == 0 ) return(clonestr("{\"result\":\"coin already there\"}")); else return(clonestr("{\"error\":\"error adding coin\"}")); } else return(clonestr("{\"error\":\"addcoin needs newcoin\"}")); } STRING_ARG(iguana,startcoin,activecoin) { if ( coin != 0 ) { coin->active = 1; return(clonestr("{\"result\":\"coin started\"}")); } else return(clonestr("{\"error\":\"startcoin needs coin\"}")); } STRING_ARG(iguana,stopcoin,activecoin) { if ( activecoin[0] != 0 ) coin = iguana_coinfind(activecoin); if ( coin != 0 ) { coin->active = 0; //iguana_coinpurge(coin); return(clonestr("{\"result\":\"coin stopped\"}")); } else return(clonestr("{\"error\":\"stopcoin needs coin\"}")); } STRING_ARG(iguana,pausecoin,activecoin) { if ( coin != 0 ) { coin->active = 0; return(clonestr("{\"result\":\"coin paused\"}")); } else return(clonestr("{\"error\":\"pausecoin needs coin\"}")); } TWO_STRINGS(iguana,addnode,activecoin,ipaddr) { struct iguana_peer *addr; int32_t i,n; if ( coin == 0 ) coin = iguana_coinfind(activecoin); if ( coin != 0 && strcmp(coin->symbol,"RELAY") == 0 ) basilisk_addrelay_info(myinfo,0,(uint32_t)calc_ipbits(ipaddr),GENESIS_PUBKEY); printf("coin.%p.[%s] addnode.%s -> %s\n",coin,coin!=0?coin->symbol:"",activecoin,ipaddr); if ( coin != 0 && coin->peers != 0 && ipaddr != 0 && is_ipaddr(ipaddr) != 0 ) { //iguana_possible_peer(coin,ipaddr); if ( (addr= iguana_peerslot(coin,(uint32_t)calc_ipbits(ipaddr),1)) != 0 ) { addr->supernet = 1; if ( addr->usock >= 0 ) { if ( (n= coin->peers->numranked) != 0 ) { for (i=0; ipeers->ranked[i] ) break; } if ( i == n ) { if ( i == IGUANA_MAXPEERS ) i--; else coin->peers->numranked = n+1; coin->peers->ranked[i] = addr; addr->recvblocks = coin->peers->ranked[0]->recvblocks + 100; addr->recvtotal = coin->peers->ranked[0]->recvtotal*1.1 + 100; printf("set (%s) -> slot.%d numranked.%d\n",ipaddr,i,coin->peers->numranked); } else printf("(%s) is already peer.%d\n",ipaddr,i); } return(clonestr("{\"result\":\"peer was already connected\"}")); } if ( addr->pending == 0 ) { addr->pending = (uint32_t)time(NULL); iguana_launch(coin,"connection",iguana_startconnection,addr,IGUANA_CONNTHREAD); return(clonestr("{\"result\":\"addnode submitted\"}")); } else return(clonestr("{\"result\":\"addnode connection was already pending\"}")); } else return(clonestr("{\"result\":\"addnode cant find peer slot\"}")); } else if ( coin == 0 ) return(clonestr("{\"error\":\"addnode needs active coin, do an addcoin first\"}")); else return(clonestr("{\"error\":\"addnode needs ipaddr\"}")); } TWO_STRINGS(iguana,persistent,activecoin,ipaddr) { int32_t i; if ( coin != 0 && coin->peers != 0 && ipaddr != 0 ) { for (i=0; ipeers->active[i].ipaddr,ipaddr) == 0 ) { coin->peers->active[i].persistent_peer = juint(json,"interval")+3; return(clonestr("{\"result\":\"node marked as persistent\"}")); } } return(clonestr("{\"result\":\"node wasnt active\"}")); } else return(clonestr("{\"error\":\"persistent needs coin and ipaddr\"}")); } TWO_STRINGS(iguana,removenode,activecoin,ipaddr) { int32_t i; if ( coin != 0 && coin->peers != 0 && ipaddr != 0 ) { for (i=0; ipeers->active[i].ipaddr,ipaddr) == 0 ) { coin->peers->active[i].rank = 0; coin->peers->active[i].dead = (uint32_t)time(NULL); return(clonestr("{\"result\":\"node marked as dead\"}")); } } return(clonestr("{\"result\":\"node wasnt active\"}")); } else return(clonestr("{\"error\":\"removenode needs coin and ipaddr\"}")); } TWO_STRINGS(iguana,oneshot,activecoin,ipaddr) { if ( coin != 0 && ipaddr != 0 ) { iguana_possible_peer(coin,ipaddr); return(clonestr("{\"result\":\"addnode submitted\"}")); } else return(clonestr("{\"error\":\"addnode needs coin and ipaddr\"}")); } cJSON *iguana_peerjson(struct iguana_info *coin,struct iguana_peer *addr) { cJSON *array,*json = cJSON_CreateObject(); jaddstr(json,"ipaddr",addr->ipaddr); if ( addr->supernet != 0 ) jaddstr(json,"ipaddr",addr->ipaddr); jaddstr(json,"supernet","yes"); jaddnum(json,"protover",addr->protover); jaddnum(json,"relay",addr->relayflag); jaddnum(json,"height",addr->height); jaddnum(json,"rank",addr->rank); jaddnum(json,"usock",addr->usock); if ( addr->dead != 0 ) jaddnum(json,"dead",addr->dead); jaddnum(json,"ready",addr->ready); jaddnum(json,"recvblocks",addr->recvblocks); jaddnum(json,"recvtotal",addr->recvtotal); jaddnum(json,"lastcontact",addr->lastcontact); if ( addr->numpings > 0 ) jaddnum(json,"aveping",addr->pingsum/addr->numpings); array = cJSON_CreateObject(); jaddnum(array,"version",addr->msgcounts.version); jaddnum(array,"verack",addr->msgcounts.verack); jaddnum(array,"getaddr",addr->msgcounts.getaddr); jaddnum(array,"addr",addr->msgcounts.addr); jaddnum(array,"inv",addr->msgcounts.inv); jaddnum(array,"getdata",addr->msgcounts.getdata); jaddnum(array,"notfound",addr->msgcounts.notfound); jaddnum(array,"getblocks",addr->msgcounts.getblocks); jaddnum(array,"getheaders",addr->msgcounts.getheaders); jaddnum(array,"headers",addr->msgcounts.headers); jaddnum(array,"tx",addr->msgcounts.tx); jaddnum(array,"block",addr->msgcounts.block); jaddnum(array,"mempool",addr->msgcounts.mempool); jaddnum(array,"ping",addr->msgcounts.ping); jaddnum(array,"pong",addr->msgcounts.pong); jaddnum(array,"reject",addr->msgcounts.reject); jaddnum(array,"filterload",addr->msgcounts.filterload); jaddnum(array,"filteradd",addr->msgcounts.filteradd); jaddnum(array,"filterclear",addr->msgcounts.filterclear); jaddnum(array,"merkleblock",addr->msgcounts.merkleblock); jaddnum(array,"alert",addr->msgcounts.alert); jadd(json,"msgcounts",array); return(json); } cJSON *iguana_peersjson(struct iguana_info *coin,int32_t addronly) { cJSON *retjson,*array; int32_t i; struct iguana_peer *addr; if ( coin == 0 || coin->peers == 0 ) return(0); array = cJSON_CreateArray(); for (i=0; iMAXPEERS; i++) { addr = &coin->peers->active[i]; if ( addr->usock >= 0 && addr->ipbits != 0 && addr->ipaddr[0] != 0 ) { if ( addronly != 0 ) jaddistr(array,addr->ipaddr); else jaddi(array,iguana_peerjson(coin,addr)); } } if ( addronly == 0 ) { retjson = cJSON_CreateObject(); jadd(retjson,"peers",array); jaddnum(retjson,"maxpeers",coin->MAXPEERS); jaddstr(retjson,"coin",coin->symbol); return(retjson); } else return(array); } TWO_STRINGS(iguana,nodestatus,activecoin,ipaddr) { int32_t i; struct iguana_peer *addr; if ( coin != 0 && coin->peers != 0 && ipaddr != 0 ) { for (i=0; iMAXPEERS; i++) { addr = &coin->peers->active[i]; if ( strcmp(addr->ipaddr,ipaddr) == 0 ) return(jprint(iguana_peerjson(coin,addr),1)); } return(clonestr("{\"result\":\"nodestatus couldnt find ipaddr\"}")); } else return(clonestr("{\"error\":\"nodestatus needs ipaddr\"}")); } STRING_AND_INT(iguana,maxpeers,activecoin,max) { cJSON *retjson; int32_t i; struct iguana_peer *addr; if ( coin != 0 && coin->peers != 0 ) { retjson = cJSON_CreateObject(); if ( max > IGUANA_MAXPEERS ) max = IGUANA_MAXPEERS; if ( max > coin->MAXPEERS ) { for (i=max; iMAXPEERS; i++) if ( (addr= coin->peers->ranked[i]) != 0 ) addr->dead = 1; } coin->MAXPEERS = max; jaddnum(retjson,"maxpeers",coin->MAXPEERS); jaddstr(retjson,"coin",coin->symbol); return(jprint(retjson,1)); } else return(clonestr("{\"error\":\"maxpeers needs coin\"}")); } char *hmac_dispatch(char *(*hmacfunc)(char *dest,char *key,int32_t key_size,char *message),char *name,char *message,char *password) { char hexstr[1025]; cJSON *json; if ( message != 0 && password != 0 && message[0] != 0 && password[0] != 0 ) { memset(hexstr,0,sizeof(hexstr)); (*hmacfunc)(hexstr,password,password==0?0:(int32_t)strlen(password),message); json = cJSON_CreateObject(); jaddstr(json,"result","hmac calculated"); jaddstr(json,"message",message); jaddstr(json,name,hexstr); return(jprint(json,1)); } else return(clonestr("{\"error\":\"hmac needs message and passphrase\"}")); } char *hash_dispatch(void (*hashfunc)(char *hexstr,uint8_t *buf,uint8_t *msg,int32_t len),char *name,char *message) { char hexstr[65537]; uint8_t databuf[32768]; cJSON *json; if ( message != 0 && message[0] != 0 ) { memset(hexstr,0,sizeof(hexstr)); (*hashfunc)(hexstr,databuf,(uint8_t *)message,(int32_t)strlen(message)); json = cJSON_CreateObject(); jaddstr(json,"result","hash calculated"); jaddstr(json,"message",message); jaddstr(json,name,hexstr); return(jprint(json,1)); } else return(clonestr("{\"error\":\"hash needs message\"}")); } TWO_HASHES(hash,curve25519_pair,element,scalar) { cJSON *retjson = cJSON_CreateObject(); jaddbits256(retjson,"result",curve25519(element,scalar)); return(jprint(retjson,1)); } STRING_ARG(hash,NXT,passphrase) { return(hash_dispatch(calc_NXTaddr,"NXT",passphrase)); } STRING_ARG(hash,curve25519,pubkey) { return(hash_dispatch(calc_curve25519_str,"curve25519",pubkey)); } STRING_ARG(hash,crc32,message) { return(hash_dispatch(calc_crc32str,"crc32",message)); } STRING_ARG(hash,base64_encode,message) { return(hash_dispatch(calc_base64_encodestr,"base64_encode",message)); } STRING_ARG(hash,base64_decode,message) { return(hash_dispatch(calc_base64_decodestr,"base64_decode",message)); } STRING_ARG(hash,rmd160_sha256,message) { return(hash_dispatch(rmd160ofsha256,"rmd160_sha256",message)); } STRING_ARG(hash,sha256_sha256,message) { return(hash_dispatch(sha256_sha256,"sha256_sha256",message)); } STRING_ARG(hash,hex,message) { return(hash_dispatch(calc_hexstr,"hex",message)); } STRING_ARG(hash,unhex,message) { return(hash_dispatch(calc_unhexstr,"unhex",message)); } STRING_ARG(hash,sha224,message) { return(hash_dispatch(calc_sha224,"sha224",message)); } STRING_ARG(hash,sha256,message) { return(hash_dispatch(vcalc_sha256,"sha256",message)); } STRING_ARG(hash,sha384,message) { return(hash_dispatch(calc_sha384,"sha384",message)); } STRING_ARG(hash,sha512,message) { return(hash_dispatch(calc_sha512,"sha512",message)); } STRING_ARG(hash,rmd128,message) { return(hash_dispatch(calc_rmd128,"rmd128",message)); } STRING_ARG(hash,rmd160,message) { return(hash_dispatch(calc_rmd160,"rmd160",message)); } STRING_ARG(hash,rmd256,message) { return(hash_dispatch(calc_rmd256,"rmd256",message)); } STRING_ARG(hash,rmd320,message) { return(hash_dispatch(calc_rmd320,"rmd320",message)); } STRING_ARG(hash,sha1,message) { return(hash_dispatch(calc_sha1,"sha1",message)); } STRING_ARG(hash,md2,message) { return(hash_dispatch(calc_md2str,"md2",message)); } STRING_ARG(hash,md4,message) { return(hash_dispatch(calc_md4str,"md4",message)); } STRING_ARG(hash,md5,message) { return(hash_dispatch(calc_md5str,"md5",message)); } STRING_ARG(hash,tiger192_3,message) { return(hash_dispatch(calc_tiger,"tiger",message)); } STRING_ARG(hash,whirlpool,message) { return(hash_dispatch(calc_whirlpool,"whirlpool",message)); } TWO_STRINGS(hmac,sha224,message,passphrase) { return(hmac_dispatch(hmac_sha224_str,"sha224",message,passphrase)); } TWO_STRINGS(hmac,sha256,message,passphrase) { return(hmac_dispatch(hmac_sha256_str,"sha256",message,passphrase)); } TWO_STRINGS(hmac,sha384,message,passphrase) { return(hmac_dispatch(hmac_sha384_str,"sha384",message,passphrase)); } TWO_STRINGS(hmac,sha512,message,passphrase) { return(hmac_dispatch(hmac_sha512_str,"sha512",message,passphrase)); } TWO_STRINGS(hmac,rmd128,message,passphrase) { return(hmac_dispatch(hmac_rmd128_str,"rmd128",message,passphrase)); } TWO_STRINGS(hmac,rmd160,message,passphrase) { return(hmac_dispatch(hmac_rmd160_str,"rmd160",message,passphrase)); } TWO_STRINGS(hmac,rmd256,message,passphrase) { return(hmac_dispatch(hmac_rmd256_str,"rmd256",message,passphrase)); } TWO_STRINGS(hmac,rmd320,message,passphrase) { return(hmac_dispatch(hmac_rmd320_str,"rmd320",message,passphrase)); } TWO_STRINGS(hmac,sha1,message,passphrase) { return(hmac_dispatch(hmac_sha1_str,"sha1",message,passphrase)); } TWO_STRINGS(hmac,md2,message,passphrase) { return(hmac_dispatch(hmac_md2_str,"md2",message,passphrase)); } TWO_STRINGS(hmac,md4,message,passphrase) { return(hmac_dispatch(hmac_md4_str,"md4",message,passphrase)); } TWO_STRINGS(hmac,md5,message,passphrase) { return(hmac_dispatch(hmac_md5_str,"md5",message,passphrase)); } TWO_STRINGS(hmac,tiger192_3,message,passphrase) { return(hmac_dispatch(hmac_tiger_str,"tiger",message,passphrase)); } TWO_STRINGS(hmac,whirlpool,message,passphrase) { return(hmac_dispatch(hmac_whirlpool_str,"whirlpool",message,passphrase)); } STRING_ARG(SuperNET,bitcoinrpc,setcoin) { char buf[1024]; if ( setcoin != 0 && setcoin[0] != 0 ) { strcpy(myinfo->rpcsymbol,setcoin); touppercase(myinfo->rpcsymbol); printf("bitcoinrpc.%s\n",myinfo->rpcsymbol); if ( iguana_launchcoin(myinfo,myinfo->rpcsymbol,json,0) < 0 ) return(clonestr("{\"error\":\"error creating coin\"}")); else { sprintf(buf,"{\"result\":\"success\",\"setcoin\":\"%s\"}",setcoin); return(clonestr(buf)); } } else return(clonestr("{\"error\":\"bitcoinrpc needs setcoin value\"}")); } ZERO_ARGS(SuperNET,help) { cJSON *helpjson,*retjson; if ( (helpjson= SuperNET_helpjson()) != 0 ) { retjson = cJSON_CreateObject(); jadd(retjson,"result",helpjson); return(jprint(retjson,1)); } else return(clonestr("{\"error\":\"cant get helpjson\"}")); } TWO_STRINGS(SuperNET,html,agentform,htmlfile) { char *htmlstr; cJSON *retjson; int32_t max = 4*1024*1024; if ( htmlfile == 0 || htmlfile[0] == 0 ) htmlfile = "forms.html"; //if ( (fp= fopen(htmlfile,"w")) == 0 ) // printf("error opening htmlfile.(%s)\n",htmlfile); htmlstr = malloc(max); htmlstr = SuperNET_htmlstr(htmlfile,htmlstr,max,agentform); retjson = cJSON_CreateObject(); jaddstr(retjson,"result",htmlstr); free(htmlstr); //if ( fp != 0 ) // fclose(fp); return(jprint(retjson,1)); } #undef IGUANA_ARGS #undef _IGUANA_APIDEC_H_ #include "../includes/iguana_apiundefs.h"