/****************************************************************************** * Copyright © 2014-2016 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. * * * ******************************************************************************/ #define CHROMEAPP_NAME iguana #define CHROMEAPP_STR "iguana" #define CHROMEAPP_CONF "iguana.config" #define CHROMEAPP_MAIN iguana_main #define CHROMEAPP_JSON iguana_JSON #define CHROMEAPP_HANDLER Handler_iguana #include "../pnacl_main.h" #include "iguana777.h" #include "SuperNET.h" #include "secp256k1/include/secp256k1.h" #include "secp256k1/include/secp256k1_schnorr.h" #include "secp256k1/include/secp256k1_rangeproof.h" /*#undef fopen #undef fclose int32_t Fopen_count,Fclose_count; FILE *myfopen(char *fname,char *mode) { FILE *fp; if ( (fp= fopen(fname,mode)) != 0 ) { Fopen_count++; if ( Fopen_count > 2*Fclose_count ) printf("Fopens.%d vs Fcloses.%d [%d]\n",Fopen_count,Fclose_count,Fopen_count-Fclose_count); return(fp); } return(0); } int32_t myfclose(FILE *fp) { Fclose_count++; return(fclose(fp)); }*/ // ALL globals must be here! char *Iguana_validcommands[] = { "inv2", "getdata2", "ConnectTo", "version", "verack", "getaddr", "addr", "inv", "getdata", "notfound", "getblocks", "getheaders", "headers", "tx", "block", "mempool", "ping", "pong", "reject", "filterload", "filteradd", "filterclear", "merkleblock", "alert", "" }; int32_t Showmode,Autofold,PANGEA_MAXTHREADS = 1; struct private_chain *Categories; struct iguana_info *Coins[IGUANA_MAXCOINS]; char Userhome[512]; int32_t USE_JAY,FIRST_EXTERNAL,IGUANA_disableNXT,Debuglevel,IGUANA_BIGENDIAN; uint32_t prices777_NXTBLOCK,MAX_DEPTH = 100; queue_t helperQ,jsonQ,finishedQ,bundlesQ,emitQ; struct supernet_info MYINFO,**MYINFOS; int32_t MAIN_initflag; int32_t HDRnet,netBLOCKS; cJSON *API_json; #ifdef __PNACL__ char GLOBAL_TMPDIR[512] = "/DB/tmp"; char GLOBAL_DBDIR[512] = "/DB"; char GLOBAL_HELPDIR[512] = "/DB/help"; char GLOBAL_VALIDATEDIR[512] = "/DB/purgeable"; char GLOBAL_CONFSDIR[512] = "/DB/confs"; int32_t IGUANA_NUMHELPERS = 1; #else char GLOBAL_TMPDIR[512] = "tmp"; char GLOBAL_HELPDIR[512] = "help"; char GLOBAL_DBDIR[512] = "DB"; char GLOBAL_VALIDATEDIR[512] = "DB/purgeable"; char GLOBAL_CONFSDIR[512] = "confs"; #ifdef __linux int32_t IGUANA_NUMHELPERS = 8; #else int32_t IGUANA_NUMHELPERS = 4; #endif #endif struct iguana_jsonitem { struct queueitem DL; struct supernet_info *myinfo; uint32_t fallback,expired,allocsize; char *retjsonstr; char remoteaddr[64]; uint16_t port; char jsonstr[]; }; uint16_t SuperNET_API2num(char *agent,char *method) { int32_t i,n = 0; cJSON *item; if ( agent != 0 && method != 0 && API_json != 0 && (n= cJSON_GetArraySize(API_json)) > 0 ) { for (i=0; i>= 5; if ( API_json != 0 && (n= cJSON_GetArraySize(API_json)) > 0 && num < n ) { item = jitem(API_json,num); strcpy(agent,jstr(item,"agent")); strcpy(method,jstr(item,"method")); return(num); } return(-1); } int32_t SuperNET_str2hex(uint8_t *hex,char *str) { int32_t len; len = (int32_t)strlen(str)+1; decode_hex(hex,len,str); return(len); } void SuperNET_hex2str(char *str,uint8_t *hex,int32_t len) { init_hexbytes_noT(str,hex,len); } struct supernet_info *SuperNET_MYINFO(char *passphrase) { if ( MYINFO.ctx == 0 ) { MYINFO.ctx = secp256k1_context_create(SECP256K1_CONTEXT_SIGN | SECP256K1_CONTEXT_VERIFY); secp256k1_pedersen_context_initialize(MYINFO.ctx); secp256k1_rangeproof_context_initialize(MYINFO.ctx); OS_randombytes(MYINFO.privkey.bytes,sizeof(MYINFO.privkey)); MYINFO.myaddr.pubkey = curve25519(MYINFO.privkey,curve25519_basepoint9()); printf("SuperNET_MYINFO: generate session keypair\n"); } if ( passphrase == 0 || passphrase[0] == 0 ) return(&MYINFO); else { // search saved accounts } return(&MYINFO); return(0); } struct supernet_info *SuperNET_MYINFOfind(int32_t *nump,bits256 pubkey) { int32_t i; *nump = 0; if ( MYINFOS != 0 ) { for (i=0; MYINFOS[i]!=0; i++) { *nump = i; if ( bits256_cmp(pubkey,MYINFOS[i]->myaddr.persistent) == 0 ) return(MYINFOS[i]); } *nump = i; } return(0); } int32_t SuperNET_MYINFOS(struct supernet_info **myinfos,int32_t max) { int32_t i = 0; if ( MYINFOS != 0 ) { for (i=0; imyaddr.persistent) == 0 ) { MYINFOS = realloc(MYINFOS,(num + 2) * sizeof(*MYINFOS)); char str[65]; printf("MYNFOadd[%d] <- %s\n",num,bits256_str(str,myinfo->myaddr.persistent)); MYINFOS[num] = calloc(1,sizeof(*myinfo)); *MYINFOS[num] = *myinfo; MYINFOS[++num] = 0; } } char *iguana_JSON(char *jsonstr,uint16_t port) { char *retstr=0; cJSON *json; if ( (json= cJSON_Parse(jsonstr)) != 0 ) { retstr = SuperNET_JSON(0,json,"127.0.0.1",port); free_json(json); } if ( retstr == 0 ) retstr = clonestr("{\"error\":\"null return from iguana_JSON\"}"); return(retstr); } char *SuperNET_jsonstr(struct supernet_info *myinfo,char *jsonstr,char *remoteaddr,uint16_t port) { cJSON *json; char *agent,*method,*retstr = 0; //char str[65]; printf("SuperNET_jsonstr %p %s\n",&myinfo->privkey,bits256_str(str,myinfo->privkey)); if ( (json= cJSON_Parse(jsonstr)) != 0 ) { method = jstr(json,"method"); if ( (agent= jstr(json,"agent")) != 0 && method != 0 && jobj(json,"params") == 0 ) retstr = SuperNET_parser(myinfo,agent,method,json,remoteaddr); else if ( method != 0 && is_bitcoinrpc(myinfo,method,remoteaddr) >= 0 ) retstr = iguana_bitcoinRPC(myinfo,method,json,remoteaddr,port); else retstr = clonestr("{\"error\":\"need both agent and method\"}"); free_json(json); } else retstr = clonestr("{\"error\":\"couldnt parse SuperNET_JSON\"}"); //printf("SuperNET_jsonstr ret.(%s)\n",retstr); return(retstr); } int32_t iguana_jsonQ() { struct iguana_jsonitem *ptr; char *str; if ( (ptr= queue_dequeue(&finishedQ,0)) != 0 ) { if ( ptr->expired != 0 ) { if ( (str= ptr->retjsonstr) != 0 ) { ptr->retjsonstr = 0; free(str); } printf("garbage collection: expired.(%s)\n",ptr->jsonstr); myfree(ptr,ptr->allocsize); } else queue_enqueue("finishedQ",&finishedQ,&ptr->DL,0); } if ( (ptr= queue_dequeue(&jsonQ,0)) != 0 ) { if ( (ptr->retjsonstr= SuperNET_jsonstr(ptr->myinfo,ptr->jsonstr,ptr->remoteaddr,ptr->port)) == 0 ) ptr->retjsonstr = clonestr("{\"error\":\"null return from iguana_jsonstr\"}"); //printf("finished.(%s) -> (%s) %.0f\n",ptr->jsonstr,*ptr->retjsonstrp!=0?*ptr->retjsonstrp:"null return",OS_milliseconds()); queue_enqueue("finishedQ",&finishedQ,&ptr->DL,0); return(1); } return(0); } char *iguana_blockingjsonstr(struct supernet_info *myinfo,char *jsonstr,uint64_t tag,int32_t maxmillis,char *remoteaddr,uint16_t port) { struct iguana_jsonitem *ptr; int32_t len,allocsize; double expiration; expiration = OS_milliseconds() + maxmillis; //printf("blocking case.(%s) %.0f maxmillis.%d\n",jsonstr,OS_milliseconds(),maxmillis); len = (int32_t)strlen(jsonstr); allocsize = sizeof(*ptr) + len + 1; ptr = mycalloc('J',1,allocsize); ptr->allocsize = allocsize; ptr->myinfo = myinfo; ptr->port = port; ptr->retjsonstr = 0; safecopy(ptr->remoteaddr,remoteaddr,sizeof(ptr->remoteaddr)); memcpy(ptr->jsonstr,jsonstr,len+1); queue_enqueue("jsonQ",&jsonQ,&ptr->DL,0); while ( OS_milliseconds() < expiration ) { usleep(100); if ( ptr->retjsonstr != 0 ) { //printf("got blocking retjsonstr.(%s) delete allocsize.%d:%d\n",retjsonstr,allocsize,ptr->allocsize); queue_delete(&finishedQ,&ptr->DL,ptr->allocsize,1); return(ptr->retjsonstr); } usleep(1000); } //printf("(%s) expired\n",jsonstr); ptr->expired = (uint32_t)time(NULL); return(clonestr("{\"error\":\"iguana jsonstr expired\"}")); } char *SuperNET_processJSON(struct supernet_info *myinfo,cJSON *json,char *remoteaddr,uint16_t port) { cJSON *retjson; uint64_t tag; uint32_t timeout; char *jsonstr,*hexmsg,*method,*retjsonstr,*retstr = 0; //char str[65]; printf("processJSON %p %s\n",&myinfo->privkey,bits256_str(str,myinfo->privkey)); if ( json != 0 ) { if ( (tag= j64bits(json,"tag")) == 0 ) { OS_randombytes((uint8_t *)&tag,sizeof(tag)); jadd64bits(json,"tag",tag); } if ( (timeout= juint(json,"timeout")) == 0 ) timeout = IGUANA_JSONTIMEOUT; if ( (method= jstr(json,"method")) != 0 && strcmp(method,"DHT") == 0 && remoteaddr != 0 && (hexmsg= jstr(json,"hexmsg")) != 0 ) { //printf("hexmsgprocess myinfo.%p\n",myinfo); SuperNET_hexmsgprocess(myinfo,0,json,hexmsg,remoteaddr); return(clonestr("{\"result\":\"processed remote DHT\"}")); } jsonstr = jprint(json,0); //printf("RPC? (%s)\n",jsonstr); if ( jstr(json,"immediate") != 0 || ((remoteaddr == 0 || remoteaddr[0] == 0) && port == IGUANA_RPCPORT) ) retjsonstr = SuperNET_jsonstr(myinfo,jsonstr,remoteaddr,port); else retjsonstr = iguana_blockingjsonstr(myinfo,jsonstr,tag,timeout,remoteaddr,port); if ( retjsonstr != 0 ) { if ( (retjsonstr[0] == '{' || retjsonstr[0] == '[') && (retjson= cJSON_Parse(retjsonstr)) != 0 ) { if ( is_cJSON_Array(retjson) == 0 ) { if ( j64bits(retjson,"tag") != tag ) { if ( jobj(retjson,"tag") != 0 ) jdelete(retjson,"tag"); jadd64bits(retjson,"tag",tag); } retstr = jprint(retjson,1); free(retjsonstr);//,strlen(retjsonstr)+1); //printf("retstr.(%s) retjsonstr.%p retjson.%p\n",retstr,retjsonstr,retjson); } else retstr = retjsonstr; } else retstr = retjsonstr; } free(jsonstr); } else retstr = clonestr("{\"error\":\"cant parse JSON\"}"); if ( retstr == 0 ) retstr = clonestr("{\"error\":\"null return\"}"); //printf("processJSON.(%s)\n",retstr); return(retstr); } void iguana_exit() { int32_t i,j,iter; printf("start EXIT\n"); for (iter=0; iter<3; iter++) { if ( iter == 0 ) basilisk_request_goodbye(SuperNET_MYINFO(0)); else { for (i=0; ipeers->active[j].dead = (uint32_t)time(NULL); break; case 2: if ( Coins[i]->peers->active[j].usock >= 0 ) closesocket(Coins[i]->peers->active[j].usock); break; } } } } } sleep(3); } printf("sockets closed, now EXIT\n"); exit(0); } #ifndef _WIN32 #include void sigint_func() { printf("\nSIGINT\n"); iguana_exit(); } void sigillegal_func() { printf("\nSIGILL\n"); iguana_exit(); } void sighangup_func() { printf("\nSIGHUP\n"); iguana_exit(); } void sigkill_func() { printf("\nSIGKILL\n"); iguana_exit(); } void sigabort_func() { printf("\nSIGABRT\n"); iguana_exit(); } void sigquit_func() { printf("\nSIGQUIT\n"); iguana_exit(); } void sigchild_func() { printf("\nSIGCHLD\n"); signal(SIGCHLD,sigchild_func); } void sigalarm_func() { printf("\nSIGALRM\n"); signal(SIGALRM,sigalarm_func); } void sigcontinue_func() { printf("\nSIGCONT\n"); signal(SIGCONT,sigcontinue_func); } #endif void iguana_signalsinit() { #ifndef _WIN32 signal(SIGABRT,sigabort_func); signal(SIGINT,sigint_func); signal(SIGILL,sigillegal_func); signal(SIGHUP,sighangup_func); //signal(SIGKILL,sigkill_func); signal(SIGQUIT,sigquit_func); signal(SIGCHLD,sigchild_func); signal(SIGALRM,sigalarm_func); signal(SIGCONT,sigcontinue_func); #endif } // mksquashfs DB/BTC BTC.squash -b 1048576 -> 19GB? // mksquashfs DB/BTC BTC.lzo -comp lzo -b 1048576 -> takes a really long time -> 20GB // mksquashfs DB/BTC BTC.xz -b 1048576 -comp xz -Xdict-size 512K -> takes a long time -> 16GB // mksquashfs DB/BTC BTC.xz1m -b 1048576 -comp xz -Xdict-size 1024K -> takes a long time -> /* mksquashfs DB/BTC BTC.xz -comp xz mksquashfs DB/BTC BTC.xzs -b 16384 -comp xz -Xdict-size 8K mksquashfs DB/BTC BTC.xz1m -b 1048576 -comp xz -Xdict-size 1024K mksquashfs DB/BTC BTC.xz8k -comp xz -Xdict-size 8K mksquashfs DB/BTC BTC.lzo -comp lzo mksquashfs DB/BTC BTC.lzo1m -comp lzo -b 1048576 mksquashfs DB/BTC BTC.squash mksquashfs DB/BTC BTC.squash1M -b 1048576 rm BTC.xz; mksquashfs DB/BTC BTC.xz -comp xz -b 1048576 -comp xz -Xdict-size 1024K sudo mount BTC.xz DB/ro/BTC -t squashfs -o loop https://github.com/vasi/squashfuse */ void mainloop(struct supernet_info *myinfo) { int32_t i,j,n,flag,isRT,numpeers; struct iguana_info *coin; struct iguana_bundle *bp; sleep(3); printf("mainloop\n"); while ( 1 ) { //printf("main iteration\n"); if ( myinfo->expiration != 0 && time(NULL) > myinfo->expiration ) iguana_walletlock(myinfo,0); flag = 0; isRT = 1; numpeers = 0; if ( 1 ) { for (i=0; icurrent != 0 ) { if ( coin->active != 0 && coin->started != 0 ) { isRT *= coin->isRT; numpeers += coin->peers->numranked; if ( time(NULL) > coin->startutc+10 && coin->spendvectorsaved == 0 && coin->blocks.hwmchain.height/coin->chain->bundlesize >= (coin->longestchain-coin->minconfirms)/coin->chain->bundlesize ) { n = coin->bundlescount-1; if ( iguana_emitfinished(coin,1) >= n ) { if ( coin->PREFETCHLAG >= 0 && coin->fastfind == 0 ) { for (j=0; jbundles[j]->ramchain); sleep(3); } if ( iguana_validated(coin) < n || iguana_utxofinished(coin) < n || iguana_balancefinished(coin) < n ) { coin->spendvectorsaved = 1; printf("update volatile data, need.%d vs utxo.%d balances.%d validated.%d\n",n,iguana_utxofinished(coin),iguana_balancefinished(coin),iguana_validated(coin)); } else { coin->spendvectorsaved = (uint32_t)time(NULL); //printf("already done UTXOGEN (%d %d) (%d %d)\n",iguana_utxofinished(coin),n,iguana_balancefinished(coin),n); } } //else printf("only emit.%d vs %d\n",iguana_emitfinished(coin),n); } if ( (bp= coin->current) != 0 && coin->stucktime != 0 && coin->isRT == 0 && coin->RTheight == 0 && (time(NULL) - coin->stucktime) > coin->MAXSTUCKTIME ) { if ( 0 ) { printf("%s is stuck too long, restarting due to %d\n",coin->symbol,bp->hdrsi); if ( coin->started != 0 ) { iguana_coinpurge(coin); sleep(3); while ( coin->started == 0 ) { printf("wait for coin to reactivate\n"); sleep(1); } sleep(3); } } } if ( 0 && flag != 0 ) printf("call RT update busy.%d\n",coin->RTramchain_busy); } } } pangea_queues(SuperNET_MYINFO(0)); if ( flag == 0 ) usleep(10000 + isRT*100000 + (numpeers == 0)*1000000); //iguana_jsonQ(); // cant do this here safely, need to send to coin specific queue } } int32_t calcmofn(uint8_t *allshares,uint8_t *myshares[],uint8_t *sharenrs,int32_t M,uint8_t *data,int32_t datasize,int32_t N) { int32_t j; calc_shares(allshares,(void *)data,datasize,datasize,M,N,sharenrs); for (j=0; j 2006,2015 * * Permission is hereby granted, free of charge, to any person * obtaining a copy of this software and associated documentation * files (the "Software"), to deal in the Software without * restriction, including without limitation the rights to use, copy, * modify, merge, publish, distribute, sublicense, and/or sell copies * of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT * HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. * */ //#include "config.h" //#include "libgfshare.h" //#include "libgfshare_tables.h" #ifndef LIBGFSHARE_H #define LIBGFSHARE_H typedef struct _gfshare_ctx gfshare_ctx; typedef void (*gfshare_rand_func_t)(uint8_t*, unsigned int); /* This will, use random(). It's not very good so you should not use it unless * you must. If you can't be bothered to write your own, be sure to srandom() * before you use any of the gfshare_ctx_enc_* functions */ extern const gfshare_rand_func_t gfshare_bad_idea_but_fill_rand_using_random; /* This must be filled out before running any of the gfshare_ctx_enc_* calls * or bad things will happen since it is initialised to NULL be default. * You should fill this with a routine which uses urandom or similar ideally. * If you cannot do that on your platform, you can use the function provided * which does random() calls, but I recommend against it unless you must. */ extern gfshare_rand_func_t gfshare_fill_rand; /* ------------------------------------------------------[ Preparation ]---- */ /* Initialise a gfshare context for producing shares */ gfshare_ctx* gfshare_ctx_init_enc(uint8_t* /* sharenrs */,unsigned int /* sharecount */, uint8_t /* threshold */,unsigned int /* size */); /* Initialise a gfshare context for recombining shares */ gfshare_ctx* gfshare_ctx_init_dec(uint8_t* /* sharenrs */,unsigned int /* sharecount */,unsigned int /* size */); /* Free a share context's memory. */ void gfshare_ctx_free(gfshare_ctx* /* ctx */); /* --------------------------------------------------------[ Splitting ]---- */ /* Provide a secret to the encoder. (this re-scrambles the coefficients) */ void gfshare_ctx_enc_setsecret(gfshare_ctx* /* ctx */,uint8_t* /* secret */); /* Extract a share from the context. * 'share' must be preallocated and at least 'size' bytes long. * 'sharenr' is the index into the 'sharenrs' array of the share you want. */ void gfshare_ctx_enc_getshare(gfshare_ctx* /* ctx */,uint8_t /* sharenr */,uint8_t* /* share */); /* ----------------------------------------------------[ Recombination ]---- */ /* Inform a recombination context of a change in share indexes */ void gfshare_ctx_dec_newshares(gfshare_ctx* /* ctx */, uint8_t* /* sharenrs */); /* Provide a share context with one of the shares. * The 'sharenr' is the index into the 'sharenrs' array */ void gfshare_ctx_dec_giveshare(gfshare_ctx* /* ctx */,uint8_t /* sharenr */,uint8_t* /* share */); /* Extract the secret by interpolation of the shares. * secretbuf must be allocated and at least 'size' bytes long */ void gfshare_ctx_dec_extract(gfshare_ctx* /* ctx */,uint8_t* /* secretbuf */); #endif /* LIBGFSHARE_H */ #include #include #include #define XMALLOC malloc #define XFREE free struct _gfshare_ctx { unsigned int sharecount; unsigned int threshold; unsigned int size; uint8_t* sharenrs; uint8_t* buffer; unsigned int buffersize; }; static void _gfshare_fill_rand_using_random( uint8_t* buffer,unsigned int count ) { OS_randombytes(buffer,count); /*unsigned int i; for( i = 0; i < count; ++i ) buffer[i] = (random() & 0xff00) >> 8; apparently the bottom 8 aren't * very random but the middles ones * are */ } const gfshare_rand_func_t gfshare_bad_idea_but_fill_rand_using_random = (void *)_gfshare_fill_rand_using_random; gfshare_rand_func_t gfshare_fill_rand = NULL; /* ------------------------------------------------------[ Preparation ]---- */ static gfshare_ctx * _gfshare_ctx_init_core( uint8_t *sharenrs,unsigned int sharecount,uint8_t threshold,unsigned int size ) { gfshare_ctx *ctx; ctx = XMALLOC( sizeof(struct _gfshare_ctx) ); if( ctx == NULL ) return NULL; /* errno should still be set from XMALLOC() */ ctx->sharecount = sharecount; ctx->threshold = threshold; ctx->size = size; ctx->sharenrs = XMALLOC( sharecount ); if( ctx->sharenrs == NULL ) { int saved_errno = errno; XFREE( ctx ); errno = saved_errno; return NULL; } memcpy( ctx->sharenrs, sharenrs, sharecount ); ctx->buffersize = threshold * size; ctx->buffer = XMALLOC( ctx->buffersize ); if( ctx->buffer == NULL ) { int saved_errno = errno; XFREE( ctx->sharenrs ); XFREE( ctx ); errno = saved_errno; return NULL; } return ctx; } /* Initialise a gfshare context for producing shares */ gfshare_ctx * gfshare_ctx_init_enc( uint8_t* sharenrs,unsigned int sharecount,uint8_t threshold,unsigned int size ) { unsigned int i; for (i = 0; i < sharecount; i++) { if (sharenrs[i] == 0) { /* can't have x[i] = 0 - that would just be a copy of the secret, in * theory (in fact, due to the way we use exp/log for multiplication and * treat log(0) as 0, it ends up as a copy of x[i] = 1) */ errno = EINVAL; return NULL; } } return _gfshare_ctx_init_core( sharenrs, sharecount, threshold, size ); } /* Initialise a gfshare context for recombining shares */ gfshare_ctx* gfshare_ctx_init_dec( uint8_t* sharenrs,unsigned int sharecount,unsigned int size ) { gfshare_ctx *ctx = _gfshare_ctx_init_core( sharenrs, sharecount, sharecount, size ); if( ctx != NULL ) ctx->threshold = 0; return ctx; } /* Free a share context's memory. */ void gfshare_ctx_free( gfshare_ctx* ctx ) { gfshare_fill_rand( ctx->buffer, ctx->buffersize ); gfshare_fill_rand( ctx->sharenrs, ctx->sharecount ); XFREE( ctx->sharenrs ); XFREE( ctx->buffer ); gfshare_fill_rand( (uint8_t*)ctx, sizeof(struct _gfshare_ctx) ); XFREE( ctx ); } /* --------------------------------------------------------[ Splitting ]---- */ /* Provide a secret to the encoder. (this re-scrambles the coefficients) */ void gfshare_ctx_enc_setsecret( gfshare_ctx* ctx,uint8_t* secret) { memcpy( ctx->buffer + ((ctx->threshold-1) * ctx->size), secret, ctx->size ); gfshare_fill_rand( ctx->buffer, (ctx->threshold-1) * ctx->size ); } /* Extract a share from the context. * 'share' must be preallocated and at least 'size' bytes long. * 'sharenr' is the index into the 'sharenrs' array of the share you want. */ void gfshare_ctx_enc_getshare( gfshare_ctx* ctx,uint8_t sharenr,uint8_t* share) { unsigned int pos, coefficient; unsigned int ilog = logs[ctx->sharenrs[sharenr]]; uint8_t *coefficient_ptr = ctx->buffer; uint8_t *share_ptr; for( pos = 0; pos < ctx->size; ++pos ) share[pos] = *(coefficient_ptr++); for( coefficient = 1; coefficient < ctx->threshold; ++coefficient ) { share_ptr = share; for( pos = 0; pos < ctx->size; ++pos ) { uint8_t share_byte = *share_ptr; if( share_byte ) share_byte = exps[ilog + logs[share_byte]]; *share_ptr++ = share_byte ^ *coefficient_ptr++; } } } /* ----------------------------------------------------[ Recombination ]---- */ /* Inform a recombination context of a change in share indexes */ void gfshare_ctx_dec_newshares( gfshare_ctx* ctx,uint8_t* sharenrs) { memcpy( ctx->sharenrs, sharenrs, ctx->sharecount ); } /* Provide a share context with one of the shares. * The 'sharenr' is the index into the 'sharenrs' array */ void gfshare_ctx_dec_giveshare( gfshare_ctx* ctx,uint8_t sharenr,uint8_t* share ) { memcpy( ctx->buffer + (sharenr * ctx->size), share, ctx->size ); } /* Extract the secret by interpolation of the shares. * secretbuf must be allocated and at least 'size' bytes long */ void gfshare_ctx_dec_extract( gfshare_ctx* ctx,uint8_t* secretbuf ) { unsigned int i, j; uint8_t *secret_ptr, *share_ptr, sharei,sharej; for( i = 0; i < ctx->size; ++i ) secretbuf[i] = 0; for( i = 0; i < ctx->sharecount; ++i ) { // Compute L(i) as per Lagrange Interpolation unsigned Li_top = 0, Li_bottom = 0; if ( (sharei= ctx->sharenrs[i]) != 0 ) { for ( j = 0; j < ctx->sharecount; ++j ) { if ( i != j && sharei != (sharej= ctx->sharenrs[j]) ) { if ( sharej == 0 ) continue; // skip empty share */ Li_top += logs[sharej]; if ( Li_top >= 0xff ) Li_top -= 0xff; Li_bottom += logs[sharei ^ sharej]; if ( Li_bottom >= 0xff ) Li_bottom -= 0xff; } } if ( Li_bottom > Li_top ) Li_top += 0xff; Li_top -= Li_bottom; // Li_top is now log(L(i)) secret_ptr = secretbuf, share_ptr = ctx->buffer + (ctx->size * i); for (j=0; jsize; j++) { if ( *share_ptr != 0 ) *secret_ptr ^= exps[Li_top + logs[*share_ptr]]; share_ptr++, secret_ptr++; } } } } void calc_share(uint8_t *buffer,int32_t size,int32_t M,uint32_t ilog,uint8_t *share) { uint32_t pos,coefficient;//,ilog = ctx_logs[ctx->sharenrs[sharenr]]; //uint8_t *coefficient_ptr = buffer; uint8_t *share_ptr,share_byte; for (pos=0; pos int32_t test(int32_t M,int32_t N,int32_t datasize) { int ok = 1, i; uint8_t * secret = malloc(datasize); uint8_t *shares[255]; uint8_t *recomb = malloc(datasize); uint8_t sharenrs[255],newsharenrs[255];// = (uint8_t *)strdup("0124z89abehtr"); gfshare_ctx *G; gfshare_fill_rand = gfshare_bad_idea_but_fill_rand_using_random; for (i=0; i> 8; /* Stage 2, split it N ways with a threshold of M */ G = gfshare_ctx_init_enc( sharenrs, N, M, datasize ); gfshare_ctx_enc_setsecret( G, secret ); for (i=0; i n || n >= 0xff ) // reserve 255 for illegal sharei { printf("illegal M.%d of N.%d\n",m,n); return(-1); } randvals = calloc(1,65536); OS_randombytes(randvals,65536); if ( orig == 0 && n == m ) { memset(sharenrs,0,n); for (i=0; i<255; i++) valid[i] = (i + 1); remains = orign = 255; for (i=0; i>1,Str); //calc_scrypthash(shash.uints,buf); //blockhash_sha256(&hash2,buf,80); //printf("shash -> %s sha256x2 %s\n",bits256_str(str,shash),bits256_str(str2,hash2)); getchar(); } if ( 1 ) { /*int32_t i; ;bits256 hash2; uint8_t pubkey[33]; double startmillis = OS_milliseconds(); for (i=0; i<1000; i++) hash2 = curve25519_shared(hash2,rand256(0)); printf("curve25519 elapsed %.3f for %d iterations\n",OS_milliseconds() - startmillis,i); startmillis = OS_milliseconds(); bitcoin_pubkey33(myinfo->ctx,pubkey,hash2); for (i=0; i<1000; i++) bitcoin_sharedsecret(myinfo->ctx,hash2,pubkey,33); printf("secp256k1 elapsed %.3f for %d iterations\n",OS_milliseconds() - startmillis,i); getchar();**/ if ( 1 && (str= SuperNET_JSON(myinfo,cJSON_Parse("{\"protover\":70002,\"RELAY\":1,\"VALIDATE\":1,\"portp2p\":14631,\"agent\":\"iguana\",\"method\":\"addcoin\",\"startpend\":4,\"endpend\":4,\"services\":128,\"maxpeers\":128,\"newcoin\":\"BTCD\",\"active\":1,\"numhelpers\":4,\"poll\":100}"),0,myinfo->rpcport)) != 0 ) { free(str); if ( 0 && (str= SuperNET_JSON(myinfo,cJSON_Parse("{\"portp2p\":8333,\"RELAY\":0,\"VALIDATE\":0,\"agent\":\"iguana\",\"method\":\"addcoin\",\"startpend\":1,\"endpend\":1,\"services\":128,\"maxpeers\":64,\"newcoin\":\"BTC\",\"active\":0,\"numhelpers\":4,\"poll\":100}"),0,myinfo->rpcport)) != 0 ) { free(str); if ( 0 && (str= SuperNET_JSON(myinfo,cJSON_Parse("{\"agent\":\"SuperNET\",\"method\":\"login\",\"handle\":\"alice\",\"password\":\"alice\",\"passphrase\":\"alice\"}"),0,myinfo->rpcport)) != 0 ) { free(str); if ( (str= SuperNET_JSON(myinfo,cJSON_Parse("{\"agent\":\"SuperNET\",\"method\":\"login\",\"handle\":\"bob\",\"password\":\"bob\",\"passphrase\":\"bob\"}"),0,myinfo->rpcport)) != 0 ) free(str); } } } sleep(1); } } void iguana_commandline(struct supernet_info *myinfo,char *arg) { cJSON *argjson,*array; char *coinargs,*argstr,*str; int32_t i,n; long filesize = 0; if ( arg == 0 ) arg = "iguana.conf"; if ( arg != 0 ) { if ( arg[0] == '{' || arg[0] == '[' ) argstr = arg; else argstr = OS_filestr(&filesize,arg); if ( (argjson= cJSON_Parse(argstr)) != 0 ) { IGUANA_NUMHELPERS = juint(argjson,"numhelpers"); if ( (myinfo->rpcport= juint(argjson,"port")) == 0 ) myinfo->rpcport = IGUANA_RPCPORT; if ( (myinfo->publicRPC= juint(argjson,"publicRPC")) != 0 && myinfo->publicRPC != myinfo->rpcport ) myinfo->publicRPC = 0; if ( jstr(argjson,"rpccoin") != 0 ) safecopy(myinfo->rpcsymbol,jstr(argjson,"rpccoin"),sizeof(myinfo->rpcsymbol)); safecopy(Userhome,jstr(argjson,"userhome"),sizeof(Userhome)); if ( jstr(argjson,"tmpdir") != 0 ) { safecopy(GLOBAL_TMPDIR,jstr(argjson,"tmpdir"),sizeof(GLOBAL_TMPDIR)); printf("GLOBAL tmpdir.(%s)\n",GLOBAL_TMPDIR); } printf("call argv JSON.(%s)\n",(char *)arg); SuperNET_JSON(myinfo,argjson,0,myinfo->rpcport); if ( (coinargs= SuperNET_keysinit(myinfo,arg)) != 0 ) iguana_launch(0,"iguana_coins",iguana_coins,coinargs,IGUANA_PERMTHREAD); if ( (array= jarray(&n,argjson,"commands")) != 0 ) { for (i=0; irpcport)) != 0 ) free(str); } free_json(argjson); } else printf("error parsing.(%s)\n",(char *)argstr); if ( argstr != arg ) free(argstr); } } void iguana_ensuredirs() { char dirname[512]; sprintf(dirname,"%s",GLOBAL_HELPDIR), OS_ensure_directory(dirname); sprintf(dirname,"%s",GLOBAL_CONFSDIR), OS_ensure_directory(dirname); sprintf(dirname,"%s",GLOBAL_DBDIR), OS_ensure_directory(dirname); sprintf(dirname,"%s/purgeable",GLOBAL_DBDIR), OS_ensure_directory(dirname); sprintf(dirname,"%s",GLOBAL_TMPDIR), OS_ensure_directory(dirname); sprintf(dirname,"%s",GLOBAL_VALIDATEDIR), OS_ensure_directory(dirname); sprintf(dirname,"%s/ECB",GLOBAL_DBDIR), OS_ensure_directory(dirname); sprintf(dirname,"%s/BTC",GLOBAL_VALIDATEDIR), OS_ensure_directory(dirname); sprintf(dirname,"%s/BTCD",GLOBAL_VALIDATEDIR), OS_ensure_directory(dirname); } void iguana_Qinit() { iguana_initQ(&helperQ,"helperQ"); iguana_initQ(&jsonQ,"jsonQ"); iguana_initQ(&finishedQ,"finishedQ"); iguana_initQ(&bundlesQ,"bundlesQ"); iguana_initQ(&emitQ,"emitQ"); iguana_initQ(&TerminateQ,"TerminateQ"); } void iguana_helpinit(struct supernet_info *myinfo) { char *tmpstr = 0; if ( (tmpstr= SuperNET_JSON(myinfo,cJSON_Parse("{\"agent\":\"SuperNET\",\"method\":\"help\"}"),0,myinfo->rpcport)) != 0 ) { if ( (API_json= cJSON_Parse(tmpstr)) != 0 && (API_json= jobj(API_json,"result")) != 0 ) API_json = jobj(API_json,"API"); else printf("couldnt parse tmpstr\n"); free(tmpstr); } printf("generated API_json tmpstr.%p\n",tmpstr); } void iguana_urlinit(struct supernet_info *myinfo,int32_t ismainnet,int32_t usessl) { int32_t iter,j; FILE *fp; char line[4096],NXTaddr[64]; uint8_t pubkey[32]; strcpy(myinfo->NXTAPIURL,"http://127.0.0.1:7876/nxt"); for (iter=0; iter<2; iter++) { if ( (fp= fopen(iter == 0 ? "nxtpasswords" : "fimpasswords","rb")) != 0 ) { while ( fgets(line,sizeof(line),fp) > 0 ) { j = (int32_t)strlen(line) - 1; line[j] = 0; calc_NXTaddr(NXTaddr,pubkey,(uint8_t *)line,j); printf("FORGING %s (%s)\n",NXTaddr,issue_startForging(myinfo,line)); } fclose(fp); } strcpy(myinfo->NXTAPIURL,"http://127.0.0.1:7886/nxt"); } if ( usessl == 0 ) strcpy(myinfo->NXTAPIURL,"http://127.0.0.1:"); else strcpy(myinfo->NXTAPIURL,"https://127.0.0.1:"); if ( ismainnet != 0 ) strcat(myinfo->NXTAPIURL,"7876/nxt"); else strcat(myinfo->NXTAPIURL,"6876/nxt"); } void iguana_launchdaemons(struct supernet_info *myinfo) { int32_t i; char *helperargs,helperstr[512]; if ( IGUANA_NUMHELPERS == 0 ) IGUANA_NUMHELPERS = 1; for (i=0; i 0 ) printf("BIGENDIAN\n"); else if ( IGUANA_BIGENDIAN == 0 ) printf("LITTLE ENDIAN arg.%p\n",arg); else printf("ENDIAN ERROR\n"); mycalloc(0,0,0); if ( 0 ) iguana_signalsinit(); iguana_ensuredirs(); iguana_Qinit(); myinfo = SuperNET_MYINFO(0); myinfo->rpcport = IGUANA_RPCPORT; strcpy(myinfo->rpcsymbol,"BTCD"); iguana_urlinit(myinfo,ismainnet,usessl); category_init(myinfo); exchange_create("bitcoin",0); argjson = arg != 0 ? cJSON_Parse(arg) : cJSON_Parse("{}"); //iguana_coinadd("BTC",argjson); dont do this here, coin args not set ///iguana_coinadd("LTC",argjson); free_json(argjson); iguana_helpinit(myinfo); iguana_commandline(myinfo,arg); #ifdef __APPLE__ iguana_appletests(myinfo); #endif iguana_launchdaemons(myinfo); }