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//
// LP_utxos.c
// marketmaker
//
int32_t LP_privkey_init ( int32_t mypubsock , struct iguana_info * coin , bits256 myprivkey , bits256 mypub )
{
int32_t enable_utxos = 0 ;
char * script , destaddr [ 64 ] ; cJSON * array , * item ; bits256 txid , deposittxid , zero ; int32_t used , i , flag = 0 , height , n , cmpflag , iambob , vout , depositvout ; uint64_t * values = 0 , satoshis , txfee , biggerval , value , total = 0 ; int64_t targetval ; //struct LP_utxoinfo *utxo;
if ( coin = = 0 | | ( IAMLP = = 0 & & coin - > inactive ! = 0 ) )
{
//printf("coin not active\n");
return ( 0 ) ;
}
if ( coin - > privkeydepth > 0 )
return ( 0 ) ;
coin - > privkeydepth + + ;
LP_address ( coin , coin - > smartaddr ) ;
//if ( coin->inactive == 0 )
// LP_listunspent_issue(coin->symbol,coin->smartaddr,0);
memset ( zero . bytes , 0 , sizeof ( zero ) ) ;
array = LP_listunspent ( coin - > symbol , coin - > smartaddr , zero , zero ) ;
if ( array ! = 0 )
{
txfee = LP_txfeecalc ( coin , 0 , 0 ) ;
if ( is_cJSON_Array ( array ) ! = 0 & & ( n = cJSON_GetArraySize ( array ) ) > 0 )
{
coin - > numutxos = n ;
//printf("LP_privkey_init %s %d\n",coin->symbol,n);
for ( iambob = 0 ; iambob < = 1 ; iambob + + )
{
if ( iambob = = 0 )
values = calloc ( n , sizeof ( * values ) ) ;
else memset ( values , 0 , n * sizeof ( * values ) ) ;
used = 0 ;
for ( i = 0 ; i < n ; i + + )
{
item = jitem ( array , i ) ;
value = LP_listunspent_parseitem ( coin , & txid , & vout , & height , item ) ;
satoshis = LP_txvalue ( destaddr , coin - > symbol , txid , vout ) ;
if ( satoshis ! = 0 & & satoshis ! = value )
printf ( " %s %s privkey_init value %.8f vs %.8f (%s) %.8f %.8f \n " , coin - > symbol , coin - > smartaddr , dstr ( satoshis ) , dstr ( value ) , jprint ( item , 0 ) , jdouble ( item , " amount " ) , jdouble ( item , " interest " ) ) ;
if ( coin - > electrum ! = 0 | | LP_inventory_prevent ( iambob , coin - > symbol , txid , vout ) = = 0 ) //&& height > 0 )
{
values [ i ] = satoshis ;
//flag += LP_address_utxoadd(coin,destaddr,txid,vout,satoshis,height,-1);
} else used + + ;
}
//printf("array.%d\n",n);
while ( used < n - 1 )
{
//for (i=0; i<n; i++)
// printf("%.8f ",dstr(values[i]));
//printf("used.%d of n.%d\n",used,n);
if ( ( i = LP_maxvalue ( values , n ) ) > = 0 )
{
item = jitem ( array , i ) ;
if ( coin - > electrum = = 0 )
{
deposittxid = jbits256 ( item , " txid " ) ;
depositvout = juint ( item , " vout " ) ;
script = jstr ( item , " scriptPubKey " ) ;
}
else
{
deposittxid = jbits256 ( item , " tx_hash " ) ;
depositvout = juint ( item , " tx_pos " ) ;
script = coin - > smartaddr ;
}
biggerval = values [ i ] ;
values [ i ] = 0 , used + + ;
if ( iambob = = 0 )
targetval = ( biggerval / 776 ) + txfee ;
else targetval = ( biggerval / 9 ) * 8 + 2 * txfee ;
if ( targetval < txfee * 2 )
targetval = txfee * 2 ;
//printf("iambob.%d i.%d deposit %.8f min %.8f target %.8f\n",iambob,i,dstr(biggerval),dstr((1+LP_MINSIZE_TXFEEMULT)*txfee),dstr(targetval));
if ( biggerval < ( 1 + LP_MINSIZE_TXFEEMULT ) * txfee )
continue ;
i = - 1 ;
if ( iambob ! = 0 )
{
if ( ( i = LP_nearestvalue ( iambob , values , n , targetval ) ) < 0 )
targetval / = 4 ;
if ( targetval < txfee * ( 1 + LP_MINSIZE_TXFEEMULT ) )
continue ;
}
if ( i > = 0 | | ( i = LP_nearestvalue ( iambob , values , n , targetval ) ) > = 0 )
{
//printf("iambob.%d i.%d %.8f target %.8f\n",iambob,i,dstr(biggerval),dstr(targetval));
item = jitem ( array , i ) ;
cmpflag = 0 ;
if ( coin - > electrum = = 0 )
{
txid = jbits256 ( item , " txid " ) ;
vout = juint ( item , " vout " ) ;
if ( jstr ( item , " scriptPubKey " ) ! = 0 & & strcmp ( script , jstr ( item , " scriptPubKey " ) ) = = 0 )
cmpflag = 1 ;
}
else
{
txid = jbits256 ( item , " tx_hash " ) ;
vout = juint ( item , " tx_pos " ) ;
cmpflag = 1 ;
}
if ( cmpflag ! = 0 )
{
value = values [ i ] ;
values [ i ] = 0 , used + + ;
/*portable_mutex_lock(&LP_UTXOmutex);
if ( iambob ! = 0 )
{
if ( ( utxo = LP_utxoadd ( 1 , coin - > symbol , txid , vout , value , deposittxid , depositvout , biggerval , coin - > smartaddr , mypub , LP_gui , G . LP_sessionid , value ) ) ! = 0 )
{
}
}
else
{
//printf("call utxoadd\n");
if ( ( utxo = LP_utxoadd ( 0 , coin - > symbol , deposittxid , depositvout , biggerval , txid , vout , value , coin - > smartaddr , mypub , LP_gui , G . LP_sessionid , biggerval ) ) ! = 0 )
{
}
}
portable_mutex_unlock ( & LP_UTXOmutex ) ; */
total + = value ;
} // else printf("scriptmismatch.(%s) vs %s\n",script,jprint(item,0));
} //else printf("nothing near i.%d\n",i);
} else break ;
}
if ( enable_utxos = = 0 )
break ;
}
}
free_json ( array ) ;
if ( 0 & & flag ! = 0 )
LP_postutxos ( coin - > symbol , coin - > smartaddr ) ;
}
if ( values ! = 0 )
free ( values ) ;
if ( coin - > privkeydepth > 0 )
coin - > privkeydepth - - ;
//printf("privkey.%s %.8f\n",symbol,dstr(total));
return ( flag ) ;
}
char * LP_secretaddresses ( void * ctx , char * prefix , char * passphrase , int32_t n , uint8_t taddr , uint8_t pubtype )
{
int32_t i ; uint8_t tmptype , pubkey33 [ 33 ] , rmd160 [ 20 ] ; char output [ 777 * 45 ] , str [ 65 ] , str2 [ 65 ] , buf [ 8192 ] , wifstr [ 128 ] , coinaddr [ 64 ] ; bits256 checkprivkey , privkey , pubkey ; cJSON * retjson ;
retjson = cJSON_CreateObject ( ) ;
if ( prefix = = 0 | | prefix [ 0 ] = = 0 )
prefix = " secretaddress " ;
if ( passphrase = = 0 | | passphrase [ 0 ] = = 0 )
passphrase = " password " ;
if ( n < = 0 )
n = 16 ;
else if ( n > 777 )
n = 777 ;
conv_NXTpassword ( privkey . bytes , pubkey . bytes , ( uint8_t * ) passphrase , ( int32_t ) strlen ( passphrase ) ) ;
bitcoin_priv2pub ( ctx , " KMD " , pubkey33 , coinaddr , privkey , taddr , pubtype ) ;
printf ( " generator (%s) secrets.[%d] <%s> t.%u p.%u \n " , coinaddr , n , passphrase , taddr , pubtype ) ;
sprintf ( output , " \" addresses \" :[ " ) ;
for ( i = 0 ; i < n ; i + + )
{
sprintf ( buf , " %s %s %03d " , prefix , passphrase , i ) ;
conv_NXTpassword ( privkey . bytes , pubkey . bytes , ( uint8_t * ) buf , ( int32_t ) strlen ( buf ) ) ;
bitcoin_priv2pub ( ctx , " KMD " , pubkey33 , coinaddr , privkey , taddr , pubtype ) ;
bitcoin_priv2wif ( " KMD " , 0 , wifstr , privkey , 188 ) ;
bitcoin_wif2priv ( " KMD " , 0 , & tmptype , & checkprivkey , wifstr ) ;
bitcoin_addr2rmd160 ( " KMD " , taddr , & tmptype , rmd160 , coinaddr ) ;
if ( bits256_cmp ( checkprivkey , privkey ) ! = 0 )
{
printf ( " WIF.(%s) error -> %s vs %s? \n " , wifstr , bits256_str ( str , privkey ) , bits256_str ( str2 , checkprivkey ) ) ;
free_json ( retjson ) ;
return ( clonestr ( " { \" error \" : \" couldnt validate wifstr \" } " ) ) ;
}
else if ( tmptype ! = pubtype )
{
printf ( " checktype.%d != pubtype.%d \n " , tmptype , pubtype ) ;
free_json ( retjson ) ;
return ( clonestr ( " { \" error \" : \" couldnt validate pubtype \" } " ) ) ;
}
jaddstr ( retjson , coinaddr , wifstr ) ;
sprintf ( output + strlen ( output ) , " \\ \" %s \\ \" %c " , coinaddr , i < n - 1 ? ' , ' : ' ' ) ;
printf ( " ./komodo-cli jumblr_secret %s \n " , coinaddr ) ;
}
printf ( " %s] \n " , output ) ;
return ( jprint ( retjson , 1 ) ) ;
}
static const char base58_chars [ ] = " 123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz " ;
int32_t LP_wifstr_valid ( char * symbol , char * wifstr )
{
bits256 privkey , cmpkey ; uint8_t wiftype ; char cmpstr [ 128 ] , cmpstr2 [ 128 ] ; int32_t i , len , n , a , A ;
if ( ( len = ( int32_t ) strlen ( wifstr ) ) < 50 | | len > 54 )
{
//printf("len.%d is wrong for wif %s\n",len,wifstr);
return ( 0 ) ;
}
memset ( privkey . bytes , 0 , sizeof ( privkey ) ) ;
memset ( cmpkey . bytes , 0 , sizeof ( cmpkey ) ) ;
for ( i = n = a = A = 0 ; wifstr [ i ] ! = 0 ; i + + )
{
if ( strchr ( base58_chars , wifstr [ i ] ) = = 0 )
return ( 0 ) ;
if ( wifstr [ i ] > = ' 1 ' & & wifstr [ i ] < = ' 9 ' )
n + + ;
else if ( wifstr [ i ] > = ' A ' & & wifstr [ i ] < = ' Z ' )
A + + ;
else if ( wifstr [ i ] > = ' a ' & & wifstr [ i ] < = ' z ' )
a + + ;
}
if ( n = = 0 | | A = = 0 | | a = = 0 )
return ( 0 ) ;
if ( A > 5 * a | | a > 5 * A | | a > n * 20 | | A > n * 20 ) // unlikely it is a real wif
{
printf ( " reject wif %s due to n.%d a.%d A.%d (%d %d %d %d) \n " , wifstr , n , a , A , A > 5 * a , a < 5 * A , a > n * 20 , A > n * 20 ) ;
return ( 0 ) ;
}
bitcoin_wif2priv ( symbol , 0 , & wiftype , & privkey , wifstr ) ;
bitcoin_priv2wif ( symbol , 0 , cmpstr , privkey , wiftype ) ;
if ( strcmp ( cmpstr , wifstr ) = = 0 )
{
//printf("%s is valid wif\n",wifstr);
return ( 1 ) ;
}
else if ( bits256_nonz ( privkey ) ! = 0 )
{
bitcoin_wif2priv ( symbol , 0 , & wiftype , & cmpkey , cmpstr ) ;
bitcoin_priv2wiflong ( symbol , 0 , cmpstr2 , privkey , wiftype ) ;
if ( bits256_cmp ( privkey , cmpkey ) = = 0 )
return ( 1 ) ;
char str [ 65 ] , str2 [ 65 ] ; printf ( " %s mismatched wifstr %s -> %s -> %s %s %s \n " , symbol , wifstr , bits256_str ( str , privkey ) , cmpstr , bits256_str ( str2 , cmpkey ) , cmpstr2 ) ;
}
char str [ 65 ] ; printf ( " %s is not a wif, privkey.%s \n " , wifstr , bits256_str ( str , privkey ) ) ;
return ( 0 ) ;
}
char * LP_convaddress ( char * symbol , char * address , char * dest )
{
struct iguana_info * coin , * destcoin ; cJSON * retjson ; char destaddress [ 64 ] , coinaddr2 [ 64 ] ; uint8_t addrtype , rmd160 [ 20 ] , rmd160b [ 20 ] ;
if ( ( coin = LP_coinfind ( symbol ) ) = = 0 | | ( destcoin = LP_coinfind ( dest ) ) = = 0 )
return ( clonestr ( " { \" error \" : \" both coins must be present \" } " ) ) ;
retjson = cJSON_CreateObject ( ) ;
jaddstr ( retjson , " result " , " success " ) ;
jaddstr ( retjson , " coin " , symbol ) ;
jaddstr ( retjson , " address " , address ) ;
jaddstr ( retjson , " destcoin " , dest ) ;
bitcoin_addr2rmd160 ( symbol , coin - > taddr , & addrtype , rmd160 , address ) ;
if ( addrtype = = coin - > pubtype )
{
bitcoin_address ( destcoin - > symbol , destaddress , destcoin - > taddr , destcoin - > pubtype , rmd160 , 20 ) ;
bitcoin_addr2rmd160 ( destcoin - > symbol , destcoin - > taddr , & addrtype , rmd160b , destaddress ) ;
bitcoin_address ( coin - > symbol , coinaddr2 , coin - > taddr , coin - > pubtype , rmd160b , 20 ) ;
}
else if ( addrtype = = coin - > p2shtype )
{
bitcoin_address ( destcoin - > symbol , destaddress , destcoin - > taddr , destcoin - > p2shtype , rmd160 , 20 ) ;
bitcoin_addr2rmd160 ( symbol , coin - > taddr , & addrtype , rmd160b , destaddress ) ;
bitcoin_address ( destcoin - > symbol , coinaddr2 , coin - > taddr , coin - > p2shtype , rmd160b , 20 ) ;
}
else
{
jaddstr ( retjson , " error " , " invalid base58 prefix " ) ;
jaddnum ( retjson , " invalid " , addrtype ) ;
}
if ( strcmp ( address , coinaddr2 ) ! = 0 )
{
jaddstr ( retjson , " error " , " checkaddress mismatch " ) ;
jaddstr ( retjson , " checkaddress " , coinaddr2 ) ;
}
jaddstr ( retjson , " destaddress " , destaddress ) ;
return ( jprint ( retjson , 1 ) ) ;
}
bits256 LP_privkeycalc ( void * ctx , uint8_t * pubkey33 , bits256 * pubkeyp , struct iguana_info * coin , char * passphrase , char * wifstr )
{
//static uint32_t counter;
bits256 privkey , userpub , zero , userpass , checkkey , tmpkey ; char str [ 65 ] , str2 [ 65 ] , tmpstr [ 128 ] ; cJSON * retjson ; uint8_t tmptype , sig [ 128 ] ; int32_t notarized , siglen ; uint64_t nxtaddr ;
if ( ( wifstr = = 0 | | wifstr [ 0 ] = = 0 ) & & LP_wifstr_valid ( coin - > symbol , passphrase ) > 0 )
{
wifstr = passphrase ;
passphrase = 0 ;
}
if ( passphrase ! = 0 & & passphrase [ 0 ] ! = 0 )
{
if ( strlen ( passphrase ) = = 66 & & passphrase [ 0 ] = = ' 0 ' & & passphrase [ 1 ] = = ' x ' & & is_hexstr ( passphrase + 2 , 0 ) = = 64 )
{
decode_hex ( privkey . bytes , 32 , passphrase + 2 ) ;
//printf("ETH style privkey.(%s)\n",passphrase);
}
else
{
calc_NXTaddr ( G . LP_NXTaddr , userpub . bytes , ( uint8_t * ) passphrase , ( int32_t ) strlen ( passphrase ) ) ;
conv_NXTpassword ( privkey . bytes , pubkeyp - > bytes , ( uint8_t * ) passphrase , ( int32_t ) strlen ( passphrase ) ) ;
privkey . bytes [ 0 ] & = 248 , privkey . bytes [ 31 ] & = 127 , privkey . bytes [ 31 ] | = 64 ;
}
bitcoin_priv2wif ( coin - > symbol , coin - > wiftaddr , tmpstr , privkey , coin - > wiftype ) ;
bitcoin_wif2priv ( coin - > symbol , coin - > wiftaddr , & tmptype , & checkkey , tmpstr ) ;
if ( bits256_cmp ( privkey , checkkey ) ! = 0 )
{
char str [ 65 ] , str2 [ 65 ] ; printf ( " mismatched privkeys from wif conversion: %s -> %s -> %s \n " , bits256_str ( str , privkey ) , tmpstr , bits256_str ( str2 , checkkey ) ) ;
exit ( 1 ) ;
}
}
else
{
bitcoin_wif2priv ( coin - > symbol , coin - > wiftaddr , & tmptype , & privkey , wifstr ) ;
bitcoin_priv2wif ( coin - > symbol , coin - > wiftaddr , tmpstr , privkey , tmptype ) ;
if ( strcmp ( tmpstr , wifstr ) ! = 0 )
{
bitcoin_wif2priv ( coin - > symbol , coin - > wiftaddr , & tmptype , & tmpkey , tmpstr ) ;
if ( bits256_cmp ( tmpkey , privkey ) ! = 0 )
{
char str [ 65 ] ; printf ( " %s error reproducing the wifstr, likely edge case like non-supported uncompressed pubkey privkey.%s \n " , coin - > symbol , bits256_str ( str , privkey ) ) ;
exit ( 1 ) ;
}
}
tmpkey = privkey ;
nxtaddr = conv_NXTpassword ( tmpkey . bytes , pubkeyp - > bytes , 0 , 0 ) ;
RS_encode ( G . LP_NXTaddr , nxtaddr ) ;
}
bitcoin_priv2pub ( ctx , coin - > symbol , coin - > pubkey33 , coin - > smartaddr , privkey , coin - > taddr , coin - > pubtype ) ;
# ifndef NOTETOMIC
if ( coin - > etomic [ 0 ] ! = 0 )
{
uint8_t check64 [ 64 ] , checktype , checkrmd160 [ 20 ] , rmd160 [ 20 ] ; char checkaddr [ 64 ] , checkaddr2 [ 64 ] ;
if ( LP_etomic_priv2pub ( check64 , privkey ) = = 0 )
{
if ( memcmp ( check64 , coin - > pubkey33 + 1 , 32 ) = = 0 )
{
if ( LP_etomic_priv2addr ( checkaddr , privkey ) = = 0 & & LP_etomic_pub2addr ( checkaddr2 , check64 ) = = 0 & & strcmp ( checkaddr , checkaddr2 ) = = 0 )
{
//printf("addr is (%s)\n",checkaddr);
strcpy ( coin - > smartaddr , checkaddr ) ;
decode_hex ( checkrmd160 , 20 , checkaddr + 2 ) ;
bitcoin_addr2rmd160 ( coin - > symbol , coin - > taddr , & checktype , rmd160 , checkaddr ) ;
if ( memcmp ( rmd160 , checkrmd160 , 20 ) ! = 0 )
printf ( " rmd160 doesnt match \n " ) ;
} else printf ( " error getting addr (%s) != (%s) \n " , checkaddr , checkaddr2 ) ;
} else printf ( " pubkey 64 mismatch \n " ) ;
} else printf ( " error creating pubkey \n " ) ;
}
# endif
OS_randombytes ( tmpkey . bytes , sizeof ( tmpkey ) ) ;
siglen = 0 ;
if ( bits256_nonz ( privkey ) = = 0 | | ( siglen = bitcoin_sign ( ctx , coin - > symbol , sig , tmpkey , privkey , 0 ) ) < = 0 )
{
printf ( " illegal privkey %s \n " , bits256_str ( str , privkey ) ) ;
exit ( 0 ) ;
}
if ( bits256_nonz ( privkey ) ! = 0 & & bitcoin_verify ( ctx , sig , siglen , tmpkey , coin - > pubkey33 , 33 ) ! = 0 )
{
printf ( " signature.[%d] for %s by %s didnt verify \n " , siglen , bits256_str ( str , tmpkey ) , bits256_str ( str2 , privkey ) ) ;
exit ( 0 ) ;
}
if ( coin - > counter = = 0 )
{
coin - > counter + + ;
memcpy ( G . LP_pubsecp , coin - > pubkey33 , 33 ) ;
bitcoin_priv2wif ( coin - > symbol , coin - > wiftaddr , tmpstr , privkey , coin - > wiftype ) ;
bitcoin_addr2rmd160 ( coin - > symbol , coin - > taddr , & tmptype , G . LP_myrmd160 , coin - > smartaddr ) ;
LP_privkeyadd ( privkey , G . LP_myrmd160 ) ;
G . LP_privkey = privkey ;
if ( G . counter + + = = 0 )
{
bitcoin_priv2wif ( coin - > symbol , coin - > wiftaddr , G . USERPASS_WIFSTR , privkey , 188 ) ;
bitcoin_wif2priv ( coin - > symbol , coin - > wiftaddr , & tmptype , & checkkey , G . USERPASS_WIFSTR ) ;
if ( bits256_cmp ( checkkey , privkey ) ! = 0 )
{
char str [ 65 ] , str2 [ 65 ] ;
printf ( " FATAL ERROR converting USERPASS_WIFSTR %s -> %s != %s \n " , G . USERPASS_WIFSTR , bits256_str ( str , checkkey ) , bits256_str ( str2 , privkey ) ) ;
exit ( - 1 ) ;
}
conv_NXTpassword ( userpass . bytes , pubkeyp - > bytes , ( uint8_t * ) G . USERPASS_WIFSTR , ( int32_t ) strlen ( G . USERPASS_WIFSTR ) ) ;
userpub = curve25519 ( userpass , curve25519_basepoint9 ( ) ) ;
printf ( " userpass.(%s) \n " , bits256_str ( G . USERPASS , userpub ) ) ;
}
}
if ( strcmp ( coin - > smartaddr , " RPZVpjptzfZnFZZoLnuSbfLexjtkhe6uvn " ) ! = 0 & & coin - > importedprivkey = = 0 & & coin - > electrum = = 0 & & coin - > userpass [ 0 ] ! = 0 & & LP_getheight ( & notarized , coin ) > 0 )
{
memset ( zero . bytes , 0 , sizeof ( zero ) ) ;
LP_listunspent_issue ( coin - > symbol , coin - > smartaddr , 0 , zero , zero ) ;
if ( ( retjson = LP_importprivkey ( coin - > symbol , tmpstr , coin - > smartaddr , - 1 ) ) ! = 0 )
{
if ( jobj ( retjson , " error " ) ! = 0 )
{
printf ( " cant importprivkey.%s %s -> (%s), abort session \n " , coin - > symbol , coin - > smartaddr , jprint ( retjson , 1 ) ) ;
exit ( - 1 ) ;
}
free_json ( retjson ) ;
}
coin - > importedprivkey = ( uint32_t ) time ( NULL ) ;
}
vcalc_sha256 ( 0 , checkkey . bytes , privkey . bytes , sizeof ( privkey ) ) ;
checkkey . bytes [ 0 ] & = 248 , checkkey . bytes [ 31 ] & = 127 , checkkey . bytes [ 31 ] | = 64 ;
G . LP_mypub25519 = * pubkeyp = curve25519 ( checkkey , curve25519_basepoint9 ( ) ) ;
G . LP_mypriv25519 = checkkey ;
LP_pubkeyadd ( G . LP_mypub25519 ) ;
return ( privkey ) ;
}
void LP_privkey_updates ( void * ctx , int32_t pubsock , char * passphrase )
{
struct iguana_info * coin , * tmp ; bits256 pubkey , privkey ; uint8_t pubkey33 [ 33 ] ; int32_t initonly ;
initonly = ( passphrase ! = 0 ) ;
memset ( privkey . bytes , 0 , sizeof ( privkey ) ) ;
memset ( pubkey . bytes , 0 , sizeof ( pubkey ) ) ;
//printf("Total coins: %d\n", HASH_COUNT(LP_coins));
//int num_iter = 0;
HASH_ITER ( hh , LP_coins , coin , tmp )
{
//printf("LP_privkey_updates [%02d / %02d]\n", num_iter++, HASH_COUNT(LP_coins));
if ( initonly ! = 0 )
{
coin - > counter = 0 ;
memset ( coin - > smartaddr , 0 , sizeof ( coin - > smartaddr ) ) ;
if ( bits256_nonz ( privkey ) = = 0 | | coin - > smartaddr [ 0 ] = = 0 )
privkey = LP_privkeycalc ( ctx , pubkey33 , & pubkey , coin , passphrase , " " ) ;
}
//printf("i.%d of %d\n",i,LP_numcoins);
else if ( IAMLP = = 0 | | coin - > inactive = = 0 )
{
//printf("from updates %s\n",coin->symbol);
if ( 0 & & LP_privkey_init ( pubsock , coin , G . LP_privkey , G . LP_mypub25519 ) = = 0 & & ( LP_rand ( ) % 10 ) = = 0 )
{
//LP_postutxos(coin->symbol,coin->smartaddr);
}
}
}
}
int32_t LP_passphrase_init ( char * passphrase , char * gui , uint16_t netid , char * seednode )
{
static void * ctx ; struct iguana_info * coin , * tmp ; int32_t counter ;
if ( ctx = = 0 )
ctx = bitcoin_ctx ( ) ;
if ( G . LP_pendingswaps ! = 0 )
return ( - 1 ) ;
if ( netid ! = G . netid )
{
if ( IAMLP ! = 0 )
{
printf ( " sorry, LP nodes can only set netid during startup \n " ) ;
return ( - 1 ) ;
}
else
{
printf ( " >>>>>>>>>>>>> netid.%d vs G.netid %d \n " , netid , G . netid ) ;
LP_closepeers ( ) ;
LP_initpeers ( LP_mypubsock , LP_mypeer , LP_myipaddr , RPC_port , netid , seednode ) ;
}
}
G . initializing = 1 ;
if ( gui = = 0 )
gui = " cli " ;
counter = G . USERPASS_COUNTER ;
HASH_ITER ( hh , LP_coins , coin , tmp )
{
coin - > importedprivkey = 0 ;
}
while ( G . waiting = = 0 )
{
printf ( " waiting for G.waiting \n " ) ;
sleep ( 5 ) ;
}
memset ( & G , 0 , sizeof ( G ) ) ;
G . netid = netid ;
safecopy ( G . seednode , seednode , sizeof ( G . seednode ) ) ;
vcalc_sha256 ( 0 , G . LP_passhash . bytes , ( uint8_t * ) passphrase , ( int32_t ) strlen ( passphrase ) ) ;
LP_privkey_updates ( ctx , LP_mypubsock , passphrase ) ;
init_hexbytes_noT ( G . LP_myrmd160str , G . LP_myrmd160 , 20 ) ;
G . LP_sessionid = ( uint32_t ) time ( NULL ) ;
safecopy ( G . gui , gui , sizeof ( G . gui ) ) ;
LP_tradebot_pauseall ( ) ;
LP_portfolio_reset ( ) ;
LP_priceinfos_clear ( ) ;
G . USERPASS_COUNTER = counter ;
G . initializing = 0 ;
//LP_cmdchannels();
return ( 0 ) ;
}
void LP_privkey_tests ( )
{
char wifstr [ 64 ] , str [ 65 ] , str2 [ 65 ] ; bits256 privkey , checkkey ; int32_t i ; uint8_t tmptype ;
for ( i = 0 ; i < 200000000 ; i + + )
{
privkey = rand256 ( 0 ) ;
bitcoin_priv2wif ( " KMD " , 0 , wifstr , privkey , 0xff ) ;
bitcoin_wif2priv ( " KMD " , 0 , & tmptype , & checkkey , wifstr ) ;
if ( bits256_cmp ( privkey , checkkey ) ! = 0 )
{
printf ( " i.%d: %s vs %s \n " , i , bits256_str ( str , privkey ) , bits256_str ( str2 , checkkey ) ) ;
exit ( - 1 ) ;
}
if ( ( i % 1000000 ) = = 0 )
fprintf ( stderr , " %.1f%% " , 100. * ( double ) i / 200000000 ) ;
}
printf ( " %d privkeys checked \n " , i ) ;
}
# define JPG_ENCRYPTED_MAXSIZE 32768
int32_t JPG_encrypt ( uint16_t ind , uint8_t encoded [ JPG_ENCRYPTED_MAXSIZE ] , uint8_t * msg , int32_t msglen , bits256 privkey )
{
bits256 pubkey ; int32_t len = 2 ; uint8_t space [ JPG_ENCRYPTED_MAXSIZE ] , * nonce , * cipher ;
pubkey = acct777_pubkey ( privkey ) ;
encoded [ len + + ] = ind & 0xff ;
encoded [ len + + ] = ( ind > > 8 ) & 0xff ;
nonce = & encoded [ len ] ;
OS_randombytes ( nonce , crypto_box_NONCEBYTES ) ;
cipher = & encoded [ len + crypto_box_NONCEBYTES ] ;
msglen = _SuperNET_cipher ( nonce , & encoded [ len + crypto_box_NONCEBYTES ] , msg , msglen , pubkey , privkey , space ) ;
msglen + = crypto_box_NONCEBYTES ;
msg = encoded ;
msglen + = len ;
encoded [ 0 ] = msglen & 0xff ;
encoded [ 1 ] = ( msglen > > 8 ) & 0xff ;
int32_t i ; for ( i = 0 ; i < msglen ; i + + )
printf ( " %02x " , encoded [ i ] ) ;
printf ( " encoded.%d \n " , msglen ) ;
return ( msglen ) ;
}
uint8_t * JPG_decrypt ( uint16_t * indp , int32_t * recvlenp , uint8_t space [ JPG_ENCRYPTED_MAXSIZE + crypto_box_ZEROBYTES ] , uint8_t * encoded , bits256 privkey )
{
bits256 pubkey ; uint8_t * extracted = 0 , * nonce , * cipher ; uint16_t msglen , ind ; int32_t cipherlen , len = 4 ;
* recvlenp = 0 ;
* indp = - 1 ;
pubkey = acct777_pubkey ( privkey ) ;
msglen = ( ( int32_t ) encoded [ 1 ] < < 8 ) | encoded [ 0 ] ;
ind = ( ( int32_t ) encoded [ 3 ] < < 8 ) | encoded [ 2 ] ;
nonce = & encoded [ len ] ;
cipher = & encoded [ len + crypto_box_NONCEBYTES ] ;
cipherlen = msglen - ( len + crypto_box_NONCEBYTES ) ;
if ( cipherlen > 0 & & cipherlen < = JPG_ENCRYPTED_MAXSIZE + crypto_box_ZEROBYTES )
{
//int32_t i; for (i=0; i<cipherlen; i++)
// printf("%02x",cipher[i]);
//printf(" cipherlen\n");
if ( ( extracted = _SuperNET_decipher ( nonce , cipher , space , cipherlen , pubkey , privkey ) ) ! = 0 )
{
//int32_t i; for (i=0; i<msglen; i++)
// printf("%02x",encoded[i]);
//printf(" restored\n");
msglen = ( cipherlen - crypto_box_ZEROBYTES ) ;
* recvlenp = msglen ;
* indp = ind ;
}
} //else printf("cipher.%d too big for %d\n",cipherlen,JPG_ENCRYPTED_MAXSIZE + crypto_box_ZEROBYTES);
return ( extracted ) ;
}
int32_t LP_opreturn_decrypt ( uint16_t * ind16p , uint8_t * decoded , uint8_t * encoded , int32_t encodedlen , char * passphrase )
{
bits256 privkey ; int32_t msglen ; uint8_t * extracted , space [ JPG_ENCRYPTED_MAXSIZE + crypto_box_ZEROBYTES ] ;
if ( passphrase ! = 0 & & passphrase [ 0 ] ! = 0 )
{
vcalc_sha256 ( 0 , privkey . bytes , ( uint8_t * ) passphrase , ( int32_t ) strlen ( passphrase ) ) ;
msglen = ( ( int32_t ) encoded [ 1 ] < < 8 ) | encoded [ 0 ] ;
* ind16p = ( ( int32_t ) encoded [ 3 ] < < 8 ) | encoded [ 2 ] ;
if ( msglen = = encodedlen & & ( extracted = JPG_decrypt ( ind16p , & msglen , space , encoded , privkey ) ) ! = 0 )
{
memcpy ( decoded , extracted , msglen ) ;
return ( msglen ) ;
} else return ( - 1 ) ;
}
else
{
* ind16p = calc_crc32 ( 0 , extracted , encodedlen ) ;
memcpy ( decoded , extracted , encodedlen ) ;
return ( encodedlen ) ;
}
}
int32_t LP_opreturn_encrypt ( uint8_t * dest , int32_t maxsize , uint8_t * data , int32_t datalen , char * passphrase , uint16_t ind16 )
{
bits256 privkey ; int32_t len ; uint8_t encoded [ JPG_ENCRYPTED_MAXSIZE ] ;
vcalc_sha256 ( 0 , privkey . bytes , ( uint8_t * ) passphrase , ( int32_t ) strlen ( passphrase ) ) ;
if ( ( len = JPG_encrypt ( ind16 , encoded , data , datalen , privkey ) ) > 0 )
{
//printf("datalen.%d -> len.%d max.%d\n",datalen,len,maxsize);
if ( len < = maxsize )
{
memcpy ( dest , encoded , len ) ;
return ( len ) ;
}
}
return ( - 1 ) ;
}
// from https://github.com/owencm/C-Steganography-Framework
# include "../../crypto777/jpeg/cdjpeg.h" // Common decls for compressing and decompressing jpegs
int32_t LP_jpg_process ( int32_t * capacityp , char * inputfname , char * outputfname , uint8_t * decoded , uint8_t * origdata , int32_t origrequired , int32_t power2 , char * password , uint16_t * indp )
{
struct jpeg_decompress_struct inputinfo ;
struct jpeg_compress_struct outputinfo ;
struct jpeg_error_mgr jerr ;
jvirt_barray_ptr * coef_arrays ;
JDIMENSION i , compnum , rownum , blocknum ;
JBLOCKARRAY coef_buffers [ MAX_COMPONENTS ] ;
JBLOCKARRAY row_ptrs [ MAX_COMPONENTS ] ;
bits256 privkey ; FILE * input_file , * output_file ; int32_t recvlen , msglen , val , modified , emit , totalrows , limit , required ; uint16_t checkind ; uint8_t * decrypted , * space , * data = 0 ;
if ( ( input_file = fopen ( inputfname , READ_BINARY ) ) = = NULL )
{
fprintf ( stderr , " Can't open %s \n " , inputfname ) ;
//exit(EXIT_FAILURE);
return ( - 1 ) ;
}
required = origrequired ;
memset ( privkey . bytes , 0 , sizeof ( privkey ) ) ;
if ( password ! = 0 & & password [ 0 ] ! = 0 )
{
if ( required / 8 > JPG_ENCRYPTED_MAXSIZE - 60 )
return ( - 1 ) ;
data = calloc ( 1 , required / 8 + 512 ) ;
vcalc_sha256 ( 0 , privkey . bytes , ( uint8_t * ) password , ( int32_t ) strlen ( password ) ) ;
if ( origdata ! = 0 )
{
msglen = JPG_encrypt ( * indp , data , origdata , required / 8 , privkey ) ;
required = msglen * 8 ;
{
space = calloc ( 1 , JPG_ENCRYPTED_MAXSIZE ) ;
if ( ( decrypted = JPG_decrypt ( & checkind , & recvlen , space , data , privkey ) ) = = 0 | | recvlen ! = origrequired / 8 | | checkind ! = * indp | | memcmp ( decrypted , origdata , origrequired / 8 ) ! = 0 )
printf ( " A decryption error: checkind.%d vs %d, recvlen.%d vs %d, decrypted.%p \n " , checkind , * indp , recvlen , origrequired / 8 , decrypted ) ;
else
{
for ( i = 0 ; i < recvlen ; i + + )
printf ( " %02x " , decrypted [ i ] ) ;
printf ( " VERIFIED decryption.%d ind.%d msglen.%d required.%d \n " , recvlen , * indp , msglen , required ) ;
}
free ( space ) ;
}
} else required + = 60 * 8 ;
} else data = origdata ;
if ( power2 < 0 | | power2 > 30 )
power2 = 7 ;
limit = 1 ;
while ( power2 > 0 )
{
limit < < = 1 ;
power2 - - ;
}
// Initialize the JPEG compression and decompression objects with default error handling
inputinfo . err = jpeg_std_error ( & jerr ) ;
jpeg_create_decompress ( & inputinfo ) ;
// Specify data source for decompression and recompression
jpeg_stdio_src ( & inputinfo , input_file ) ;
( void ) jpeg_read_header ( & inputinfo , TRUE ) ;
for ( compnum = 0 ; compnum < inputinfo . num_components ; compnum + + )
coef_buffers [ compnum ] = ( ( & inputinfo ) - > mem - > alloc_barray ) ( ( j_common_ptr ) & inputinfo , JPOOL_IMAGE , inputinfo . comp_info [ compnum ] . width_in_blocks , inputinfo . comp_info [ compnum ] . height_in_blocks ) ;
coef_arrays = jpeg_read_coefficients ( & inputinfo ) ;
// Copy DCT coeffs to a new array
int num_components = inputinfo . num_components ;
size_t * block_row_size ; //[num_components];
int * width_in_blocks ; //[num_components];
int * height_in_blocks ; //[num_components];
block_row_size = calloc ( sizeof ( * block_row_size ) , num_components ) ;
width_in_blocks = calloc ( sizeof ( * width_in_blocks ) , num_components ) ;
height_in_blocks = calloc ( sizeof ( * height_in_blocks ) , num_components ) ;
* capacityp = modified = emit = totalrows = 0 ;
if ( decoded ! = 0 )
memset ( decoded , 0 , required / 8 + 1 ) ;
for ( compnum = 0 ; compnum < num_components ; compnum + + )
{
height_in_blocks [ compnum ] = inputinfo . comp_info [ compnum ] . height_in_blocks ;
width_in_blocks [ compnum ] = inputinfo . comp_info [ compnum ] . width_in_blocks ;
block_row_size [ compnum ] = ( size_t ) SIZEOF ( JCOEF ) * DCTSIZE2 * width_in_blocks [ compnum ] ;
for ( rownum = 0 ; rownum < height_in_blocks [ compnum ] ; rownum + + )
{
row_ptrs [ compnum ] = ( ( & inputinfo ) - > mem - > access_virt_barray ) ( ( j_common_ptr ) & inputinfo , coef_arrays [ compnum ] , rownum , ( JDIMENSION ) 1 , FALSE ) ;
for ( blocknum = 0 ; blocknum < width_in_blocks [ compnum ] ; blocknum + + )
{
for ( i = 0 ; i < DCTSIZE2 ; i + + )
{
val = row_ptrs [ compnum ] [ 0 ] [ blocknum ] [ i ] ;
if ( val < - limit | | val > = limit )
{
if ( ( * capacityp ) < required )
{
if ( ( val & 1 ) ! = 0 )
SETBIT ( decoded , ( * capacityp ) ) ;
//printf("%c",(val&1)!=0?'1':'0');
}
( * capacityp ) + + ;
}
coef_buffers [ compnum ] [ rownum ] [ blocknum ] [ i ] = val ;
}
}
}
}
if ( password ! = 0 & & password [ 0 ] ! = 0 )
{
space = calloc ( 1 , JPG_ENCRYPTED_MAXSIZE ) ;
if ( ( decrypted = JPG_decrypt ( indp , & recvlen , space , decoded , privkey ) ) ! = 0 & & recvlen = = origrequired / 8 )
{
for ( i = 0 ; i < recvlen ; i + + )
{
//printf("%02x",decrypted[i]);
decoded [ i ] = decrypted [ i ] ;
}
//printf(" decrypted.%d ind.%d\n",recvlen,*indp);
}
free ( space ) ;
}
//printf(" capacity %d required.%d power2.%d limit.%d\n",*capacityp,required,power2,limit);
if ( * capacityp > required & & outputfname ! = 0 & & outputfname [ 0 ] ! = 0 )
{
if ( ( output_file = fopen ( outputfname , WRITE_BINARY ) ) = = NULL ) {
fprintf ( stderr , " Can't open %s \n " , outputfname ) ;
if ( data ! = origdata )
free ( data ) ;
return ( - 1 ) ;
}
outputinfo . err = jpeg_std_error ( & jerr ) ;
jpeg_create_compress ( & outputinfo ) ;
jpeg_stdio_dest ( & outputinfo , output_file ) ;
jpeg_copy_critical_parameters ( & inputinfo , & outputinfo ) ;
// Print out or modify DCT coefficients
for ( compnum = 0 ; compnum < num_components ; compnum + + )
{
for ( rownum = 0 ; rownum < height_in_blocks [ compnum ] ; rownum + + )
{
for ( blocknum = 0 ; blocknum < width_in_blocks [ compnum ] ; blocknum + + )
{
//printf("\n\nComponent: %i, Row:%i, Column: %i\n", compnum, rownum, blocknum);
for ( i = 0 ; i < DCTSIZE2 & & emit < required ; i + + )
{
val = coef_buffers [ compnum ] [ rownum ] [ blocknum ] [ i ] ;
if ( val < - limit | | val > = limit )
{
val & = ~ 1 ;
if ( GETBIT ( data , emit ) ! = 0 ) //|| (emit >= required && (rand() & 1) != 0) )
val | = 1 ;
//printf("%c",(val&1)!=0?'1':'0');
coef_buffers [ compnum ] [ rownum ] [ blocknum ] [ i ] = val ;
emit + + ;
}
//printf("%i,", coef_buffers[compnum][rownum][blocknum][i]);
}
}
}
}
//printf(" emit.%d\n",emit);
// Output the new DCT coeffs to a JPEG file
modified = 0 ;
for ( compnum = 0 ; compnum < num_components ; compnum + + )
{
for ( rownum = 0 ; rownum < height_in_blocks [ compnum ] ; rownum + + )
{
row_ptrs [ compnum ] = ( ( & outputinfo ) - > mem - > access_virt_barray ) ( ( j_common_ptr ) & outputinfo , coef_arrays [ compnum ] , rownum , ( JDIMENSION ) 1 , TRUE ) ;
if ( memcmp ( row_ptrs [ compnum ] [ 0 ] [ 0 ] , coef_buffers [ compnum ] [ rownum ] [ 0 ] , block_row_size [ compnum ] ) ! = 0 )
{
memcpy ( row_ptrs [ compnum ] [ 0 ] [ 0 ] , coef_buffers [ compnum ] [ rownum ] [ 0 ] , block_row_size [ compnum ] ) ;
modified + + ;
}
totalrows + + ;
}
}
// Write to the output file
jpeg_write_coefficients ( & outputinfo , coef_arrays ) ;
// Finish compression and release memory
jpeg_finish_compress ( & outputinfo ) ;
jpeg_destroy_compress ( & outputinfo ) ;
fclose ( output_file ) ;
}
jpeg_finish_decompress ( & inputinfo ) ;
jpeg_destroy_decompress ( & inputinfo ) ;
fclose ( input_file ) ;
if ( modified ! = 0 )
{
printf ( " New DCT coefficients successfully written to %s, capacity %d modifiedrows.%d/%d emit.%d \n " , outputfname , * capacityp , modified , totalrows , emit ) ;
}
free ( block_row_size ) ;
free ( width_in_blocks ) ;
free ( height_in_blocks ) ;
if ( data ! = origdata )
free ( data ) ;
return ( modified ) ;
}
char * LP_jpg ( char * srcfile , char * destfile , int32_t power2 , char * passphrase , char * datastr , int32_t required , uint16_t ind )
{
cJSON * retjson ; int32_t len = 0 , modified , capacity ; char * decodedstr ; uint8_t * data = 0 , * decoded = 0 ;
if ( srcfile ! = 0 & & srcfile [ 0 ] ! = 0 )
{
retjson = cJSON_CreateObject ( ) ;
if ( datastr ! = 0 & & datastr [ 0 ] ! = 0 )
{
if ( ( len = is_hexstr ( datastr , 0 ) ) > 0 )
{
len > > = 1 ;
data = calloc ( 1 , len ) ;
decode_hex ( data , len , datastr ) ;
required = len * 8 ;
//int32_t i; for (i=0; i<required; i++)
// printf("%c",'0'+(GETBIT(data,i)!=0));
//printf(" datastr.%d %s\n",required,datastr);
}
}
if ( required > 0 )
decoded = calloc ( 1 , len + required ) ;
if ( ( modified = LP_jpg_process ( & capacity , srcfile , destfile , decoded , data , required , power2 , passphrase , & ind ) ) < 0 )
jaddstr ( retjson , " error " , " file not found " ) ;
else
{
jaddstr ( retjson , " result " , " success " ) ;
jaddnum ( retjson , " modifiedrows " , modified ) ;
if ( modified ! = 0 )
jaddstr ( retjson , " outputfile " , destfile ) ;
jaddnum ( retjson , " power2 " , power2 ) ;
jaddnum ( retjson , " capacity " , capacity ) ;
jaddnum ( retjson , " required " , required ) ;
jaddnum ( retjson , " ind " , ind ) ;
}
if ( decoded ! = 0 )
{
if ( capacity > 0 )
{
//printf("len.%d required.%d capacity.%d\n",len,required,capacity);
decodedstr = calloc ( 1 , ( len + required ) * 2 + 1 ) ;
init_hexbytes_noT ( decodedstr , decoded , required / 8 ) ;
jaddstr ( retjson , " decoded " , decodedstr ) ;
free ( decodedstr ) ;
}
free ( decoded ) ;
}
if ( data ! = 0 )
free ( data ) ;
return ( jprint ( retjson , 1 ) ) ;
} else return ( clonestr ( " { \" error \" : \" no source file error \" } " ) ) ;
}