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Merge pull request #557 from jl777/dPoW

DPoW
master
jl777 7 years ago
committed by GitHub
parent
commit
343767a02e
No known key found for this signature in database GPG Key ID: 4AEE18F83AFDEB23
  1. 2
      crypto777/iguana_serdes.c
  2. 254
      iguana/exchanges/LP_bitcoin.c
  3. 6
      iguana/exchanges/LP_cache.c
  4. 16
      iguana/exchanges/LP_coins.c
  5. 22
      iguana/exchanges/LP_commands.c
  6. 16
      iguana/exchanges/LP_include.h
  7. 20
      iguana/exchanges/LP_instantdex.c
  8. 82
      iguana/exchanges/LP_nativeDEX.c
  9. 26
      iguana/exchanges/LP_ordermatch.c
  10. 54
      iguana/exchanges/LP_portfolio.c
  11. 20
      iguana/exchanges/LP_prices.c
  12. 56
      iguana/exchanges/LP_privkey.c
  13. 44
      iguana/exchanges/LP_remember.c
  14. 15
      iguana/exchanges/LP_rpc.c
  15. 2
      iguana/exchanges/LP_signatures.c
  16. 5
      iguana/exchanges/LP_stats.c
  17. 28
      iguana/exchanges/LP_swap.c
  18. 140
      iguana/exchanges/LP_transaction.c
  19. 4
      iguana/exchanges/LP_utxo.c
  20. 2
      iguana/exchanges/auto_grskmd
  21. 2
      iguana/exchanges/coins
  22. 6
      iguana/exchanges/enable
  23. 40
      iguana/exchanges/mm.c
  24. 28
      iguana/exchanges/prices/autoprice
  25. 3
      iguana/exchanges/prices/dex
  26. 30
      iguana/exchanges/prices/gets
  27. 2
      iguana/exchanges/stats.c
  28. 3143
      iguana/groestl.c
  29. 329
      iguana/groestl.h
  30. 2
      iguana/m_mm
  31. 230
      iguana/segwit_addr.c
  32. 89
      iguana/segwit_addr.h
  33. 1966
      iguana/sph_types.h
  34. 1
      marketmaker.vcxproj
  35. 3
      marketmaker.vcxproj.filters

2
crypto777/iguana_serdes.c

@ -80,7 +80,7 @@ int32_t iguana_sethdr(struct iguana_msghdr *H,const uint8_t netmagic[4],char *co
iguana_rwnum(1,H->serdatalen,sizeof(int32_t),&datalen); iguana_rwnum(1,H->serdatalen,sizeof(int32_t),&datalen);
if ( data != 0 ) if ( data != 0 )
{ {
hash2 = bits256_doublesha256(0,data,datalen); hash2 = bits256_doublesha256(0,data,datalen); // GRS?
iguana_rwbignum(1,tmp.bytes,sizeof(tmp),hash2.bytes); iguana_rwbignum(1,tmp.bytes,sizeof(tmp),hash2.bytes);
for (i=0; i<4; i++) for (i=0; i<4; i++)
H->hash[i] = tmp.bytes[i]; H->hash[i] = tmp.bytes[i];

254
iguana/exchanges/LP_bitcoin.c

@ -2018,9 +2018,56 @@ char *bitcoind_passthrut(char *coinstr,char *serverport,char *userpass,char *met
return(bitcoind_RPC(0,coinstr,serverport,userpass,method,params,timeout)); return(bitcoind_RPC(0,coinstr,serverport,userpass,method,params,timeout));
} }
int32_t bitcoin_addr2rmd160(uint8_t taddr,uint8_t *addrtypep,uint8_t rmd160[20],char *coinaddr) bits256 bits256_calctxid(char *symbol,uint8_t *serialized,int32_t len)
{ {
bits256 hash; uint8_t *buf,_buf[26]; int32_t len,offset; bits256 txid,revtxid; int32_t i;
memset(txid.bytes,0,sizeof(txid));
if ( strcmp(symbol,"GRS") != 0 )
txid = bits256_doublesha256(0,serialized,len);
else
{
vcalc_sha256(0,revtxid.bytes,serialized,len);
for (i=0; i<32; i++)
txid.bytes[i] = revtxid.bytes[31 - i];
}
return(txid);
}
bits256 bits256_calcaddrhash(char *symbol,uint8_t *serialized,int32_t len)
{
bits256 hash;
if ( strcmp(symbol,"GRS") != 0 )
hash = bits256_doublesha256(0,serialized,len);
else
{
HashGroestl(hash.bytes,serialized,len);
/*int32_t i; char str[65];
for (i=0; i<len; i++)
printf("%02x",serialized[i]);
printf(" HashGroestl %d -> %s\n",len,bits256_str(str,hash));*/
}
return(hash);
}
int32_t bitcoin_addr2rmd160(char *symbol,uint8_t taddr,uint8_t *addrtypep,uint8_t rmd160[20],char *coinaddr)
{
bits256 hash; uint8_t *buf,_buf[26],data5[128],rmd21[21]; char prefixaddr[64],hrp[64]; int32_t len,len5,offset;
if ( strcmp(symbol,"BCH") == 0 && strlen(coinaddr) == 42 )
{
strcpy(prefixaddr,"bitcoincash:");
strcat(prefixaddr,coinaddr);
if ( bech32_decode(hrp,data5,&len5,prefixaddr) == 0 )
{
printf("bitcoin_addr2rmd160 bech32_decode error.(%s)\n",coinaddr);
return(0);
}
len = 0;
if ( bech32_convert_bits(rmd21,&len,8,data5,len5,5,0) == 0 )
printf("error converting data5\n");
*addrtypep = rmd21[0] == 0 ? 0 : 5;
memcpy(rmd160,&rmd21[1],20);
return(20);
}
offset = 1 + (taddr != 0); offset = 1 + (taddr != 0);
memset(rmd160,0,20); memset(rmd160,0,20);
*addrtypep = 0; *addrtypep = 0;
@ -2028,93 +2075,107 @@ int32_t bitcoin_addr2rmd160(uint8_t taddr,uint8_t *addrtypep,uint8_t rmd160[20],
if ( (len= bitcoin_base58decode(buf,coinaddr)) >= 4 ) if ( (len= bitcoin_base58decode(buf,coinaddr)) >= 4 )
{ {
// validate with trailing hash, then remove hash // validate with trailing hash, then remove hash
hash = bits256_doublesha256(0,buf,20+offset); hash = bits256_calcaddrhash(symbol,buf,20+offset);
*addrtypep = (taddr == 0) ? *buf : buf[1]; *addrtypep = (taddr == 0) ? *buf : buf[1];
memcpy(rmd160,buf+offset,20); memcpy(rmd160,buf+offset,20);
if ( (buf[20+offset]&0xff) == hash.bytes[31] && (buf[21+offset]&0xff) == hash.bytes[30] &&(buf[22+offset]&0xff) == hash.bytes[29] && (buf[23+offset]&0xff) == hash.bytes[28] ) if ( strcmp(symbol,"GRS") != 0 && (buf[20+offset]&0xff) == hash.bytes[31] && (buf[21+offset]&0xff) == hash.bytes[30] && (buf[22+offset]&0xff) == hash.bytes[29] && (buf[23+offset]&0xff) == hash.bytes[28] )
{ {
//printf("coinaddr.(%s) valid checksum addrtype.%02x\n",coinaddr,*addrtypep); //printf("coinaddr.(%s) valid checksum addrtype.%02x\n",coinaddr,*addrtypep);
return(20); return(20);
} }
else if ( strcmp(symbol,"GRS") == 0 && (buf[20+offset]&0xff) == hash.bytes[0] && (buf[21+offset]&0xff) == hash.bytes[1] && (buf[22+offset]&0xff) == hash.bytes[2] && (buf[23+offset]&0xff) == hash.bytes[3] )
return(20);
else else
{ {
int32_t i; int32_t i;
if ( len > 20 ) //if ( len > 20 )
{ // hash = bits256_calcaddrhash(symbol,buf,len);
hash = bits256_doublesha256(0,buf,len);
}
for (i=0; i<len; i++) for (i=0; i<len; i++)
printf("%02x ",buf[i]); printf("%02x ",hash.bytes[i]);
char str[65]; printf("\naddrtype.%d taddr.%02x checkhash.(%s) len.%d mismatch %02x %02x %02x %02x vs %02x %02x %02x %02x (%s)\n",*addrtypep,taddr,coinaddr,len,buf[len-1]&0xff,buf[len-2]&0xff,buf[len-3]&0xff,buf[len-4]&0xff,hash.bytes[31],hash.bytes[30],hash.bytes[29],hash.bytes[28],bits256_str(str,hash)); char str[65]; printf("\n%s addrtype.%d taddr.%02x checkhash.(%s) len.%d mismatch %02x %02x %02x %02x vs %02x %02x %02x %02x (%s)\n",symbol,*addrtypep,taddr,coinaddr,len,buf[len-1]&0xff,buf[len-2]&0xff,buf[len-3]&0xff,buf[len-4]&0xff,hash.bytes[31],hash.bytes[30],hash.bytes[29],hash.bytes[28],bits256_str(str,hash));
} }
} }
return(0); return(0);
} }
char *bitcoin_address(char *coinaddr,uint8_t taddr,uint8_t addrtype,uint8_t *pubkey_or_rmd160,int32_t len) char *bitcoin_address(char *symbol,char *coinaddr,uint8_t taddr,uint8_t addrtype,uint8_t *pubkey_or_rmd160,int32_t len)
{ {
int32_t offset,i; uint8_t data[26]; bits256 hash;// char checkaddr[65]; int32_t offset,i,len5; char prefixed[64]; uint8_t data[64],data5[64]; bits256 hash;
coinaddr[0] = 0;
offset = 1 + (taddr != 0); offset = 1 + (taddr != 0);
if ( len != 20 ) if ( len != 20 )
calc_rmd160_sha256(data+offset,pubkey_or_rmd160,len); calc_rmd160_sha256(data+offset,pubkey_or_rmd160,len);
else memcpy(data+offset,pubkey_or_rmd160,20); else memcpy(data+offset,pubkey_or_rmd160,20);
//btc_convrmd160(checkaddr,addrtype,data+1); if ( strcmp(symbol,"BCH") == 0 )
{
len5 = 0;
if ( addrtype == 0 )
data[0] = (0 << 3);
else data[0] = (1 << 3);
bech32_convert_bits(data5,&len5,5,data,21,8,1);
if ( bech32_encode(prefixed,"bitcoincash",data5,len5) == 0 )
return(0);
for (i=0; prefixed[i]!=0; i++)
if ( prefixed[i] == ':' )
break;
if ( prefixed[i] != ':' )
return(0);
strcpy(coinaddr,&prefixed[i+1]);
return(coinaddr);
}
if ( taddr != 0 ) if ( taddr != 0 )
{ {
data[0] = taddr; data[0] = taddr;
data[1] = addrtype; data[1] = addrtype;
} else data[0] = addrtype; } else data[0] = addrtype;
hash = bits256_doublesha256(0,data,20+offset); hash = bits256_calcaddrhash(symbol,data,20+offset);
for (i=0; i<4; i++) if ( strcmp(symbol,"GRS") != 0 )
data[20+offset+i] = hash.bytes[31-i]; {
for (i=0; i<4; i++)
data[20+offset+i] = hash.bytes[31-i];
}
else
{
for (i=0; i<4; i++)
data[20+offset+i] = hash.bytes[i];
}
if ( (coinaddr= bitcoin_base58encode(coinaddr,data,24+offset)) != 0 ) if ( (coinaddr= bitcoin_base58encode(coinaddr,data,24+offset)) != 0 )
{ {
} else printf("null coinaddr taddr.%02x\n",taddr); } else printf("null coinaddr taddr.%02x\n",taddr);
return(coinaddr); return(coinaddr);
} }
void bitcoin_priv2pub(void *ctx,uint8_t *pubkey33,char *coinaddr,bits256 privkey,uint8_t taddr,uint8_t addrtype) void bitcoin_priv2pub(void *ctx,char *symbol,uint8_t *pubkey33,char *coinaddr,bits256 privkey,uint8_t taddr,uint8_t addrtype)
{ {
bits256 pub; //char privstr[65],url[512],postdata[1024],*retstr,*pubstr,*addr; cJSON *retjson; bits256 pub;
memset(pubkey33,0,33); memset(pubkey33,0,33);
coinaddr[0] = 0; coinaddr[0] = 0;
crypto_box_priv2pub(pub.bytes,privkey.bytes); crypto_box_priv2pub(pub.bytes,privkey.bytes);
//jaddbits256(retjson,"curve25519",pub);
bitcoin_pubkey33(ctx,pubkey33,privkey); bitcoin_pubkey33(ctx,pubkey33,privkey);
bitcoin_address(coinaddr,taddr,addrtype,pubkey33,33); bitcoin_address(symbol,coinaddr,taddr,addrtype,pubkey33,33);
}
/*bits256_str(privstr,privkey);
sprintf(url,"%s/?",IGUANA_URL); int32_t bitcoin_validaddress(char *symbol,uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,char *coinaddr)
sprintf(postdata,"{\"agent\":\"SuperNET\",\"method\":\"priv2pub\",\"privkey\":\"%s\",\"addrtype\":%u,\"taddr\":%u}",privstr,addrtype,taddr);
if ( (retstr= bitcoind_RPC(0,"SuperNET",url,0,"priv2pub",postdata,0)) != 0 )
{
if ( (retjson= cJSON_Parse(retstr)) != 0 )
{
if ( (pubstr= jstr(retjson,"secp256k1")) != 0 && strlen(pubstr) == 66 )
decode_hex(pubkey33,33,pubstr);
if ( (addr= jstr(retjson,"result")) != 0 && strlen(addr) < 64 )
strcpy(coinaddr,addr);
free_json(retjson);
}
free(retstr);
}*/
}
int32_t bitcoin_validaddress(uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,char *coinaddr)
{ {
uint8_t rmd160[20],addrtype; char checkaddr[128]; uint8_t rmd160[20],addrtype; char checkaddr[128];
if ( coinaddr == 0 || coinaddr[0] == 0 ) if ( coinaddr == 0 || coinaddr[0] == 0 )
return(-1); return(-1);
else if ( bitcoin_addr2rmd160(taddr,&addrtype,rmd160,coinaddr) < 0 ) else if ( bitcoin_addr2rmd160(symbol,taddr,&addrtype,rmd160,coinaddr) < 0 )
{
printf("bitcoin_validaddress addr2rmd160 error\n");
return(-1); return(-1);
}
else if ( addrtype != pubtype && addrtype != p2shtype ) else if ( addrtype != pubtype && addrtype != p2shtype )
return(-1); return(-1);
else if ( bitcoin_address(checkaddr,addrtype,taddr,rmd160,sizeof(rmd160)) != checkaddr || strcmp(checkaddr,coinaddr) != 0 ) else if ( bitcoin_address(symbol,checkaddr,addrtype,taddr,rmd160,sizeof(rmd160)) != checkaddr || strcmp(checkaddr,coinaddr) != 0 )
{
printf("bitcoin_validaddress checkaddr.%s != %s\n",checkaddr,coinaddr);
return(-1); return(-1);
}
return(0); return(0);
} }
int32_t base58encode_checkbuf(uint8_t taddr,uint8_t addrtype,uint8_t *data,int32_t data_len) int32_t base58encode_checkbuf(char *symbol,uint8_t taddr,uint8_t addrtype,uint8_t *data,int32_t data_len)
{ {
uint8_t i,offset; bits256 hash; uint8_t i,offset; bits256 hash;
offset = 1 + (taddr != 0); offset = 1 + (taddr != 0);
@ -2126,16 +2187,24 @@ int32_t base58encode_checkbuf(uint8_t taddr,uint8_t addrtype,uint8_t *data,int32
//for (i=0; i<data_len+1; i++) //for (i=0; i<data_len+1; i++)
// printf("%02x",data[i]); // printf("%02x",data[i]);
//printf(" extpriv -> "); //printf(" extpriv -> ");
hash = bits256_doublesha256(0,data,(int32_t)data_len+offset); hash = bits256_calcaddrhash(symbol,data,(int32_t)data_len+offset);
//for (i=0; i<32; i++) //for (i=0; i<32; i++)
// printf("%02x",hash.bytes[i]); // printf("%02x",hash.bytes[i]);
//printf(" checkhash\n"); //printf(" checkhash\n");
for (i=0; i<4; i++) if ( strcmp(symbol,"GRS") != 0 )
data[data_len+i+offset] = hash.bytes[31-i]; {
for (i=0; i<4; i++)
data[data_len+i+offset] = hash.bytes[31-i];
}
else
{
for (i=0; i<4; i++)
data[data_len+i+offset] = hash.bytes[i];
}
return(data_len + 4 + offset); return(data_len + 4 + offset);
} }
int32_t bitcoin_wif2priv(uint8_t wiftaddr,uint8_t *addrtypep,bits256 *privkeyp,char *wifstr) int32_t bitcoin_wif2priv(char *symbol,uint8_t wiftaddr,uint8_t *addrtypep,bits256 *privkeyp,char *wifstr)
{ {
int32_t offset,len = -1; bits256 hash; uint8_t buf[256],*ptr; int32_t offset,len = -1; bits256 hash; uint8_t buf[256],*ptr;
offset = 1 + (wiftaddr != 0); offset = 1 + (wiftaddr != 0);
@ -2162,9 +2231,9 @@ int32_t bitcoin_wif2priv(uint8_t wiftaddr,uint8_t *addrtypep,bits256 *privkeyp,c
printf("pbuf from %d\n",len); printf("pbuf from %d\n",len);
len = 38; len = 38;
}*/ }*/
hash = bits256_doublesha256(0,ptr,len - 4); hash = bits256_calcaddrhash(symbol,ptr,len - 4);
*addrtypep = (wiftaddr == 0) ? *ptr : ptr[1]; *addrtypep = (wiftaddr == 0) ? *ptr : ptr[1];
if ( (ptr[len - 4]&0xff) == hash.bytes[31] && (ptr[len - 3]&0xff) == hash.bytes[30] &&(ptr[len - 2]&0xff) == hash.bytes[29] && (ptr[len - 1]&0xff) == hash.bytes[28] ) if ( strcmp(symbol,"GRS") != 0 && (ptr[len - 4]&0xff) == hash.bytes[31] && (ptr[len - 3]&0xff) == hash.bytes[30] &&(ptr[len - 2]&0xff) == hash.bytes[29] && (ptr[len - 1]&0xff) == hash.bytes[28] )
{ {
//int32_t i; for (i=0; i<len; i++) //int32_t i; for (i=0; i<len; i++)
// printf("%02x ",ptr[i]); // printf("%02x ",ptr[i]);
@ -2172,6 +2241,8 @@ int32_t bitcoin_wif2priv(uint8_t wiftaddr,uint8_t *addrtypep,bits256 *privkeyp,c
//printf("wifstr.(%s) valid len.%d\n",wifstr,len); //printf("wifstr.(%s) valid len.%d\n",wifstr,len);
return(32); return(32);
} }
else if ( strcmp(symbol,"GRS") == 0 && (ptr[len - 4]&0xff) == hash.bytes[0] && (ptr[len - 3]&0xff) == hash.bytes[1] &&(ptr[len - 2]&0xff) == hash.bytes[2] && (ptr[len - 1]&0xff) == hash.bytes[3] )
return(32);
else if ( 0 ) // gets errors when len is 37 else if ( 0 ) // gets errors when len is 37
{ {
int32_t i; for (i=0; i<len; i++) int32_t i; for (i=0; i<len; i++)
@ -2182,18 +2253,20 @@ int32_t bitcoin_wif2priv(uint8_t wiftaddr,uint8_t *addrtypep,bits256 *privkeyp,c
return(-1); return(-1);
} }
int32_t bitcoin_wif2addr(void *ctx,uint8_t wiftaddr,uint8_t taddr,uint8_t pubtype,char *coinaddr,char *wifstr) int32_t bitcoin_wif2addr(void *ctx,char *symbol,uint8_t wiftaddr,uint8_t taddr,uint8_t pubtype,char *coinaddr,char *wifstr)
{ {
bits256 privkey; uint8_t addrtype,pubkey33[33]; bits256 privkey; uint8_t addrtype,pubkey33[33];
if ( strcmp(symbol,"BCH") == 0 )
symbol = "BTC";
coinaddr[0] = 0; coinaddr[0] = 0;
if ( bitcoin_wif2priv(wiftaddr,&addrtype,&privkey,wifstr) == sizeof(privkey) ) if ( bitcoin_wif2priv(symbol,wiftaddr,&addrtype,&privkey,wifstr) == sizeof(privkey) )
{ {
bitcoin_priv2pub(ctx,pubkey33,coinaddr,privkey,taddr,pubtype); bitcoin_priv2pub(ctx,symbol,pubkey33,coinaddr,privkey,taddr,pubtype);
} }
return(-1); return(-1);
} }
int32_t bitcoin_priv2wif(uint8_t wiftaddr,char *wifstr,bits256 privkey,uint8_t addrtype) int32_t bitcoin_priv2wif(char *symbol,uint8_t wiftaddr,char *wifstr,bits256 privkey,uint8_t addrtype)
{ {
uint8_t data[128]; int32_t offset,len = 32; uint8_t data[128]; int32_t offset,len = 32;
if ( wiftaddr != 0 ) if ( wiftaddr != 0 )
@ -2209,7 +2282,7 @@ int32_t bitcoin_priv2wif(uint8_t wiftaddr,char *wifstr,bits256 privkey,uint8_t a
} }
memcpy(data+offset,privkey.bytes,len); memcpy(data+offset,privkey.bytes,len);
data[offset + len++] = 1; data[offset + len++] = 1;
len = base58encode_checkbuf(wiftaddr,addrtype,data,len); len = base58encode_checkbuf(symbol,wiftaddr,addrtype,data,len);
if ( bitcoin_base58encode(wifstr,data,len) == 0 ) if ( bitcoin_base58encode(wifstr,data,len) == 0 )
{ {
char str[65]; printf("error making wif from %s\n",bits256_str(str,privkey)); char str[65]; printf("error making wif from %s\n",bits256_str(str,privkey));
@ -2218,7 +2291,7 @@ int32_t bitcoin_priv2wif(uint8_t wiftaddr,char *wifstr,bits256 privkey,uint8_t a
if ( 0 ) if ( 0 )
{ {
uint8_t checktype; bits256 checkpriv; char str[65],str2[65]; uint8_t checktype; bits256 checkpriv; char str[65],str2[65];
if ( bitcoin_wif2priv(wiftaddr,&checktype,&checkpriv,wifstr) == sizeof(bits256) ) if ( bitcoin_wif2priv(symbol,wiftaddr,&checktype,&checkpriv,wifstr) == sizeof(bits256) )
{ {
if ( checktype != addrtype || bits256_cmp(checkpriv,privkey) != 0 ) if ( checktype != addrtype || bits256_cmp(checkpriv,privkey) != 0 )
printf("(%s) -> wif.(%s) addrtype.%02x -> %02x (%s)\n",bits256_str(str,privkey),wifstr,addrtype,checktype,bits256_str(str2,checkpriv)); printf("(%s) -> wif.(%s) addrtype.%02x -> %02x (%s)\n",bits256_str(str,privkey),wifstr,addrtype,checktype,bits256_str(str2,checkpriv));
@ -2227,18 +2300,18 @@ int32_t bitcoin_priv2wif(uint8_t wiftaddr,char *wifstr,bits256 privkey,uint8_t a
return((int32_t)strlen(wifstr)); return((int32_t)strlen(wifstr));
} }
int32_t bitcoin_priv2wiflong(uint8_t wiftaddr,char *wifstr,bits256 privkey,uint8_t addrtype) int32_t bitcoin_priv2wiflong(char *symbol,uint8_t wiftaddr,char *wifstr,bits256 privkey,uint8_t addrtype)
{ {
uint8_t data[128]; int32_t offset,len = 32; uint8_t data[128]; int32_t offset,len = 32;
offset = 1 + (wiftaddr != 0); offset = 1 + (wiftaddr != 0);
memcpy(data+offset,privkey.bytes,sizeof(privkey)); memcpy(data+offset,privkey.bytes,sizeof(privkey));
len = base58encode_checkbuf(wiftaddr,addrtype,data,len); len = base58encode_checkbuf(symbol,wiftaddr,addrtype,data,len);
if ( bitcoin_base58encode(wifstr,data,len) == 0 ) if ( bitcoin_base58encode(wifstr,data,len) == 0 )
return(-1); return(-1);
if ( 0 ) if ( 0 )
{ {
uint8_t checktype; bits256 checkpriv; char str[65],str2[65]; uint8_t checktype; bits256 checkpriv; char str[65],str2[65];
if ( bitcoin_wif2priv(wiftaddr,&checktype,&checkpriv,wifstr) == sizeof(bits256) ) if ( bitcoin_wif2priv(symbol,wiftaddr,&checktype,&checkpriv,wifstr) == sizeof(bits256) )
{ {
if ( checktype != addrtype || bits256_cmp(checkpriv,privkey) != 0 ) if ( checktype != addrtype || bits256_cmp(checkpriv,privkey) != 0 )
printf("(%s) -> wif.(%s) addrtype.%02x -> %02x (%s)\n",bits256_str(str,privkey),wifstr,addrtype,checktype,bits256_str(str2,checkpriv)); printf("(%s) -> wif.(%s) addrtype.%02x -> %02x (%s)\n",bits256_str(str,privkey),wifstr,addrtype,checktype,bits256_str(str2,checkpriv));
@ -2247,11 +2320,11 @@ int32_t bitcoin_priv2wiflong(uint8_t wiftaddr,char *wifstr,bits256 privkey,uint8
return((int32_t)strlen(wifstr)); return((int32_t)strlen(wifstr));
} }
char *_setVsigner(uint8_t wiftaddr,uint8_t pubtype,struct vin_info *V,int32_t ind,char *pubstr,char *wifstr) char *_setVsigner(char *symbol,uint8_t wiftaddr,uint8_t pubtype,struct vin_info *V,int32_t ind,char *pubstr,char *wifstr)
{ {
uint8_t addrtype; uint8_t addrtype;
decode_hex(V->signers[ind].pubkey,(int32_t)strlen(pubstr)/2,pubstr); decode_hex(V->signers[ind].pubkey,(int32_t)strlen(pubstr)/2,pubstr);
bitcoin_wif2priv(wiftaddr,&addrtype,&V->signers[ind].privkey,wifstr); bitcoin_wif2priv(symbol,wiftaddr,&addrtype,&V->signers[ind].privkey,wifstr);
if ( addrtype != pubtype ) if ( addrtype != pubtype )
return(clonestr("{\"error\":\"invalid wifA\"}")); return(clonestr("{\"error\":\"invalid wifA\"}"));
else return(0); else return(0);
@ -2268,7 +2341,7 @@ uint8_t iguana_addrtype(uint8_t pubtype,uint8_t p2shtype,uint8_t script_type)
} }
} }
int32_t iguana_scriptgen(uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,int32_t *Mp,int32_t *nump,char *coinaddr,uint8_t *script,char *asmstr,uint8_t rmd160[20],uint8_t type,const struct vin_info *vp,int32_t txi) int32_t iguana_scriptgen(char *symbol,uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,int32_t *Mp,int32_t *nump,char *coinaddr,uint8_t *script,char *asmstr,uint8_t rmd160[20],uint8_t type,const struct vin_info *vp,int32_t txi)
{ {
uint8_t addrtype; char rmd160str[41],pubkeystr[256]; int32_t plen,i,m,n,flag = 0,scriptlen = 0; uint8_t addrtype; char rmd160str[41],pubkeystr[256]; int32_t plen,i,m,n,flag = 0,scriptlen = 0;
m = n = 0; m = n = 0;
@ -2278,7 +2351,7 @@ int32_t iguana_scriptgen(uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,int32_t
if ( type == IGUANA_SCRIPT_76A988AC || type == IGUANA_SCRIPT_AC || type == IGUANA_SCRIPT_76AC || type == IGUANA_SCRIPT_P2SH ) if ( type == IGUANA_SCRIPT_76A988AC || type == IGUANA_SCRIPT_AC || type == IGUANA_SCRIPT_76AC || type == IGUANA_SCRIPT_P2SH )
{ {
init_hexbytes_noT(rmd160str,rmd160,20); init_hexbytes_noT(rmd160str,rmd160,20);
bitcoin_address(coinaddr,taddr,addrtype,rmd160,20); bitcoin_address(symbol,coinaddr,taddr,addrtype,rmd160,20);
} }
switch ( type ) switch ( type )
{ {
@ -2317,7 +2390,7 @@ int32_t iguana_scriptgen(uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,int32_t
case IGUANA_SCRIPT_OPRETURN: case IGUANA_SCRIPT_OPRETURN:
if ( asmstr != 0 ) if ( asmstr != 0 )
strcpy(asmstr,"OP_RETURN "); strcpy(asmstr,"OP_RETURN ");
bitcoin_address(coinaddr,taddr,addrtype,(uint8_t *)&vp->spendscript[0],vp->spendlen); bitcoin_address(symbol,coinaddr,taddr,addrtype,(uint8_t *)&vp->spendscript[0],vp->spendlen);
flag++; flag++;
break; break;
case IGUANA_SCRIPT_3of3: m = 3, n = 3; break; case IGUANA_SCRIPT_3of3: m = 3, n = 3; break;
@ -2330,13 +2403,13 @@ int32_t iguana_scriptgen(uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,int32_t
case IGUANA_SCRIPT_DATA: case IGUANA_SCRIPT_DATA:
if ( asmstr != 0 ) if ( asmstr != 0 )
strcpy(asmstr,"DATA ONLY"); strcpy(asmstr,"DATA ONLY");
bitcoin_address(coinaddr,taddr,addrtype,(uint8_t *)&vp->spendscript[0],vp->spendlen); bitcoin_address(symbol,coinaddr,taddr,addrtype,(uint8_t *)&vp->spendscript[0],vp->spendlen);
flag++; flag++;
break; break;
case IGUANA_SCRIPT_STRANGE: case IGUANA_SCRIPT_STRANGE:
if ( asmstr != 0 ) if ( asmstr != 0 )
strcpy(asmstr,"STRANGE SCRIPT "); strcpy(asmstr,"STRANGE SCRIPT ");
bitcoin_address(coinaddr,taddr,addrtype,(uint8_t *)&vp->spendscript[0],vp->spendlen); bitcoin_address(symbol,coinaddr,taddr,addrtype,(uint8_t *)&vp->spendscript[0],vp->spendlen);
flag++; flag++;
break; break;
default: break;//printf("unexpected script type.%d\n",type); break; default: break;//printf("unexpected script type.%d\n",type); break;
@ -2344,7 +2417,7 @@ int32_t iguana_scriptgen(uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,int32_t
if ( n > 0 ) if ( n > 0 )
{ {
scriptlen = bitcoin_MofNspendscript(rmd160,script,0,vp); scriptlen = bitcoin_MofNspendscript(rmd160,script,0,vp);
bitcoin_address(coinaddr,taddr,p2shtype,script,scriptlen); bitcoin_address(symbol,coinaddr,taddr,p2shtype,script,scriptlen);
if ( asmstr != 0 ) if ( asmstr != 0 )
{ {
sprintf(asmstr,"%d ",m); sprintf(asmstr,"%d ",m);
@ -2439,11 +2512,11 @@ int32_t bitcoin_scriptget(char *symbol,uint8_t taddr,uint8_t pubtype,uint8_t p2s
} }
if ( *userdatap == p2shscript ) if ( *userdatap == p2shscript )
*userdatap = 0; *userdatap = 0;
vp->spendlen = iguana_scriptgen(taddr,pubtype,p2shtype,&vp->M,&vp->N,vp->coinaddr,vp->spendscript,0,vp->rmd160,vp->type,(const struct vin_info *)vp,vp->vin.prev_vout); vp->spendlen = iguana_scriptgen(symbol,taddr,pubtype,p2shtype,&vp->M,&vp->N,vp->coinaddr,vp->spendscript,0,vp->rmd160,vp->type,(const struct vin_info *)vp,vp->vin.prev_vout);
return(vp->spendlen); return(vp->spendlen);
} }
int32_t _iguana_calcrmd160(uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,struct vin_info *vp) int32_t _iguana_calcrmd160(char *symbol,uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,struct vin_info *vp)
{ {
static uint8_t zero_rmd160[20]; static uint8_t zero_rmd160[20];
char hexstr[8192]; uint8_t *script,type; int32_t i,n,m,plen; char hexstr[8192]; uint8_t *script,type; int32_t i,n,m,plen;
@ -2518,7 +2591,7 @@ int32_t _iguana_calcrmd160(uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,struct
} }
memcpy(vp->signers[i].pubkey,script,plen); memcpy(vp->signers[i].pubkey,script,plen);
calc_rmd160_sha256(vp->signers[i].rmd160,vp->signers[i].pubkey,plen); calc_rmd160_sha256(vp->signers[i].rmd160,vp->signers[i].pubkey,plen);
bitcoin_address(vp->signers[i].coinaddr,taddr,pubtype,vp->signers[i].pubkey,plen); bitcoin_address(symbol,vp->signers[i].coinaddr,taddr,pubtype,vp->signers[i].pubkey,plen);
} }
if ( (int32_t)((long)script - (long)vp->spendscript) == vp->spendlen-2 ) if ( (int32_t)((long)script - (long)vp->spendscript) == vp->spendlen-2 )
{ {
@ -2571,7 +2644,7 @@ int32_t _iguana_calcrmd160(uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,struct
return(type); return(type);
} }
int32_t iguana_calcrmd160(uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,char *asmstr,struct vin_info *vp,uint8_t *pk_script,int32_t pk_scriptlen,bits256 debugtxid,int32_t vout,uint32_t sequence) int32_t iguana_calcrmd160(char *symbol,uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,char *asmstr,struct vin_info *vp,uint8_t *pk_script,int32_t pk_scriptlen,bits256 debugtxid,int32_t vout,uint32_t sequence)
{ {
int32_t scriptlen; uint8_t script[IGUANA_MAXSCRIPTSIZE]; int32_t scriptlen; uint8_t script[IGUANA_MAXSCRIPTSIZE];
memset(vp,0,sizeof(*vp)); memset(vp,0,sizeof(*vp));
@ -2579,9 +2652,9 @@ int32_t iguana_calcrmd160(uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,char *a
vp->spendlen = pk_scriptlen; vp->spendlen = pk_scriptlen;
vp->vin.sequence = sequence; vp->vin.sequence = sequence;
memcpy(vp->spendscript,pk_script,pk_scriptlen); memcpy(vp->spendscript,pk_script,pk_scriptlen);
if ( (vp->type= _iguana_calcrmd160(taddr,pubtype,p2shtype,vp)) >= 0 ) if ( (vp->type= _iguana_calcrmd160(symbol,taddr,pubtype,p2shtype,vp)) >= 0 )
{ {
scriptlen = iguana_scriptgen(taddr,pubtype,p2shtype,&vp->M,&vp->N,vp->coinaddr,script,asmstr,vp->rmd160,vp->type,(const struct vin_info *)vp,vout); scriptlen = iguana_scriptgen(symbol,taddr,pubtype,p2shtype,&vp->M,&vp->N,vp->coinaddr,script,asmstr,vp->rmd160,vp->type,(const struct vin_info *)vp,vout);
if ( vp->M == 0 && vp->N == 0 ) if ( vp->M == 0 && vp->N == 0 )
{ {
vp->M = vp->N = 1; vp->M = vp->N = 1;
@ -2624,11 +2697,11 @@ cJSON *bitcoin_txscript(char *asmstr,char **vardata,int32_t numvars)
return(scriptjson); return(scriptjson);
} }
cJSON *iguana_scriptpubkeys(uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,uint8_t *script,int32_t scriptlen,bits256 txid,int16_t vout,uint32_t sequenceid) cJSON *iguana_scriptpubkeys(char *symbol,uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,uint8_t *script,int32_t scriptlen,bits256 txid,int16_t vout,uint32_t sequenceid)
{ {
int32_t type,i,n,plen; struct vin_info V; cJSON *pubkeys; char pubkeystr[256]; int32_t type,i,n,plen; struct vin_info V; cJSON *pubkeys; char pubkeystr[256];
pubkeys = cJSON_CreateArray(); pubkeys = cJSON_CreateArray();
if ( (type= iguana_calcrmd160(taddr,pubtype,p2shtype,0,&V,script,scriptlen,txid,vout,sequenceid)) >= 0 ) if ( (type= iguana_calcrmd160(symbol,taddr,pubtype,p2shtype,0,&V,script,scriptlen,txid,vout,sequenceid)) >= 0 )
{ {
if ( (n= V.N) == 0 ) if ( (n= V.N) == 0 )
n = 1; n = 1;
@ -2680,7 +2753,7 @@ cJSON *iguana_pubkeysjson(uint8_t *pubkeyptrs[],int32_t numpubkeys)
return(pubkeysjson); return(pubkeysjson);
} }
cJSON *bitcoin_txinput(uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,cJSON *txobj,bits256 txid,int32_t vout,uint32_t sequenceid,uint8_t *spendscript,int32_t spendlen,uint8_t *redeemscript,int32_t p2shlen,uint8_t *pubkeys[],int32_t numpubkeys,uint8_t *sig,int32_t siglen) cJSON *bitcoin_txinput(char *symbol,uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,cJSON *txobj,bits256 txid,int32_t vout,uint32_t sequenceid,uint8_t *spendscript,int32_t spendlen,uint8_t *redeemscript,int32_t p2shlen,uint8_t *pubkeys[],int32_t numpubkeys,uint8_t *sig,int32_t siglen)
{ {
cJSON *item,*vins; char p2shscriptstr[IGUANA_MAXSCRIPTSIZE*2+1]; uint8_t *script,len=0; cJSON *item,*vins; char p2shscriptstr[IGUANA_MAXSCRIPTSIZE*2+1]; uint8_t *script,len=0;
vins = jduplicate(jobj(txobj,"vin")); vins = jduplicate(jobj(txobj,"vin"));
@ -2700,7 +2773,7 @@ cJSON *bitcoin_txinput(uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,cJSON *txo
script = redeemscript, len = p2shlen; script = redeemscript, len = p2shlen;
} else script = 0; } else script = 0;
if ( script != 0 && numpubkeys == 0 ) if ( script != 0 && numpubkeys == 0 )
jadd(item,"pubkeys",iguana_scriptpubkeys(taddr,pubtype,p2shtype,script,len,txid,vout,sequenceid)); jadd(item,"pubkeys",iguana_scriptpubkeys(symbol,taddr,pubtype,p2shtype,script,len,txid,vout,sequenceid));
else if ( pubkeys != 0 && numpubkeys > 0 ) else if ( pubkeys != 0 && numpubkeys > 0 )
jadd(item,"pubkeys",iguana_pubkeysjson(pubkeys,numpubkeys)); jadd(item,"pubkeys",iguana_pubkeysjson(pubkeys,numpubkeys));
jaddbits256(item,"txid",txid); jaddbits256(item,"txid",txid);
@ -2744,12 +2817,12 @@ cJSON *bitcoin_txoutput(cJSON *txobj,uint8_t *paymentscript,int32_t len,uint64_t
return(txobj); return(txobj);
} }
int32_t bitcoin_txaddspend(uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,cJSON *txobj,char *destaddress,uint64_t satoshis) int32_t bitcoin_txaddspend(char *symbol,uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,cJSON *txobj,char *destaddress,uint64_t satoshis)
{ {
uint8_t outputscript[128],addrtype,rmd160[20]; int32_t scriptlen; uint8_t outputscript[128],addrtype,rmd160[20]; int32_t scriptlen;
if ( bitcoin_validaddress(taddr,pubtype,p2shtype,destaddress) == 0 && satoshis != 0 ) if ( bitcoin_validaddress(symbol,taddr,pubtype,p2shtype,destaddress) == 0 && satoshis != 0 )
{ {
bitcoin_addr2rmd160(taddr,&addrtype,rmd160,destaddress); bitcoin_addr2rmd160(symbol,taddr,&addrtype,rmd160,destaddress);
scriptlen = bitcoin_standardspend(outputscript,0,rmd160); scriptlen = bitcoin_standardspend(outputscript,0,rmd160);
bitcoin_txoutput(txobj,outputscript,scriptlen,satoshis); bitcoin_txoutput(txobj,outputscript,scriptlen,satoshis);
return(0); return(0);
@ -3176,7 +3249,7 @@ int32_t iguana_parsevoutobj(uint8_t *serialized,int32_t maxsize,struct iguana_ms
return(len); return(len);
} }
cJSON *iguana_voutjson(uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,struct iguana_msgvout *vout,int32_t txi,bits256 txid) cJSON *iguana_voutjson(char *symbol,uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,struct iguana_msgvout *vout,int32_t txi,bits256 txid)
{ {
// 035f1321ed17d387e4433b2fa229c53616057964af065f98bfcae2233c5108055e OP_CHECKSIG // 035f1321ed17d387e4433b2fa229c53616057964af065f98bfcae2233c5108055e OP_CHECKSIG
char scriptstr[IGUANA_MAXSCRIPTSIZE+1]; int32_t i,m,n,scriptlen,asmtype; struct vin_info *vp; char scriptstr[IGUANA_MAXSCRIPTSIZE+1]; int32_t i,m,n,scriptlen,asmtype; struct vin_info *vp;
@ -3189,10 +3262,10 @@ cJSON *iguana_voutjson(uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,struct igu
if ( vout->pk_script != 0 && vout->pk_scriptlen*2+1 < sizeof(scriptstr) ) if ( vout->pk_script != 0 && vout->pk_scriptlen*2+1 < sizeof(scriptstr) )
{ {
memset(vp,0,sizeof(*vp)); memset(vp,0,sizeof(*vp));
if ( (asmtype= iguana_calcrmd160(taddr,pubtype,p2shtype,0,vp,vout->pk_script,vout->pk_scriptlen,txid,txi,0xffffffff)) >= 0 ) if ( (asmtype= iguana_calcrmd160(symbol,taddr,pubtype,p2shtype,0,vp,vout->pk_script,vout->pk_scriptlen,txid,txi,0xffffffff)) >= 0 )
{ {
skey = cJSON_CreateObject(); skey = cJSON_CreateObject();
scriptlen = iguana_scriptgen(taddr,pubtype,p2shtype,&m,&n,vp->coinaddr,space,0,vp->rmd160,asmtype,vp,txi); scriptlen = iguana_scriptgen(symbol,taddr,pubtype,p2shtype,&m,&n,vp->coinaddr,space,0,vp->rmd160,asmtype,vp,txi);
//if ( asmstr[0] != 0 ) //if ( asmstr[0] != 0 )
// jaddstr(skey,"asm",asmstr); // jaddstr(skey,"asm",asmstr);
addrs = cJSON_CreateArray(); addrs = cJSON_CreateArray();
@ -3320,11 +3393,12 @@ bits256 bitcoin_sigtxid(char *symbol,uint8_t taddr,uint8_t pubtype,uint8_t p2sht
len += iguana_rwnum(1,&serialized[len],sizeof(hashtype),&hashtype); len += iguana_rwnum(1,&serialized[len],sizeof(hashtype),&hashtype);
if ( sbtcflag != 0 ) if ( sbtcflag != 0 )
{ {
serialized[len++] = 4;
memcpy(&serialized[len],"sbtc",4); memcpy(&serialized[len],"sbtc",4);
len += 4; len += 4;
} }
} }
revsigtxid = bits256_doublesha256(0,serialized,len); revsigtxid = bits256_calctxid(symbol,serialized,len);
for (i=0; i<sizeof(revsigtxid); i++) for (i=0; i<sizeof(revsigtxid); i++)
sigtxid.bytes[31-i] = revsigtxid.bytes[i]; sigtxid.bytes[31-i] = revsigtxid.bytes[i];
} }
@ -3499,7 +3573,7 @@ uint32_t LP_sighash(char *symbol,int32_t zcash)
int32_t iguana_rwmsgtx(char *symbol,uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,uint8_t isPoS,int32_t height,int32_t rwflag,cJSON *json,uint8_t *serialized,int32_t maxsize,struct iguana_msgtx *msg,bits256 *txidp,char *vpnstr,uint8_t *extraspace,int32_t extralen,cJSON *vins,int32_t suppress_pubkeys,int32_t zcash) int32_t iguana_rwmsgtx(char *symbol,uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,uint8_t isPoS,int32_t height,int32_t rwflag,cJSON *json,uint8_t *serialized,int32_t maxsize,struct iguana_msgtx *msg,bits256 *txidp,char *vpnstr,uint8_t *extraspace,int32_t extralen,cJSON *vins,int32_t suppress_pubkeys,int32_t zcash)
{ {
int32_t i,j,n,segtxlen,len = 0,extraused=0; uint32_t tmp,segitems; uint8_t *segtx=0,segwitflag=0,spendscript[IGUANA_MAXSCRIPTSIZE],*txstart = serialized,*sigser=0; char txidstr[65]; uint64_t spendamount; cJSON *vinarray=0,*voutarray=0; bits256 sigtxid; int32_t i,j,n,segtxlen,len = 0,extraused=0; uint32_t tmp,segitems; uint8_t *segtx=0,segwitflag=0,spendscript[IGUANA_MAXSCRIPTSIZE],*txstart = serialized,*sigser=0; uint64_t spendamount; cJSON *vinarray=0,*voutarray=0; bits256 sigtxid;
len += iguana_rwnum(rwflag,&serialized[len],sizeof(msg->version),&msg->version); len += iguana_rwnum(rwflag,&serialized[len],sizeof(msg->version),&msg->version);
if ( json != 0 ) if ( json != 0 )
@ -3600,7 +3674,7 @@ int32_t iguana_rwmsgtx(char *symbol,uint8_t taddr,uint8_t pubtype,uint8_t p2shty
return(-1); return(-1);
} }
if ( voutarray != 0 ) if ( voutarray != 0 )
jaddi(voutarray,iguana_voutjson(taddr,pubtype,p2shtype,&msg->vouts[i],i,*txidp)); jaddi(voutarray,iguana_voutjson(symbol,taddr,pubtype,p2shtype,&msg->vouts[i],i,*txidp));
} }
if ( segwitflag != 0 ) if ( segwitflag != 0 )
{ {
@ -3631,7 +3705,7 @@ int32_t iguana_rwmsgtx(char *symbol,uint8_t taddr,uint8_t pubtype,uint8_t p2shty
//printf("), "); //printf("), ");
} }
memcpy(&segtx[segtxlen-sizeof(int32_t)],&serialized[len],sizeof(int32_t)); memcpy(&segtx[segtxlen-sizeof(int32_t)],&serialized[len],sizeof(int32_t));
*txidp = bits256_doublesha256(0,segtx,segtxlen); *txidp = bits256_calctxid(symbol,segtx,segtxlen);
free(segtx); free(segtx);
//char str[65]; printf("witness sum %d vs max.%d txid %s\n",len,maxsize,bits256_str(str,txid)); //char str[65]; printf("witness sum %d vs max.%d txid %s\n",len,maxsize,bits256_str(str,txid));
} }
@ -3692,7 +3766,7 @@ int32_t iguana_rwmsgtx(char *symbol,uint8_t taddr,uint8_t pubtype,uint8_t p2shty
jaddnum(json,"numvouts",msg->tx_out); jaddnum(json,"numvouts",msg->tx_out);
} }
if ( segwitflag == 0 ) if ( segwitflag == 0 )
*txidp = bits256_doublesha256(txidstr,txstart,len); *txidp = bits256_calctxid(symbol,txstart,len);
if ( json != 0 ) if ( json != 0 )
{ {
jaddnum(json,"locktime",msg->lock_time); jaddnum(json,"locktime",msg->lock_time);
@ -3704,7 +3778,7 @@ int32_t iguana_rwmsgtx(char *symbol,uint8_t taddr,uint8_t pubtype,uint8_t p2shty
return(len); return(len);
} }
bits256 iguana_parsetxobj(uint8_t isPoS,int32_t *txstartp,uint8_t *serialized,int32_t maxsize,struct iguana_msgtx *msg,cJSON *txobj,struct vin_info *V) bits256 iguana_parsetxobj(char *symbol,uint8_t isPoS,int32_t *txstartp,uint8_t *serialized,int32_t maxsize,struct iguana_msgtx *msg,cJSON *txobj,struct vin_info *V)
{ {
int32_t i,n,numvins,numvouts,len = 0,rwflag=1; cJSON *array=0; bits256 txid; char vpnstr[64]; int32_t i,n,numvins,numvouts,len = 0,rwflag=1; cJSON *array=0; bits256 txid; char vpnstr[64];
memset(&txid,0,sizeof(txid)); memset(&txid,0,sizeof(txid));
@ -3766,7 +3840,7 @@ bits256 iguana_parsetxobj(uint8_t isPoS,int32_t *txstartp,uint8_t *serialized,in
//msg->txid = jbits256(txobj,"txid"); //msg->txid = jbits256(txobj,"txid");
*txstartp = 0; *txstartp = 0;
msg->allocsize = len; msg->allocsize = len;
msg->txid = txid = bits256_doublesha256(0,serialized,len); msg->txid = txid = bits256_calctxid(symbol,serialized,len);
return(txid); return(txid);
} }
@ -3785,7 +3859,7 @@ char *iguana_rawtxbytes(char *symbol,uint8_t taddr,uint8_t pubtype,uint8_t p2sht
return(txbytes); return(txbytes);
} }
char *bitcoin_json2hex(uint8_t isPoS,bits256 *txidp,cJSON *txjson,struct vin_info *V) char *bitcoin_json2hex(char *symbol,uint8_t isPoS,bits256 *txidp,cJSON *txjson,struct vin_info *V)
{ {
int32_t txstart; uint8_t *serialized; struct iguana_msgtx msgtx; char *txbytes = 0; int32_t txstart; uint8_t *serialized; struct iguana_msgtx msgtx; char *txbytes = 0;
if ( txjson == 0 ) if ( txjson == 0 )
@ -3794,7 +3868,7 @@ char *bitcoin_json2hex(uint8_t isPoS,bits256 *txidp,cJSON *txjson,struct vin_inf
return(0); return(0);
} }
serialized = malloc(IGUANA_MAXPACKETSIZE*1.5); serialized = malloc(IGUANA_MAXPACKETSIZE*1.5);
*txidp = iguana_parsetxobj(isPoS,&txstart,serialized,IGUANA_MAXPACKETSIZE*1.5,&msgtx,txjson,V); *txidp = iguana_parsetxobj(symbol,isPoS,&txstart,serialized,IGUANA_MAXPACKETSIZE*1.5,&msgtx,txjson,V);
if ( msgtx.allocsize > 0 ) if ( msgtx.allocsize > 0 )
{ {
txbytes = malloc(msgtx.allocsize*2 + 1); txbytes = malloc(msgtx.allocsize*2 + 1);

6
iguana/exchanges/LP_cache.c

@ -117,7 +117,7 @@ int32_t LP_cacheitem(struct iguana_info *coin,FILE *fp)
serialized = malloc(len); serialized = malloc(len);
if ( (retval= (int32_t)fread(serialized,1,len,fp)) == len ) if ( (retval= (int32_t)fread(serialized,1,len,fp)) == len )
{ {
hash = bits256_doublesha256(0,serialized,len); hash = bits256_calctxid(coin->symbol,serialized,len);
if ( bits256_cmp(hash,txid) == 0 ) if ( bits256_cmp(hash,txid) == 0 )
{ {
//printf("%s validated in cache\n",bits256_str(str,hash)); //printf("%s validated in cache\n",bits256_str(str,hash));
@ -159,7 +159,7 @@ void LP_cacheptrs_init(struct iguana_info *coin)
OS_truncate(fname,len); OS_truncate(fname,len);
} }
bits256 iguana_merkle(bits256 *tree,int32_t txn_count) bits256 iguana_merkle(char *symbol,bits256 *tree,int32_t txn_count)
{ {
int32_t i,n=0,prev; uint8_t serialized[sizeof(bits256) * 2]; int32_t i,n=0,prev; uint8_t serialized[sizeof(bits256) * 2];
if ( txn_count == 1 ) if ( txn_count == 1 )
@ -174,7 +174,7 @@ bits256 iguana_merkle(bits256 *tree,int32_t txn_count)
{ {
iguana_rwbignum(1,serialized,sizeof(*tree),tree[prev + i].bytes); iguana_rwbignum(1,serialized,sizeof(*tree),tree[prev + i].bytes);
iguana_rwbignum(1,&serialized[sizeof(*tree)],sizeof(*tree),tree[prev + i + 1].bytes); iguana_rwbignum(1,&serialized[sizeof(*tree)],sizeof(*tree),tree[prev + i + 1].bytes);
tree[n + (i >> 1)] = bits256_doublesha256(0,serialized,sizeof(serialized)); tree[n + (i >> 1)] = bits256_calctxid(symbol,serialized,sizeof(serialized));
} }
prev = n; prev = n;
txn_count >>= 1; txn_count >>= 1;

16
iguana/exchanges/LP_coins.c

@ -77,7 +77,7 @@ uint16_t LP_userpassfp(char *symbol,char *username,char *password,FILE *fp)
if ( str != 0 ) if ( str != 0 )
{ {
port = atoi(str); port = atoi(str);
//printf("RPCPORT.%u\n",port); printf("found RPCPORT.%u\n",port);
free(str); free(str);
} }
} }
@ -209,7 +209,7 @@ uint16_t LP_userpass(char *userpass,char *symbol,char *assetname,char *confroot,
printf("LP_statefname.(%s) <- %s %s %s (%s) (%s)\n",fname,name,symbol,assetname,userpass,confpath); printf("LP_statefname.(%s) <- %s %s %s (%s) (%s)\n",fname,name,symbol,assetname,userpass,confpath);
return(port); return(port);
} else printf("cant open.(%s)\n",fname); } else printf("cant open.(%s)\n",fname);
return(0); return(origport);
} }
cJSON *LP_coinjson(struct iguana_info *coin,int32_t showwif) cJSON *LP_coinjson(struct iguana_info *coin,int32_t showwif)
@ -218,8 +218,8 @@ cJSON *LP_coinjson(struct iguana_info *coin,int32_t showwif)
jaddstr(item,"coin",coin->symbol); jaddstr(item,"coin",coin->symbol);
if ( showwif != 0 ) if ( showwif != 0 )
{ {
bitcoin_priv2wif(coin->wiftaddr,wifstr,G.LP_privkey,coin->wiftype); bitcoin_priv2wif(coin->symbol,coin->wiftaddr,wifstr,G.LP_privkey,coin->wiftype);
bitcoin_wif2priv(coin->wiftaddr,&tmptype,&checkkey,wifstr); bitcoin_wif2priv(coin->symbol,coin->wiftaddr,&tmptype,&checkkey,wifstr);
if ( bits256_cmp(G.LP_privkey,checkkey) == 0 ) if ( bits256_cmp(G.LP_privkey,checkkey) == 0 )
jaddstr(item,"wif",wifstr); jaddstr(item,"wif",wifstr);
else jaddstr(item,"wif","error creating wif"); else jaddstr(item,"wif","error creating wif");
@ -351,7 +351,7 @@ struct iguana_info *LP_coinadd(struct iguana_info *cdata)
uint16_t LP_coininit(struct iguana_info *coin,char *symbol,char *name,char *assetname,int32_t isPoS,uint16_t port,uint8_t pubtype,uint8_t p2shtype,uint8_t wiftype,uint64_t txfee,double estimatedrate,int32_t longestchain,uint8_t wiftaddr,uint8_t taddr,uint16_t busport,char *confpath) uint16_t LP_coininit(struct iguana_info *coin,char *symbol,char *name,char *assetname,int32_t isPoS,uint16_t port,uint8_t pubtype,uint8_t p2shtype,uint8_t wiftype,uint64_t txfee,double estimatedrate,int32_t longestchain,uint8_t wiftaddr,uint8_t taddr,uint16_t busport,char *confpath)
{ {
static void *ctx; static void *ctx;
char *name2; char *name2; uint16_t origport = port;
memset(coin,0,sizeof(*coin)); memset(coin,0,sizeof(*coin));
safecopy(coin->symbol,symbol,sizeof(coin->symbol)); safecopy(coin->symbol,symbol,sizeof(coin->symbol));
if ( strcmp(symbol,"PART") == 0 ) if ( strcmp(symbol,"PART") == 0 )
@ -389,6 +389,8 @@ uint16_t LP_coininit(struct iguana_info *coin,char *symbol,char *name,char *asse
port = LP_userpass(coin->userpass,symbol,assetname,name,name2,confpath,port); port = LP_userpass(coin->userpass,symbol,assetname,name,name2,confpath,port);
#endif #endif
sprintf(coin->serverport,"127.0.0.1:%u",port); sprintf(coin->serverport,"127.0.0.1:%u",port);
if ( port != origport )
printf("set curl path for %s to %s\n",symbol,coin->serverport);
if ( strcmp(symbol,"KMD") == 0 || coin->isassetchain != 0 || taddr != 0 ) if ( strcmp(symbol,"KMD") == 0 || coin->isassetchain != 0 || taddr != 0 )
coin->zcash = LP_IS_ZCASHPROTOCOL; coin->zcash = LP_IS_ZCASHPROTOCOL;
else if ( strcmp(symbol,"BCH") == 0 ) else if ( strcmp(symbol,"BCH") == 0 )
@ -517,7 +519,7 @@ void LP_otheraddress(char *destcoin,char *otheraddr,char *srccoin,char *coinaddr
uint8_t addrtype,rmd160[20]; struct iguana_info *src,*dest; uint8_t addrtype,rmd160[20]; struct iguana_info *src,*dest;
if ( (src= LP_coinfind(srccoin)) != 0 && (dest= LP_coinfind(destcoin)) != 0 ) if ( (src= LP_coinfind(srccoin)) != 0 && (dest= LP_coinfind(destcoin)) != 0 )
{ {
bitcoin_addr2rmd160(src->taddr,&addrtype,rmd160,coinaddr); bitcoin_addr2rmd160(srccoin,src->taddr,&addrtype,rmd160,coinaddr);
bitcoin_address(otheraddr,dest->taddr,dest->pubtype,rmd160,20); bitcoin_address(destcoin,otheraddr,dest->taddr,dest->pubtype,rmd160,20);
} else printf("couldnt find %s or %s\n",srccoin,destcoin); } else printf("couldnt find %s or %s\n",srccoin,destcoin);
} }

22
iguana/exchanges/LP_commands.c

@ -140,6 +140,7 @@ balances(address)\n\
fundvalue(address="", holdings=[], divisor=0)\n\ fundvalue(address="", holdings=[], divisor=0)\n\
orderbook(base, rel, duration=3600)\n\ orderbook(base, rel, duration=3600)\n\
getprices()\n\ getprices()\n\
getmyprice(base, rel)\n\
getprice(base, rel)\n\ getprice(base, rel)\n\
//sendmessage(base=coin, rel="", pubkey=zero, <argjson method2>)\n\ //sendmessage(base=coin, rel="", pubkey=zero, <argjson method2>)\n\
//getmessages(firsti=0, num=100)\n\ //getmessages(firsti=0, num=100)\n\
@ -210,9 +211,9 @@ jpg(srcfile, destfile, power2=7, passphrase, data="", required)\n\
jaddbits256(retjson,"mypubkey",G.LP_mypub25519); jaddbits256(retjson,"mypubkey",G.LP_mypub25519);
init_hexbytes_noT(pub33str,G.LP_pubsecp,33); init_hexbytes_noT(pub33str,G.LP_pubsecp,33);
jaddstr(retjson,"pubsecp",pub33str); jaddstr(retjson,"pubsecp",pub33str);
bitcoin_address(coinaddr,0,60,G.LP_myrmd160,20); bitcoin_address("KMD",coinaddr,0,60,G.LP_myrmd160,20);
jaddstr(retjson,"KMD",coinaddr); jaddstr(retjson,"KMD",coinaddr);
bitcoin_address(coinaddr,0,0,G.LP_myrmd160,20); bitcoin_address("BTC",coinaddr,0,0,G.LP_myrmd160,20);
jaddstr(retjson,"BTC",coinaddr); jaddstr(retjson,"BTC",coinaddr);
jaddstr(retjson,"NXT",G.LP_NXTaddr); jaddstr(retjson,"NXT",G.LP_NXTaddr);
jadd(retjson,"coins",LP_coinsjson(LP_showwif)); jadd(retjson,"coins",LP_coinsjson(LP_showwif));
@ -654,12 +655,21 @@ jpg(srcfile, destfile, power2=7, passphrase, data="", required)\n\
return(jprint(LP_balances(jstr(argjson,"address")),1)); return(jprint(LP_balances(jstr(argjson,"address")),1));
else if ( strcmp(method,"fundvalue") == 0 ) else if ( strcmp(method,"fundvalue") == 0 )
return(jprint(LP_fundvalue(argjson),1)); return(jprint(LP_fundvalue(argjson),1));
else if ( strcmp(method,"getprice") == 0 ) else if ( strcmp(method,"getprice") == 0 || strcmp(method,"getmyprice") == 0 )
{ {
double price,bid,ask; double price,bid,ask;
ask = LP_price(base,rel); if ( strcmp(method,"getprice") == 0 )
if ( (bid= LP_price(rel,base)) > SMALLVAL ) {
bid = 1./bid; ask = LP_price(base,rel);
if ( (bid= LP_price(rel,base)) > SMALLVAL )
bid = 1./bid;
}
else
{
ask = LP_getmyprice(base,rel);
if ( (bid= LP_getmyprice(rel,base)) > SMALLVAL )
bid = 1./bid;
}
price = _pairaved(bid,ask); price = _pairaved(bid,ask);
retjson = cJSON_CreateObject(); retjson = cJSON_CreateObject();
jaddstr(retjson,"result","success"); jaddstr(retjson,"result","success");

16
iguana/exchanges/LP_include.h

@ -21,6 +21,10 @@
#ifndef LP_INCLUDE_H #ifndef LP_INCLUDE_H
#define LP_INCLUDE_H #define LP_INCLUDE_H
#ifndef LP_TECHSUPPORT
#define LP_TECHSUPPORT 0
#endif
#ifdef FROMGUI #ifdef FROMGUI
#define printf dontprintf #define printf dontprintf
@ -29,7 +33,7 @@ voind dontprintf(char *formatstr,...) {}
#define LP_MAJOR_VERSION "0" #define LP_MAJOR_VERSION "0"
#define LP_MINOR_VERSION "1" #define LP_MINOR_VERSION "1"
#define LP_BUILD_NUMBER "17752" #define LP_BUILD_NUMBER "17763"
#define LP_BARTERDEX_VERSION 1 #define LP_BARTERDEX_VERSION 1
#define LP_MAGICBITS 1 #define LP_MAGICBITS 1
@ -90,7 +94,7 @@ void emscripten_usleep(int32_t x); // returns immediate, no sense for sleeping
#define LP_PEERGOOD_ERRORDECAY 0.9 #define LP_PEERGOOD_ERRORDECAY 0.9
#define LP_SWAPSTEP_TIMEOUT 30 #define LP_SWAPSTEP_TIMEOUT 30
#define LP_MIN_TXFEE 10000 #define LP_MIN_TXFEE 1000
#define LP_MINVOL 20 #define LP_MINVOL 20
#define LP_MINCLIENTVOL 200 #define LP_MINCLIENTVOL 200
#define LP_MINSIZE_TXFEEMULT 10 #define LP_MINSIZE_TXFEEMULT 10
@ -349,7 +353,7 @@ struct LP_address
int64_t balance,total,instantdex_credits; int64_t balance,total,instantdex_credits;
uint32_t timestamp,n,unspenttime; uint32_t timestamp,n,unspenttime;
int32_t unspentheight; int32_t unspentheight;
char coinaddr[40]; char coinaddr[64];
uint8_t pubsecp[33],didinstantdex; uint8_t pubsecp[33],didinstantdex;
}; };
@ -554,6 +558,10 @@ struct LP_address *LP_addressfind(struct iguana_info *coin,char *coinaddr);
int64_t LP_outpoint_amount(char *symbol,bits256 txid,int32_t vout); int64_t LP_outpoint_amount(char *symbol,bits256 txid,int32_t vout);
void LP_listunspent_query(char *symbol,char *coinaddr); void LP_listunspent_query(char *symbol,char *coinaddr);
int32_t bitcoin_priv2wif(uint8_t wiftaddr,char *wifstr,bits256 privkey,uint8_t addrtype); int32_t bitcoin_priv2wif(char *symbol,uint8_t wiftaddr,char *wifstr,bits256 privkey,uint8_t addrtype);
int bech32_convert_bits(uint8_t *out,int32_t *outlen,int outbits,const uint8_t *in,int32_t inlen,int inbits,int pad);
int bech32_decode(char *hrp,uint8_t *data,int32_t *data_len,const char *input);
int bech32_encode(char *output,const char *hrp,const uint8_t *data,int32_t data_len);
void HashGroestl(void * buf, const void * pbegin, int len);
#endif #endif

20
iguana/exchanges/LP_instantdex.c

@ -153,12 +153,12 @@ void LP_instantdex_depositadd(char *coinaddr,bits256 txid)
LP_instantdex_filescreate(coinaddr); LP_instantdex_filescreate(coinaddr);
} }
int32_t LP_deposit_addr(char *p2shaddr,uint8_t *script,uint8_t taddr,uint8_t p2shtype,uint32_t timestamp,uint8_t *pubsecp33) int32_t LP_deposit_addr(char *symbol,char *p2shaddr,uint8_t *script,uint8_t taddr,uint8_t p2shtype,uint32_t timestamp,uint8_t *pubsecp33)
{ {
uint8_t elsepub33[33],p2sh_rmd160[20]; int32_t n; uint8_t elsepub33[33],p2sh_rmd160[20]; int32_t n;
decode_hex(elsepub33,33,BOTS_BONDPUBKEY33); decode_hex(elsepub33,33,BOTS_BONDPUBKEY33);
n = bitcoin_performancebond(p2sh_rmd160,script,0,timestamp,pubsecp33,elsepub33); n = bitcoin_performancebond(p2sh_rmd160,script,0,timestamp,pubsecp33,elsepub33);
bitcoin_address(p2shaddr,taddr,p2shtype,script,n); bitcoin_address(symbol,p2shaddr,taddr,p2shtype,script,n);
return(n); return(n);
} }
@ -181,7 +181,7 @@ char *LP_instantdex_deposit(struct iguana_info *coin,int32_t weeks,double amount
if ( weeks >= 10000 ) if ( weeks >= 10000 )
return(clonestr("{\"error\":\"numweeks must be less than 10000\"}")); return(clonestr("{\"error\":\"numweeks must be less than 10000\"}"));
} else timestamp = (uint32_t)time(NULL) + 300, weeki = 0; } else timestamp = (uint32_t)time(NULL) + 300, weeki = 0;
scriptlen = LP_deposit_addr(p2shaddr,script,coin->taddr,coin->p2shtype,timestamp,G.LP_pubsecp); scriptlen = LP_deposit_addr(coin->symbol,p2shaddr,script,coin->taddr,coin->p2shtype,timestamp,G.LP_pubsecp);
argjson = cJSON_CreateObject(); argjson = cJSON_CreateObject();
array = cJSON_CreateArray(); array = cJSON_CreateArray();
item = cJSON_CreateObject(); item = cJSON_CreateObject();
@ -306,7 +306,7 @@ int32_t LP_claim_submit(void *ctx,cJSON *txids,int64_t *sump,struct iguana_info
if ( iter == 1 ) if ( iter == 1 )
expiration = ((weeki * LP_WEEKMULTBAD + j*3600) + LP_FIRSTWEEKTIME); expiration = ((weeki * LP_WEEKMULTBAD + j*3600) + LP_FIRSTWEEKTIME);
else expiration = ((weeki * LP_WEEKMULT + j*3600) + LP_FIRSTWEEKTIME); else expiration = ((weeki * LP_WEEKMULT + j*3600) + LP_FIRSTWEEKTIME);
redeemlen = LP_deposit_addr(checkaddr,redeemscript,coin->taddr,coin->p2shtype,expiration,G.LP_pubsecp); redeemlen = LP_deposit_addr(coin->symbol,checkaddr,redeemscript,coin->taddr,coin->p2shtype,expiration,G.LP_pubsecp);
if ( strcmp(checkaddr,vinaddr) == 0 ) if ( strcmp(checkaddr,vinaddr) == 0 )
{ {
flagi = 1; flagi = 1;
@ -471,7 +471,7 @@ int64_t LP_dynamictrust(int64_t credits,bits256 pubkey,int64_t kmdvalue)
struct LP_pubswap *ptr,*tmp; struct LP_swapstats *sp; struct LP_pubkey_info *pubp; struct LP_address *ap; char coinaddr[64]; struct iguana_info *coin; int64_t swaps_kmdvalue = 0; struct LP_pubswap *ptr,*tmp; struct LP_swapstats *sp; struct LP_pubkey_info *pubp; struct LP_address *ap; char coinaddr[64]; struct iguana_info *coin; int64_t swaps_kmdvalue = 0;
if ( (coin= LP_coinfind("KMD")) != 0 && (pubp= LP_pubkeyfind(pubkey)) != 0 ) if ( (coin= LP_coinfind("KMD")) != 0 && (pubp= LP_pubkeyfind(pubkey)) != 0 )
{ {
bitcoin_address(coinaddr,coin->taddr,coin->pubtype,pubp->pubsecp,33); bitcoin_address(coin->symbol,coinaddr,coin->taddr,coin->pubtype,pubp->pubsecp,33);
DL_FOREACH_SAFE(pubp->bobswaps,ptr,tmp) DL_FOREACH_SAFE(pubp->bobswaps,ptr,tmp)
{ {
if ( (sp= ptr->swap) != 0 && LP_swap_finished(sp,1) == 0 ) if ( (sp= ptr->swap) != 0 && LP_swap_finished(sp,1) == 0 )
@ -499,7 +499,7 @@ int64_t LP_dynamictrust(int64_t credits,bits256 pubkey,int64_t kmdvalue)
printf("unfinished alice %llu r%u-r%u src.%s %.8f dest.%s %.8f -> price %.8f value %.8f\n",(long long)sp->aliceid,sp->Q.R.requestid,sp->Q.R.quoteid,sp->Q.srccoin,dstr(sp->Q.satoshis),sp->Q.destcoin,dstr(sp->Q.destsatoshis),(double)sp->Q.destsatoshis/(sp->Q.satoshis+1),dstr(LP_kmdvalue(sp->Q.destcoin,sp->Q.destsatoshis))); printf("unfinished alice %llu r%u-r%u src.%s %.8f dest.%s %.8f -> price %.8f value %.8f\n",(long long)sp->aliceid,sp->Q.R.requestid,sp->Q.R.quoteid,sp->Q.srccoin,dstr(sp->Q.satoshis),sp->Q.destcoin,dstr(sp->Q.destsatoshis),(double)sp->Q.destsatoshis/(sp->Q.satoshis+1),dstr(LP_kmdvalue(sp->Q.destcoin,sp->Q.destsatoshis)));
} }
} }
printf("REJECT: %s instantdex_credits %.8f vs (%.8f + current %.8f)\n",coinaddr,dstr(credits),dstr(swaps_kmdvalue),dstr(kmdvalue)); //printf("REJECT: %s instantdex_credits %.8f vs (%.8f + current %.8f)\n",coinaddr,dstr(credits),dstr(swaps_kmdvalue),dstr(kmdvalue));
} }
if ( 0 && credits != 0 ) if ( 0 && credits != 0 )
printf("%s %s othercredits %.8f debits %.8f + %.8f -> %.8f\n",coin->symbol,coinaddr,dstr(credits),dstr(swaps_kmdvalue),dstr(kmdvalue),dstr(credits - (swaps_kmdvalue+kmdvalue))); printf("%s %s othercredits %.8f debits %.8f + %.8f -> %.8f\n",coin->symbol,coinaddr,dstr(credits),dstr(swaps_kmdvalue),dstr(kmdvalue),dstr(credits - (swaps_kmdvalue+kmdvalue)));
@ -508,13 +508,13 @@ int64_t LP_dynamictrust(int64_t credits,bits256 pubkey,int64_t kmdvalue)
return(0); return(0);
} }
int64_t LP_instantdex_proofcheck(char *coinaddr,cJSON *proof,int32_t num) int64_t LP_instantdex_proofcheck(char *symbol,char *coinaddr,cJSON *proof,int32_t num)
{ {
uint8_t rmd160[20],addrtype; int64_t credits=0; int32_t i,j; bits256 prevtxid,txid; char othersmartaddr[64]; struct iguana_info *coin; struct LP_address *ap = 0; uint8_t rmd160[20],addrtype; int64_t credits=0; int32_t i,j; bits256 prevtxid,txid; char othersmartaddr[64]; struct iguana_info *coin; struct LP_address *ap = 0;
if ( (coin= LP_coinfind("KMD")) != 0 ) if ( (coin= LP_coinfind("KMD")) != 0 )
{ {
bitcoin_addr2rmd160(0,&addrtype,rmd160,coinaddr); bitcoin_addr2rmd160(symbol,0,&addrtype,rmd160,coinaddr);
bitcoin_address(othersmartaddr,0,60,rmd160,20); bitcoin_address("KMD",othersmartaddr,0,60,rmd160,20);
//printf("proofcheck addrtype.%d (%s) -> %s\n",addrtype,coinaddr,othersmartaddr); //printf("proofcheck addrtype.%d (%s) -> %s\n",addrtype,coinaddr,othersmartaddr);
if ((ap= LP_address(coin,othersmartaddr)) != 0 ) if ((ap= LP_address(coin,othersmartaddr)) != 0 )
{ {
@ -547,7 +547,7 @@ int64_t LP_myzcredits()
{ {
if ( (proof= LP_instantdex_txids(0,coin->smartaddr)) != 0 ) if ( (proof= LP_instantdex_txids(0,coin->smartaddr)) != 0 )
{ {
zcredits = LP_instantdex_proofcheck(coin->smartaddr,proof,cJSON_GetArraySize(proof)); zcredits = LP_instantdex_proofcheck(coin->symbol,coin->smartaddr,proof,cJSON_GetArraySize(proof));
free_json(proof); free_json(proof);
return(zcredits); return(zcredits);
} }

82
iguana/exchanges/LP_nativeDEX.c

@ -710,6 +710,78 @@ int32_t LP_mainloop_iter(void *ctx,char *myipaddr,struct LP_peerinfo *mypeer,int
return(nonz); return(nonz);
} }
int my_strncasecmp(const char *s1,const char *s2,size_t n)
{
size_t i = 0;
while ( i < n )
{
char c1 = s1[i];
char c2 = s2[i];
if ( c1 >= 'A' && c1 <= 'Z')
c1 = (c1 - 'A') + 'a';
if ( c2 >= 'A' && c2 <= 'Z')
c2 = (c2 - 'A') + 'a';
if ( c1 < c2 )
return(-1);
if ( c1 > c2 )
return(1);
if ( c1 == 0 )
return(0);
++i;
}
return(0);
}
void bech32_tests()
{
//char *test = "an83characterlonghumanreadablepartthatcontainsthenumber1andtheexcludedcharactersbio1tt5tgs";
//char *test = "bitcoincash:qpm2qsznhks23z7629mms6s4cwef74vcwvy22gdx6a";
char *test = "bitcoincash:qr95sy3j9xwd2ap32xkykttr4cvcu7as4y0qverfuy";
//char *test = "prefix:x64nx6hz";
uint8_t data[82],data2[64],rmd160[21],addrtype; char rebuild[92],hrp[84]; int32_t data_len,data_len2; int32_t i;
if ( bech32_decode(hrp,data,&data_len,test) == 0 )
{
printf("bech32_decode fails: '%s'\n",test);
}
else
{
bitcoin_addr2rmd160("BCH",0,&addrtype,rmd160,"qr95sy3j9xwd2ap32xkykttr4cvcu7as4y0qverfuy");
for (i=0; i<20; i++)
printf("%02x",rmd160[i]);
printf("addr2rmd160 %d\n",addrtype);
data_len2 = 0;
if ( bech32_convert_bits(data2,&data_len2,8,data,data_len,5,0) == 0 )
printf("error converting data5\n");
for (i=0; i<data_len2; i++)
printf("%02x",data2[i]);
printf(" compacted 5's -> %d\n",data_len2);
bitcoin_addr2rmd160("BTC",0,&addrtype,rmd160+1,"1KXrWXciRDZUpQwQmuM1DbwsKDLYAYsVLR");
for (i=0; i<data_len; i++)
printf("%02x",data[i]);
printf(" datalen.%d <- %s (%s) -> ",(int32_t)data_len,test,"1KXrWXciRDZUpQwQmuM1DbwsKDLYAYsVLR");
for (i=0; i<20; i++)
printf("%02x",rmd160[i+1]);
printf("\n");
}
data_len2 = 0;
rmd160[0] = (0 << 3);
bech32_convert_bits(data2,&data_len2,5,rmd160,21,8,1);
for (i=0; i<data_len2; i++)
printf("%02x",data2[i]);
printf(" converted bits.%d\n",(int32_t)data_len2);
if ( bech32_encode(rebuild,hrp,data2,data_len2) == 0 )
{
for (i=0; i<data_len; i++)
printf("%02x",data[i]);
printf(" bech32_encode fails: '%s' -> hrp.(%s) datalen.%d\n",test,hrp,(int32_t)data_len);
}
if ( my_strncasecmp(rebuild,test,92))
{
printf("bech32_encode produces incorrect result: '%s'\n",test);
}
printf("end of bech32 tests\n");
}
void LP_initcoins(void *ctx,int32_t pubsock,cJSON *coins) void LP_initcoins(void *ctx,int32_t pubsock,cJSON *coins)
{ {
int32_t i,n,notarized; cJSON *item; char *symbol; struct iguana_info *coin; int32_t i,n,notarized; cJSON *item; char *symbol; struct iguana_info *coin;
@ -752,6 +824,10 @@ void LP_initcoins(void *ctx,int32_t pubsock,cJSON *coins)
else LP_unspents_load(coin->symbol,coin->smartaddr); else LP_unspents_load(coin->symbol,coin->smartaddr);
if ( coin->txfee == 0 && strcmp(coin->symbol,"BTC") != 0 ) if ( coin->txfee == 0 && strcmp(coin->symbol,"BTC") != 0 )
coin->txfee = LP_MIN_TXFEE; coin->txfee = LP_MIN_TXFEE;
if ( 0 && strcmp(coin->symbol,"BCH") == 0 )
{
bech32_tests();
}
} }
} }
} }
@ -911,7 +987,7 @@ void queue_loop(void *ctx)
} }
if ( (json= cJSON_Parse((char *)ptr->msg)) != 0 ) if ( (json= cJSON_Parse((char *)ptr->msg)) != 0 )
{ {
if ( ptr->msglen < sizeof(linebuf) ) if ( 1 && ptr->msglen < sizeof(linebuf) )
{ {
if ( (k= MMJSON_encode(linebuf,(char *)ptr->msg)) > 0 ) if ( (k= MMJSON_encode(linebuf,(char *)ptr->msg)) > 0 )
{ {
@ -1207,10 +1283,6 @@ void LPinit(uint16_t myport,uint16_t mypullport,uint16_t mypubport,uint16_t mybu
LP_initcoins(ctx,pubsock,coinsjson); LP_initcoins(ctx,pubsock,coinsjson);
G.waiting = 1; G.waiting = 1;
LP_passphrase_init(passphrase,jstr(argjson,"gui")); LP_passphrase_init(passphrase,jstr(argjson,"gui"));
//char coinaddr[64]; bits256 zero;
//bitcoin_address(coinaddr,0,60,G.LP_myrmd160,20);
//memset(zero.bytes,0,sizeof(zero));
//LP_instantdex_depositadd(coinaddr,zero);
#ifndef FROM_JS #ifndef FROM_JS
if ( IAMLP != 0 && OS_thread_create(malloc(sizeof(pthread_t)),NULL,(void *)LP_psockloop,(void *)myipaddr) != 0 ) if ( IAMLP != 0 && OS_thread_create(malloc(sizeof(pthread_t)),NULL,(void *)LP_psockloop,(void *)myipaddr) != 0 )
{ {

26
iguana/exchanges/LP_ordermatch.c

@ -451,7 +451,7 @@ int32_t LP_connectstartbob(void *ctx,int32_t pubsock,char *base,char *rel,double
printf("cant find coin.%s\n",qp->srccoin); printf("cant find coin.%s\n",qp->srccoin);
return(-1); return(-1);
} }
privkey = LP_privkey(coin->smartaddr,coin->taddr); privkey = LP_privkey(coin->symbol,coin->smartaddr,coin->taddr);
if ( bits256_nonz(privkey) != 0 && bits256_cmp(G.LP_mypub25519,qp->srchash) == 0 ) if ( bits256_nonz(privkey) != 0 && bits256_cmp(G.LP_mypub25519,qp->srchash) == 0 )
{ {
LP_requestinit(&qp->R,qp->srchash,qp->desthash,base,qp->satoshis-qp->txfee,rel,qp->destsatoshis-qp->desttxfee,qp->timestamp,qp->quotetime,DEXselector); LP_requestinit(&qp->R,qp->srchash,qp->desthash,base,qp->satoshis-qp->txfee,rel,qp->destsatoshis-qp->desttxfee,qp->timestamp,qp->quotetime,DEXselector);
@ -481,7 +481,7 @@ int32_t LP_connectstartbob(void *ctx,int32_t pubsock,char *base,char *rel,double
bits256 zero; bits256 zero;
memset(zero.bytes,0,sizeof(zero)); memset(zero.bytes,0,sizeof(zero));
LP_reserved_msg(1,base,rel,zero,jprint(reqjson,0)); LP_reserved_msg(1,base,rel,zero,jprint(reqjson,0));
if ( IAMLP == 0 ) //if ( IAMLP == 0 )
{ {
sleep(1); sleep(1);
LP_reserved_msg(1,qp->srccoin,qp->destcoin,qp->desthash,jprint(reqjson,0)); LP_reserved_msg(1,qp->srccoin,qp->destcoin,qp->desthash,jprint(reqjson,0));
@ -615,7 +615,7 @@ char *LP_connectedalice(struct LP_quoteinfo *qp,char *pairstr) // alice
LP_aliceid(qp->tradeid,qp->aliceid,"error6",0,0); LP_aliceid(qp->tradeid,qp->aliceid,"error6",0,0);
return(clonestr("{\"error\":\"cant get alicecoin\"}")); return(clonestr("{\"error\":\"cant get alicecoin\"}"));
} }
qp->privkey = LP_privkey(qp->destaddr,coin->taddr); qp->privkey = LP_privkey(coin->symbol,qp->destaddr,coin->taddr);
if ( bits256_nonz(qp->privkey) != 0 )//&& qp->quotetime >= qp->timestamp-3 ) if ( bits256_nonz(qp->privkey) != 0 )//&& qp->quotetime >= qp->timestamp-3 )
{ {
retjson = cJSON_CreateObject(); retjson = cJSON_CreateObject();
@ -837,7 +837,8 @@ struct LP_quoteinfo *LP_trades_gotrequest(void *ctx,struct LP_quoteinfo *qp,stru
qp = newqp; qp = newqp;
if ( (coin= LP_coinfind(qp->srccoin)) == 0 ) if ( (coin= LP_coinfind(qp->srccoin)) == 0 )
return(0); return(0);
//printf("LP_trades_gotrequest %s/%s %.8f\n",qp->srccoin,qp->destcoin,LP_trades_bobprice(&bid,&ask,qp)); //if ( strcmp(qp->srccoin,"GRS") == 0 || strcmp(qp->destcoin,"GRS") == 0 )
// printf("LP_trades_gotrequest %s/%s myprice %.8f\n",qp->srccoin,qp->destcoin,LP_trades_bobprice(&bid,&ask,qp));
if ( (myprice= LP_trades_bobprice(&bid,&ask,qp)) == 0. ) if ( (myprice= LP_trades_bobprice(&bid,&ask,qp)) == 0. )
return(0); return(0);
autxo = &A; autxo = &A;
@ -856,7 +857,8 @@ struct LP_quoteinfo *LP_trades_gotrequest(void *ctx,struct LP_quoteinfo *qp,stru
memset(&qp->txid2,0,sizeof(qp->txid2)); memset(&qp->txid2,0,sizeof(qp->txid2));
qp->vout = qp->vout2 = -1; qp->vout = qp->vout2 = -1;
} else return(0); } else return(0);
//printf("LP_trades_gotrequest qprice %.8f vs myprice %.8f\n",qprice,myprice); //if ( strcmp(qp->srccoin,"GRS") == 0 || strcmp(qp->destcoin,"GRS") == 0 )
// printf("LP_trades_gotrequest qprice %.8f vs myprice %.8f\n",qprice,myprice);
if ( qprice > myprice ) if ( qprice > myprice )
{ {
r = (LP_rand() % 100); r = (LP_rand() % 100);
@ -893,6 +895,8 @@ struct LP_quoteinfo *LP_trades_gotrequest(void *ctx,struct LP_quoteinfo *qp,stru
} }
if ( (qprice= LP_trades_pricevalidate(qp,coin,myprice)) < 0. ) if ( (qprice= LP_trades_pricevalidate(qp,coin,myprice)) < 0. )
return(0); return(0);
//if ( strcmp(qp->srccoin,"GRS") == 0 || strcmp(qp->destcoin,"GRS") == 0 )
// printf("final checks\n");
if ( LP_allocated(qp->txid,qp->vout) == 0 && LP_allocated(qp->txid2,qp->vout2) == 0 ) if ( LP_allocated(qp->txid,qp->vout) == 0 && LP_allocated(qp->txid2,qp->vout2) == 0 )
{ {
reqjson = LP_quotejson(qp); reqjson = LP_quotejson(qp);
@ -906,7 +910,7 @@ struct LP_quoteinfo *LP_trades_gotrequest(void *ctx,struct LP_quoteinfo *qp,stru
bits256 zero; bits256 zero;
memset(zero.bytes,0,sizeof(zero)); memset(zero.bytes,0,sizeof(zero));
LP_reserved_msg(1,qp->srccoin,qp->destcoin,zero,jprint(reqjson,0)); LP_reserved_msg(1,qp->srccoin,qp->destcoin,zero,jprint(reqjson,0));
if ( IAMLP == 0 ) //if ( IAMLP == 0 )
{ {
sleep(1); sleep(1);
LP_reserved_msg(1,qp->srccoin,qp->destcoin,qp->desthash,jprint(reqjson,0)); LP_reserved_msg(1,qp->srccoin,qp->destcoin,qp->desthash,jprint(reqjson,0));
@ -1071,7 +1075,7 @@ void LP_tradesloop(void *ctx)
} }
else else
{ {
if ( funcid == LP_CONNECT && tp->negotiationdone == 0 ) // bob all cone if ( funcid == LP_CONNECT && tp->negotiationdone == 0 ) // bob all done
{ {
flag = 1; flag = 1;
tp->negotiationdone = now; tp->negotiationdone = now;
@ -1166,7 +1170,7 @@ int32_t LP_tradecommand(void *ctx,char *myipaddr,int32_t pubsock,cJSON *argjson,
LP_requestinit(&Q.R,Q.srchash,Q.desthash,Q.srccoin,Q.satoshis-Q.txfee,Q.destcoin,Q.destsatoshis-Q.desttxfee,Q.timestamp,Q.quotetime,DEXselector); LP_requestinit(&Q.R,Q.srchash,Q.desthash,Q.srccoin,Q.satoshis-Q.txfee,Q.destcoin,Q.destsatoshis-Q.desttxfee,Q.timestamp,Q.quotetime,DEXselector);
LP_tradecommand_log(argjson); LP_tradecommand_log(argjson);
printf("%-4d (%-10u %10u) %12s id.%22llu %5s/%-5s %12.8f -> %11.8f price %11.8f | RT.%d %d\n",(uint32_t)time(NULL) % 3600,Q.R.requestid,Q.R.quoteid,method,(long long)Q.aliceid,Q.srccoin,Q.destcoin,dstr(Q.satoshis),dstr(Q.destsatoshis),(double)Q.destsatoshis/Q.satoshis,LP_RTcount,LP_swapscount); printf("%-4d (%-10u %10u) %12s id.%22llu %5s/%-5s %12.8f -> %11.8f price %11.8f | RT.%d %d\n",(uint32_t)time(NULL) % 3600,Q.R.requestid,Q.R.quoteid,method,(long long)Q.aliceid,Q.srccoin,Q.destcoin,dstr(Q.satoshis),dstr(Q.destsatoshis),(double)Q.destsatoshis/Q.satoshis,LP_RTcount,LP_swapscount);
LP_autoprices_update(method,Q.srccoin,dstr(Q.satoshis),Q.destcoin,dstr(Q.destsatoshis)); //LP_autoprices_update(method,Q.srccoin,dstr(Q.satoshis),Q.destcoin,dstr(Q.destsatoshis));
retval = 1; retval = 1;
aliceid = j64bits(argjson,"aliceid"); aliceid = j64bits(argjson,"aliceid");
qprice = jdouble(argjson,"price"); qprice = jdouble(argjson,"price");
@ -1207,7 +1211,7 @@ int32_t LP_tradecommand(void *ctx,char *myipaddr,int32_t pubsock,cJSON *argjson,
{ {
//printf("CONNECTED.(%s)\n",jprint(argjson,0)); //printf("CONNECTED.(%s)\n",jprint(argjson,0));
if ( (proof= jarray(&num,argjson,"proof")) != 0 && num > 0 ) if ( (proof= jarray(&num,argjson,"proof")) != 0 && num > 0 )
Q.othercredits = LP_instantdex_proofcheck(Q.coinaddr,proof,num); Q.othercredits = LP_instantdex_proofcheck(Q.srccoin,Q.coinaddr,proof,num);
if ( Qtrades == 0 ) if ( Qtrades == 0 )
LP_trades_gotconnected(ctx,&Q,&Q2,jstr(argjson,"pair")); LP_trades_gotconnected(ctx,&Q,&Q2,jstr(argjson,"pair"));
else LP_tradecommandQ(&Q,jstr(argjson,"pair"),LP_CONNECTED); else LP_tradecommandQ(&Q,jstr(argjson,"pair"),LP_CONNECTED);
@ -1232,6 +1236,8 @@ int32_t LP_tradecommand(void *ctx,char *myipaddr,int32_t pubsock,cJSON *argjson,
if ( strcmp(method,"request") == 0 ) if ( strcmp(method,"request") == 0 )
{ {
bestprice = LP_bob_competition(&counter,aliceid,qprice,-1); bestprice = LP_bob_competition(&counter,aliceid,qprice,-1);
//if ( strcmp(Q.srccoin,"GRS") == 0 || strcmp(Q.destcoin,"GRS") == 0 )
// printf("%s lag %ld: aliceid.%llu price %.8f -> bestprice %.8f\n",jprint(argjson,0),Q.quotetime - (time(NULL)-20),(long long)aliceid,qprice,bestprice);
if ( Qtrades == 0 ) if ( Qtrades == 0 )
LP_trades_gotrequest(ctx,&Q,&Q2,jstr(argjson,"pair")); LP_trades_gotrequest(ctx,&Q,&Q2,jstr(argjson,"pair"));
else LP_tradecommandQ(&Q,jstr(argjson,"pair"),LP_REQUEST); else LP_tradecommandQ(&Q,jstr(argjson,"pair"),LP_REQUEST);
@ -1243,7 +1249,7 @@ int32_t LP_tradecommand(void *ctx,char *myipaddr,int32_t pubsock,cJSON *argjson,
{ {
printf("CONNECT.(%s)\n",jprint(argjson,0)); printf("CONNECT.(%s)\n",jprint(argjson,0));
if ( (proof= jarray(&num,argjson,"proof")) != 0 && num > 0 ) if ( (proof= jarray(&num,argjson,"proof")) != 0 && num > 0 )
Q.othercredits = LP_instantdex_proofcheck(Q.destaddr,proof,num); Q.othercredits = LP_instantdex_proofcheck(Q.destcoin,Q.destaddr,proof,num);
if ( Qtrades == 0 ) if ( Qtrades == 0 )
LP_trades_gotconnect(ctx,&Q,&Q2,jstr(argjson,"pair")); LP_trades_gotconnect(ctx,&Q,&Q2,jstr(argjson,"pair"));
else LP_tradecommandQ(&Q,jstr(argjson,"pair"),LP_CONNECT); else LP_tradecommandQ(&Q,jstr(argjson,"pair"),LP_CONNECT);

54
iguana/exchanges/LP_portfolio.c

@ -411,7 +411,7 @@ double LP_pricesparse(void *ctx,int32_t trexflag,char *retstr,struct LP_priceinf
double LP_autoprice_newprice(int32_t bidask,double price,double newprice) double LP_autoprice_newprice(int32_t bidask,double price,double newprice)
{ {
double gap; int32_t r; double gap; int32_t r;
if ( (bidask == 0 && newprice < price) || (bidask != 0 && newprice > price) ) if ( price > SMALLVAL && ((bidask == 0 && newprice < price) || (bidask != 0 && newprice > price)) )
{ {
gap = fabs(newprice - price) * 2; gap = fabs(newprice - price) * 2;
r = (rand() % 100); r = (rand() % 100);
@ -450,7 +450,7 @@ double LP_tickered_price(int32_t bidask,char *base,char *rel,double price,cJSON
void LP_autoprice_iter(void *ctx,struct LP_priceinfo *btcpp) void LP_autoprice_iter(void *ctx,struct LP_priceinfo *btcpp)
{ {
static cJSON *tickerjson; static uint32_t lasttime; static cJSON *tickerjson; static uint32_t lasttime;
char *retstr,*base,*rel; cJSON *retjson,*bid,*ask,*fundjson,*argjson; uint64_t bidsatoshis,asksatoshis; int32_t i,changed; double bch_usd,bch_btc,nxtkmd,price,factor,offset,newprice,buymargin,sellmargin,price_btc,price_usd,kmd_btc,kmd_usd; struct LP_priceinfo *kmdpp,*fiatpp,*nxtpp,*basepp,*relpp; char *retstr,*base,*rel; cJSON *retjson,*bid,*ask,*fundjson,*argjson; uint64_t bidsatoshis,asksatoshis; int32_t i,changed; double bidprice,askprice,bch_usd,bch_btc,nxtkmd,price,factor,offset,newprice,buymargin,sellmargin,price_btc,price_usd,kmd_btc,kmd_usd; struct LP_priceinfo *kmdpp,*fiatpp,*nxtpp,*basepp,*relpp;
if ( (retstr= issue_curlt("https://bittrex.com/api/v1.1/public/getmarketsummaries",LP_HTTP_TIMEOUT*10)) == 0 ) if ( (retstr= issue_curlt("https://bittrex.com/api/v1.1/public/getmarketsummaries",LP_HTTP_TIMEOUT*10)) == 0 )
{ {
printf("trex error getting marketsummaries\n"); printf("trex error getting marketsummaries\n");
@ -533,34 +533,50 @@ void LP_autoprice_iter(void *ctx,struct LP_priceinfo *btcpp)
{ {
if ( (fundjson= LP_fundvalue(argjson)) != 0 ) if ( (fundjson= LP_fundvalue(argjson)) != 0 )
{ {
//printf("%s\n",jprint(fundjson,0));
if ( jint(fundjson,"missing") == 0 ) if ( jint(fundjson,"missing") == 0 )
{ {
if ( LP_autorefs[i].fundbid[0] != 0 && (price= jdouble(fundjson,LP_autorefs[i].fundbid)) > SMALLVAL ) if ( LP_autorefs[i].fundbid[0] != 0 && (bidprice= jdouble(fundjson,LP_autorefs[i].fundbid)) > SMALLVAL && LP_autorefs[i].fundask[0] != 0 && (askprice= jdouble(fundjson,LP_autorefs[i].fundask)) > SMALLVAL )
{ {
price = (bidprice + askprice) * 0.5;
bidprice = (1. / price * (1. + buymargin));
askprice = price * (1. + sellmargin);
LP_mypriceset(&changed,rel,base,bidprice);
LP_pricepings(ctx,LP_myipaddr,LP_mypubsock,rel,base,bidprice);
LP_mypriceset(&changed,base,rel,askprice);
LP_pricepings(ctx,LP_myipaddr,LP_mypubsock,base,rel,askprice);
//printf("price %.8f -> %.8f %.8f\n",price,bidprice,askprice);
}
/*if ( LP_autorefs[i].fundbid[0] != 0 && (price= jdouble(fundjson,LP_autorefs[i].fundbid)) > SMALLVAL )
{
printf("%s/%s %s %.8f -> %.8f or %.8f",base,rel,LP_autorefs[i].fundbid,price,(1. / (price * (1. + buymargin))),(1. / (price * (1. - buymargin))));
if ( tickerjson != 0 && LP_autorefs[i].count == 0 ) if ( tickerjson != 0 && LP_autorefs[i].count == 0 )
price = LP_tickered_price(0,base,rel,price,tickerjson); price = LP_tickered_price(0,base,rel,price,tickerjson);
newprice = (1. / price) * (1. + buymargin); newprice = (1. / (price * (1. + buymargin)));
if ( LP_autorefs[i].lastbid < SMALLVAL ) //if ( LP_autorefs[i].lastbid < SMALLVAL )
LP_autorefs[i].lastbid = newprice; LP_autorefs[i].lastbid = newprice;
else LP_autorefs[i].lastbid = (LP_autorefs[i].lastbid * 0.9) + (0.1 *newprice); //else LP_autorefs[i].lastbid = (LP_autorefs[i].lastbid * 0.9) + (0.1 *newprice);
newprice = LP_autorefs[i].lastbid; newprice = LP_autorefs[i].lastbid;
LP_mypriceset(&changed,rel,base,newprice); LP_mypriceset(&changed,rel,base,newprice);
LP_pricepings(ctx,LP_myipaddr,LP_mypubsock,rel,base,newprice); LP_pricepings(ctx,LP_myipaddr,LP_mypubsock,rel,base,newprice);
//printf("fundbid %.8f margin %.8f newprice %.8f\n",price,margin,newprice); printf("fundbid %.8f margin %.8f newprice %.8f\n",price,buymargin,newprice);
} }
if ( LP_autorefs[i].fundask[0] != 0 && (price= jdouble(fundjson,LP_autorefs[i].fundask)) > SMALLVAL ) if ( LP_autorefs[i].fundask[0] != 0 && (price= jdouble(fundjson,LP_autorefs[i].fundask)) > SMALLVAL )
{ {
printf("%s/%s %s %.8f -> ",base,rel,LP_autorefs[i].fundask,price);
if ( tickerjson != 0 && LP_autorefs[i].count == 0 ) if ( tickerjson != 0 && LP_autorefs[i].count == 0 )
price = LP_tickered_price(1,base,rel,price,tickerjson); price = LP_tickered_price(1,base,rel,price,tickerjson);
newprice = (price * (1. + sellmargin)); newprice = (price * (1. + sellmargin));
if ( LP_autorefs[i].lastask < SMALLVAL ) //if ( LP_autorefs[i].lastask < SMALLVAL )
LP_autorefs[i].lastask = newprice; LP_autorefs[i].lastask = newprice;
else LP_autorefs[i].lastask = (LP_autorefs[i].lastask * 0.9) + (0.1 *newprice); //else LP_autorefs[i].lastask = (LP_autorefs[i].lastask * 0.9) + (0.1 *newprice);
newprice = LP_autorefs[i].lastask; if ( LP_autorefs[i].lastbid < SMALLVAL || LP_autorefs[i].lastask >= LP_autorefs[i].lastbid/(1. + sellmargin) )
newprice = LP_autorefs[i].lastask;
else newprice = LP_autorefs[i].lastbid * (1. + sellmargin);
LP_mypriceset(&changed,base,rel,newprice); LP_mypriceset(&changed,base,rel,newprice);
LP_pricepings(ctx,LP_myipaddr,LP_mypubsock,base,rel,newprice); LP_pricepings(ctx,LP_myipaddr,LP_mypubsock,base,rel,newprice);
//printf("fundask %.8f margin %.8f newprice %.8f\n",price,margin,newprice); printf("fundask %.8f margin %.8f newprice %.8f\n",price,sellmargin,newprice);
} }*/
LP_autorefs[i].count++; LP_autorefs[i].count++;
} }
free_json(fundjson); free_json(fundjson);
@ -580,15 +596,15 @@ void LP_autoprice_iter(void *ctx,struct LP_priceinfo *btcpp)
else continue; else continue;
if ( factor > 0. ) if ( factor > 0. )
price = (price * factor) + offset; price = (price * factor) + offset;
newprice = (price * (1. + buymargin)); newprice = (price * (1. - buymargin));
if ( LP_autorefs[i].lastbid < SMALLVAL ) if ( LP_autorefs[i].lastbid < SMALLVAL )
LP_autorefs[i].lastbid = newprice; LP_autorefs[i].lastbid = newprice;
else LP_autorefs[i].lastbid = (LP_autorefs[i].lastbid * 0.9) + (0.1 *newprice); else LP_autorefs[i].lastbid = (LP_autorefs[i].lastbid * 0.9) + (0.1 *newprice);
newprice = LP_autorefs[i].lastbid; newprice = LP_autorefs[i].lastbid;
LP_mypriceset(&changed,rel,base,newprice); LP_mypriceset(&changed,rel,base,newprice);
LP_pricepings(ctx,LP_myipaddr,LP_mypubsock,rel,base,newprice); LP_pricepings(ctx,LP_myipaddr,LP_mypubsock,rel,base,newprice);
//printf("price %.8f margin %.8f/%.8f newprice %.8f %.8f\n",price,buymargin,sellmargin,newprice,(1. / price) * (1. + buymargin)); //printf("%s/%s price %.8f margin %.8f/%.8f newprice %.8f %.8f\n",base,rel,price,buymargin,sellmargin,newprice,(1. / newprice) * (1. + sellmargin));
newprice = (1. / price) * (1. + sellmargin); newprice = (1. / newprice) * (1. + sellmargin);
if ( LP_autorefs[i].lastask < SMALLVAL ) if ( LP_autorefs[i].lastask < SMALLVAL )
LP_autorefs[i].lastask = newprice; LP_autorefs[i].lastask = newprice;
else LP_autorefs[i].lastask = (LP_autorefs[i].lastask * 0.9) + (0.1 *newprice); else LP_autorefs[i].lastask = (LP_autorefs[i].lastask * 0.9) + (0.1 *newprice);
@ -620,19 +636,19 @@ void LP_autoprices_update(char *method,char *base,double basevol,char *rel,doubl
{ {
if ( strcmp(LP_autorefs[i].rel,rel) == 0 && strcmp(base,LP_autorefs[i].base) == 0 ) if ( strcmp(LP_autorefs[i].rel,rel) == 0 && strcmp(base,LP_autorefs[i].base) == 0 )
{ {
newprice = (LP_autorefs[i].lastask * 0.99) + (0.01 * price); newprice = (LP_autorefs[i].lastask * 0.9) + (0.1 * price);
if ( LP_autorefs[i].lastask > 0 ) if ( LP_autorefs[i].lastask > 0 )
{ {
printf("%s: autoprice ask update %s/%s %.8f vs myprice %.8f/%.8f -> %.8f\n",method,base,rel,price,LP_autorefs[i].lastbid,LP_autorefs[i].lastask,newprice); //printf("%s: autoprice ask update %s/%s %.8f vs myprice %.8f/%.8f -> %.8f\n",method,base,rel,price,LP_autorefs[i].lastbid,LP_autorefs[i].lastask,newprice);
LP_autorefs[i].lastask = newprice; LP_autorefs[i].lastask = newprice;
} // else printf("%s: autoprice ask skip update %s/%s %.8f vs myprice %.8f/%.8f -> %.8f\n",method,base,rel,price,LP_autorefs[i].lastbid,LP_autorefs[i].lastask,newprice); } // else printf("%s: autoprice ask skip update %s/%s %.8f vs myprice %.8f/%.8f -> %.8f\n",method,base,rel,price,LP_autorefs[i].lastbid,LP_autorefs[i].lastask,newprice);
} }
else if ( strcmp(LP_autorefs[i].rel,base) == 0 && strcmp(rel,LP_autorefs[i].base) == 0 ) else if ( strcmp(LP_autorefs[i].rel,base) == 0 && strcmp(rel,LP_autorefs[i].base) == 0 )
{ {
newprice = (LP_autorefs[i].lastbid * 0.99) + (0.01 * price); newprice = (LP_autorefs[i].lastbid * 0.9) + (0.1 * price);
if ( LP_autorefs[i].lastbid > 0 ) if ( LP_autorefs[i].lastbid > 0 )
{ {
printf("%s: autoprice bid update %s/%s %.8f vs myprice %.8f/%.8f -> %.8f\n",method,base,rel,price,LP_autorefs[i].lastbid,LP_autorefs[i].lastask,newprice); //printf("%s: autoprice bid update %s/%s %.8f vs myprice %.8f/%.8f -> %.8f\n",method,base,rel,price,LP_autorefs[i].lastbid,LP_autorefs[i].lastask,newprice);
LP_autorefs[i].lastbid = newprice; LP_autorefs[i].lastbid = newprice;
} // else printf("%s: autoprice bid skip update %s/%s %.8f vs myprice %.8f/%.8f -> %.8f\n",method,base,rel,price,LP_autorefs[i].lastbid,LP_autorefs[i].lastask,newprice); } // else printf("%s: autoprice bid skip update %s/%s %.8f vs myprice %.8f/%.8f -> %.8f\n",method,base,rel,price,LP_autorefs[i].lastbid,LP_autorefs[i].lastask,newprice);
} }

20
iguana/exchanges/LP_prices.c

@ -260,7 +260,7 @@ struct LP_address *_LP_addressfind(struct iguana_info *coin,char *coinaddr)
HASH_FIND(hh,coin->addresses,coinaddr,strlen(coinaddr),ap); HASH_FIND(hh,coin->addresses,coinaddr,strlen(coinaddr),ap);
if ( ap != 0 && bits256_nonz(ap->pubkey) == 0 ) if ( ap != 0 && bits256_nonz(ap->pubkey) == 0 )
{ {
bitcoin_addr2rmd160(coin->taddr,&addrtype,rmd160,coinaddr); bitcoin_addr2rmd160(coin->symbol,coin->taddr,&addrtype,rmd160,coinaddr);
if ( (pubp= LP_pubkey_rmd160find(rmd160)) != 0 ) if ( (pubp= LP_pubkey_rmd160find(rmd160)) != 0 )
{ {
ap->pubkey = pubp->pubkey; ap->pubkey = pubp->pubkey;
@ -275,7 +275,7 @@ struct LP_address *_LP_addressadd(struct iguana_info *coin,char *coinaddr)
uint8_t rmd160[20],addrtype; struct LP_address *ap; struct LP_pubkey_info *pubp; uint8_t rmd160[20],addrtype; struct LP_address *ap; struct LP_pubkey_info *pubp;
ap = calloc(1,sizeof(*ap)); ap = calloc(1,sizeof(*ap));
safecopy(ap->coinaddr,coinaddr,sizeof(ap->coinaddr)); safecopy(ap->coinaddr,coinaddr,sizeof(ap->coinaddr));
bitcoin_addr2rmd160(coin->taddr,&addrtype,rmd160,coinaddr); bitcoin_addr2rmd160(coin->symbol,coin->taddr,&addrtype,rmd160,coinaddr);
if ( (pubp= LP_pubkey_rmd160find(rmd160)) != 0 ) if ( (pubp= LP_pubkey_rmd160find(rmd160)) != 0 )
{ {
ap->pubkey = pubp->pubkey; ap->pubkey = pubp->pubkey;
@ -513,6 +513,8 @@ int32_t LP_mypriceset(int32_t *changedp,char *base,char *rel,double price)
{ {
struct LP_priceinfo *basepp,*relpp; struct LP_pubkey_info *pubp; struct LP_priceinfo *basepp,*relpp; struct LP_pubkey_info *pubp;
*changedp = 0; *changedp = 0;
//if ( strcmp("DEX",base) == 0 || strcmp("DEX",rel) == 0 )
// printf("%s/%s setprice %.8f\n",base,rel,price);
if ( base != 0 && rel != 0 && (basepp= LP_priceinfofind(base)) != 0 && (relpp= LP_priceinfofind(rel)) != 0 ) if ( base != 0 && rel != 0 && (basepp= LP_priceinfofind(base)) != 0 && (relpp= LP_priceinfofind(rel)) != 0 )
{ {
@ -559,6 +561,18 @@ double LP_price(char *base,char *rel)
return(price); return(price);
} }
double LP_getmyprice(char *base,char *rel)
{
struct LP_priceinfo *basepp; int32_t relind; double price = 0.;
if ( (basepp= LP_priceinfoptr(&relind,base,rel)) != 0 )
{
if ( (price= basepp->myprices[relind]) == 0. )
{
}
}
return(price);
}
cJSON *LP_priceinfomatrix(int32_t usemyprices) cJSON *LP_priceinfomatrix(int32_t usemyprices)
{ {
int32_t i,j,n,m; double total,sum,val; struct LP_priceinfo *pp; uint32_t now; struct LP_cacheinfo *ptr,*tmp; cJSON *vectorjson = cJSON_CreateObject(); int32_t i,j,n,m; double total,sum,val; struct LP_priceinfo *pp; uint32_t now; struct LP_cacheinfo *ptr,*tmp; cJSON *vectorjson = cJSON_CreateObject();
@ -783,7 +797,7 @@ int32_t LP_orderbook_utxoentries(uint32_t now,int32_t polarity,char *base,char *
} }
if ( pubp->timestamp < oldest ) if ( pubp->timestamp < oldest )
continue; continue;
bitcoin_address(coinaddr,basecoin->taddr,basecoin->pubtype,pubp->rmd160,sizeof(pubp->rmd160)); bitcoin_address(base,coinaddr,basecoin->taddr,basecoin->pubtype,pubp->rmd160,sizeof(pubp->rmd160));
avesatoshis = maxsatoshis = n = 0; avesatoshis = maxsatoshis = n = 0;
ap = 0; ap = 0;
if ( (price= LP_pubkey_price(&n,&avesatoshis,&maxsatoshis,pubp,baseid,relid)) > SMALLVAL ) //pubp->matrix[baseid][relid]) > SMALLVAL )//&& pubp->timestamps[baseid][relid] >= oldest ) if ( (price= LP_pubkey_price(&n,&avesatoshis,&maxsatoshis,pubp,baseid,relid)) > SMALLVAL ) //pubp->matrix[baseid][relid]) > SMALLVAL )//&& pubp->timestamps[baseid][relid] >= oldest )

56
iguana/exchanges/LP_privkey.c

@ -171,17 +171,17 @@ char *LP_secretaddresses(void *ctx,char *prefix,char *passphrase,int32_t n,uint8
else if ( n > 777 ) else if ( n > 777 )
n = 777; n = 777;
conv_NXTpassword(privkey.bytes,pubkey.bytes,(uint8_t *)passphrase,(int32_t)strlen(passphrase)); conv_NXTpassword(privkey.bytes,pubkey.bytes,(uint8_t *)passphrase,(int32_t)strlen(passphrase));
bitcoin_priv2pub(ctx,pubkey33,coinaddr,privkey,taddr,pubtype); 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); printf("generator (%s) secrets.[%d] <%s> t.%u p.%u\n",coinaddr,n,passphrase,taddr,pubtype);
sprintf(output,"\"addresses\":["); sprintf(output,"\"addresses\":[");
for (i=0; i<n; i++) for (i=0; i<n; i++)
{ {
sprintf(buf,"%s %s %03d",prefix,passphrase,i); sprintf(buf,"%s %s %03d",prefix,passphrase,i);
conv_NXTpassword(privkey.bytes,pubkey.bytes,(uint8_t *)buf,(int32_t)strlen(buf)); conv_NXTpassword(privkey.bytes,pubkey.bytes,(uint8_t *)buf,(int32_t)strlen(buf));
bitcoin_priv2pub(ctx,pubkey33,coinaddr,privkey,taddr,pubtype); bitcoin_priv2pub(ctx,"KMD",pubkey33,coinaddr,privkey,taddr,pubtype);
bitcoin_priv2wif(0,wifstr,privkey,188); bitcoin_priv2wif("KMD",0,wifstr,privkey,188);
bitcoin_wif2priv(0,&tmptype,&checkprivkey,wifstr); bitcoin_wif2priv("KMD",0,&tmptype,&checkprivkey,wifstr);
bitcoin_addr2rmd160(taddr,&tmptype,rmd160,coinaddr); bitcoin_addr2rmd160("KMD",taddr,&tmptype,rmd160,coinaddr);
if ( bits256_cmp(checkprivkey,privkey) != 0 ) if ( bits256_cmp(checkprivkey,privkey) != 0 )
{ {
printf("WIF.(%s) error -> %s vs %s?\n",wifstr,bits256_str(str,privkey),bits256_str(str2,checkprivkey)); printf("WIF.(%s) error -> %s vs %s?\n",wifstr,bits256_str(str,privkey),bits256_str(str2,checkprivkey));
@ -204,7 +204,7 @@ char *LP_secretaddresses(void *ctx,char *prefix,char *passphrase,int32_t n,uint8
static const char base58_chars[] = "123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz"; static const char base58_chars[] = "123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz";
int32_t LP_wifstr_valid(char *wifstr) int32_t LP_wifstr_valid(char *symbol,char *wifstr)
{ {
bits256 privkey,cmpkey; uint8_t wiftype; char cmpstr[128],cmpstr2[128]; int32_t i; bits256 privkey,cmpkey; uint8_t wiftype; char cmpstr[128],cmpstr2[128]; int32_t i;
memset(privkey.bytes,0,sizeof(privkey)); memset(privkey.bytes,0,sizeof(privkey));
@ -212,8 +212,8 @@ int32_t LP_wifstr_valid(char *wifstr)
for (i=0; wifstr[i]!=0; i++) for (i=0; wifstr[i]!=0; i++)
if ( strchr(base58_chars,wifstr[i]) == 0 ) if ( strchr(base58_chars,wifstr[i]) == 0 )
return(0); return(0);
bitcoin_wif2priv(0,&wiftype,&privkey,wifstr); bitcoin_wif2priv(symbol,0,&wiftype,&privkey,wifstr);
bitcoin_priv2wif(0,cmpstr,privkey,wiftype); bitcoin_priv2wif(symbol,0,cmpstr,privkey,wiftype);
if ( strcmp(cmpstr,wifstr) == 0 ) if ( strcmp(cmpstr,wifstr) == 0 )
{ {
printf("%s is valid wif\n",wifstr); printf("%s is valid wif\n",wifstr);
@ -221,8 +221,8 @@ int32_t LP_wifstr_valid(char *wifstr)
} }
else if ( bits256_nonz(privkey) != 0 ) else if ( bits256_nonz(privkey) != 0 )
{ {
bitcoin_wif2priv(0,&wiftype,&cmpkey,cmpstr); bitcoin_wif2priv(symbol,0,&wiftype,&cmpkey,cmpstr);
bitcoin_priv2wiflong(0,cmpstr2,privkey,wiftype); bitcoin_priv2wiflong(symbol,0,cmpstr2,privkey,wiftype);
char str[65],str2[65]; printf("mismatched wifstr %s -> %s -> %s %s %s\n",wifstr,bits256_str(str,privkey),cmpstr,bits256_str(str2,cmpkey),cmpstr2); char str[65],str2[65]; printf("mismatched wifstr %s -> %s -> %s %s %s\n",wifstr,bits256_str(str,privkey),cmpstr,bits256_str(str2,cmpkey),cmpstr2);
if ( bits256_cmp(privkey,cmpkey) == 0 ) if ( bits256_cmp(privkey,cmpkey) == 0 )
return(1); return(1);
@ -234,7 +234,7 @@ bits256 LP_privkeycalc(void *ctx,uint8_t *pubkey33,bits256 *pubkeyp,struct iguan
{ {
//static uint32_t counter; //static uint32_t counter;
bits256 privkey,userpub,zero,userpass,checkkey,tmpkey; char tmpstr[128]; cJSON *retjson; uint8_t tmptype; int32_t notarized; uint64_t nxtaddr; bits256 privkey,userpub,zero,userpass,checkkey,tmpkey; char tmpstr[128]; cJSON *retjson; uint8_t tmptype; int32_t notarized; uint64_t nxtaddr;
if ( (wifstr == 0 || wifstr[0] == 0) && LP_wifstr_valid(passphrase) > 0 ) if ( (wifstr == 0 || wifstr[0] == 0) && LP_wifstr_valid(coin->symbol,passphrase) > 0 )
{ {
wifstr = passphrase; wifstr = passphrase;
passphrase = 0; passphrase = 0;
@ -247,8 +247,8 @@ bits256 LP_privkeycalc(void *ctx,uint8_t *pubkey33,bits256 *pubkeyp,struct iguan
//vcalc_sha256(0,checkkey.bytes,(uint8_t *)passphrase,(int32_t)strlen(passphrase)); //vcalc_sha256(0,checkkey.bytes,(uint8_t *)passphrase,(int32_t)strlen(passphrase));
//printf("SHA256.(%s) ",bits256_str(pstr,checkkey)); //printf("SHA256.(%s) ",bits256_str(pstr,checkkey));
//printf("privkey.(%s)\n",bits256_str(pstr,privkey)); //printf("privkey.(%s)\n",bits256_str(pstr,privkey));
bitcoin_priv2wif(coin->wiftaddr,tmpstr,privkey,coin->wiftype); bitcoin_priv2wif(coin->symbol,coin->wiftaddr,tmpstr,privkey,coin->wiftype);
bitcoin_wif2priv(coin->wiftaddr,&tmptype,&checkkey,tmpstr); bitcoin_wif2priv(coin->symbol,coin->wiftaddr,&tmptype,&checkkey,tmpstr);
if ( bits256_cmp(privkey,checkkey) != 0 ) 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)); char str[65],str2[65]; printf("mismatched privkeys from wif conversion: %s -> %s -> %s\n",bits256_str(str,privkey),tmpstr,bits256_str(str2,checkkey));
@ -257,8 +257,8 @@ bits256 LP_privkeycalc(void *ctx,uint8_t *pubkey33,bits256 *pubkeyp,struct iguan
} }
else else
{ {
bitcoin_wif2priv(coin->wiftaddr,&tmptype,&privkey,wifstr); bitcoin_wif2priv(coin->symbol,coin->wiftaddr,&tmptype,&privkey,wifstr);
bitcoin_priv2wif(coin->wiftaddr,tmpstr,privkey,tmptype); bitcoin_priv2wif(coin->symbol,coin->wiftaddr,tmpstr,privkey,tmptype);
if ( strcmp(tmpstr,wifstr) != 0 ) if ( strcmp(tmpstr,wifstr) != 0 )
{ {
printf("error reproducing the wifstr, likely edge case like non-supported uncompressed pubkey\n"); printf("error reproducing the wifstr, likely edge case like non-supported uncompressed pubkey\n");
@ -268,19 +268,19 @@ bits256 LP_privkeycalc(void *ctx,uint8_t *pubkey33,bits256 *pubkeyp,struct iguan
nxtaddr = conv_NXTpassword(tmpkey.bytes,pubkeyp->bytes,0,0); nxtaddr = conv_NXTpassword(tmpkey.bytes,pubkeyp->bytes,0,0);
RS_encode(G.LP_NXTaddr,nxtaddr); RS_encode(G.LP_NXTaddr,nxtaddr);
} }
bitcoin_priv2pub(ctx,coin->pubkey33,coin->smartaddr,privkey,coin->taddr,coin->pubtype); bitcoin_priv2pub(ctx,coin->symbol,coin->pubkey33,coin->smartaddr,privkey,coin->taddr,coin->pubtype);
if ( coin->counter == 0 ) if ( coin->counter == 0 )
{ {
coin->counter++; coin->counter++;
memcpy(G.LP_pubsecp,coin->pubkey33,33); memcpy(G.LP_pubsecp,coin->pubkey33,33);
bitcoin_priv2wif(coin->wiftaddr,tmpstr,privkey,coin->wiftype); bitcoin_priv2wif(coin->symbol,coin->wiftaddr,tmpstr,privkey,coin->wiftype);
bitcoin_addr2rmd160(coin->taddr,&tmptype,G.LP_myrmd160,coin->smartaddr); bitcoin_addr2rmd160(coin->symbol,coin->taddr,&tmptype,G.LP_myrmd160,coin->smartaddr);
LP_privkeyadd(privkey,G.LP_myrmd160); LP_privkeyadd(privkey,G.LP_myrmd160);
G.LP_privkey = privkey; G.LP_privkey = privkey;
if ( G.counter++ == 0 ) if ( G.counter++ == 0 )
{ {
bitcoin_priv2wif(coin->wiftaddr,G.USERPASS_WIFSTR,privkey,188); bitcoin_priv2wif(coin->symbol,coin->wiftaddr,G.USERPASS_WIFSTR,privkey,188);
bitcoin_wif2priv(coin->wiftaddr,&tmptype,&checkkey,G.USERPASS_WIFSTR); bitcoin_wif2priv(coin->symbol,coin->wiftaddr,&tmptype,&checkkey,G.USERPASS_WIFSTR);
if ( bits256_cmp(checkkey,privkey) != 0 ) if ( bits256_cmp(checkkey,privkey) != 0 )
{ {
char str[65],str2[65]; char str[65],str2[65];
@ -381,8 +381,8 @@ void LP_privkey_tests()
for (i=0; i<200000000; i++) for (i=0; i<200000000; i++)
{ {
privkey = rand256(0); privkey = rand256(0);
bitcoin_priv2wif(0,wifstr,privkey,0xff); bitcoin_priv2wif("KMD",0,wifstr,privkey,0xff);
bitcoin_wif2priv(0,&tmptype,&checkkey,wifstr); bitcoin_wif2priv("KMD",0,&tmptype,&checkkey,wifstr);
if ( bits256_cmp(privkey,checkkey) != 0 ) if ( bits256_cmp(privkey,checkkey) != 0 )
{ {
printf("i.%d: %s vs %s\n",i,bits256_str(str,privkey),bits256_str(str2,checkkey)); printf("i.%d: %s vs %s\n",i,bits256_str(str,privkey),bits256_str(str2,checkkey));
@ -431,9 +431,12 @@ int32_t LP_jpg_process(int32_t *capacityp,char *inputfname,char *outputfname,uin
coef_arrays = jpeg_read_coefficients(&inputinfo); coef_arrays = jpeg_read_coefficients(&inputinfo);
// Copy DCT coeffs to a new array // Copy DCT coeffs to a new array
int num_components = inputinfo.num_components; int num_components = inputinfo.num_components;
size_t block_row_size[num_components]; size_t *block_row_size;//[num_components];
int width_in_blocks[num_components]; int *width_in_blocks;//[num_components];
int height_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; *capacityp = modified = emit = totalrows = 0;
if ( decoded != 0 ) if ( decoded != 0 )
memset(decoded,0,required/8+1); memset(decoded,0,required/8+1);
@ -527,6 +530,9 @@ int32_t LP_jpg_process(int32_t *capacityp,char *inputfname,char *outputfname,uin
{ {
printf("New DCT coefficients successfully written to %s, capacity %d modifiedrows.%d/%d emit.%d\n",outputfname,*capacityp,modified,totalrows,emit); 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);
return(modified); return(modified);
} }

44
iguana/exchanges/LP_remember.c

@ -46,7 +46,7 @@ void basilisk_dontforget(struct basilisk_swap *swap,struct basilisk_rawtx *rawtx
fprintf(fp,",\"tx\":\""); fprintf(fp,",\"tx\":\"");
for (i=0; i<rawtx->I.datalen; i++) for (i=0; i<rawtx->I.datalen; i++)
fprintf(fp,"%02x",rawtx->txbytes[i]); fprintf(fp,"%02x",rawtx->txbytes[i]);
fprintf(fp,"\",\"txid\":\"%s\"",bits256_str(str,bits256_doublesha256(0,rawtx->txbytes,rawtx->I.datalen))); fprintf(fp,"\",\"txid\":\"%s\"",bits256_str(str,bits256_calctxid(rawtx->symbol,rawtx->txbytes,rawtx->I.datalen)));
if ( rawtx == &swap->bobdeposit || rawtx == &swap->bobpayment ) if ( rawtx == &swap->bobdeposit || rawtx == &swap->bobpayment )
{ {
LP_swap_coinaddr(bobcoin,coinaddr,0,rawtx->txbytes,rawtx->I.datalen,0); LP_swap_coinaddr(bobcoin,coinaddr,0,rawtx->txbytes,rawtx->I.datalen,0);
@ -73,7 +73,7 @@ void basilisk_dontforget(struct basilisk_swap *swap,struct basilisk_rawtx *rawtx
fprintf(fp,",\"trigger\":\"%s\"",bits256_str(str,triggertxid)); fprintf(fp,",\"trigger\":\"%s\"",bits256_str(str,triggertxid));
if ( bits256_nonz(swap->I.pubAm) != 0 && bits256_nonz(swap->I.pubBn) != 0 ) if ( bits256_nonz(swap->I.pubAm) != 0 && bits256_nonz(swap->I.pubBn) != 0 )
{ {
basilisk_alicescript(redeemscript,&len,script,0,coinaddr,alicecoin->taddr,alicecoin->p2shtype,swap->I.pubAm,swap->I.pubBn); basilisk_alicescript(alicecoin->symbol,redeemscript,&len,script,0,coinaddr,alicecoin->taddr,alicecoin->p2shtype,swap->I.pubAm,swap->I.pubBn);
LP_importaddress(swap->I.alicestr,coinaddr); LP_importaddress(swap->I.alicestr,coinaddr);
fprintf(fp,",\"Apayment\":\"%s\"",coinaddr); fprintf(fp,",\"Apayment\":\"%s\"",coinaddr);
} }
@ -570,9 +570,9 @@ int32_t LP_rswap_init(struct LP_swap_remember *rswap,uint32_t requestid,uint32_t
{ {
decode_hex(rswap->pubkey33,33,dest33); decode_hex(rswap->pubkey33,33,dest33);
if ( rswap->iambob != 0 && (coin= LP_coinfind(rswap->src)) != 0 ) if ( rswap->iambob != 0 && (coin= LP_coinfind(rswap->src)) != 0 )
bitcoin_address(rswap->destaddr,coin->taddr,coin->pubtype,rswap->pubkey33,33); bitcoin_address(coin->symbol,rswap->destaddr,coin->taddr,coin->pubtype,rswap->pubkey33,33);
else if ( rswap->iambob == 0 && (coin= LP_coinfind(rswap->dest)) != 0 ) else if ( rswap->iambob == 0 && (coin= LP_coinfind(rswap->dest)) != 0 )
bitcoin_address(rswap->Adestaddr,coin->taddr,coin->pubtype,rswap->pubkey33,33); bitcoin_address(coin->symbol,rswap->Adestaddr,coin->taddr,coin->pubtype,rswap->pubkey33,33);
//for (i=0; i<33; i++) //for (i=0; i<33; i++)
// printf("%02x",pubkey33[i]); // printf("%02x",pubkey33[i]);
//printf(" <- %s dest33\n",dest33); //printf(" <- %s dest33\n",dest33);
@ -586,9 +586,9 @@ int32_t LP_rswap_init(struct LP_swap_remember *rswap,uint32_t requestid,uint32_t
if ( i < 33 ) if ( i < 33 )
memcpy(rswap->other33,other33,33); memcpy(rswap->other33,other33,33);
if ( rswap->iambob != 0 && (coin= LP_coinfind(rswap->dest)) != 0 ) if ( rswap->iambob != 0 && (coin= LP_coinfind(rswap->dest)) != 0 )
bitcoin_address(rswap->Adestaddr,coin->taddr,coin->pubtype,rswap->other33,33); bitcoin_address(coin->symbol,rswap->Adestaddr,coin->taddr,coin->pubtype,rswap->other33,33);
else if ( rswap->iambob == 0 && (coin= LP_coinfind(rswap->src)) != 0 ) else if ( rswap->iambob == 0 && (coin= LP_coinfind(rswap->src)) != 0 )
bitcoin_address(rswap->destaddr,coin->taddr,coin->pubtype,rswap->other33,33); bitcoin_address(coin->symbol,rswap->destaddr,coin->taddr,coin->pubtype,rswap->other33,33);
//printf("(%s, %s) <- %s other33\n",rswap->destaddr,rswap->Adestaddr,dest33); //printf("(%s, %s) <- %s other33\n",rswap->destaddr,rswap->Adestaddr,dest33);
} }
if ( (rswap->plocktime= juint(item,"plocktime")) == 0 ) if ( (rswap->plocktime= juint(item,"plocktime")) == 0 )
@ -890,7 +890,7 @@ int32_t LP_spends_set(struct LP_swap_remember *rswap)
cJSON *basilisk_remember(int64_t *KMDtotals,int64_t *BTCtotals,uint32_t requestid,uint32_t quoteid,int32_t forceflag,int32_t pendingonly) cJSON *basilisk_remember(int64_t *KMDtotals,int64_t *BTCtotals,uint32_t requestid,uint32_t quoteid,int32_t forceflag,int32_t pendingonly)
{ {
static void *ctx; static void *ctx;
struct LP_swap_remember rswap; int32_t i,j,flag,numspent,len,secretstart,redeemlen; char str[65],*srcAdest,*srcBdest,*destAdest,*destBdest,otheraddr[64]; cJSON *item,*txoutobj; bits256 rev,signedtxid,zero,deadtxid; struct iguana_info *bob=0,*alice=0; uint8_t redeemscript[1024],userdata[1024]; struct LP_swap_remember rswap; int32_t i,j,flag,numspent,len,secretstart,redeemlen; char str[65],*srcAdest,*srcBdest,*destAdest,*destBdest,otheraddr[64]; cJSON *item,*txoutobj; bits256 rev,signedtxid,zero,deadtxid; uint32_t claimtime; struct iguana_info *bob=0,*alice=0; uint8_t redeemscript[1024],userdata[1024];
if ( ctx == 0 ) if ( ctx == 0 )
ctx = bitcoin_ctx(); ctx = bitcoin_ctx();
if ( requestid == 0 || quoteid == 0 ) if ( requestid == 0 || quoteid == 0 )
@ -901,6 +901,7 @@ cJSON *basilisk_remember(int64_t *KMDtotals,int64_t *BTCtotals,uint32_t requesti
LP_swap_load(&rswap,forceflag); LP_swap_load(&rswap,forceflag);
memset(zero.bytes,0,sizeof(zero)); memset(zero.bytes,0,sizeof(zero));
otheraddr[0] = 0; otheraddr[0] = 0;
claimtime = (uint32_t)time(NULL) - 777;
srcAdest = srcBdest = destAdest = destBdest = 0; srcAdest = srcBdest = destAdest = destBdest = 0;
if ( rswap.bobcoin[0] == 0 || rswap.alicecoin[0] == 0 || strcmp(rswap.bobcoin,rswap.src) != 0 || strcmp(rswap.alicecoin,rswap.dest) != 0 ) if ( rswap.bobcoin[0] == 0 || rswap.alicecoin[0] == 0 || strcmp(rswap.bobcoin,rswap.src) != 0 || strcmp(rswap.alicecoin,rswap.dest) != 0 )
{ {
@ -920,10 +921,10 @@ cJSON *basilisk_remember(int64_t *KMDtotals,int64_t *BTCtotals,uint32_t requesti
{ {
if ( alice != 0 ) if ( alice != 0 )
{ {
bitcoin_address(otheraddr,alice->taddr,alice->pubtype,rswap.other33,33); bitcoin_address(alice->symbol,otheraddr,alice->taddr,alice->pubtype,rswap.other33,33);
destBdest = otheraddr; destBdest = otheraddr;
destAdest = rswap.Adestaddr; destAdest = rswap.Adestaddr;
if ( strcmp(alice->smartaddr,rswap.Adestaddr) != 0 ) if ( LP_TECHSUPPORT == 0 && strcmp(alice->smartaddr,rswap.Adestaddr) != 0 )
{ {
printf("this isnt my swap! alice.(%s vs %s)\n",alice->smartaddr,rswap.Adestaddr); printf("this isnt my swap! alice.(%s vs %s)\n",alice->smartaddr,rswap.Adestaddr);
cJSON *retjson = cJSON_CreateObject(); cJSON *retjson = cJSON_CreateObject();
@ -935,7 +936,7 @@ cJSON *basilisk_remember(int64_t *KMDtotals,int64_t *BTCtotals,uint32_t requesti
} }
if ( (bob= LP_coinfind(rswap.bobcoin)) != 0 ) if ( (bob= LP_coinfind(rswap.bobcoin)) != 0 )
{ {
bitcoin_address(rswap.Sdestaddr,bob->taddr,bob->pubtype,rswap.pubkey33,33); bitcoin_address(bob->symbol,rswap.Sdestaddr,bob->taddr,bob->pubtype,rswap.pubkey33,33);
srcAdest = rswap.Sdestaddr; srcAdest = rswap.Sdestaddr;
} }
srcBdest = rswap.destaddr; srcBdest = rswap.destaddr;
@ -944,10 +945,10 @@ cJSON *basilisk_remember(int64_t *KMDtotals,int64_t *BTCtotals,uint32_t requesti
{ {
if ( bob != 0 ) if ( bob != 0 )
{ {
bitcoin_address(otheraddr,bob->taddr,bob->pubtype,rswap.other33,33); bitcoin_address(bob->symbol,otheraddr,bob->taddr,bob->pubtype,rswap.other33,33);
srcAdest = otheraddr; srcAdest = otheraddr;
srcBdest = rswap.destaddr; srcBdest = rswap.destaddr;
if ( strcmp(bob->smartaddr,rswap.destaddr) != 0 ) if ( LP_TECHSUPPORT == 0 && strcmp(bob->smartaddr,rswap.destaddr) != 0 )
{ {
printf("this isnt my swap! bob.(%s vs %s)\n",bob->smartaddr,rswap.destaddr); printf("this isnt my swap! bob.(%s vs %s)\n",bob->smartaddr,rswap.destaddr);
cJSON *retjson = cJSON_CreateObject(); cJSON *retjson = cJSON_CreateObject();
@ -959,7 +960,7 @@ cJSON *basilisk_remember(int64_t *KMDtotals,int64_t *BTCtotals,uint32_t requesti
} }
if ( (alice= LP_coinfind(rswap.alicecoin)) != 0 ) if ( (alice= LP_coinfind(rswap.alicecoin)) != 0 )
{ {
bitcoin_address(rswap.Sdestaddr,alice->taddr,alice->pubtype,rswap.pubkey33,33); bitcoin_address(alice->symbol,rswap.Sdestaddr,alice->taddr,alice->pubtype,rswap.pubkey33,33);
destBdest = rswap.Sdestaddr; destBdest = rswap.Sdestaddr;
} }
destAdest = rswap.Adestaddr; destAdest = rswap.Adestaddr;
@ -1020,7 +1021,7 @@ cJSON *basilisk_remember(int64_t *KMDtotals,int64_t *BTCtotals,uint32_t requesti
{ {
char privaddr[64]; uint8_t privpub33[33]; char privaddr[64]; uint8_t privpub33[33];
bitcoin_pubkey33(ctx,privpub33,rswap.myprivs[0]); bitcoin_pubkey33(ctx,privpub33,rswap.myprivs[0]);
bitcoin_address(privaddr,0,60,privpub33,33); bitcoin_address(rswap.bobcoin,privaddr,0,60,privpub33,33);
printf("alicespend len.%d redeemlen.%d priv0addr.(%s) priv0.(%s)\n",len,redeemlen,privaddr,bits256_str(str,rswap.myprivs[0])); printf("alicespend len.%d redeemlen.%d priv0addr.(%s) priv0.(%s)\n",len,redeemlen,privaddr,bits256_str(str,rswap.myprivs[0]));
} }
for (j=0; j<32; j++) for (j=0; j<32; j++)
@ -1050,14 +1051,9 @@ cJSON *basilisk_remember(int64_t *KMDtotals,int64_t *BTCtotals,uint32_t requesti
else redeemlen = basilisk_swap_bobredeemscript(1,&secretstart,redeemscript,rswap.dlocktime,rswap.pubA0,rswap.pubB0,rswap.pubB1,rswap.privAm,zero,rswap.secretAm,rswap.secretAm256,rswap.secretBn,rswap.secretBn256); else redeemlen = basilisk_swap_bobredeemscript(1,&secretstart,redeemscript,rswap.dlocktime,rswap.pubA0,rswap.pubB0,rswap.pubB1,rswap.privAm,zero,rswap.secretAm,rswap.secretAm256,rswap.secretBn,rswap.secretBn256);
if ( redeemlen > 0 ) if ( redeemlen > 0 )
{ {
if ( bits256_nonz(rswap.privBn) == 0 ) len = basilisk_swapuserdata(userdata,zero,1,rswap.myprivs[0],redeemscript,redeemlen);
rswap.privBn = basilisk_swap_privBn_extract(&rswap.txids[BASILISK_BOBREFUND],rswap.bobcoin,rswap.txids[BASILISK_BOBDEPOSIT],rswap.privBn); if ( (rswap.txbytes[BASILISK_ALICECLAIM]= basilisk_swap_bobtxspend(&signedtxid,rswap.Btxfee,"aliceclaim",rswap.bobcoin,bob->wiftaddr,bob->taddr,bob->pubtype,bob->p2shtype,bob->isPoS,bob->wiftype,ctx,rswap.myprivs[0],0,redeemscript,redeemlen,userdata,len,rswap.txids[BASILISK_BOBDEPOSIT],0,0,rswap.pubkey33,0,claimtime,&rswap.values[BASILISK_ALICECLAIM],0,0,rswap.bobdepositaddr,1,bob->zcash)) != 0 )
if ( bits256_nonz(rswap.privBn) != 0 ) printf("claimtime.%u aliceclaim.(%s)\n",claimtime,rswap.txbytes[BASILISK_ALICECLAIM]);
{
len = basilisk_swapuserdata(userdata,zero,1,rswap.myprivs[0],redeemscript,redeemlen);
if ( (rswap.txbytes[BASILISK_ALICECLAIM]= basilisk_swap_bobtxspend(&signedtxid,rswap.Btxfee,"aliceclaim",rswap.bobcoin,bob->wiftaddr,bob->taddr,bob->pubtype,bob->p2shtype,bob->isPoS,bob->wiftype,ctx,rswap.myprivs[0],0,redeemscript,redeemlen,userdata,len,rswap.txids[BASILISK_BOBDEPOSIT],0,0,rswap.pubkey33,0,rswap.expiration,&rswap.values[BASILISK_ALICECLAIM],0,0,rswap.bobdepositaddr,1,bob->zcash)) != 0 )
printf("privBn.(%s) aliceclaim.(%s)\n",bits256_str(str,rswap.privBn),rswap.txbytes[BASILISK_ALICECLAIM]);
}
} }
LP_txbytes_update("aliceclaim",rswap.bobcoin,rswap.txbytes[BASILISK_ALICECLAIM],&rswap.txids[BASILISK_ALICECLAIM],&rswap.depositspent,&rswap.sentflags[BASILISK_ALICECLAIM]); LP_txbytes_update("aliceclaim",rswap.bobcoin,rswap.txbytes[BASILISK_ALICECLAIM],&rswap.txids[BASILISK_ALICECLAIM],&rswap.depositspent,&rswap.sentflags[BASILISK_ALICECLAIM]);
} }
@ -1078,7 +1074,7 @@ cJSON *basilisk_remember(int64_t *KMDtotals,int64_t *BTCtotals,uint32_t requesti
if ( bits256_nonz(rswap.txids[BASILISK_ALICEPAYMENT]) != 0 && bits256_nonz(rswap.privAm) != 0 && bits256_nonz(rswap.privBn) != 0 ) if ( bits256_nonz(rswap.txids[BASILISK_ALICEPAYMENT]) != 0 && bits256_nonz(rswap.privAm) != 0 && bits256_nonz(rswap.privBn) != 0 )
{ {
if ( (rswap.txbytes[BASILISK_ALICERECLAIM]= basilisk_swap_Aspend("alicereclaim",rswap.alicecoin,rswap.Atxfee,alice->wiftaddr,alice->taddr,alice->pubtype,alice->p2shtype,alice->isPoS,alice->wiftype,ctx,rswap.privAm,rswap.privBn,rswap.txids[BASILISK_ALICEPAYMENT],0,rswap.pubkey33,rswap.expiration,&rswap.values[BASILISK_ALICERECLAIM],rswap.alicepaymentaddr,alice->zcash)) != 0 ) if ( (rswap.txbytes[BASILISK_ALICERECLAIM]= basilisk_swap_Aspend("alicereclaim",rswap.alicecoin,rswap.Atxfee,alice->wiftaddr,alice->taddr,alice->pubtype,alice->p2shtype,alice->isPoS,alice->wiftype,ctx,rswap.privAm,rswap.privBn,rswap.txids[BASILISK_ALICEPAYMENT],0,rswap.pubkey33,rswap.expiration,&rswap.values[BASILISK_ALICERECLAIM],rswap.alicepaymentaddr,alice->zcash)) != 0 )
printf("privBn.(%s) alicereclaim.(%s)\n",bits256_str(str,rswap.privBn),rswap.txbytes[BASILISK_ALICERECLAIM]); printf("alicereclaim.(%s)\n",rswap.txbytes[BASILISK_ALICERECLAIM]);
} }
LP_txbytes_update("alicereclaim",rswap.alicecoin,rswap.txbytes[BASILISK_ALICERECLAIM],&rswap.txids[BASILISK_ALICERECLAIM],&rswap.Apaymentspent,&rswap.sentflags[BASILISK_ALICERECLAIM]); LP_txbytes_update("alicereclaim",rswap.alicecoin,rswap.txbytes[BASILISK_ALICERECLAIM],&rswap.txids[BASILISK_ALICERECLAIM],&rswap.Apaymentspent,&rswap.sentflags[BASILISK_ALICERECLAIM]);
} }
@ -1130,7 +1126,7 @@ cJSON *basilisk_remember(int64_t *KMDtotals,int64_t *BTCtotals,uint32_t requesti
if ( redeemlen > 0 ) if ( redeemlen > 0 )
{ {
len = basilisk_swapuserdata(userdata,zero,1,rswap.myprivs[1],redeemscript,redeemlen); len = basilisk_swapuserdata(userdata,zero,1,rswap.myprivs[1],redeemscript,redeemlen);
if ( (rswap.txbytes[BASILISK_BOBRECLAIM]= basilisk_swap_bobtxspend(&signedtxid,rswap.Btxfee,"bobrefund",rswap.bobcoin,bob->wiftaddr,bob->taddr,bob->pubtype,bob->p2shtype,bob->isPoS,bob->wiftype,ctx,rswap.myprivs[1],0,redeemscript,redeemlen,userdata,len,rswap.txids[BASILISK_BOBPAYMENT],0,0,rswap.pubkey33,0,rswap.expiration,&rswap.values[BASILISK_BOBRECLAIM],0,0,rswap.bobpaymentaddr,1,bob->zcash)) != 0 ) if ( (rswap.txbytes[BASILISK_BOBRECLAIM]= basilisk_swap_bobtxspend(&signedtxid,rswap.Btxfee,"bobrefund",rswap.bobcoin,bob->wiftaddr,bob->taddr,bob->pubtype,bob->p2shtype,bob->isPoS,bob->wiftype,ctx,rswap.myprivs[1],0,redeemscript,redeemlen,userdata,len,rswap.txids[BASILISK_BOBPAYMENT],0,0,rswap.pubkey33,0,claimtime,&rswap.values[BASILISK_BOBRECLAIM],0,0,rswap.bobpaymentaddr,1,bob->zcash)) != 0 )
{ {
int32_t z; int32_t z;
for (z=0; z<20; z++) for (z=0; z<20; z++)

15
iguana/exchanges/LP_rpc.c

@ -299,8 +299,8 @@ cJSON *LP_validateaddress(char *symbol,char *address)
{ {
retjson = cJSON_CreateObject(); retjson = cJSON_CreateObject();
jaddstr(retjson,"address",address); jaddstr(retjson,"address",address);
bitcoin_addr2rmd160(coin->taddr,&addrtype,rmd160,address); bitcoin_addr2rmd160(symbol,coin->taddr,&addrtype,rmd160,address);
bitcoin_address(checkaddr,coin->taddr,addrtype,rmd160,20); bitcoin_address(symbol,checkaddr,coin->taddr,addrtype,rmd160,20);
if ( addrtype != coin->pubtype && addrtype != coin->p2shtype ) if ( addrtype != coin->pubtype && addrtype != coin->p2shtype )
{ {
jadd(retjson,"isvalid",cJSON_CreateFalse()); jadd(retjson,"isvalid",cJSON_CreateFalse());
@ -316,7 +316,7 @@ cJSON *LP_validateaddress(char *symbol,char *address)
strcat(script,"88ac"); strcat(script,"88ac");
jaddstr(retjson,"scriptPubKey",script); jaddstr(retjson,"scriptPubKey",script);
} }
bitcoin_address(coinaddr,coin->taddr,coin->pubtype,G.LP_myrmd160,20); bitcoin_address(symbol,coinaddr,coin->taddr,coin->pubtype,G.LP_myrmd160,20);
jadd(retjson,"ismine",strcmp(coinaddr,coin->smartaddr) == 0 ? cJSON_CreateTrue() : cJSON_CreateFalse()); jadd(retjson,"ismine",strcmp(coinaddr,coin->smartaddr) == 0 ? cJSON_CreateTrue() : cJSON_CreateFalse());
jadd(retjson,"iswatchonly",cJSON_CreateTrue()); jadd(retjson,"iswatchonly",cJSON_CreateTrue());
jadd(retjson,"isscript",addrtype == coin->p2shtype ? cJSON_CreateTrue() : cJSON_CreateFalse()); jadd(retjson,"isscript",addrtype == coin->p2shtype ? cJSON_CreateTrue() : cJSON_CreateFalse());
@ -571,11 +571,14 @@ cJSON *LP_importprivkey(char *symbol,char *wifstr,char *label,int32_t flag)
return(cJSON_Parse("{\"result\":\"electrum should have local wallet\"}")); return(cJSON_Parse("{\"result\":\"electrum should have local wallet\"}"));
if ( ctx == 0 ) if ( ctx == 0 )
ctx = bitcoin_ctx(); ctx = bitcoin_ctx();
bitcoin_wif2addr(ctx,coin->wiftaddr,coin->taddr,coin->pubtype,address,wifstr); bitcoin_wif2addr(ctx,symbol,coin->wiftaddr,coin->taddr,coin->pubtype,address,wifstr);
#ifdef LP_DONT_IMPORTPRIVKEY #ifdef LP_DONT_IMPORTPRIVKEY
bitcoin_wif2addr(ctx,coin->wiftaddr,coin->taddr,coin->pubtype,address,wifstr); bitcoin_wif2addr(ctx,symbol,coin->wiftaddr,coin->taddr,coin->pubtype,address,wifstr);
if ( LP_importaddress(symbol,address) < 0 ) if ( LP_importaddress(symbol,address) < 0 )
{
printf("%s importaddress %s from %s failed, isvalid.%d\n",symbol,address,wifstr,bitcoin_validaddress(symbol,coin->taddr,coin->pubtype,coin->p2shtype,address));
return(cJSON_Parse("{\"error\":\"couldnt import\"}")); return(cJSON_Parse("{\"error\":\"couldnt import\"}"));
}
else return(cJSON_Parse("{\"result\":\"success\"}")); else return(cJSON_Parse("{\"result\":\"success\"}"));
#endif #endif
if ( (retjson= LP_validateaddress(symbol,address)) != 0 ) if ( (retjson= LP_validateaddress(symbol,address)) != 0 )
@ -765,7 +768,7 @@ char *LP_signrawtx(char *symbol,bits256 *signedtxidp,int32_t *completedp,cJSON *
len >>= 1; len >>= 1;
data = malloc(len); data = malloc(len);
decode_hex(data,len,hexstr); decode_hex(data,len,hexstr);
*signedtxidp = bits256_doublesha256(0,data,len); *signedtxidp = bits256_calctxid(coin->symbol,data,len);
} }
//else //else
printf("%s signrawtransaction.(%s) params.(%s)\n",coin->symbol,retstr,paramstr); printf("%s signrawtransaction.(%s) params.(%s)\n",coin->symbol,retstr,paramstr);

2
iguana/exchanges/LP_signatures.c

@ -675,7 +675,7 @@ void LP_query(void *ctx,char *myipaddr,int32_t mypubsock,char *method,struct LP_
{ {
memset(&zero,0,sizeof(zero)); memset(&zero,0,sizeof(zero));
LP_reserved_msg(1,qp->srccoin,qp->destcoin,zero,clonestr(msg)); LP_reserved_msg(1,qp->srccoin,qp->destcoin,zero,clonestr(msg));
if ( strcmp(method,"request") == 0 ) //if ( strcmp(method,"request") == 0 )
{ {
sleep(1); sleep(1);
LP_reserved_msg(1,qp->srccoin,qp->destcoin,zero,clonestr(msg)); LP_reserved_msg(1,qp->srccoin,qp->destcoin,zero,clonestr(msg));

5
iguana/exchanges/LP_stats.c

@ -101,9 +101,12 @@ void LP_tradecommand_log(cJSON *argjson)
static FILE *logfp; char *jsonstr; static FILE *logfp; char *jsonstr;
if ( logfp == 0 ) if ( logfp == 0 )
{ {
#ifndef _WIN32
if ( (logfp= fopen(LP_STATSLOG_FNAME,"rb+")) != 0 ) if ( (logfp= fopen(LP_STATSLOG_FNAME,"rb+")) != 0 )
fseek(logfp,0,SEEK_END); fseek(logfp,0,SEEK_END);
else logfp = fopen(LP_STATSLOG_FNAME,"wb"); else
#endif
logfp = fopen(LP_STATSLOG_FNAME,"wb");
} }
if ( logfp != 0 ) if ( logfp != 0 )
{ {

28
iguana/exchanges/LP_swap.c

@ -42,34 +42,18 @@
Alice altpayment: OP_2 <alice_pubM> <bob_pubN> OP_2 OP_CHECKMULTISIG Alice altpayment: OP_2 <alice_pubM> <bob_pubN> OP_2 OP_CHECKMULTISIG
Bob deposit: Bob deposit:
#ifndef DISABLE_CHECKSIG
OP_IF OP_IF
<now + INSTANTDEX_LOCKTIME*2> OP_CLTV OP_DROP <alice_pubA0> OP_CHECKSIG <now + INSTANTDEX_LOCKTIME*2> OP_CLTV OP_DROP <alice_pubA0> OP_CHECKSIG
OP_ELSE OP_ELSE
OP_HASH160 <hash(bob_privN)> OP_EQUALVERIFY <bob_pubB0> OP_CHECKSIG OP_HASH160 <hash(bob_privN)> OP_EQUALVERIFY <bob_pubB0> OP_CHECKSIG
OP_ENDIF OP_ENDIF
#else
OP_IF
<now + INSTANTDEX_LOCKTIME*2> OP_CLTV OP_DROP OP_SHA256 <sha256(alice_privA0)> OP_EQUAL
OP_ELSE
OP_HASH160 <hash(bob_privN)> OP_EQUALVERIFY OP_SHA256 <sha256(bob_privB0)> OP_EQUAL
OP_ENDIF
#endif
Bob paytx: Bob paytx:
#ifndef DISABLE_CHECKSIG
OP_IF OP_IF
<now + INSTANTDEX_LOCKTIME> OP_CLTV OP_DROP <bob_pubB1> OP_CHECKSIG <now + INSTANTDEX_LOCKTIME> OP_CLTV OP_DROP <bob_pubB1> OP_CHECKSIG
OP_ELSE OP_ELSE
OP_HASH160 <hash(alice_privM)> OP_EQUALVERIFY <alice_pubA0> OP_CHECKSIG OP_HASH160 <hash(alice_privM)> OP_EQUALVERIFY <alice_pubA0> OP_CHECKSIG
OP_ENDIF OP_ENDIF
#else
OP_IF
<now + INSTANTDEX_LOCKTIME> OP_CLTV OP_DROP OP_SHA256 <sha256(bob_privB1)> OP_EQUAL
OP_ELSE
OP_HASH160 <hash(alice_privM)> OP_EQUALVERIFY OP_SHA256 <sha256(alice_privA0)> OP_EQUAL
OP_ENDIF
#endif
Naming convention are pubAi are alice's pubkeys (seems only pubA0 and not pubA1) Naming convention are pubAi are alice's pubkeys (seems only pubA0 and not pubA1)
pubBi are Bob's pubkeys pubBi are Bob's pubkeys
@ -612,7 +596,7 @@ int32_t LP_rawtx_spendscript(struct basilisk_swap *swap,int32_t height,struct ba
memcpy(rawtx->redeemscript,&data[datalen],rawtx->I.redeemlen); memcpy(rawtx->redeemscript,&data[datalen],rawtx->I.redeemlen);
//for (i=0; i<rawtx->I.redeemlen; i++) //for (i=0; i<rawtx->I.redeemlen; i++)
// printf("%02x",rawtx->redeemscript[i]); // printf("%02x",rawtx->redeemscript[i]);
bitcoin_address(redeemaddr,coin->taddr,coin->p2shtype,rawtx->redeemscript,rawtx->I.redeemlen); bitcoin_address(coin->symbol,redeemaddr,coin->taddr,coin->p2shtype,rawtx->redeemscript,rawtx->I.redeemlen);
//printf(" received redeemscript.(%s) %s taddr.%d\n",redeemaddr,coin->symbol,coin->taddr); //printf(" received redeemscript.(%s) %s taddr.%d\n",redeemaddr,coin->symbol,coin->taddr);
LP_swap_coinaddr(coin,checkaddr,0,data,datalen,0); LP_swap_coinaddr(coin,checkaddr,0,data,datalen,0);
if ( strcmp(redeemaddr,checkaddr) != 0 ) if ( strcmp(redeemaddr,checkaddr) != 0 )
@ -640,7 +624,7 @@ int32_t LP_rawtx_spendscript(struct basilisk_swap *swap,int32_t height,struct ba
} }
if ( recvlen != datalen+rawtx->I.redeemlen+75 ) if ( recvlen != datalen+rawtx->I.redeemlen+75 )
printf("RECVLEN %d != %d + %d\n",recvlen,datalen,rawtx->I.redeemlen); printf("RECVLEN %d != %d + %d\n",recvlen,datalen,rawtx->I.redeemlen);
txid = bits256_doublesha256(0,data,datalen); txid = bits256_calctxid(coin->symbol,data,datalen);
char str[65]; printf("rawtx.%s txid %s\n",rawtx->name,bits256_str(str,txid)); char str[65]; printf("rawtx.%s txid %s\n",rawtx->name,bits256_str(str,txid));
if ( bits256_cmp(txid,rawtx->I.actualtxid) != 0 && bits256_nonz(rawtx->I.actualtxid) == 0 ) if ( bits256_cmp(txid,rawtx->I.actualtxid) != 0 && bits256_nonz(rawtx->I.actualtxid) == 0 )
rawtx->I.actualtxid = txid; rawtx->I.actualtxid = txid;
@ -678,7 +662,7 @@ int32_t LP_rawtx_spendscript(struct basilisk_swap *swap,int32_t height,struct ba
char str[65]; char str[65];
LP_swap_coinaddr(coin,rawtx->p2shaddr,0,data,datalen,0); LP_swap_coinaddr(coin,rawtx->p2shaddr,0,data,datalen,0);
printf("got %s txid.%s (%s) -> %s\n",rawtx->name,bits256_str(str,rawtx->I.signedtxid),jprint(txobj,0),rawtx->p2shaddr); printf("got %s txid.%s (%s) -> %s\n",rawtx->name,bits256_str(str,rawtx->I.signedtxid),jprint(txobj,0),rawtx->p2shaddr);
} else bitcoin_address(rawtx->p2shaddr,coin->taddr,coin->p2shtype,rawtx->spendscript,hexlen); } else bitcoin_address(coin->symbol,rawtx->p2shaddr,coin->taddr,coin->p2shtype,rawtx->spendscript,hexlen);
} }
} else printf("%s satoshis %.8f ERROR.(%s) txfees.[%.8f %.8f: %.8f] amount.%.8f -> %.8f\n",rawtx->name,dstr(j64bits(vout,"satoshis")),jprint(txobj,0),dstr(swap->I.Atxfee),dstr(swap->I.Btxfee),dstr(txfee),dstr(rawtx->I.amount),dstr(rawtx->I.amount)-dstr(txfee)); } else printf("%s satoshis %.8f ERROR.(%s) txfees.[%.8f %.8f: %.8f] amount.%.8f -> %.8f\n",rawtx->name,dstr(j64bits(vout,"satoshis")),jprint(txobj,0),dstr(swap->I.Atxfee),dstr(swap->I.Btxfee),dstr(txfee),dstr(rawtx->I.amount),dstr(rawtx->I.amount)-dstr(txfee));
} }
@ -1035,13 +1019,13 @@ void basilisk_rawtx_setparms(char *name,uint32_t quoteid,struct basilisk_rawtx *
if ( strcmp(coin->symbol,"BTC") == 0 && (quoteid % 10) == 0 ) if ( strcmp(coin->symbol,"BTC") == 0 && (quoteid % 10) == 0 )
decode_hex(rawtx->I.rmd160,20,TIERNOLAN_RMD160); decode_hex(rawtx->I.rmd160,20,TIERNOLAN_RMD160);
else decode_hex(rawtx->I.rmd160,20,INSTANTDEX_RMD160); else decode_hex(rawtx->I.rmd160,20,INSTANTDEX_RMD160);
bitcoin_address(rawtx->I.destaddr,coin->taddr,coin->pubtype,rawtx->I.rmd160,20); bitcoin_address(coin->symbol,rawtx->I.destaddr,coin->taddr,coin->pubtype,rawtx->I.rmd160,20);
} }
if ( pubkey33 != 0 ) if ( pubkey33 != 0 )
{ {
memcpy(rawtx->I.pubkey33,pubkey33,33); memcpy(rawtx->I.pubkey33,pubkey33,33);
bitcoin_address(rawtx->I.destaddr,coin->taddr,coin->pubtype,rawtx->I.pubkey33,33); bitcoin_address(coin->symbol,rawtx->I.destaddr,coin->taddr,coin->pubtype,rawtx->I.pubkey33,33);
bitcoin_addr2rmd160(coin->taddr,&rawtx->I.addrtype,rawtx->I.rmd160,rawtx->I.destaddr); bitcoin_addr2rmd160(coin->symbol,coin->taddr,&rawtx->I.addrtype,rawtx->I.rmd160,rawtx->I.destaddr);
} }
if ( rawtx->I.vouttype <= 1 && rawtx->I.destaddr[0] != 0 ) if ( rawtx->I.vouttype <= 1 && rawtx->I.destaddr[0] != 0 )
{ {

140
iguana/exchanges/LP_transaction.c

@ -45,10 +45,10 @@ int32_t LP_privkeyadd(bits256 privkey,uint8_t rmd160[20])
return(G.LP_numprivkeys); return(G.LP_numprivkeys);
} }
bits256 LP_privkey(char *coinaddr,uint8_t taddr) bits256 LP_privkey(char *symbol,char *coinaddr,uint8_t taddr)
{ {
bits256 privkey; uint8_t addrtype,rmd160[20]; bits256 privkey; uint8_t addrtype,rmd160[20];
bitcoin_addr2rmd160(taddr,&addrtype,rmd160,coinaddr); bitcoin_addr2rmd160(symbol,taddr,&addrtype,rmd160,coinaddr);
privkey = LP_privkeyfind(rmd160); privkey = LP_privkeyfind(rmd160);
return(privkey); return(privkey);
} }
@ -88,7 +88,7 @@ bits256 LP_broadcast(char *txname,char *symbol,char *txbytes,bits256 expectedtxi
len = (int32_t)strlen(txbytes) >> 1; len = (int32_t)strlen(txbytes) >> 1;
ptr = malloc(len); ptr = malloc(len);
decode_hex(ptr,len,txbytes); decode_hex(ptr,len,txbytes);
expectedtxid = bits256_doublesha256(0,ptr,len); expectedtxid = bits256_calctxid(symbol,ptr,len);
free(ptr); free(ptr);
} }
for (i=0; i<2; i++) for (i=0; i<2; i++)
@ -149,7 +149,7 @@ bits256 LP_broadcast_tx(char *name,char *symbol,uint8_t *data,int32_t datalen)
{ {
signedtx = malloc(datalen*2 + 1); signedtx = malloc(datalen*2 + 1);
init_hexbytes_noT(signedtx,data,datalen); init_hexbytes_noT(signedtx,data,datalen);
txid = bits256_doublesha256(0,data,datalen); txid = bits256_calctxid(symbol,data,datalen);
#ifdef BASILISK_DISABLESENDTX #ifdef BASILISK_DISABLESENDTX
char str[65]; printf("%s <- dont sendrawtransaction (%s) %s\n",name,bits256_str(str,txid),signedtx); char str[65]; printf("%s <- dont sendrawtransaction (%s) %s\n",name,bits256_str(str,txid),signedtx);
#else #else
@ -324,7 +324,7 @@ int32_t iguana_interpreter(struct iguana_info *coin,cJSON *logarray,int64_t nLoc
return(0); return(0);
} }
bits256 iguana_str2priv(uint8_t wiftaddr,char *str) bits256 iguana_str2priv(char *symbol,uint8_t wiftaddr,char *str)
{ {
bits256 privkey; int32_t n; uint8_t addrtype; //struct iguana_waccount *wacct=0; struct iguana_waddress *waddr; bits256 privkey; int32_t n; uint8_t addrtype; //struct iguana_waccount *wacct=0; struct iguana_waddress *waddr;
memset(&privkey,0,sizeof(privkey)); memset(&privkey,0,sizeof(privkey));
@ -333,7 +333,7 @@ bits256 iguana_str2priv(uint8_t wiftaddr,char *str)
n = (int32_t)strlen(str) >> 1; n = (int32_t)strlen(str) >> 1;
if ( n == sizeof(bits256) && is_hexstr(str,sizeof(bits256)) > 0 ) if ( n == sizeof(bits256) && is_hexstr(str,sizeof(bits256)) > 0 )
decode_hex(privkey.bytes,sizeof(privkey),str); decode_hex(privkey.bytes,sizeof(privkey),str);
else if ( bitcoin_wif2priv(wiftaddr,&addrtype,&privkey,str) != sizeof(bits256) ) else if ( bitcoin_wif2priv(symbol,wiftaddr,&addrtype,&privkey,str) != sizeof(bits256) )
{ {
//if ( (waddr= iguana_waddresssearch(&wacct,str)) != 0 ) //if ( (waddr= iguana_waddresssearch(&wacct,str)) != 0 )
// privkey = waddr->privkey; // privkey = waddr->privkey;
@ -343,7 +343,7 @@ bits256 iguana_str2priv(uint8_t wiftaddr,char *str)
return(privkey); return(privkey);
} }
int32_t iguana_vininfo_create(uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,uint8_t isPoS,uint8_t *serialized,int32_t maxsize,struct iguana_msgtx *msgtx,cJSON *vins,int32_t numinputs,struct vin_info *V) int32_t iguana_vininfo_create(char *symbol,uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,uint8_t isPoS,uint8_t *serialized,int32_t maxsize,struct iguana_msgtx *msgtx,cJSON *vins,int32_t numinputs,struct vin_info *V)
{ {
int32_t i,plen,finalized = 1,len = 0; struct vin_info *vp; //struct iguana_waccount *wacct; struct iguana_waddress *waddr; uint32_t sigsize,pubkeysize,p2shsize,userdatalen; int32_t i,plen,finalized = 1,len = 0; struct vin_info *vp; //struct iguana_waccount *wacct; struct iguana_waddress *waddr; uint32_t sigsize,pubkeysize,p2shsize,userdatalen;
msgtx->tx_in = numinputs; msgtx->tx_in = numinputs;
@ -375,9 +375,9 @@ int32_t iguana_vininfo_create(uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,uin
{ {
memcpy(vp->spendscript,msgtx->vins[i].spendscript,msgtx->vins[i].spendlen); memcpy(vp->spendscript,msgtx->vins[i].spendscript,msgtx->vins[i].spendlen);
vp->spendlen = msgtx->vins[i].spendlen; vp->spendlen = msgtx->vins[i].spendlen;
_iguana_calcrmd160(taddr,pubtype,p2shtype,vp); _iguana_calcrmd160(symbol,taddr,pubtype,p2shtype,vp);
if ( (plen= bitcoin_pubkeylen(vp->signers[0].pubkey)) > 0 ) if ( (plen= bitcoin_pubkeylen(vp->signers[0].pubkey)) > 0 )
bitcoin_address(vp->coinaddr,taddr,pubtype,vp->signers[0].pubkey,plen); bitcoin_address(symbol,vp->coinaddr,taddr,pubtype,vp->signers[0].pubkey,plen);
} }
if ( vp->M == 0 && vp->N == 0 ) if ( vp->M == 0 && vp->N == 0 )
vp->M = vp->N = 1; vp->M = vp->N = 1;
@ -523,7 +523,7 @@ int32_t iguana_signrawtransaction(void *ctx,char *symbol,uint8_t wiftaddr,uint8_
privkeystr = jstr(item,0); privkeystr = jstr(item,0);
if ( privkeystr == 0 || privkeystr[0] == 0 ) if ( privkeystr == 0 || privkeystr[0] == 0 )
continue; continue;
privkeys[i] = privkey = iguana_str2priv(wiftaddr,privkeystr); privkeys[i] = privkey = iguana_str2priv(symbol,wiftaddr,privkeystr);
bitcoin_pubkey33(ctx,pubkeys[i],privkey); bitcoin_pubkey33(ctx,pubkeys[i],privkey);
//if ( bits256_nonz(privkey) != 0 ) //if ( bits256_nonz(privkey) != 0 )
// iguana_ensure_privkey(coin,privkey); // iguana_ensure_privkey(coin,privkey);
@ -545,8 +545,8 @@ int32_t iguana_signrawtransaction(void *ctx,char *symbol,uint8_t wiftaddr,uint8_
{ {
//for (j=0; j<msgtx->vins[i].p2shlen; j++) //for (j=0; j<msgtx->vins[i].p2shlen; j++)
// printf("%02x",msgtx->vins[i].redeemscript[j]); // printf("%02x",msgtx->vins[i].redeemscript[j]);
bitcoin_address(coinaddr,taddr,p2shtype,msgtx->vins[i].redeemscript,msgtx->vins[i].p2shlen); bitcoin_address(symbol,coinaddr,taddr,p2shtype,msgtx->vins[i].redeemscript,msgtx->vins[i].p2shlen);
type = iguana_calcrmd160(taddr,pubtype,p2shtype,0,&mvin,msgtx->vins[i].redeemscript,msgtx->vins[i].p2shlen,zero,0,0); type = iguana_calcrmd160(symbol,taddr,pubtype,p2shtype,0,&mvin,msgtx->vins[i].redeemscript,msgtx->vins[i].p2shlen,zero,0,0);
for (j=0; j<mvin.N; j++) for (j=0; j<mvin.N; j++)
{ {
if ( V->suppress_pubkeys == 0 ) if ( V->suppress_pubkeys == 0 )
@ -596,7 +596,7 @@ int32_t iguana_signrawtransaction(void *ctx,char *symbol,uint8_t wiftaddr,uint8_
} }
} }
} }
finalized = iguana_vininfo_create(taddr,pubtype,p2shtype,isPoS,serialized2,maxsize,msgtx,vins,numinputs,V); finalized = iguana_vininfo_create(symbol,taddr,pubtype,p2shtype,isPoS,serialized2,maxsize,msgtx,vins,numinputs,V);
//printf("finalized.%d ignore_cltverr.%d suppress.%d\n",finalized,V[0].ignore_cltverr,V[0].suppress_pubkeys); //printf("finalized.%d ignore_cltverr.%d suppress.%d\n",finalized,V[0].ignore_cltverr,V[0].suppress_pubkeys);
sighash = LP_sighash(symbol,zcash); sighash = LP_sighash(symbol,zcash);
if ( (complete= bitcoin_verifyvins(ctx,symbol,taddr,pubtype,p2shtype,isPoS,height,signedtxidp,&signedtx,msgtx,serialized3,maxsize,V,sighash,1,V->suppress_pubkeys,zcash)) > 0 && signedtx != 0 ) if ( (complete= bitcoin_verifyvins(ctx,symbol,taddr,pubtype,p2shtype,isPoS,height,signedtxidp,&signedtx,msgtx,serialized3,maxsize,V,sighash,1,V->suppress_pubkeys,zcash)) > 0 && signedtx != 0 )
@ -746,8 +746,6 @@ char *basilisk_swap_bobtxspend(bits256 *signedtxidp,uint64_t txfee,char *name,ch
{ {
char *rawtxbytes=0,*signedtx=0,str[65],tmpaddr[64],hexstr[999],wifstr[128],_destaddr[64]; uint8_t spendscript[512],addrtype,rmd160[20]; cJSON *txobj,*vins,*obj,*vouts,*item,*privkeys; int32_t completed,spendlen,n,ignore_cltverr=1; struct vin_info V[8]; uint32_t timestamp,locktime = 0,sequenceid = 0xffffffff * finalseqid; bits256 txid; uint64_t value=0,change = 0; struct iguana_msgtx msgtx; struct iguana_info *coin; char *rawtxbytes=0,*signedtx=0,str[65],tmpaddr[64],hexstr[999],wifstr[128],_destaddr[64]; uint8_t spendscript[512],addrtype,rmd160[20]; cJSON *txobj,*vins,*obj,*vouts,*item,*privkeys; int32_t completed,spendlen,n,ignore_cltverr=1; struct vin_info V[8]; uint32_t timestamp,locktime = 0,sequenceid = 0xffffffff * finalseqid; bits256 txid; uint64_t value=0,change = 0; struct iguana_msgtx msgtx; struct iguana_info *coin;
LP_mark_spent(symbol,utxotxid,utxovout); LP_mark_spent(symbol,utxotxid,utxovout);
if ( txfee > 0 && txfee < 10000 )
txfee = 10000;
*destamountp = 0; *destamountp = 0;
memset(signedtxidp,0,sizeof(*signedtxidp)); memset(signedtxidp,0,sizeof(*signedtxidp));
if ( finalseqid == 0 ) if ( finalseqid == 0 )
@ -758,6 +756,8 @@ char *basilisk_swap_bobtxspend(bits256 *signedtxidp,uint64_t txfee,char *name,ch
value = 0; value = 0;
if ( (coin= LP_coinfind(symbol)) != 0 ) if ( (coin= LP_coinfind(symbol)) != 0 )
{ {
if ( txfee > 0 && txfee < coin->txfee )
txfee = coin->txfee;
#ifndef BASILISK_DISABLESENDTX #ifndef BASILISK_DISABLESENDTX
if ( (txobj= LP_gettx(symbol,utxotxid,0)) != 0 ) if ( (txobj= LP_gettx(symbol,utxotxid,0)) != 0 )
{ {
@ -776,6 +776,8 @@ char *basilisk_swap_bobtxspend(bits256 *signedtxidp,uint64_t txfee,char *name,ch
} }
#endif #endif
} }
if ( txfee > 0 && txfee < LP_MIN_TXFEE )
txfee = LP_MIN_TXFEE;
if ( satoshis != 0 ) if ( satoshis != 0 )
{ {
if ( value < satoshis+txfee ) if ( value < satoshis+txfee )
@ -823,13 +825,13 @@ char *basilisk_swap_bobtxspend(bits256 *signedtxidp,uint64_t txfee,char *name,ch
{ {
V[0].signers[1].privkey = *privkey2p; V[0].signers[1].privkey = *privkey2p;
bitcoin_pubkey33(ctx,V[0].signers[1].pubkey,*privkey2p); bitcoin_pubkey33(ctx,V[0].signers[1].pubkey,*privkey2p);
bitcoin_priv2wif(wiftaddr,wifstr,*privkey2p,wiftype); bitcoin_priv2wif(symbol,wiftaddr,wifstr,*privkey2p,wiftype);
jaddistr(privkeys,wifstr); jaddistr(privkeys,wifstr);
V[0].N = V[0].M = 2; V[0].N = V[0].M = 2;
} else V[0].N = V[0].M = 1; } else V[0].N = V[0].M = 1;
V[0].signers[0].privkey = privkey; V[0].signers[0].privkey = privkey;
bitcoin_pubkey33(ctx,V[0].signers[0].pubkey,privkey); bitcoin_pubkey33(ctx,V[0].signers[0].pubkey,privkey);
bitcoin_priv2wif(wiftaddr,wifstr,privkey,wiftype); bitcoin_priv2wif(symbol,wiftaddr,wifstr,privkey,wiftype);
jaddistr(privkeys,wifstr); jaddistr(privkeys,wifstr);
V[0].suppress_pubkeys = suppress_pubkeys; V[0].suppress_pubkeys = suppress_pubkeys;
V[0].ignore_cltverr = ignore_cltverr; V[0].ignore_cltverr = ignore_cltverr;
@ -847,14 +849,14 @@ char *basilisk_swap_bobtxspend(bits256 *signedtxidp,uint64_t txfee,char *name,ch
} }
jaddbits256(item,"txid",utxotxid); jaddbits256(item,"txid",utxotxid);
jaddnum(item,"vout",utxovout); jaddnum(item,"vout",utxovout);
bitcoin_address(tmpaddr,taddr,pubtype,pubkey33,33); bitcoin_address(symbol,tmpaddr,taddr,pubtype,pubkey33,33);
bitcoin_addr2rmd160(taddr,&addrtype,rmd160,tmpaddr); bitcoin_addr2rmd160(symbol,taddr,&addrtype,rmd160,tmpaddr);
if ( redeemlen != 0 ) if ( redeemlen != 0 )
{ {
init_hexbytes_noT(hexstr,redeemscript,redeemlen); init_hexbytes_noT(hexstr,redeemscript,redeemlen);
jaddstr(item,"redeemScript",hexstr); jaddstr(item,"redeemScript",hexstr);
if ( vinaddr != 0 ) if ( vinaddr != 0 )
bitcoin_addr2rmd160(taddr,&addrtype,rmd160,vinaddr); bitcoin_addr2rmd160(symbol,taddr,&addrtype,rmd160,vinaddr);
spendlen = bitcoin_p2shspend(spendscript,0,rmd160); spendlen = bitcoin_p2shspend(spendscript,0,rmd160);
//printf("P2SH path.%s\n",vinaddr!=0?vinaddr:0); //printf("P2SH path.%s\n",vinaddr!=0?vinaddr:0);
} else spendlen = bitcoin_standardspend(spendscript,0,rmd160); } else spendlen = bitcoin_standardspend(spendscript,0,rmd160);
@ -868,9 +870,9 @@ char *basilisk_swap_bobtxspend(bits256 *signedtxidp,uint64_t txfee,char *name,ch
if ( destaddr == 0 ) if ( destaddr == 0 )
{ {
destaddr = _destaddr; destaddr = _destaddr;
bitcoin_address(destaddr,taddr,pubtype,pubkey33,33); bitcoin_address(symbol,destaddr,taddr,pubtype,pubkey33,33);
} }
bitcoin_addr2rmd160(taddr,&addrtype,rmd160,destaddr); bitcoin_addr2rmd160(symbol,taddr,&addrtype,rmd160,destaddr);
if ( addrtype == p2shtype ) if ( addrtype == p2shtype )
spendlen = bitcoin_p2shspend(spendscript,0,rmd160); spendlen = bitcoin_p2shspend(spendscript,0,rmd160);
else spendlen = bitcoin_standardspend(spendscript,0,rmd160); else spendlen = bitcoin_standardspend(spendscript,0,rmd160);
@ -884,11 +886,11 @@ char *basilisk_swap_bobtxspend(bits256 *signedtxidp,uint64_t txfee,char *name,ch
if ( change != 0 ) if ( change != 0 )
{ {
int32_t changelen; uint8_t changescript[1024],changetype,changermd160[20]; int32_t changelen; uint8_t changescript[1024],changetype,changermd160[20];
bitcoin_addr2rmd160(taddr,&changetype,changermd160,changeaddr); bitcoin_addr2rmd160(symbol,taddr,&changetype,changermd160,changeaddr);
changelen = bitcoin_standardspend(changescript,0,changermd160); changelen = bitcoin_standardspend(changescript,0,changermd160);
txobj = bitcoin_txoutput(txobj,changescript,changelen,change); txobj = bitcoin_txoutput(txobj,changescript,changelen,change);
} }
if ( (rawtxbytes= bitcoin_json2hex(isPoS,&txid,txobj,V)) != 0 ) if ( (rawtxbytes= bitcoin_json2hex(symbol,isPoS,&txid,txobj,V)) != 0 )
{ {
char str[65]; char str[65];
completed = 0; completed = 0;
@ -978,6 +980,21 @@ cJSON *LP_inputjson(bits256 txid,int32_t vout,char *spendscriptstr)
return(item); return(item);
} }
int64_t LP_hodlcoin_interest(int32_t coinheight,int32_t utxoheight,bits256 txid,int64_t nValue)
{
int64_t interest = 0; int32_t minutes,htdiff;
if ( coinheight > utxoheight )
{
htdiff = (coinheight - utxoheight);
if ( htdiff > 16830 )
htdiff = 16830;
minutes = (htdiff * 154) / 60;
interest = nValue * htdiff * 0.000000238418;
//interest = ((nValue * minutes) / 10743920);
}
return(interest);
}
uint64_t _komodo_interestnew(uint64_t nValue,uint32_t nLockTime,uint32_t tiptime) uint64_t _komodo_interestnew(uint64_t nValue,uint32_t nLockTime,uint32_t tiptime)
{ {
int32_t minutes; uint64_t interest = 0; int32_t minutes; uint64_t interest = 0;
@ -1013,7 +1030,7 @@ int32_t LP_vins_select(void *ctx,struct iguana_info *coin,int64_t *totalp,int64_
*totalp = 0; *totalp = 0;
interestsum = 0; interestsum = 0;
init_hexbytes_noT(spendscriptstr,script,scriptlen); init_hexbytes_noT(spendscriptstr,script,scriptlen);
bitcoin_priv2wif(coin->wiftaddr,wifstr,privkey,coin->wiftype); bitcoin_priv2wif(coin->symbol,coin->wiftaddr,wifstr,privkey,coin->wiftype);
n = 0; n = 0;
min0 = min1 = 0; min0 = min1 = 0;
memset(preselected,0,sizeof(preselected)); memset(preselected,0,sizeof(preselected));
@ -1141,6 +1158,14 @@ int32_t LP_vins_select(void *ctx,struct iguana_info *coin,int64_t *totalp,int64_
char str[65]; printf("%s/%d %.8f interest %.8f -> sum %.8f\n",bits256_str(str,up->U.txid),up->U.vout,dstr(up->U.value),dstr(interest),dstr(interestsum)); char str[65]; printf("%s/%d %.8f interest %.8f -> sum %.8f\n",bits256_str(str,up->U.txid),up->U.vout,dstr(up->U.value),dstr(interest),dstr(interestsum));
} }
} }
else if ( strcmp(coin->symbol,"HODLC") == 0 )
{
if ( (interest= LP_hodlcoin_interest(coin->height,up->U.height,up->U.txid,up->U.value)) > 0 )
{
interestsum += interest;
char str[65]; printf("%s/%d %.8f hodl interest %.8f -> sum %.8f\n",bits256_str(str,up->U.txid),up->U.vout,dstr(up->U.value),dstr(interest),dstr(interestsum));
}
}
printf("numunspents.%d vini.%d value %.8f, total %.8f remains %.8f interest %.8f sum %.8f %s/v%d\n",numunspents,n,dstr(up->U.value),dstr(total),dstr(remains),dstr(interest),dstr(interestsum),bits256_str(str,up->U.txid),up->U.vout); printf("numunspents.%d vini.%d value %.8f, total %.8f remains %.8f interest %.8f sum %.8f %s/v%d\n",numunspents,n,dstr(up->U.value),dstr(total),dstr(remains),dstr(interest),dstr(interestsum),bits256_str(str,up->U.txid),up->U.vout);
vp = &V[n++]; vp = &V[n++];
vp->N = vp->M = 1; vp->N = vp->M = 1;
@ -1258,7 +1283,7 @@ char *LP_createrawtransaction(cJSON **txobjp,int32_t *numvinsp,struct iguana_inf
free_json(txobj); free_json(txobj);
return(0); return(0);
} }
bitcoin_addr2rmd160(coin->taddr,&addrtype,rmd160,coinaddr); bitcoin_addr2rmd160(coin->symbol,coin->taddr,&addrtype,rmd160,coinaddr);
if ( addrtype == coin->pubtype ) if ( addrtype == coin->pubtype )
spendlen = bitcoin_standardspend(spendscript,0,rmd160); spendlen = bitcoin_standardspend(spendscript,0,rmd160);
else spendlen = bitcoin_p2shspend(spendscript,0,rmd160); else spendlen = bitcoin_p2shspend(spendscript,0,rmd160);
@ -1284,7 +1309,7 @@ char *LP_createrawtransaction(cJSON **txobjp,int32_t *numvinsp,struct iguana_inf
} }
if ( change != 0 ) if ( change != 0 )
txobj = bitcoin_txoutput(txobj,script,scriptlen,change); txobj = bitcoin_txoutput(txobj,script,scriptlen,change);
if ( (rawtxbytes= bitcoin_json2hex(coin->isPoS,&txid,txobj,V)) != 0 ) if ( (rawtxbytes= bitcoin_json2hex(coin->symbol,coin->isPoS,&txid,txobj,V)) != 0 )
{ {
} else printf("error making rawtx suppress.%d\n",suppress_pubkeys); } else printf("error making rawtx suppress.%d\n",suppress_pubkeys);
*txobjp = txobj; *txobjp = txobj;
@ -1312,14 +1337,14 @@ char *LP_withdraw(struct iguana_info *coin,cJSON *argjson)
{ {
autofee = 1; autofee = 1;
txfee = coin->txfee; txfee = coin->txfee;
if ( txfee > 0 && txfee < 10000 ) if ( txfee > 0 && txfee < LP_MIN_TXFEE )
txfee = 10000; txfee = LP_MIN_TXFEE;
} else autofee = 0; } else autofee = 0;
suppress_pubkeys = 0; suppress_pubkeys = 0;
memset(signedtxid.bytes,0,sizeof(signedtxid)); memset(signedtxid.bytes,0,sizeof(signedtxid));
safecopy(changeaddr,coin->smartaddr,sizeof(changeaddr)); safecopy(changeaddr,coin->smartaddr,sizeof(changeaddr));
safecopy(vinaddr,coin->smartaddr,sizeof(vinaddr)); safecopy(vinaddr,coin->smartaddr,sizeof(vinaddr));
privkey = LP_privkey(vinaddr,coin->taddr); privkey = LP_privkey(coin->symbol,vinaddr,coin->taddr);
maxV = LP_MAXVINS; maxV = LP_MAXVINS;
V = malloc(maxV * sizeof(*V)); V = malloc(maxV * sizeof(*V));
for (iter=0; iter<2; iter++) for (iter=0; iter<2; iter++)
@ -1437,7 +1462,7 @@ int32_t basilisk_rawtx_gen(void *ctx,char *str,uint32_t swapstarted,uint8_t *pub
} }
free_json(argjson); free_json(argjson);
return(retval); return(retval);
#ifdef old /*#ifdef old
int32_t retval=-1,iter; char *signedtx,*changeaddr = 0,_changeaddr[64]; struct iguana_info *coin; int64_t newtxfee=0,destamount; int32_t retval=-1,iter; char *signedtx,*changeaddr = 0,_changeaddr[64]; struct iguana_info *coin; int64_t newtxfee=0,destamount;
char str2[65]; printf("%s rawtxgen.(%s/v%d)\n",rawtx->name,bits256_str(str2,rawtx->utxotxid),rawtx->utxovout); char str2[65]; printf("%s rawtxgen.(%s/v%d)\n",rawtx->name,bits256_str(str2,rawtx->utxotxid),rawtx->utxovout);
if ( (coin= rawtx->coin) == 0 ) if ( (coin= rawtx->coin) == 0 )
@ -1472,7 +1497,7 @@ int32_t basilisk_rawtx_gen(void *ctx,char *str,uint32_t swapstarted,uint8_t *pub
break; break;
} }
return(retval); return(retval);
#endif #endif*/
} }
int32_t basilisk_rawtx_sign(char *symbol,uint8_t wiftaddr,uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,uint8_t isPoS,uint8_t wiftype,struct basilisk_swap *swap,struct basilisk_rawtx *dest,struct basilisk_rawtx *rawtx,bits256 privkey,bits256 *privkey2,uint8_t *userdata,int32_t userdatalen,int32_t ignore_cltverr,uint8_t *changermd160,char *vinaddr,int32_t zcash) int32_t basilisk_rawtx_sign(char *symbol,uint8_t wiftaddr,uint8_t taddr,uint8_t pubtype,uint8_t p2shtype,uint8_t isPoS,uint8_t wiftype,struct basilisk_swap *swap,struct basilisk_rawtx *dest,struct basilisk_rawtx *rawtx,bits256 privkey,bits256 *privkey2,uint8_t *userdata,int32_t userdatalen,int32_t ignore_cltverr,uint8_t *changermd160,char *vinaddr,int32_t zcash)
@ -1488,7 +1513,7 @@ int32_t basilisk_rawtx_sign(char *symbol,uint8_t wiftaddr,uint8_t taddr,uint8_t
if ( changermd160 != 0 ) if ( changermd160 != 0 )
{ {
changeaddr = _changeaddr; changeaddr = _changeaddr;
bitcoin_address(changeaddr,taddr,pubtype,changermd160,20); bitcoin_address(symbol,changeaddr,taddr,pubtype,changermd160,20);
//printf("changeaddr.(%s)\n",changeaddr); //printf("changeaddr.(%s)\n",changeaddr);
} }
for (iter=0; iter<2; iter++) for (iter=0; iter<2; iter++)
@ -1513,7 +1538,7 @@ int32_t basilisk_rawtx_sign(char *symbol,uint8_t wiftaddr,uint8_t taddr,uint8_t
//return(_basilisk_rawtx_sign(symbol,pubtype,p2shtype,isPoS,wiftype,swap,timestamp,locktime,sequenceid,dest,rawtx,privkey,privkey2,userdata,userdatalen,ignore_cltverr)); //return(_basilisk_rawtx_sign(symbol,pubtype,p2shtype,isPoS,wiftype,swap,timestamp,locktime,sequenceid,dest,rawtx,privkey,privkey2,userdata,userdatalen,ignore_cltverr));
} }
int32_t basilisk_alicescript(uint8_t *redeemscript,int32_t *redeemlenp,uint8_t *script,int32_t n,char *msigaddr,uint8_t taddr,uint8_t altps2h,bits256 pubAm,bits256 pubBn) int32_t basilisk_alicescript(char *symbol,uint8_t *redeemscript,int32_t *redeemlenp,uint8_t *script,int32_t n,char *msigaddr,uint8_t taddr,uint8_t altps2h,bits256 pubAm,bits256 pubBn)
{ {
uint8_t p2sh160[20]; struct vin_info V; uint8_t p2sh160[20]; struct vin_info V;
memset(&V,0,sizeof(V)); memset(&V,0,sizeof(V));
@ -1521,7 +1546,7 @@ int32_t basilisk_alicescript(uint8_t *redeemscript,int32_t *redeemlenp,uint8_t *
memcpy(&V.signers[1].pubkey[1],pubBn.bytes,sizeof(pubBn)), V.signers[1].pubkey[0] = 0x03; memcpy(&V.signers[1].pubkey[1],pubBn.bytes,sizeof(pubBn)), V.signers[1].pubkey[0] = 0x03;
V.M = V.N = 2; V.M = V.N = 2;
*redeemlenp = bitcoin_MofNspendscript(p2sh160,redeemscript,n,&V); *redeemlenp = bitcoin_MofNspendscript(p2sh160,redeemscript,n,&V);
bitcoin_address(msigaddr,taddr,altps2h,p2sh160,sizeof(p2sh160)); bitcoin_address(symbol,msigaddr,taddr,altps2h,p2sh160,sizeof(p2sh160));
n = bitcoin_p2shspend(script,0,p2sh160); n = bitcoin_p2shspend(script,0,p2sh160);
//for (i=0; i<*redeemlenp; i++) //for (i=0; i<*redeemlenp; i++)
// printf("%02x",redeemscript[i]); // printf("%02x",redeemscript[i]);
@ -1539,7 +1564,7 @@ char *basilisk_swap_Aspend(char *name,char *symbol,uint64_t Atxfee,uint8_t wifta
//char str[65]; //char str[65];
//printf("pubAm.(%s)\n",bits256_str(str,pubAm)); //printf("pubAm.(%s)\n",bits256_str(str,pubAm));
//printf("pubBn.(%s)\n",bits256_str(str,pubBn)); //printf("pubBn.(%s)\n",bits256_str(str,pubBn));
spendlen = basilisk_alicescript(redeemscript,&redeemlen,spendscript,0,msigaddr,taddr,p2shtype,pubAm,pubBn); spendlen = basilisk_alicescript(symbol,redeemscript,&redeemlen,spendscript,0,msigaddr,taddr,p2shtype,pubAm,pubBn);
if ( (txfee= Atxfee) == 0 ) if ( (txfee= Atxfee) == 0 )
{ {
if ( (txfee= LP_getestimatedrate(LP_coinfind(symbol)) * LP_AVETXSIZE) < LP_MIN_TXFEE ) if ( (txfee= LP_getestimatedrate(LP_coinfind(symbol)) * LP_AVETXSIZE) < LP_MIN_TXFEE )
@ -1640,16 +1665,17 @@ bits256 _LP_swap_spendtxid(char *symbol,char *destaddr,char *coinaddr,bits256 ut
bits256 LP_swap_spendtxid(char *symbol,char *destaddr,bits256 utxotxid,int32_t utxovout) bits256 LP_swap_spendtxid(char *symbol,char *destaddr,bits256 utxotxid,int32_t utxovout)
{ {
bits256 spendtxid,txid,vintxid; int32_t spendvin,i,m,n; char coinaddr[64]; cJSON *array,*vins,*vin,*txobj; struct iguana_info *coin; bits256 spendtxid,txid,vintxid; int32_t spendvin,i,j,m,n; char coinaddr[64]; cJSON *array,*vins,*vin,*txobj; struct iguana_info *coin;
// listtransactions or listspents // listtransactions or listspents
coinaddr[0] = 0; coinaddr[0] = 0;
memset(&spendtxid,0,sizeof(spendtxid)); memset(&spendtxid,0,sizeof(spendtxid));
if ( LP_spendsearch(destaddr,&spendtxid,&spendvin,symbol,utxotxid,utxovout) > 0 ) if ( LP_spendsearch(destaddr,&spendtxid,&spendvin,symbol,utxotxid,utxovout) > 0 )
{ {
//char str[65]; printf("spend of %s/v%d detected\n",bits256_str(str,utxotxid),utxovout); //char str[65]; printf("%s dest.%s spend of %s/v%d detected\n",symbol,destaddr,bits256_str(str,utxotxid),utxovout);
} }
else if ( (coin= LP_coinfind(symbol)) != 0 && coin->electrum == 0 ) else if ( (coin= LP_coinfind(symbol)) != 0 && coin->electrum == 0 )
{ {
//printf("get received by %s\n",destaddr);
if ( (array= LP_listreceivedbyaddress(symbol,destaddr)) != 0 ) if ( (array= LP_listreceivedbyaddress(symbol,destaddr)) != 0 )
{ {
if ( (n= cJSON_GetArraySize(array)) > 0 ) if ( (n= cJSON_GetArraySize(array)) > 0 )
@ -1662,14 +1688,14 @@ bits256 LP_swap_spendtxid(char *symbol,char *destaddr,bits256 utxotxid,int32_t u
if ( (vins= jarray(&m,txobj,"vin")) != 0 ) if ( (vins= jarray(&m,txobj,"vin")) != 0 )
{ {
//printf("vins.(%s)\n",jprint(vins,0)); //printf("vins.(%s)\n",jprint(vins,0));
if ( utxovout < m ) for (j=0; j<m; j++)
{ {
vin = jitem(vins,utxovout); vin = jitem(vins,j);
vintxid = jbits256(vin,"txid"); vintxid = jbits256(vin,"txid");
if ( bits256_cmp(vintxid,utxotxid) == 0 ) if ( utxovout == jint(vin,"vout") && bits256_cmp(vintxid,utxotxid) == 0 )
{ {
LP_txdestaddr(destaddr,txid,0,txobj); LP_txdestaddr(destaddr,txid,0,txobj);
char str[65],str2[65],str3[65]; printf("LP_swap_spendtxid: found %s/v%d spends %s vs %s found.%d destaddr.(%s)\n",bits256_str(str,txid),utxovout,bits256_str(str2,vintxid),bits256_str(str3,utxotxid),bits256_cmp(vintxid,utxotxid) == 0,destaddr); //char str[65],str2[65],str3[65]; printf("LP_swap_spendtxid: found %s/v%d spends %s vs %s/v%d found.%d destaddr.(%s)\n",bits256_str(str,txid),j,bits256_str(str2,vintxid),bits256_str(str3,utxotxid),utxovout,bits256_cmp(vintxid,utxotxid) == 0,destaddr);
spendtxid = txid; spendtxid = txid;
break; break;
} }
@ -1880,13 +1906,13 @@ int32_t basilisk_bobscripts_set(struct basilisk_swap *swap,int32_t depositflag,i
int32_t j; char coinaddr[64],checkaddr[64]; struct iguana_info *coin; int32_t j; char coinaddr[64],checkaddr[64]; struct iguana_info *coin;
if ( (coin= LP_coinfind(swap->I.bobstr)) != 0 ) if ( (coin= LP_coinfind(swap->I.bobstr)) != 0 )
{ {
bitcoin_address(coinaddr,coin->taddr,coin->pubtype,swap->changermd160,20); bitcoin_address(coin->symbol,coinaddr,coin->taddr,coin->pubtype,swap->changermd160,20);
if ( genflag != 0 && swap->I.iambob == 0 ) if ( genflag != 0 && swap->I.iambob == 0 )
printf("basilisk_bobscripts_set WARNING: alice generating BOB tx\n"); printf("basilisk_bobscripts_set WARNING: alice generating BOB tx\n");
if ( depositflag == 0 ) if ( depositflag == 0 )
{ {
swap->bobpayment.I.spendlen = basilisk_bobscript(swap->bobpayment.I.rmd160,swap->bobpayment.redeemscript,&swap->bobpayment.I.redeemlen,swap->bobpayment.spendscript,0,&swap->bobpayment.I.locktime,&swap->bobpayment.I.secretstart,&swap->I,0); swap->bobpayment.I.spendlen = basilisk_bobscript(swap->bobpayment.I.rmd160,swap->bobpayment.redeemscript,&swap->bobpayment.I.redeemlen,swap->bobpayment.spendscript,0,&swap->bobpayment.I.locktime,&swap->bobpayment.I.secretstart,&swap->I,0);
bitcoin_address(swap->bobpayment.p2shaddr,coin->taddr,coin->p2shtype,swap->bobpayment.redeemscript,swap->bobpayment.I.redeemlen); bitcoin_address(coin->symbol,swap->bobpayment.p2shaddr,coin->taddr,coin->p2shtype,swap->bobpayment.redeemscript,swap->bobpayment.I.redeemlen);
strcpy(swap->bobpayment.I.destaddr,swap->bobpayment.p2shaddr); strcpy(swap->bobpayment.I.destaddr,swap->bobpayment.p2shaddr);
//LP_importaddress(coin->symbol,swap->bobpayment.I.destaddr); //LP_importaddress(coin->symbol,swap->bobpayment.I.destaddr);
//int32_t i; for (i=0; i<swap->bobpayment.I.redeemlen; i++) //int32_t i; for (i=0; i<swap->bobpayment.I.redeemlen; i++)
@ -1924,7 +1950,7 @@ int32_t basilisk_bobscripts_set(struct basilisk_swap *swap,int32_t depositflag,i
else else
{ {
swap->bobdeposit.I.spendlen = basilisk_bobscript(swap->bobdeposit.I.rmd160,swap->bobdeposit.redeemscript,&swap->bobdeposit.I.redeemlen,swap->bobdeposit.spendscript,0,&swap->bobdeposit.I.locktime,&swap->bobdeposit.I.secretstart,&swap->I,1); swap->bobdeposit.I.spendlen = basilisk_bobscript(swap->bobdeposit.I.rmd160,swap->bobdeposit.redeemscript,&swap->bobdeposit.I.redeemlen,swap->bobdeposit.spendscript,0,&swap->bobdeposit.I.locktime,&swap->bobdeposit.I.secretstart,&swap->I,1);
bitcoin_address(swap->bobdeposit.p2shaddr,coin->taddr,coin->p2shtype,swap->bobdeposit.redeemscript,swap->bobdeposit.I.redeemlen); bitcoin_address(coin->symbol,swap->bobdeposit.p2shaddr,coin->taddr,coin->p2shtype,swap->bobdeposit.redeemscript,swap->bobdeposit.I.redeemlen);
strcpy(swap->bobdeposit.I.destaddr,swap->bobdeposit.p2shaddr); strcpy(swap->bobdeposit.I.destaddr,swap->bobdeposit.p2shaddr);
//int32_t i; for (i=0; i<swap->bobdeposit.I.redeemlen; i++) //int32_t i; for (i=0; i<swap->bobdeposit.I.redeemlen; i++)
// printf("%02x",swap->bobdeposit.redeemscript[i]); // printf("%02x",swap->bobdeposit.redeemscript[i]);
@ -1958,7 +1984,7 @@ int32_t basilisk_bobscripts_set(struct basilisk_swap *swap,int32_t depositflag,i
return(0); return(0);
} }
/**/ /*
#ifdef old #ifdef old
int32_t basilisk_alicepayment_spend(struct basilisk_swap *swap,struct basilisk_rawtx *dest) int32_t basilisk_alicepayment_spend(struct basilisk_swap *swap,struct basilisk_rawtx *dest)
@ -1989,13 +2015,13 @@ int32_t basilisk_alicepayment_spend(struct basilisk_swap *swap,struct basilisk_r
} }
return(-1); return(-1);
} }
#endif #endif*/
void basilisk_alicepayment(struct basilisk_swap *swap,struct iguana_info *coin,struct basilisk_rawtx *alicepayment,bits256 pubAm,bits256 pubBn) void basilisk_alicepayment(struct basilisk_swap *swap,struct iguana_info *coin,struct basilisk_rawtx *alicepayment,bits256 pubAm,bits256 pubBn)
{ {
char coinaddr[64]; char coinaddr[64];
alicepayment->I.spendlen = basilisk_alicescript(alicepayment->redeemscript,&alicepayment->I.redeemlen,alicepayment->spendscript,0,alicepayment->I.destaddr,coin->taddr,coin->p2shtype,pubAm,pubBn); alicepayment->I.spendlen = basilisk_alicescript(coin->symbol,alicepayment->redeemscript,&alicepayment->I.redeemlen,alicepayment->spendscript,0,alicepayment->I.destaddr,coin->taddr,coin->p2shtype,pubAm,pubBn);
bitcoin_address(coinaddr,coin->taddr,coin->pubtype,swap->changermd160,20); bitcoin_address(coin->symbol,coinaddr,coin->taddr,coin->pubtype,swap->changermd160,20);
//printf("%s suppress.%d fee.%d\n",coinaddr,alicepayment->I.suppress_pubkeys,swap->myfee.I.suppress_pubkeys); //printf("%s suppress.%d fee.%d\n",coinaddr,alicepayment->I.suppress_pubkeys,swap->myfee.I.suppress_pubkeys);
basilisk_rawtx_gen(swap->ctx,"alicepayment",swap->I.started,swap->persistent_pubkey33,0,1,alicepayment,alicepayment->I.locktime,alicepayment->spendscript,alicepayment->I.spendlen,swap->I.Atxfee,1,0,swap->persistent_privkey,swap->changermd160,coinaddr); basilisk_rawtx_gen(swap->ctx,"alicepayment",swap->I.started,swap->persistent_pubkey33,0,1,alicepayment,alicepayment->I.locktime,alicepayment->spendscript,alicepayment->I.spendlen,swap->I.Atxfee,1,0,swap->persistent_privkey,swap->changermd160,coinaddr);
} }
@ -2011,7 +2037,7 @@ int32_t basilisk_alicetxs(int32_t pairsock,struct basilisk_swap *swap,uint8_t *d
printf("error alice generating payment.%d\n",swap->alicepayment.I.spendlen); printf("error alice generating payment.%d\n",swap->alicepayment.I.spendlen);
else else
{ {
bitcoin_address(swap->alicepayment.I.destaddr,coin->taddr,coin->p2shtype,swap->alicepayment.redeemscript,swap->alicepayment.I.redeemlen); bitcoin_address(coin->symbol,swap->alicepayment.I.destaddr,coin->taddr,coin->p2shtype,swap->alicepayment.redeemscript,swap->alicepayment.I.redeemlen);
//LP_importaddress(coin->symbol,swap->alicepayment.I.destaddr); //LP_importaddress(coin->symbol,swap->alicepayment.I.destaddr);
strcpy(swap->alicepayment.p2shaddr,swap->alicepayment.I.destaddr); strcpy(swap->alicepayment.p2shaddr,swap->alicepayment.I.destaddr);
retval = 0; retval = 0;
@ -2025,7 +2051,7 @@ int32_t basilisk_alicetxs(int32_t pairsock,struct basilisk_swap *swap,uint8_t *d
if ( swap->myfee.I.datalen == 0 ) if ( swap->myfee.I.datalen == 0 )
{ {
printf("%s generate fee %.8f from.%s\n",coin->symbol,dstr(strcmp(coin->symbol,"BTC") == 0 ? LP_MIN_TXFEE : coin->txfee),coin->smartaddr); printf("%s generate fee %.8f from.%s\n",coin->symbol,dstr(strcmp(coin->symbol,"BTC") == 0 ? LP_MIN_TXFEE : coin->txfee),coin->smartaddr);
bitcoin_address(coinaddr,coin->taddr,coin->pubtype,swap->changermd160,20); bitcoin_address(coin->symbol,coinaddr,coin->taddr,coin->pubtype,swap->changermd160,20);
if ( basilisk_rawtx_gen(swap->ctx,"myfee",swap->I.started,swap->persistent_pubkey33,swap->I.iambob,1,&swap->myfee,swap->myfee.I.locktime,swap->myfee.spendscript,swap->myfee.I.spendlen,strcmp(coin->symbol,"BTC") == 0 ? LP_MIN_TXFEE : coin->txfee,1,0,swap->persistent_privkey,swap->changermd160,coinaddr) == 0 ) if ( basilisk_rawtx_gen(swap->ctx,"myfee",swap->I.started,swap->persistent_pubkey33,swap->I.iambob,1,&swap->myfee,swap->myfee.I.locktime,swap->myfee.spendscript,swap->myfee.I.spendlen,strcmp(coin->symbol,"BTC") == 0 ? LP_MIN_TXFEE : coin->txfee,1,0,swap->persistent_privkey,swap->changermd160,coinaddr) == 0 )
{ {
printf("rawtxsend %s %.8f\n",coin->symbol,dstr(strcmp(coin->symbol,"BTC") == 0 ? LP_MIN_TXFEE : coin->txfee)); printf("rawtxsend %s %.8f\n",coin->symbol,dstr(strcmp(coin->symbol,"BTC") == 0 ? LP_MIN_TXFEE : coin->txfee));
@ -2117,7 +2143,7 @@ int32_t LP_verify_bobdeposit(struct basilisk_swap *swap,uint8_t *data,int32_t da
swap->aliceclaim.utxotxid = swap->bobdeposit.I.signedtxid; swap->aliceclaim.utxotxid = swap->bobdeposit.I.signedtxid;
memcpy(swap->I.userdata_aliceclaim,userdata,len); memcpy(swap->I.userdata_aliceclaim,userdata,len);
swap->I.userdata_aliceclaimlen = len; swap->I.userdata_aliceclaimlen = len;
bitcoin_address(swap->bobdeposit.p2shaddr,coin->taddr,coin->p2shtype,swap->bobdeposit.redeemscript,swap->bobdeposit.I.redeemlen); bitcoin_address(coin->symbol,swap->bobdeposit.p2shaddr,coin->taddr,coin->p2shtype,swap->bobdeposit.redeemscript,swap->bobdeposit.I.redeemlen);
strcpy(swap->bobdeposit.I.destaddr,swap->bobdeposit.p2shaddr); strcpy(swap->bobdeposit.I.destaddr,swap->bobdeposit.p2shaddr);
basilisk_dontforget_update(swap,&swap->bobdeposit); basilisk_dontforget_update(swap,&swap->bobdeposit);
//int32_t i; char str[65]; for (i=0; i<swap->bobdeposit.I.datalen; i++) //int32_t i; char str[65]; for (i=0; i<swap->bobdeposit.I.datalen; i++)
@ -2129,7 +2155,7 @@ int32_t LP_verify_bobdeposit(struct basilisk_swap *swap,uint8_t *data,int32_t da
memcpy(swap->aliceclaim.redeemscript,swap->bobdeposit.redeemscript,swap->bobdeposit.I.redeemlen); memcpy(swap->aliceclaim.redeemscript,swap->bobdeposit.redeemscript,swap->bobdeposit.I.redeemlen);
swap->aliceclaim.I.redeemlen = swap->bobdeposit.I.redeemlen; swap->aliceclaim.I.redeemlen = swap->bobdeposit.I.redeemlen;
memcpy(swap->aliceclaim.I.pubkey33,swap->persistent_pubkey33,33); memcpy(swap->aliceclaim.I.pubkey33,swap->persistent_pubkey33,33);
bitcoin_address(swap->aliceclaim.I.destaddr,coin->taddr,coin->pubtype,swap->persistent_pubkey33,33); bitcoin_address(coin->symbol,swap->aliceclaim.I.destaddr,coin->taddr,coin->pubtype,swap->persistent_pubkey33,33);
retval = 0; retval = 0;
if ( (retval= basilisk_rawtx_sign(coin->symbol,coin->wiftaddr,coin->taddr,coin->pubtype,coin->p2shtype,coin->isPoS,coin->wiftype,swap,&swap->aliceclaim,&swap->bobdeposit,swap->I.myprivs[0],0,userdata,len,1,swap->changermd160,swap->bobdeposit.I.destaddr,coin->zcash)) == 0 ) if ( (retval= basilisk_rawtx_sign(coin->symbol,coin->wiftaddr,coin->taddr,coin->pubtype,coin->p2shtype,coin->isPoS,coin->wiftype,swap,&swap->aliceclaim,&swap->bobdeposit,swap->I.myprivs[0],0,userdata,len,1,swap->changermd160,swap->bobdeposit.I.destaddr,coin->zcash)) == 0 )
{ {
@ -2157,7 +2183,7 @@ int32_t LP_verify_alicepayment(struct basilisk_swap *swap,uint8_t *data,int32_t
{ {
swap->bobspend.utxovout = 0; swap->bobspend.utxovout = 0;
swap->bobspend.utxotxid = swap->alicepayment.I.signedtxid = LP_broadcast_tx(swap->alicepayment.name,coin->symbol,swap->alicepayment.txbytes,swap->alicepayment.I.datalen); swap->bobspend.utxotxid = swap->alicepayment.I.signedtxid = LP_broadcast_tx(swap->alicepayment.name,coin->symbol,swap->alicepayment.txbytes,swap->alicepayment.I.datalen);
bitcoin_address(swap->alicepayment.p2shaddr,coin->taddr,coin->p2shtype,swap->alicepayment.redeemscript,swap->alicepayment.I.redeemlen); bitcoin_address(coin->symbol,swap->alicepayment.p2shaddr,coin->taddr,coin->p2shtype,swap->alicepayment.redeemscript,swap->alicepayment.I.redeemlen);
strcpy(swap->alicepayment.I.destaddr,swap->alicepayment.p2shaddr); strcpy(swap->alicepayment.I.destaddr,swap->alicepayment.p2shaddr);
if ( bits256_nonz(swap->alicepayment.I.signedtxid) != 0 ) if ( bits256_nonz(swap->alicepayment.I.signedtxid) != 0 )
swap->aliceunconf = 1; swap->aliceunconf = 1;
@ -2187,7 +2213,7 @@ int32_t LP_verify_bobpayment(struct basilisk_swap *swap,uint8_t *data,int32_t da
for (i=0; i<32; i++) for (i=0; i<32; i++)
revAm.bytes[i] = swap->I.privAm.bytes[31-i]; revAm.bytes[i] = swap->I.privAm.bytes[31-i];
len = basilisk_swapuserdata(userdata,revAm,0,swap->I.myprivs[0],swap->bobpayment.redeemscript,swap->bobpayment.I.redeemlen); len = basilisk_swapuserdata(userdata,revAm,0,swap->I.myprivs[0],swap->bobpayment.redeemscript,swap->bobpayment.I.redeemlen);
bitcoin_address(swap->bobpayment.p2shaddr,coin->taddr,coin->p2shtype,swap->bobpayment.redeemscript,swap->bobpayment.I.redeemlen); bitcoin_address(coin->symbol,swap->bobpayment.p2shaddr,coin->taddr,coin->p2shtype,swap->bobpayment.redeemscript,swap->bobpayment.I.redeemlen);
strcpy(swap->bobpayment.I.destaddr,swap->bobpayment.p2shaddr); strcpy(swap->bobpayment.I.destaddr,swap->bobpayment.p2shaddr);
basilisk_dontforget_update(swap,&swap->bobpayment); basilisk_dontforget_update(swap,&swap->bobpayment);
//LP_importaddress(coin->symbol,swap->bobpayment.I.destaddr); //LP_importaddress(coin->symbol,swap->bobpayment.I.destaddr);
@ -2201,9 +2227,9 @@ int32_t LP_verify_bobpayment(struct basilisk_swap *swap,uint8_t *data,int32_t da
swap->I.userdata_alicespendlen = len; swap->I.userdata_alicespendlen = len;
retval = 0; retval = 0;
memcpy(swap->alicespend.I.pubkey33,swap->persistent_pubkey33,33); memcpy(swap->alicespend.I.pubkey33,swap->persistent_pubkey33,33);
bitcoin_address(swap->alicespend.I.destaddr,coin->taddr,coin->pubtype,swap->persistent_pubkey33,33); bitcoin_address(coin->symbol,swap->alicespend.I.destaddr,coin->taddr,coin->pubtype,swap->persistent_pubkey33,33);
//char str[65],str2[65]; printf("bobpaid privAm.(%s) myprivs[0].(%s)\n",bits256_str(str,swap->I.privAm),bits256_str(str2,swap->I.myprivs[0])); //char str[65],str2[65]; printf("bobpaid privAm.(%s) myprivs[0].(%s)\n",bits256_str(str,swap->I.privAm),bits256_str(str2,swap->I.myprivs[0]));
if ( (retval= basilisk_rawtx_sign(coin->symbol,coin->wiftaddr,coin->taddr,coin->pubtype,coin->p2shtype,coin->isPoS,coin->wiftype,swap,&swap->alicespend,&swap->bobpayment,swap->I.myprivs[0],0,userdata,len,1,swap->changermd160,swap->alicepayment.I.destaddr,coin->zcash)) == 0 ) if ( (retval= basilisk_rawtx_sign(coin->symbol,coin->wiftaddr,coin->taddr,coin->pubtype,coin->p2shtype,coin->isPoS,coin->wiftype,swap,&swap->alicespend,&swap->bobpayment,swap->I.myprivs[0],0,userdata,len,1,swap->changermd160,swap->bobpayment.I.destaddr,coin->zcash)) == 0 )
{ {
/*for (i=0; i<swap->bobpayment.I.datalen; i++) /*for (i=0; i<swap->bobpayment.I.datalen; i++)
printf("%02x",swap->bobpayment.txbytes[i]); printf("%02x",swap->bobpayment.txbytes[i]);

4
iguana/exchanges/LP_utxo.c

@ -635,8 +635,8 @@ cJSON *LP_balances(char *coinaddr)
strcpy(address,coin->smartaddr); strcpy(address,coin->smartaddr);
else else
{ {
bitcoin_addr2rmd160(taddr,&addrtype,rmd160,coinaddr); bitcoin_addr2rmd160(coin->symbol,taddr,&addrtype,rmd160,coinaddr);
bitcoin_address(address,coin->taddr,coin->pubtype,rmd160,20); bitcoin_address(coin->symbol,address,coin->taddr,coin->pubtype,rmd160,20);
//printf("%s taddr.%d addrtype.%u %s -> %s [%c %c].%d\n",coin->symbol,taddr,addrtype,coinaddr,address,coinaddr[0],coinaddr[1],coinaddr[0] == 't' && (coinaddr[1] == '1' || coinaddr[1] == '3')); //printf("%s taddr.%d addrtype.%u %s -> %s [%c %c].%d\n",coin->symbol,taddr,addrtype,coinaddr,address,coinaddr[0],coinaddr[1],coinaddr[0] == 't' && (coinaddr[1] == '1' || coinaddr[1] == '3'));
} }
if ( (retjson= LP_address_balance(coin,address,1)) != 0 ) if ( (retjson= LP_address_balance(coin,address,1)) != 0 )

2
iguana/exchanges/auto_grskmd

@ -0,0 +1,2 @@
source userpass
curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"autoprice\",\"base\":\"GRS\",\"rel\":\"KMD\",\"margin\":0.05,\"refbase\":\"groestlcoin\",\"refrel\":\"coinmarketcap\"}"

2
iguana/exchanges/coins

File diff suppressed because one or more lines are too long

6
iguana/exchanges/enable

@ -13,6 +13,8 @@ curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\
curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"enable\",\"coin\":\"MGW\"}" curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"enable\",\"coin\":\"MGW\"}"
curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"enable\",\"coin\":\"PANGEA\"}" curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"enable\",\"coin\":\"PANGEA\"}"
curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"enable\",\"coin\":\"JUMBLR\"}" curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"enable\",\"coin\":\"JUMBLR\"}"
curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"electrum\",\"coin\":\"HUSH\",\"ipaddr\":\"173.212.225.176\",\"port\":50013}" curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"enable\",\"coin\":\"HUSH\"}"
curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"electrum\",\"coin\":\"BTCH\",\"ipaddr\":\"electrum1.cipig.net\",\"port\":10020}" curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"enable\",\"coin\":\"BTCH\"}"
#curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"electrum\",\"coin\":\"HUSH\",\"ipaddr\":\"173.212.225.176\",\"port\":50013}"
#curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"electrum\",\"coin\":\"BTCH\",\"ipaddr\":\"electrum1.cipig.net\",\"port\":10020}"

40
iguana/exchanges/mm.c

@ -73,14 +73,30 @@ void LP_priceupdate(char *base,char *rel,double price,double avebid,double aveas
void LP_main(void *ptr) void LP_main(void *ptr)
{ {
char *passphrase; double profitmargin; uint16_t port; cJSON *argjson = ptr; char *passphrase; double profitmargin; int32_t netmod,netdiv,netid=0; uint16_t port,otherports; cJSON *argjson = ptr;
if ( (passphrase= jstr(argjson,"passphrase")) != 0 ) if ( (passphrase= jstr(argjson,"passphrase")) != 0 )
{ {
profitmargin = jdouble(argjson,"profitmargin"); profitmargin = jdouble(argjson,"profitmargin");
LP_profitratio += profitmargin; LP_profitratio += profitmargin;
if ( (port= juint(argjson,"rpcport")) < 1000 ) if ( (port= juint(argjson,"rpcport")) < 1000 )
port = LP_RPCPORT; port = LP_RPCPORT;
LPinit(port,LP_RPCPORT+10,LP_RPCPORT+20,LP_RPCPORT+30,passphrase,jint(argjson,"client"),jstr(argjson,"userhome"),argjson); if ( jobj(argjson,"netid") != 0 )
netid = juint(argjson,"netid");
if ( netid < 0 )
netid = 0;
else if ( netid > (65535-40-LP_RPCPORT)/4 )
{
printf("netid.%d overflow vs max netid.%d 14420?\n",netid,(65535-40-LP_RPCPORT)/4);
exit(-1);
}
if ( netid != 0 )
{
netmod = (netid % 10);
netdiv = (netid / 10);
otherports = (netdiv * 40) + (LP_RPCPORT + netmod);
} else otherports = LP_RPCPORT;
printf("RPCport.%d remoteport.%d, nanoports %d %d %d\n",port,port-1,otherports+10,otherports+20,otherports+30);
LPinit(port,otherports+10,otherports+20,otherports+30,passphrase,jint(argjson,"client"),jstr(argjson,"userhome"),argjson);
} }
} }
@ -91,18 +107,18 @@ int main(int argc, const char * argv[])
if ( strstr(argv[0],"btc2kmd") != 0 && argv[1] != 0 ) if ( strstr(argv[0],"btc2kmd") != 0 && argv[1] != 0 )
{ {
uint8_t addrtype,rmd160[20],rmd160b[20]; char coinaddr[64],coinaddr2[64]; uint8_t addrtype,rmd160[20],rmd160b[20]; char coinaddr[64],coinaddr2[64];
bitcoin_addr2rmd160(0,&addrtype,rmd160,(char *)argv[1]); bitcoin_addr2rmd160("BTC",0,&addrtype,rmd160,(char *)argv[1]);
if ( addrtype == 0 ) if ( addrtype == 0 )
{ {
bitcoin_address(coinaddr,0,60,rmd160,20); bitcoin_address("KMD",coinaddr,0,60,rmd160,20);
bitcoin_addr2rmd160(0,&addrtype,rmd160b,coinaddr); bitcoin_addr2rmd160("KMD",0,&addrtype,rmd160b,coinaddr);
bitcoin_address(coinaddr2,0,0,rmd160b,20); bitcoin_address("BTC",coinaddr2,0,0,rmd160b,20);
} }
else if ( addrtype == 60 ) else if ( addrtype == 60 )
{ {
bitcoin_address(coinaddr,0,0,rmd160,20); bitcoin_address("BTC",coinaddr,0,0,rmd160,20);
bitcoin_addr2rmd160(0,&addrtype,rmd160b,coinaddr); bitcoin_addr2rmd160("BTC",0,&addrtype,rmd160b,coinaddr);
bitcoin_address(coinaddr2,0,60,rmd160b,20); bitcoin_address("KMD",coinaddr2,0,60,rmd160b,20);
} }
printf("(%s) -> %s -> %s\n",(char *)argv[1],coinaddr,coinaddr2); printf("(%s) -> %s -> %s\n",(char *)argv[1],coinaddr,coinaddr2);
if ( strcmp((char *)argv[1],coinaddr2) != 0 ) if ( strcmp((char *)argv[1],coinaddr2) != 0 )
@ -124,7 +140,7 @@ int main(int argc, const char * argv[])
privkey.bytes[4] = 0x06; privkey.bytes[4] = 0x06;
privkey.bytes[5] = 0xdd; privkey.bytes[5] = 0xdd;
privkey.bytes[6] = 0xbb; privkey.bytes[6] = 0xbb;
bitcoin_priv2wiflong(0xab,wifstr,privkey,0x36); bitcoin_priv2wiflong("HUSH",0xab,wifstr,privkey,0x36);
if ( wifstr[2] == 'x' && wifstr[4] == 'H' && wifstr[5] == 'u' && wifstr[6] == 's' )//&& wifstr[3] == 'x' ) if ( wifstr[2] == 'x' && wifstr[4] == 'H' && wifstr[5] == 'u' && wifstr[6] == 's' )//&& wifstr[3] == 'x' )
{ {
if ( wifstr[7] == 'h' && wifstr[8] == 'L' && wifstr[9] == 'i' ) if ( wifstr[7] == 'h' && wifstr[8] == 'L' && wifstr[9] == 'i' )
@ -151,10 +167,10 @@ int main(int argc, const char * argv[])
for (i=0; i<1000000000; i++) for (i=0; i<1000000000; i++)
{ {
OS_randombytes(privkey.bytes,sizeof(privkey)); OS_randombytes(privkey.bytes,sizeof(privkey));
bitcoin_priv2pub(ctx,pubkey33,coinaddr,privkey,0,60); bitcoin_priv2pub(ctx,"KMD",pubkey33,coinaddr,privkey,0,60);
if ( strncmp(coinaddr+1,argv[2],len-1) == 0 ) if ( strncmp(coinaddr+1,argv[2],len-1) == 0 )
{ {
bitcoin_priv2wif(0,wifstr,privkey,188); bitcoin_priv2wif("KMD",0,wifstr,privkey,188);
printf("i.%d %s -> %s wif.%s\n",i,bits256_str(str,privkey),coinaddr,wifstr); printf("i.%d %s -> %s wif.%s\n",i,bits256_str(str,privkey),coinaddr,wifstr);
if ( coinaddr[1+len-1] == argv[2][len-1] ) if ( coinaddr[1+len-1] == argv[2][len-1] )
break; break;

28
iguana/exchanges/prices/autoprice

@ -9,41 +9,35 @@ curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\
#curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"autoprice\",\"base\":\"KMD\",\"rel\":\"MNZ\",\"offset\":0.0,\"refbase\":\"KMD\",\"refrel\":\"BTC\",\"factor\":15000,\"margin\":-0.2}" #curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"autoprice\",\"base\":\"KMD\",\"rel\":\"MNZ\",\"offset\":0.0,\"refbase\":\"KMD\",\"refrel\":\"BTC\",\"factor\":15000,\"margin\":-0.2}"
curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"autoprice\",\"base\":\"HUSH\",\"rel\":\"KMD\",\"margin\":$margin,\"refbase\":\"hush\",\"refrel\":\"coinmarketcap\"}" curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"autoprice\",\"base\":\"HUSH\",\"rel\":\"KMD\",\"margin\":$margin,\"refbase\":\"hush\",\"refrel\":\"coinmarketcap\"}"
curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"autoprice\",\"base\":\"KMD\",\"rel\":\"BTCH\",\"offset\":0.0,\"refbase\":\"KMD\",\"refrel\":\"HUSH\",\"factor\":1.44,\"buymargin\":0.01,\"sellmargin\":0.01}" curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"autoprice\",\"base\":\"KMD\",\"rel\":\"BTCH\",\"offset\":0.0,\"refbase\":\"KMD\",\"refrel\":\"HUSH\",\"factor\":1.44,\"buymargin\":0.05,\"sellmargin\":0.05}"
curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"autoprice\",\"base\":\"BTCH\",\"rel\":\"KMD\",\"offset\":0.0,\"refbase\":\"HUSH\",\"refrel\":\"KMD\",\"factor\":0.7,\"buymargin\":0.01,\"sellmargin\":0.01}" curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"autoprice\",\"base\":\"BTCH\",\"rel\":\"KMD\",\"offset\":0.0,\"refbase\":\"HUSH\",\"refrel\":\"KMD\",\"factor\":0.7,\"buymargin\":0.05,\"sellmargin\":0.05}"
source crypto source crypto
source trackbtc source trackbtc
source dex
source trackbtc
source jumblr source jumblr
source trackbtc source trackbtc
source pangea source pangea
source trackbtc source trackbtc
source bots
source trackbtc
source bet source bet
source trackbtc source trackbtc
source revs source revs
source trackbtc source trackbtc
source mgw
source trackbtc
source revs
source trackbtc
sharkholdings="{\"coin\":\"iota\",\"balance\":1500000}, {\"coin\":\"bitcoin-cash\",\"balance\":1200}, {\"coin\":\"bitcoin\",\"balance\":145}" sharkholdings="{\"coin\":\"iota\",\"balance\":1500000}, {\"coin\":\"bitcoin-cash\",\"balance\":1200}, {\"coin\":\"bitcoin\",\"balance\":145}"
curl --url "http://127.0.0.1:7783" --data "{\"base\":\"MSHARK\",\"rel\":\"KMD\",\"fundvalue_bid\":\"NAV_KMD\",\"fundvalue_ask\":\"assetNAV_KMD\",\"userpass\":\"$userpass\",\"method\":\"autoprice\",\"address\":\"RTu3JZZKLJTcfNwBa19dWRagEfQq49STqC\",\"holdings\":[$sharkholdings],\"divisor\":1400000}" curl --url "http://127.0.0.1:7783" --data "{\"base\":\"MSHARK\",\"rel\":\"KMD\",\"fundvalue_bid\":\"NAV_KMD\",\"fundvalue_ask\":\"assetNAV_KMD\",\"userpass\":\"$userpass\",\"method\":\"autoprice\",\"margin\":$margin,\"address\":\"RTu3JZZKLJTcfNwBa19dWRagEfQq49STqC\",\"holdings\":[$sharkholdings],\"divisor\":1400000}"
curl --url "http://127.0.0.1:7783" --data "{\"base\":\"SUPERNET\",\"rel\":\"KMD\",\"fundvalue_bid\":\"NAV_KMD\",\"fundvalue_ask\":\"assetNAV_KMD\",\"userpass\":\"$userpass\",\"method\":\"autoprice\",\"address\":\"RRyyejME7LRTuvdziWsXkAbSW1fdiohGwK\",\"holdings\":[{\"coin\":\"iota\",\"balance\":11000000}, {\"coin\":\"stratis\",\"balance\":1300000}, {\"coin\":\"zcash\",\"balance\":10000}, {\"coin\":\"syscoin\",\"balance\":20000000}, {\"coin\":\"waves\",\"balance\":700000}, {\"coin\":\"bitcoin\",\"balance\":625}, {\"coin\":\"bitcoin-cash\",\"balance\":1500}, {\"coin\":\"heat-ledger\",\"balance\":2323851 }, {\"coin\":\"decred\",\"balance\":20000}, {\"coin\":\"vericoin\",\"balance\":2199368 }, {\"coin\":\"byteball\",\"balance\":4238}, {\"coin\":\"iocoin\",\"balance\":150000}, {\"coin\":\"quantum-resistant-ledger\",\"balance\":375000}, {\"coin\":\"chips\",\"balance\":2577006 }, {\"coin\":\"hush\",\"balance\":100000 }, {\"coin\":\"mobilego\",\"balance\":100000 }],\"divisor\":816016}" curl --url "http://127.0.0.1:7783" --data "{\"margin\":$margin,\"base\":\"SUPERNET\",\"rel\":\"KMD\",\"fundvalue_bid\":\"NAV_KMD\",\"fundvalue_ask\":\"assetNAV_KMD\",\"userpass\":\"$userpass\",\"method\":\"autoprice\",\"address\":\"RRyyejME7LRTuvdziWsXkAbSW1fdiohGwK\",\"holdings\":[{\"coin\":\"iota\",\"balance\":11000000}, {\"coin\":\"stratis\",\"balance\":1300000}, {\"coin\":\"zcash\",\"balance\":10000}, {\"coin\":\"syscoin\",\"balance\":20000000}, {\"coin\":\"waves\",\"balance\":700000}, {\"coin\":\"bitcoin\",\"balance\":625}, {\"coin\":\"bitcoin-cash\",\"balance\":1500}, {\"coin\":\"heat-ledger\",\"balance\":2323851 }, {\"coin\":\"decred\",\"balance\":20000}, {\"coin\":\"vericoin\",\"balance\":2199368 }, {\"coin\":\"byteball\",\"balance\":4238}, {\"coin\":\"iocoin\",\"balance\":150000}, {\"coin\":\"quantum-resistant-ledger\",\"balance\":375000}, {\"coin\":\"chips\",\"balance\":2577006 }, {\"coin\":\"hush\",\"balance\":100000 }, {\"coin\":\"mobilego\",\"balance\":100000 }],\"divisor\":816016}"
curl --url "http://127.0.0.1:7783" --data "{\"margin\":$margin,\"base\":\"HODL\",\"rel\":\"KMD\",\"fundvalue_bid\":\"assetNAV_KMD\",\"fundvalue_ask\":\"assetNAV_KMD\",\"userpass\":\"$userpass\",\"method\":\"autoprice\",\"address\":\"RNcUaMUEFLxVwtTo7rgruhwYanGk1jTkeU\",\"holdings\":[{\"coin\":\"siacoin\",\"balance\":185000000,\"comment\":\"using siafunds equal to million siacoin\"}],\"divisor\":10000000}" curl --url "http://127.0.0.1:7783" --data "{\"margin\":$margin,\"base\":\"HODL\",\"rel\":\"KMD\",\"fundvalue_bid\":\"assetNAV_KMD\",\"fundvalue_ask\":\"assetNAV_KMD\",\"userpass\":\"$userpass\",\"method\":\"autoprice\",\"address\":\"RNcUaMUEFLxVwtTo7rgruhwYanGk1jTkeU\",\"holdings\":[{\"coin\":\"siacoin\",\"balance\":185000000,\"comment\":\"using siafunds equal to million siacoin\"}],\"divisor\":10000000}"
dexholdings="{\"coin\":\"blocknet\",\"balance\":4975836}"
curl --url "http://127.0.0.1:7783" --data "{\"base\":\"DEX\",\"rel\":\"KMD\",\"margin\":$margin,\"fundvalue_bid\":\"assetNAV_KMD\",\"fundvalue_ask\":\"assetNAV_KMD\",\"userpass\":\"$userpass\",\"method\":\"autoprice\",\"address\":\"RThtXup6Zo7LZAi8kRWgjAyi1s4u6U9Cpf\",\"holdings\":[$dexholdings],\"divisor\":1000000}"
curl --url "http://127.0.0.1:7783" --data "{\"base\":\"BOTS\",\"rel\":\"KMD\",\"margin\":$margin,\"fundvalue_bid\":\"assetNAV_KMD\",\"fundvalue_ask\":\"assetNAV_KMD\",\"userpass\":\"$userpass\",\"method\":\"autoprice\",\"address\":\"RNdqHx26GWy9bk8MtmH1UiXjQcXE4RKK2P\",\"holdings\":[$dexholdings],\"divisor\":3333333}"
curl --url "http://127.0.0.1:7783" --data "{\"base\":\"MGW\",\"rel\":\"KMD\",\"margin\":$margin,\"fundvalue_bid\":\"assetNAV_KMD\",\"fundvalue_ask\":\"assetNAV_KMD\",\"userpass\":\"$userpass\",\"method\":\"autoprice\",\"holdings\":[$dexholdings],\"divisor\":10000000}"

3
iguana/exchanges/prices/dex

@ -1,3 +0,0 @@
coin=DEX
price=0.0030
invprice=333

30
iguana/exchanges/prices/gets

@ -1,18 +1,18 @@
#!/bin/bash #!/bin/bash
source userpass source userpass
curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getprice\",\"base\":\"REVS\",\"rel\":\"KMD\"}" curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getmyprice\",\"base\":\"REVS\",\"rel\":\"KMD\"}"
curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getprice\",\"base\":\"CHIPS\",\"rel\":\"KMD\"}" curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getmyprice\",\"base\":\"CHIPS\",\"rel\":\"KMD\"}"
curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getprice\",\"base\":\"KMD\",\"rel\":\"BTC\"}" curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getmyprice\",\"base\":\"KMD\",\"rel\":\"BTC\"}"
curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getprice\",\"base\":\"SUPERNET\",\"rel\":\"KMD\"}" curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getmyprice\",\"base\":\"SUPERNET\",\"rel\":\"KMD\"}"
curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getprice\",\"base\":\"CRYPTO\",\"rel\":\"KMD\"}" curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getmyprice\",\"base\":\"CRYPTO\",\"rel\":\"KMD\"}"
curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getprice\",\"base\":\"DEX\",\"rel\":\"KMD\"}" curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getmyprice\",\"base\":\"DEX\",\"rel\":\"KMD\"}"
curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getprice\",\"base\":\"BOTS\",\"rel\":\"KMD\"}" curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getmyprice\",\"base\":\"BOTS\",\"rel\":\"KMD\"}"
curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getprice\",\"base\":\"BET\",\"rel\":\"KMD\"}" curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getmyprice\",\"base\":\"MGW\",\"rel\":\"KMD\"}"
curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getprice\",\"base\":\"HODL\",\"rel\":\"KMD\"}" curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getmyprice\",\"base\":\"BET\",\"rel\":\"KMD\"}"
curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getprice\",\"base\":\"MSHARK\",\"rel\":\"KMD\"}" curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getmyprice\",\"base\":\"PANGEA\",\"rel\":\"KMD\"}"
curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getprice\",\"base\":\"MGW\",\"rel\":\"KMD\"}" curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getmyprice\",\"base\":\"HODL\",\"rel\":\"KMD\"}"
curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getprice\",\"base\":\"PANGEA\",\"rel\":\"KMD\"}" curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getmyprice\",\"base\":\"MSHARK\",\"rel\":\"KMD\"}"
curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getprice\",\"base\":\"JUMBLR\",\"rel\":\"KMD\"}" curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getmyprice\",\"base\":\"JUMBLR\",\"rel\":\"KMD\"}"
curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getprice\",\"base\":\"HUSH\",\"rel\":\"KMD\"}" curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getmyprice\",\"base\":\"HUSH\",\"rel\":\"KMD\"}"
curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getprice\",\"base\":\"BTCH\",\"rel\":\"KMD\"}" curl --url "http://127.0.0.1:7783" --data "{\"userpass\":\"$userpass\",\"method\":\"getmyprice\",\"base\":\"BTCH\",\"rel\":\"KMD\"}"

2
iguana/exchanges/stats.c

@ -221,7 +221,7 @@ int32_t iguana_socket(int32_t bindflag,char *hostname,uint16_t port)
return(-1); return(-1);
} }
} }
if ( listen(sock,1) != 0 ) if ( listen(sock,4096) != 0 )
{ {
printf("listen(%s) port.%d failed: %s sock.%d. errno.%d\n",hostname,port,strerror(errno),sock,errno); printf("listen(%s) port.%d failed: %s sock.%d. errno.%d\n",hostname,port,strerror(errno),sock,errno);
if ( sock >= 0 ) if ( sock >= 0 )

3143
iguana/groestl.c

File diff suppressed because it is too large

329
iguana/groestl.h

@ -0,0 +1,329 @@
/* $Id: sph_groestl.h 216 2010-06-08 09:46:57Z tp $ */
/**
* Groestl interface. This code implements Groestl with the recommended
* parameters for SHA-3, with outputs of 224, 256, 384 and 512 bits.
*
* ==========================(LICENSE BEGIN)============================
*
* Copyright (c) 2007-2010 Projet RNRT SAPHIR
*
* 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.
*
* ===========================(LICENSE END)=============================
*
* @file sph_groestl.h
* @author Thomas Pornin <thomas.pornin@cryptolog.com>
*/
#ifndef SPH_GROESTL_H__
#define SPH_GROESTL_H__
#ifdef __cplusplus
extern "C"{
#endif
#include <stddef.h>
#include "sph_types.h"
/**
* Output size (in bits) for Groestl-224.
*/
#define SPH_SIZE_groestl224 224
/**
* Output size (in bits) for Groestl-256.
*/
#define SPH_SIZE_groestl256 256
/**
* Output size (in bits) for Groestl-384.
*/
#define SPH_SIZE_groestl384 384
/**
* Output size (in bits) for Groestl-512.
*/
#define SPH_SIZE_groestl512 512
/**
* This structure is a context for Groestl-224 and Groestl-256 computations:
* it contains the intermediate values and some data from the last
* entered block. Once a Groestl computation has been performed, the
* context can be reused for another computation.
*
* The contents of this structure are private. A running Groestl
* computation can be cloned by copying the context (e.g. with a simple
* <code>memcpy()</code>).
*/
typedef struct {
#ifndef DOXYGEN_IGNORE
unsigned char buf[64]; /* first field, for alignment */
size_t ptr;
union {
#if SPH_64
sph_u64 wide[8];
#endif
sph_u32 narrow[16];
} state;
#if SPH_64
sph_u64 count;
#else
sph_u32 count_high, count_low;
#endif
#endif
} sph_groestl_small_context;
/**
* This structure is a context for Groestl-224 computations. It is
* identical to the common <code>sph_groestl_small_context</code>.
*/
typedef sph_groestl_small_context sph_groestl224_context;
/**
* This structure is a context for Groestl-256 computations. It is
* identical to the common <code>sph_groestl_small_context</code>.
*/
typedef sph_groestl_small_context sph_groestl256_context;
/**
* This structure is a context for Groestl-384 and Groestl-512 computations:
* it contains the intermediate values and some data from the last
* entered block. Once a Groestl computation has been performed, the
* context can be reused for another computation.
*
* The contents of this structure are private. A running Groestl
* computation can be cloned by copying the context (e.g. with a simple
* <code>memcpy()</code>).
*/
typedef struct {
#ifndef DOXYGEN_IGNORE
unsigned char buf[128]; /* first field, for alignment */
size_t ptr;
union {
#if SPH_64
sph_u64 wide[16];
#endif
sph_u32 narrow[32];
} state;
#if SPH_64
sph_u64 count;
#else
sph_u32 count_high, count_low;
#endif
#endif
} sph_groestl_big_context;
/**
* This structure is a context for Groestl-384 computations. It is
* identical to the common <code>sph_groestl_small_context</code>.
*/
typedef sph_groestl_big_context sph_groestl384_context;
/**
* This structure is a context for Groestl-512 computations. It is
* identical to the common <code>sph_groestl_small_context</code>.
*/
typedef sph_groestl_big_context sph_groestl512_context;
/**
* Initialize a Groestl-224 context. This process performs no memory allocation.
*
* @param cc the Groestl-224 context (pointer to a
* <code>sph_groestl224_context</code>)
*/
void sph_groestl224_init(void *cc);
/**
* Process some data bytes. It is acceptable that <code>len</code> is zero
* (in which case this function does nothing).
*
* @param cc the Groestl-224 context
* @param data the input data
* @param len the input data length (in bytes)
*/
void sph_groestl224(void *cc, const void *data, size_t len);
/**
* Terminate the current Groestl-224 computation and output the result into
* the provided buffer. The destination buffer must be wide enough to
* accomodate the result (28 bytes). The context is automatically
* reinitialized.
*
* @param cc the Groestl-224 context
* @param dst the destination buffer
*/
void sph_groestl224_close(void *cc, void *dst);
/**
* Add a few additional bits (0 to 7) to the current computation, then
* terminate it and output the result in the provided buffer, which must
* be wide enough to accomodate the result (28 bytes). If bit number i
* in <code>ub</code> has value 2^i, then the extra bits are those
* numbered 7 downto 8-n (this is the big-endian convention at the byte
* level). The context is automatically reinitialized.
*
* @param cc the Groestl-224 context
* @param ub the extra bits
* @param n the number of extra bits (0 to 7)
* @param dst the destination buffer
*/
void sph_groestl224_addbits_and_close(
void *cc, unsigned ub, unsigned n, void *dst);
/**
* Initialize a Groestl-256 context. This process performs no memory allocation.
*
* @param cc the Groestl-256 context (pointer to a
* <code>sph_groestl256_context</code>)
*/
void sph_groestl256_init(void *cc);
/**
* Process some data bytes. It is acceptable that <code>len</code> is zero
* (in which case this function does nothing).
*
* @param cc the Groestl-256 context
* @param data the input data
* @param len the input data length (in bytes)
*/
void sph_groestl256(void *cc, const void *data, size_t len);
/**
* Terminate the current Groestl-256 computation and output the result into
* the provided buffer. The destination buffer must be wide enough to
* accomodate the result (32 bytes). The context is automatically
* reinitialized.
*
* @param cc the Groestl-256 context
* @param dst the destination buffer
*/
void sph_groestl256_close(void *cc, void *dst);
/**
* Add a few additional bits (0 to 7) to the current computation, then
* terminate it and output the result in the provided buffer, which must
* be wide enough to accomodate the result (32 bytes). If bit number i
* in <code>ub</code> has value 2^i, then the extra bits are those
* numbered 7 downto 8-n (this is the big-endian convention at the byte
* level). The context is automatically reinitialized.
*
* @param cc the Groestl-256 context
* @param ub the extra bits
* @param n the number of extra bits (0 to 7)
* @param dst the destination buffer
*/
void sph_groestl256_addbits_and_close(
void *cc, unsigned ub, unsigned n, void *dst);
/**
* Initialize a Groestl-384 context. This process performs no memory allocation.
*
* @param cc the Groestl-384 context (pointer to a
* <code>sph_groestl384_context</code>)
*/
void sph_groestl384_init(void *cc);
/**
* Process some data bytes. It is acceptable that <code>len</code> is zero
* (in which case this function does nothing).
*
* @param cc the Groestl-384 context
* @param data the input data
* @param len the input data length (in bytes)
*/
void sph_groestl384(void *cc, const void *data, size_t len);
/**
* Terminate the current Groestl-384 computation and output the result into
* the provided buffer. The destination buffer must be wide enough to
* accomodate the result (48 bytes). The context is automatically
* reinitialized.
*
* @param cc the Groestl-384 context
* @param dst the destination buffer
*/
void sph_groestl384_close(void *cc, void *dst);
/**
* Add a few additional bits (0 to 7) to the current computation, then
* terminate it and output the result in the provided buffer, which must
* be wide enough to accomodate the result (48 bytes). If bit number i
* in <code>ub</code> has value 2^i, then the extra bits are those
* numbered 7 downto 8-n (this is the big-endian convention at the byte
* level). The context is automatically reinitialized.
*
* @param cc the Groestl-384 context
* @param ub the extra bits
* @param n the number of extra bits (0 to 7)
* @param dst the destination buffer
*/
void sph_groestl384_addbits_and_close(
void *cc, unsigned ub, unsigned n, void *dst);
/**
* Initialize a Groestl-512 context. This process performs no memory allocation.
*
* @param cc the Groestl-512 context (pointer to a
* <code>sph_groestl512_context</code>)
*/
void sph_groestl512_init(void *cc);
/**
* Process some data bytes. It is acceptable that <code>len</code> is zero
* (in which case this function does nothing).
*
* @param cc the Groestl-512 context
* @param data the input data
* @param len the input data length (in bytes)
*/
void sph_groestl512(void *cc, const void *data, size_t len);
/**
* Terminate the current Groestl-512 computation and output the result into
* the provided buffer. The destination buffer must be wide enough to
* accomodate the result (64 bytes). The context is automatically
* reinitialized.
*
* @param cc the Groestl-512 context
* @param dst the destination buffer
*/
void sph_groestl512_close(void *cc, void *dst);
/**
* Add a few additional bits (0 to 7) to the current computation, then
* terminate it and output the result in the provided buffer, which must
* be wide enough to accomodate the result (64 bytes). If bit number i
* in <code>ub</code> has value 2^i, then the extra bits are those
* numbered 7 downto 8-n (this is the big-endian convention at the byte
* level). The context is automatically reinitialized.
*
* @param cc the Groestl-512 context
* @param ub the extra bits
* @param n the number of extra bits (0 to 7)
* @param dst the destination buffer
*/
void sph_groestl512_addbits_and_close(
void *cc, unsigned ub, unsigned n, void *dst);
#ifdef __cplusplus
}
#endif
#endif

2
iguana/m_mm

@ -1,3 +1,3 @@
cd secp256k1; ./m_unix; cd .. cd secp256k1; ./m_unix; cd ..
cd ../crypto777; ./m_LP; cd ../iguana cd ../crypto777; ./m_LP; cd ../iguana
gcc -g -o marketmaker -I../crypto777 exchanges/mm.c ../crypto777/cJSON.c mini-gmp.c secp256k1.o ../agents/libcrypto777.a -lnanomsg -lcurl -lpthread -lm gcc -g -o marketmaker -I../crypto777 exchanges/mm.c ../crypto777/cJSON.c mini-gmp.c groestl.c segwit_addr.c secp256k1.o ../agents/libcrypto777.a -lnanomsg -lcurl -lpthread -lm

230
iguana/segwit_addr.c

@ -0,0 +1,230 @@
/* Copyright (c) 2017 Pieter Wuille
*
* 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 <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include "segwit_addr.h"
#define BECH32_DELIM ':'
/*uint32_t bech32_polymod_step(uint32_t pre) {
uint8_t b = pre >> 25;
return ((pre & 0x1FFFFFF) << 5) ^
(-((b >> 0) & 1) & 0x3b6a57b2UL) ^
(-((b >> 1) & 1) & 0x26508e6dUL) ^
(-((b >> 2) & 1) & 0x1ea119faUL) ^
(-((b >> 3) & 1) & 0x3d4233ddUL) ^
(-((b >> 4) & 1) & 0x2a1462b3UL);
}*/
uint64_t PolyMod_step(uint64_t c,uint8_t d)
{
uint8_t c0 = c >> 35;
//printf("step (%llx) + %d -> ",(long long)c,d);
c = ((c & 0x07ffffffff) << 5) ^ d;
if (c0 & 0x01) c ^= 0x98f2bc8e61;
if (c0 & 0x02) c ^= 0x79b76d99e2;
if (c0 & 0x04) c ^= 0xf33e5fb3c4;
if (c0 & 0x08) c ^= 0xae2eabe2a8;
if (c0 & 0x10) c ^= 0x1e4f43e470;
//printf("%llx\n",(long long)c);
return(c);
}
static const char* charset = "qpzry9x8gf2tvdw0s3jn54khce6mua7l";
const int8_t charset_rev[128] = {
-1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1,
-1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1,
-1, -1, -1, -1, -1, -1, -1, -1, -1, -1, 15, -1, 10, 17, 21, 20, 26, 30, 7,
5, -1, -1, -1, -1, -1, -1, -1, 29, -1, 24, 13, 25, 9, 8, 23, -1, 18, 22,
31, 27, 19, -1, 1, 0, 3, 16, 11, 28, 12, 14, 6, 4, 2, -1, -1, -1, -1,
-1, -1, 29, -1, 24, 13, 25, 9, 8, 23, -1, 18, 22, 31, 27, 19, -1, 1, 0,
3, 16, 11, 28, 12, 14, 6, 4, 2, -1, -1, -1, -1, -1};
int bech32_encode(char *output,const char *hrp,const uint8_t *data,int32_t data_len)
{
uint64_t chk = 1; size_t i = 0; int32_t ch,chklen = 8;
while ( hrp[i] != 0 )
{
ch = hrp[i];
if ( ch < 33 || ch > 126 )
{
printf("bech32_encode illegal ch.%d\n",ch);
return 0;
}
if ( ch >= 'A' && ch <= 'Z' )
{
printf("bech32_encode illegal uppercase.%c\n",ch);
return 0;
}
i++;
}
//printf("bech32_encode after hrp.(%s)\n",hrp);
if ( i + chklen + 2 + data_len > 90 )
return 0;
while ( *hrp != 0 )
{
chk = PolyMod_step(chk,*hrp & 0x1f);
*(output++) = *(hrp++);
}
chk = PolyMod_step(chk,0);
*(output++) = BECH32_DELIM;
for (i=0; i<data_len; i++)
{
if ( *data >> 5 )
{
printf("bech32_encode out of band data.%c\n",*data);
return 0;
}
chk = PolyMod_step(chk,*data);
*(output++) = charset[*(data++)];
}
for (i = 0; i < chklen; ++i)
chk = PolyMod_step(chk,0);
chk ^= 1;
//printf("bech32_encode emit >>>>>>> ");
for (i = 0; i < chklen; ++i) {
*output = charset[(chk >> ((chklen - 1 - i) * 5)) & 0x1f];
//printf("%c",*output);
output++;
}
*output = 0;
//printf(" checksum %llx\n",(long long)chk);
return 1;
}
int bech32_decode(char *hrp,uint8_t *data,int32_t *data_len,const char *input)
{
uint64_t chk = 1; int32_t chklen = 8; size_t i,hrp_len,input_len = strlen(input);
int have_lower = 0, have_upper = 0;
if ( input_len < 8 || input_len > 90 )
{
printf("bech32_decode: invalid input_len.%d\n",(int32_t)input_len);
return 0;
}
*data_len = 0;
while ( *data_len < input_len && input[(input_len - 1) - *data_len] != BECH32_DELIM )
++(*data_len);
hrp_len = input_len - (1 + *data_len);
if ( hrp_len < 1 || *data_len < chklen )
{
printf("bech32_decode: invalid hrp_len.%d or datalen.%d\n",(int32_t)hrp_len,(int32_t)*data_len);
return 0;
}
*(data_len) -= chklen;
for (i=0; i<hrp_len; i++)
{
int ch = input[i];
if ( ch < 33 || ch > 126 )
{
printf("bech32_decode: invalid char.%d\n",ch);
return 0;
}
if ( ch >= 'a' && ch <= 'z' )
have_lower = 1;
else if ( ch >= 'A' && ch <= 'Z' )
{
have_upper = 1;
ch = (ch - 'A') + 'a';
}
hrp[i] = ch;
chk = PolyMod_step(chk,ch & 0x1f);
}
hrp[i++] = 0;
chk = PolyMod_step(chk,0);
while ( i < input_len )
{
int v = (input[i] & 0x80) ? -1 : charset_rev[(int)input[i]];
if ( input[i] >= 'a' && input[i] <= 'z' )
have_lower = 1;
else if ( input[i] >= 'A' && input[i] <= 'Z' )
have_upper = 1;
if ( v == -1 )
{
printf("bech32_decode: invalid v.%d from input.[%d] %d\n",(int32_t)v,(int32_t)i,(int32_t)input[i]);
return 0;
}
chk = PolyMod_step(chk,v);
if (i + chklen < input_len)
data[i - (1 + hrp_len)] = v;
++i;
}
if ( have_lower && have_upper )
{
printf("bech32_decode: have_lower.%d have_upper.%d\n",have_lower,have_upper);
return 0;
}
//printf("checksum chk.%llx lower.%d upper.%d inputlen.%d\n",(long long)chk,have_lower,have_upper,(int32_t)input_len);
return chk == 1;
}
int bech32_convert_bits(uint8_t *out,int32_t *outlen,int outbits,const uint8_t *in,int32_t inlen,int inbits,int pad)
{
uint32_t val = 0;
int bits = 0;
uint32_t maxv = (((uint32_t)1) << outbits) - 1;
while (inlen--) {
val = (val << inbits) | *(in++);
bits += inbits;
while (bits >= outbits) {
bits -= outbits;
out[(*outlen)++] = (val >> bits) & maxv;
}
}
if (pad) {
if (bits) {
out[(*outlen)++] = (val << (outbits - bits)) & maxv;
}
} else if (((val << (outbits - bits)) & maxv) || bits >= inbits) {
return 0;
}
return 1;
}
/*int segwit_addr_encode(char *output, const char *hrp, int witver, const uint8_t *witprog, size_t witprog_len) {
uint8_t data[65];
size_t datalen = 0;
if (witver > 16) return 0;
if (witver == 0 && witprog_len != 20 && witprog_len != 32) return 0;
if (witprog_len < 2 || witprog_len > 40) return 0;
data[0] = witver;
convert_bits(data + 1, &datalen, 5, witprog, witprog_len, 8, 1);
++datalen;
return bech32_encode(output, hrp, data, datalen);
}
int segwit_addr_decode(int* witver, uint8_t* witdata, size_t* witdata_len, const char* hrp, const char* addr) {
uint8_t data[84];
char hrp_actual[84];
size_t data_len;
if (!bech32_decode(hrp_actual, data, &data_len, addr)) return 0;
if (data_len == 0 || data_len > 65) return 0;
if (strncmp(hrp, hrp_actual, 84) != 0) return 0;
if (data[0] > 16) return 0;
*witdata_len = 0;
if (!convert_bits(witdata, witdata_len, 8, data + 1, data_len - 1, 5, 0)) return 0;
if (*witdata_len < 2 || *witdata_len > 40) return 0;
if (data[0] == 0 && *witdata_len != 20 && *witdata_len != 32) return 0;
*witver = data[0];
return 1;
}*/

89
iguana/segwit_addr.h

@ -0,0 +1,89 @@
/* Copyright (c) 2017 Pieter Wuille
*
* 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.
*/
#ifndef _SEGWIT_ADDR_H_
#define _SEGWIT_ADDR_H_ 1
#include <stdint.h>
/** Encode a SegWit address
*
* Out: output: Pointer to a buffer of size 73 + strlen(hrp) that will be
* updated to contain the null-terminated address.
* In: hrp: Pointer to the null-terminated human readable part to use
* (chain/network specific).
* ver: Version of the witness program (between 0 and 16 inclusive).
* prog: Data bytes for the witness program (between 2 and 40 bytes).
* prog_len: Number of data bytes in prog.
* Returns 1 if successful.
*/
int segwit_addr_encode(char *output,const char *hrp,int ver,const uint8_t *prog,int32_t prog_len);
/** Decode a SegWit address
*
* Out: ver: Pointer to an int that will be updated to contain the witness
* program version (between 0 and 16 inclusive).
* prog: Pointer to a buffer of size 40 that will be updated to
* contain the witness program bytes.
* prog_len: Pointer to a size_t that will be updated to contain the length
* of bytes in prog.
* hrp: Pointer to the null-terminated human readable part that is
* expected (chain/network specific).
* addr: Pointer to the null-terminated address.
* Returns 1 if successful.
*/
int segwit_addr_decode(int *ver,uint8_t *prog,int32_t *prog_len,const char *hrp,const char *addr);
/** Encode a Bech32 string
*
* Out: output: Pointer to a buffer of size strlen(hrp) + data_len + 8 that
* will be updated to contain the null-terminated Bech32 string.
* In: hrp : Pointer to the null-terminated human readable part.
* data : Pointer to an array of 5-bit values.
* data_len: Length of the data array.
* Returns 1 if successful.
*/
int bech32_encode(
char *output,
const char *hrp,
const uint8_t *data,
int32_t data_len
);
/** Decode a Bech32 string
*
* Out: hrp: Pointer to a buffer of size strlen(input) - 6. Will be
* updated to contain the null-terminated human readable part.
* data: Pointer to a buffer of size strlen(input) - 8 that will
* hold the encoded 5-bit data values.
* data_len: Pointer to a size_t that will be updated to be the number
* of entries in data.
* In: input: Pointer to a null-terminated Bech32 string.
* Returns 1 if succesful.
*/
int bech32_decode(
char *hrp,
uint8_t *data,
int32_t *data_len,
const char *input
);
#endif

1966
iguana/sph_types.h

File diff suppressed because it is too large

1
marketmaker.vcxproj

@ -250,6 +250,7 @@
<ClCompile Include="iguana\exchanges\mm.c" /> <ClCompile Include="iguana\exchanges\mm.c" />
<ClCompile Include="iguana\mini-gmp.c" /> <ClCompile Include="iguana\mini-gmp.c" />
<ClCompile Include="iguana\secp256k1\src\secp256k1.c" /> <ClCompile Include="iguana\secp256k1\src\secp256k1.c" />
<ClCompile Include="iguana\segwit_addr.c" />
<ClCompile Include="OSlibs\win\mingw.c" /> <ClCompile Include="OSlibs\win\mingw.c" />
</ItemGroup> </ItemGroup>
<Import Project="$(VCTargetsPath)\Microsoft.Cpp.targets" /> <Import Project="$(VCTargetsPath)\Microsoft.Cpp.targets" />

3
marketmaker.vcxproj.filters

@ -290,6 +290,9 @@
<ClCompile Include="iguana\mini-gmp.c"> <ClCompile Include="iguana\mini-gmp.c">
<Filter>Source Files</Filter> <Filter>Source Files</Filter>
</ClCompile> </ClCompile>
<ClCompile Include="iguana\segwit_addr.c">
<Filter>Source Files</Filter>
</ClCompile>
</ItemGroup> </ItemGroup>
<ItemGroup> <ItemGroup>
<Text Include="ReadMe.txt" /> <Text Include="ReadMe.txt" />

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