You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
 
 

614 lines
23 KiB

/******************************************************************************
* Copyright © 2014-2017 The SuperNET Developers. *
* *
* See the AUTHORS, DEVELOPER-AGREEMENT and LICENSE files at *
* the top-level directory of this distribution for the individual copyright *
* holder information and the developer policies on copyright and licensing. *
* *
* Unless otherwise agreed in a custom licensing agreement, no part of the *
* SuperNET software, including this file may be copied, modified, propagated *
* or distributed except according to the terms contained in the LICENSE file *
* *
* Removal or modification of this copyright notice is prohibited. *
* *
******************************************************************************/
//
// LP_etomic.c
// marketmaker
//
//
// Created by artem on 24.01.18.
//
#include "etomicswap/etomiclib.h"
#include "etomicswap/etomiccurl.h"
#include <inttypes.h>
int32_t LP_etomic_wait_for_confirmation(char *txId)
{
EthTxReceipt receipt;
EthTxData txData;
do {
sleep(15);
printf("waiting for ETH txId to be confirmed: %s\n", txId);
receipt = getEthTxReceipt(txId);
if (receipt.confirmations < 1) {
txData = getEthTxData(txId);
if (txData.exists == 0) {
return(-1);
}
}
} while (receipt.confirmations < 1);
if (strcmp(receipt.status, "0x1") != 0) {
printf("ETH txid %s receipt status failed\n", txId);
return(-1);
}
return(receipt.confirmations);
}
char *LP_etomicalice_send_payment(struct basilisk_swap *swap)
{
AliceSendsEthPaymentInput input; AliceSendsErc20PaymentInput input20; BasicTxData txData;
// set input and txData fields from the swap data structure
memset(&txData,0,sizeof(txData));
if ( strcmp(swap->I.alicestr,"ETH") == 0 )
{
memset(&input,0,sizeof(input));
strcpy(input.bobAddress, swap->I.etomicsrc);
uint8arrayToHex(input.bobHash, swap->I.secretBn, 20);
uint8arrayToHex(input.aliceHash, swap->I.secretAm, 20);
uint8arrayToHex(input.dealId, swap->alicepayment.I.actualtxid.bytes, 32);
strcpy(txData.from, swap->I.etomicdest);
strcpy(txData.to, ETOMIC_ALICECONTRACT);
satoshisToWei(txData.amount, swap->I.alicesatoshis);
uint8arrayToHex(txData.secretKey, swap->persistent_privkey.bytes, 32);
return(aliceSendsEthPayment(input,txData));
}
else
{
memset(&input20,0,sizeof(input20));
strcpy(input20.bobAddress, swap->I.etomicsrc);
uint8arrayToHex(input20.bobHash, swap->I.secretBn, 20);
uint8arrayToHex(input20.aliceHash, swap->I.secretAm, 20);
uint8arrayToHex(input20.dealId, swap->alicepayment.I.actualtxid.bytes, 32);
strcpy(input20.tokenAddress, swap->I.alicetomic);
satoshisToWei(input20.amount, swap->I.alicesatoshis);
strcpy(txData.from, swap->I.etomicdest);
strcpy(txData.to, ETOMIC_ALICECONTRACT);
strcpy(txData.amount, "0");
uint8arrayToHex(txData.secretKey, swap->persistent_privkey.bytes, 32);
uint64_t allowance = getErc20Allowance(swap->I.etomicdest, ETOMIC_ALICECONTRACT, swap->I.alicetomic);
if (allowance < swap->I.alicesatoshis) {
printf("Alice token allowance is too low, setting new allowance\n");
ApproveErc20Input approveErc20Input;
strcpy(approveErc20Input.tokenAddress, swap->I.alicetomic);
strcpy(approveErc20Input.owner, swap->I.etomicdest);
strcpy(approveErc20Input.spender, ETOMIC_ALICECONTRACT);
char *tokenBalance = getErc20BalanceHexWei(swap->I.etomicdest, swap->I.alicetomic);
strcpy(approveErc20Input.amount, tokenBalance);
free(tokenBalance);
strcpy(approveErc20Input.secret, txData.secretKey);
char *allowTxId = approveErc20(approveErc20Input);
LP_etomic_wait_for_confirmation(allowTxId);
free(allowTxId);
}
return(aliceSendsErc20Payment(input20,txData));
}
}
uint8_t LP_etomic_verify_alice_payment(struct basilisk_swap *swap, char *txId)
{
EthTxData data = getEthTxData(txId);
if (data.exists == 0 || strcmp(data.to, ETOMIC_ALICECONTRACT) != 0 || strcmp(data.from, swap->I.etomicdest) != 0) {
return 0;
}
AliceSendsEthPaymentInput input; AliceSendsErc20PaymentInput input20; BasicTxData txData;
// set input and txData fields from the swap data structure
memset(&txData,0,sizeof(txData));
if ( strcmp(swap->I.alicestr,"ETH") == 0 )
{
memset(&input,0,sizeof(input));
strcpy(input.bobAddress, swap->I.etomicsrc);
uint8arrayToHex(input.bobHash, swap->I.secretBn, 20);
uint8arrayToHex(input.aliceHash, swap->I.secretAm, 20);
uint8arrayToHex(input.dealId, swap->alicepayment.I.actualtxid.bytes, 32);
strcpy(txData.from, swap->I.etomicdest);
strcpy(txData.to, ETOMIC_ALICECONTRACT);
satoshisToWei(txData.amount, swap->I.alicesatoshis);
uint8arrayToHex(txData.secretKey, swap->persistent_privkey.bytes, 32);
return(verifyAliceEthPaymentData(input, data.input));
}
else
{
memset(&input20,0,sizeof(input20));
strcpy(input20.bobAddress, swap->I.etomicsrc);
uint8arrayToHex(input20.bobHash, swap->I.secretBn, 20);
uint8arrayToHex(input20.aliceHash, swap->I.secretAm, 20);
uint8arrayToHex(input20.dealId, swap->alicepayment.utxotxid.bytes, 32);
strcpy(input20.tokenAddress, swap->I.alicetomic);
satoshisToWei(input20.amount, swap->I.alicesatoshis);
strcpy(txData.from, swap->I.etomicdest);
strcpy(txData.to, ETOMIC_ALICECONTRACT);
strcpy(txData.amount, "0");
uint8arrayToHex(txData.secretKey, swap->persistent_privkey.bytes, 32);
return(verifyAliceErc20PaymentData(input20, data.input));
}
}
char *LP_etomicalice_reclaims_payment(struct LP_swap_remember *swap)
{
AliceReclaimsAlicePaymentInput input;
BasicTxData txData;
memset(&txData,0,sizeof(txData));
memset(&input,0,sizeof(input));
struct iguana_info *ecoin;
bits256 privkey;
ecoin = LP_coinfind("ETOMIC");
privkey = LP_privkey(ecoin->symbol, ecoin->smartaddr, ecoin->taddr);
uint8arrayToHex(input.dealId, swap->txids[BASILISK_ALICEPAYMENT].bytes, 32);
satoshisToWei(input.amount, swap->values[BASILISK_ALICEPAYMENT]);
if (swap->alicetomic[0] != 0) {
strcpy(input.tokenAddress, swap->alicetomic);
} else {
strcpy(input.tokenAddress, "0x0000000000000000000000000000000000000000");
}
strcpy(input.bobAddress, swap->etomicdest);
uint8arrayToHex(input.aliceHash, swap->secretAm, 20);
bits256 invertedSecret;
int32_t i;
for (i=0; i<32; i++) {
invertedSecret.bytes[i] = swap->privBn.bytes[31 - i];
}
uint8arrayToHex(input.bobSecret, invertedSecret.bytes, 32);
strcpy(txData.from, swap->etomicsrc);
strcpy(txData.to, ETOMIC_ALICECONTRACT);
strcpy(txData.amount, "0");
uint8arrayToHex(txData.secretKey, privkey.bytes, 32);
return aliceReclaimsAlicePayment(input, txData);
}
char *LP_etomicbob_spends_alice_payment(struct LP_swap_remember *swap)
{
BobSpendsAlicePaymentInput input;
BasicTxData txData;
memset(&txData,0,sizeof(txData));
memset(&input,0,sizeof(input));
struct iguana_info *ecoin;
bits256 privkey;
ecoin = LP_coinfind("ETOMIC");
privkey = LP_privkey(ecoin->symbol, ecoin->smartaddr, ecoin->taddr);
uint8arrayToHex(input.dealId, swap->txids[BASILISK_ALICEPAYMENT].bytes, 32);
satoshisToWei(input.amount, swap->destamount);
if (swap->alicetomic[0] != 0) {
strcpy(input.tokenAddress, swap->alicetomic);
} else {
strcpy(input.tokenAddress, "0x0000000000000000000000000000000000000000");
}
strcpy(input.aliceAddress, swap->etomicdest);
bits256 invertedSecret; int32_t i;
for (i=0; i<32; i++) {
invertedSecret.bytes[i] = swap->privAm.bytes[31 - i];
}
uint8arrayToHex(input.aliceSecret, invertedSecret.bytes, 32);
uint8arrayToHex(input.bobHash, swap->secretBn, 20);
strcpy(txData.from, swap->etomicsrc);
strcpy(txData.to, ETOMIC_ALICECONTRACT);
strcpy(txData.amount, "0");
uint8arrayToHex(txData.secretKey, privkey.bytes, 32);
return bobSpendsAlicePayment(input, txData);
}
char *LP_etomicbob_sends_deposit(struct basilisk_swap *swap)
{
BobSendsEthDepositInput input;
BobSendsErc20DepositInput input20;
BasicTxData txData;
memset(&txData,0,sizeof(txData));
memset(&input,0,sizeof(input));
memset(&input20,0,sizeof(input20));
if ( strcmp(swap->I.bobstr,"ETH") == 0 ) {
uint8arrayToHex(input.depositId, swap->bobdeposit.I.actualtxid.bytes, 32);
strcpy(input.aliceAddress, swap->I.etomicdest);
uint8arrayToHex(input.bobHash, swap->I.secretBn, 20);
strcpy(txData.from, swap->I.etomicsrc);
strcpy(txData.to, ETOMIC_BOBCONTRACT);
satoshisToWei(txData.amount, swap->bobdeposit.I.amount);
uint8arrayToHex(txData.secretKey, swap->persistent_privkey.bytes, 32);
return bobSendsEthDeposit(input, txData);
} else {
uint8arrayToHex(input20.depositId, swap->bobdeposit.I.actualtxid.bytes, 32);
strcpy(input20.aliceAddress, swap->I.etomicdest);
uint8arrayToHex(input20.bobHash, swap->I.secretBn, 20);
satoshisToWei(input20.amount, swap->bobdeposit.I.amount);
strcpy(input20.tokenAddress, swap->I.bobtomic);
strcpy(txData.from, swap->I.etomicsrc);
strcpy(txData.to, ETOMIC_BOBCONTRACT);
strcpy(txData.amount, "0");
uint8arrayToHex(txData.secretKey, swap->persistent_privkey.bytes, 32);
uint64_t allowance = getErc20Allowance(swap->I.etomicsrc, ETOMIC_BOBCONTRACT, swap->I.bobtomic);
if (allowance < swap->bobdeposit.I.amount) {
printf("Bob token allowance is too low, setting new allowance\n");
ApproveErc20Input approveErc20Input;
strcpy(approveErc20Input.tokenAddress, swap->I.bobtomic);
strcpy(approveErc20Input.owner, swap->I.etomicsrc);
strcpy(approveErc20Input.spender, ETOMIC_BOBCONTRACT);
char *tokenBalance = getErc20BalanceHexWei(swap->I.etomicsrc, swap->I.bobtomic);
strcpy(approveErc20Input.amount, tokenBalance);
free(tokenBalance);
strcpy(approveErc20Input.secret, txData.secretKey);
char *allowTxId = approveErc20(approveErc20Input);
LP_etomic_wait_for_confirmation(allowTxId);
free(allowTxId);
}
return bobSendsErc20Deposit(input20, txData);
}
}
uint8_t LP_etomic_verify_bob_deposit(struct basilisk_swap *swap, char *txId)
{
EthTxData data = getEthTxData(txId);
if (data.exists == 0 || strcmp(data.to, ETOMIC_BOBCONTRACT) != 0 || strcmp(data.from, swap->I.etomicsrc) != 0) {
return 0;
}
BobSendsEthDepositInput input;
BobSendsErc20DepositInput input20;
BasicTxData txData;
memset(&txData,0,sizeof(txData));
memset(&input,0,sizeof(input));
memset(&input20,0,sizeof(input20));
if ( strcmp(swap->I.bobstr,"ETH") == 0 ) {
uint8arrayToHex(input.depositId, swap->bobdeposit.I.actualtxid.bytes, 32);
strcpy(input.aliceAddress, swap->I.etomicdest);
uint8arrayToHex(input.bobHash, swap->I.secretBn, 20);
strcpy(txData.from, swap->I.etomicsrc);
strcpy(txData.to, ETOMIC_BOBCONTRACT);
satoshisToWei(txData.amount, swap->bobdeposit.I.amount);
uint8arrayToHex(txData.secretKey, swap->persistent_privkey.bytes, 32);
return verifyBobEthDepositData(input, data.input);
} else {
uint8arrayToHex(input20.depositId, swap->bobdeposit.I.actualtxid.bytes, 32);
strcpy(input20.aliceAddress, swap->I.etomicdest);
uint8arrayToHex(input20.bobHash, swap->I.secretBn, 20);
satoshisToWei(input20.amount, swap->bobdeposit.I.amount);
strcpy(input20.tokenAddress, swap->I.bobtomic);
strcpy(txData.from, swap->I.etomicsrc);
strcpy(txData.to, ETOMIC_BOBCONTRACT);
strcpy(txData.amount, "0");
uint8arrayToHex(txData.secretKey, swap->persistent_privkey.bytes, 32);
return verifyBobErc20DepositData(input20, data.input);
}
}
char *LP_etomicbob_refunds_deposit(struct LP_swap_remember *swap)
{
BobRefundsDepositInput input;
BasicTxData txData;
memset(&txData,0,sizeof(txData));
memset(&input,0,sizeof(input));
struct iguana_info *ecoin;
bits256 privkey;
ecoin = LP_coinfind("ETOMIC");
privkey = LP_privkey(ecoin->symbol, ecoin->smartaddr, ecoin->taddr);
EthTxReceipt receipt = getEthTxReceipt(swap->bobDepositEthTx);
uint8arrayToHex(input.depositId, swap->txids[BASILISK_BOBDEPOSIT].bytes, 32);
strcpy(input.aliceAddress, swap->etomicdest);
sprintf(input.aliceCanClaimAfter, "%" PRIu64, receipt.blockNumber + 960);
bits256 invertedSecret;
int32_t i;
for (i=0; i<32; i++) {
invertedSecret.bytes[i] = swap->privBn.bytes[31 - i];
}
uint8arrayToHex(input.bobSecret, invertedSecret.bytes, 32);
if (swap->bobtomic[0] != 0) {
strcpy(input.tokenAddress, swap->bobtomic);
} else {
strcpy(input.tokenAddress, "0x0000000000000000000000000000000000000000");
}
satoshisToWei(input.amount, swap->values[BASILISK_BOBDEPOSIT]);
strcpy(txData.from, swap->etomicsrc);
strcpy(txData.to, ETOMIC_BOBCONTRACT);
strcpy(txData.amount, "0");
uint8arrayToHex(txData.secretKey, privkey.bytes, 32);
return bobRefundsDeposit(input, txData);
}
char *LP_etomicbob_sends_payment(struct basilisk_swap *swap)
{
BobSendsEthPaymentInput input;
BobSendsErc20PaymentInput input20;
BasicTxData txData;
memset(&txData,0,sizeof(txData));
memset(&input,0,sizeof(input));
memset(&input20,0,sizeof(input20));
if ( strcmp(swap->I.bobstr,"ETH") == 0 ) {
uint8arrayToHex(input.paymentId, swap->bobpayment.I.actualtxid.bytes, 32);
strcpy(input.aliceAddress, swap->I.etomicdest);
uint8arrayToHex(input.aliceHash, swap->I.secretAm, 20);
strcpy(txData.from, swap->I.etomicsrc);
strcpy(txData.to, ETOMIC_BOBCONTRACT);
satoshisToWei(txData.amount, swap->bobpayment.I.amount);
uint8arrayToHex(txData.secretKey, swap->persistent_privkey.bytes, 32);
return bobSendsEthPayment(input, txData);
} else {
uint8arrayToHex(input20.paymentId, swap->bobpayment.I.actualtxid.bytes, 32);
strcpy(input20.aliceAddress, swap->I.etomicdest);
uint8arrayToHex(input20.aliceHash, swap->I.secretAm, 20);
satoshisToWei(input20.amount, swap->bobpayment.I.amount);
strcpy(input20.tokenAddress, swap->I.bobtomic);
strcpy(txData.from, swap->I.etomicsrc);
strcpy(txData.to, ETOMIC_BOBCONTRACT);
strcpy(txData.amount, "0");
uint8arrayToHex(txData.secretKey, swap->persistent_privkey.bytes, 32);
uint64_t allowance = getErc20Allowance(swap->I.etomicsrc, ETOMIC_BOBCONTRACT, swap->I.bobtomic);
if (allowance < swap->bobpayment.I.amount) {
printf("Bob token allowance is too low, setting new allowance\n");
ApproveErc20Input approveErc20Input;
strcpy(approveErc20Input.tokenAddress, swap->I.bobtomic);
strcpy(approveErc20Input.owner, swap->I.etomicsrc);
strcpy(approveErc20Input.spender, ETOMIC_BOBCONTRACT);
char *tokenBalance = getErc20BalanceHexWei(swap->I.etomicsrc, swap->I.bobtomic);
strcpy(approveErc20Input.amount, tokenBalance);
free(tokenBalance);
strcpy(approveErc20Input.secret, txData.secretKey);
char *allowTxId = approveErc20(approveErc20Input);
LP_etomic_wait_for_confirmation(allowTxId);
free(allowTxId);
}
return bobSendsErc20Payment(input20, txData);
}
}
uint8_t LP_etomic_verify_bob_payment(struct basilisk_swap *swap, char *txId)
{
EthTxData data = getEthTxData(txId);
if (data.exists == 0 || strcmp(data.to, ETOMIC_BOBCONTRACT) != 0 || strcmp(data.from, swap->I.etomicsrc) != 0) {
return 0;
}
BobSendsEthPaymentInput input;
BobSendsErc20PaymentInput input20;
BasicTxData txData;
memset(&txData,0,sizeof(txData));
memset(&input,0,sizeof(input));
memset(&input20,0,sizeof(input20));
if ( strcmp(swap->I.bobstr,"ETH") == 0 ) {
uint8arrayToHex(input.paymentId, swap->bobpayment.I.actualtxid.bytes, 32);
strcpy(input.aliceAddress, swap->I.etomicdest);
uint8arrayToHex(input.aliceHash, swap->I.secretAm, 20);
strcpy(txData.from, swap->I.etomicsrc);
strcpy(txData.to, ETOMIC_BOBCONTRACT);
satoshisToWei(txData.amount, swap->bobpayment.I.amount);
uint8arrayToHex(txData.secretKey, swap->persistent_privkey.bytes, 32);
return verifyBobEthPaymentData(input, data.input);
} else {
uint8arrayToHex(input20.paymentId, swap->bobpayment.I.actualtxid.bytes, 32);
strcpy(input20.aliceAddress, swap->I.etomicdest);
uint8arrayToHex(input20.aliceHash, swap->I.secretAm, 20);
satoshisToWei(input20.amount, swap->bobpayment.I.amount);
strcpy(input20.tokenAddress, swap->I.bobtomic);
strcpy(txData.from, swap->I.etomicsrc);
strcpy(txData.to, ETOMIC_BOBCONTRACT);
strcpy(txData.amount, "0");
uint8arrayToHex(txData.secretKey, swap->persistent_privkey.bytes, 32);
return verifyBobErc20PaymentData(input20, data.input);
}
}
char *LP_etomicbob_reclaims_payment(struct LP_swap_remember *swap)
{
BobReclaimsBobPaymentInput input;
BasicTxData txData;
memset(&txData,0,sizeof(txData));
memset(&input,0,sizeof(input));
struct iguana_info *ecoin;
bits256 privkey;
ecoin = LP_coinfind("ETOMIC");
privkey = LP_privkey(ecoin->symbol, ecoin->smartaddr, ecoin->taddr);
EthTxReceipt receipt = getEthTxReceipt(swap->bobPaymentEthTx);
uint8arrayToHex(input.paymentId, swap->txids[BASILISK_BOBPAYMENT].bytes, 32);
strcpy(input.aliceAddress, swap->etomicdest);
sprintf(input.bobCanClaimAfter, "%" PRIu64, receipt.blockNumber + 480);
uint8arrayToHex(input.aliceHash, swap->secretAm, 20);
if (swap->bobtomic[0] != 0) {
strcpy(input.tokenAddress, swap->bobtomic);
} else {
strcpy(input.tokenAddress, "0x0000000000000000000000000000000000000000");
}
satoshisToWei(input.amount, swap->values[BASILISK_BOBPAYMENT]);
strcpy(txData.from, swap->etomicsrc);
strcpy(txData.to, ETOMIC_BOBCONTRACT);
strcpy(txData.amount, "0");
uint8arrayToHex(txData.secretKey, privkey.bytes, 32);
return bobReclaimsBobPayment(input, txData);
}
char *LP_etomicalice_spends_bob_payment(struct LP_swap_remember *swap)
{
AliceSpendsBobPaymentInput input;
BasicTxData txData;
memset(&txData,0,sizeof(txData));
memset(&input,0,sizeof(input));
EthTxReceipt receipt = getEthTxReceipt(swap->bobPaymentEthTx);
struct iguana_info *ecoin;
bits256 privkey;
ecoin = LP_coinfind("ETOMIC");
privkey = LP_privkey(ecoin->symbol, ecoin->smartaddr, ecoin->taddr);
uint8arrayToHex(input.paymentId, swap->txids[BASILISK_BOBPAYMENT].bytes, 32);
satoshisToWei(input.amount, swap->values[BASILISK_BOBPAYMENT]);
sprintf(input.bobCanClaimAfter, "%" PRIu64, receipt.blockNumber + 480);
if (swap->bobtomic[0] != 0) {
strcpy(input.tokenAddress, swap->bobtomic);
} else {
strcpy(input.tokenAddress, "0x0000000000000000000000000000000000000000");
}
strcpy(input.bobAddress, swap->etomicsrc);
bits256 invertedSecret; int32_t i;
for (i=0; i<32; i++) {
invertedSecret.bytes[i] = swap->privAm.bytes[31 - i];
}
uint8arrayToHex(input.aliceSecret, invertedSecret.bytes, 32);
strcpy(txData.from, swap->etomicdest);
strcpy(txData.to, ETOMIC_BOBCONTRACT);
strcpy(txData.amount, "0");
uint8arrayToHex(txData.secretKey, privkey.bytes, 32);
printf("priv key: %s", txData.secretKey);
return aliceSpendsBobPayment(input, txData);
}
char *LP_etomicalice_claims_bob_deposit(struct LP_swap_remember *swap)
{
AliceClaimsBobDepositInput input;
BasicTxData txData;
memset(&txData,0,sizeof(txData));
memset(&input,0,sizeof(input));
EthTxReceipt receipt = getEthTxReceipt(swap->bobDepositEthTx);
struct iguana_info *ecoin;
bits256 privkey;
ecoin = LP_coinfind("ETOMIC");
privkey = LP_privkey(ecoin->symbol, ecoin->smartaddr, ecoin->taddr);
uint8arrayToHex(input.depositId, swap->txids[BASILISK_BOBDEPOSIT].bytes, 32);
satoshisToWei(input.amount, swap->values[BASILISK_BOBDEPOSIT]);
sprintf(input.aliceCanClaimAfter, "%" PRIu64, receipt.blockNumber + 960);
if (swap->bobtomic[0] != 0) {
strcpy(input.tokenAddress, swap->bobtomic);
} else {
strcpy(input.tokenAddress, "0x0000000000000000000000000000000000000000");
}
strcpy(input.bobAddress, swap->etomicsrc);
uint8arrayToHex(input.bobHash, swap->secretBn, 20);
strcpy(txData.from, swap->etomicdest);
strcpy(txData.to, ETOMIC_BOBCONTRACT);
strcpy(txData.amount, "0");
uint8arrayToHex(txData.secretKey, privkey.bytes, 32);
return aliceClaimsBobDeposit(input, txData);
}
char *sendEthTx(struct basilisk_swap *swap, struct basilisk_rawtx *rawtx)
{
if (rawtx == &swap->alicepayment && swap->I.alicetomic[0] != 0) {
return LP_etomicalice_send_payment(swap);
} else if (rawtx == &swap->bobdeposit && swap->I.bobtomic[0] != 0) {
return LP_etomicbob_sends_deposit(swap);
} else if (rawtx == &swap->bobpayment && swap->I.bobtomic[0] != 0) {
return LP_etomicbob_sends_payment(swap);
} else {
char *result = malloc(67);
strcpy(result, "0x0000000000000000000000000000000000000000000000000000000000000000");
return result;
}
}
int32_t LP_etomic_priv2addr(char *coinaddr,bits256 privkey)
{
char str[65],*addrstr;
bits256_str(str,privkey);
if ( (addrstr= privKey2Addr(str)) != 0 )
{
strcpy(coinaddr,addrstr);
free(addrstr);
return(0);
}
return(-1);
}
int32_t LP_etomic_priv2pub(uint8_t *pub64,bits256 privkey)
{
char *pubstr,str[72]; int32_t retval = -1;
bits256_str(str,privkey);
if ( (pubstr= getPubKeyFromPriv(str)) != 0 )
{
if ( strlen(pubstr) == 130 && pubstr[0] == '0' && pubstr[1] == 'x' )
{
decode_hex(pub64,64,pubstr+2);
retval = 0;
}
free(pubstr);
}
return(retval);
}
int32_t LP_etomic_pub2addr(char *coinaddr,uint8_t pub64[64])
{
char pubkeystr[131],*addrstr;
strcpy(pubkeystr,"0x");
init_hexbytes_noT(pubkeystr+2,pub64,64);
if ( (addrstr= pubKey2Addr(pubkeystr)) != 0 )
{
strcpy(coinaddr,addrstr);
free(addrstr);
return(0);
}
return(-1);
}
uint8_t LP_etomic_is_empty_tx_id(char *txId)
{
if (strcmp(txId, EMPTY_ETH_TX_ID) == 0) {
return 1;
}
return 0;
}