Rename getNewSecretKey

basicswap/interface/base.py

@@ -188,7 +188,7 @@ class Secp256k1Interface(CoinInterface, AdaptorSigInterface):
     def curve_type():
         return Curves.secp256k1
 
-    def getNewSecretKey(self) -> bytes:
+    def getNewRandomKey(self) -> bytes:
         return i2b(getSecretInt())
 
     def getPubkey(self, privkey: bytes) -> bytes:

basicswap/interface/part.py

@@ -240,7 +240,7 @@ class PARTInterfaceBlind(PARTInterface):
     def createSCLockTx(self, value: int, script: bytearray, vkbv: bytes) -> bytes:
 
         # Nonce is derived from vkbv, ephemeral_key isn't used
-        ephemeral_key = self.getNewSecretKey()
+        ephemeral_key = self.getNewRandomKey()
         ephemeral_pubkey = self.getPubkey(ephemeral_key)
         assert len(ephemeral_pubkey) == 33
         nonce = self.getScriptLockTxNonce(vkbv)
@@ -307,7 +307,7 @@ class PARTInterfaceBlind(PARTInterface):
         lock_tx_obj = self.rpc("decoderawtransaction", [tx_lock_bytes.hex()])
         assert self.getTxid(tx_lock_bytes).hex() == lock_tx_obj["txid"]
         # Nonce is derived from vkbv, ephemeral_key isn't used
-        ephemeral_key = self.getNewSecretKey()
+        ephemeral_key = self.getNewRandomKey()
         ephemeral_pubkey = self.getPubkey(ephemeral_key)
         assert len(ephemeral_pubkey) == 33
         nonce = self.getScriptLockTxNonce(vkbv)
@@ -348,7 +348,7 @@ class PARTInterfaceBlind(PARTInterface):
         dummy_witness_stack = [x.hex() for x in dummy_witness_stack]
 
         # Use a junk change pubkey to avoid adding unused keys to the wallet
-        zero_change_key = self.getNewSecretKey()
+        zero_change_key = self.getNewRandomKey()
         zero_change_pubkey = self.getPubkey(zero_change_key)
         inputs_info = {
             "0": {
@@ -428,7 +428,7 @@ class PARTInterfaceBlind(PARTInterface):
         dummy_witness_stack = [x.hex() for x in dummy_witness_stack]
 
         # Use a junk change pubkey to avoid adding unused keys to the wallet
-        zero_change_key = self.getNewSecretKey()
+        zero_change_key = self.getNewRandomKey()
         zero_change_pubkey = self.getPubkey(zero_change_key)
         inputs_info = {
             "0": {
@@ -745,7 +745,7 @@ class PARTInterfaceBlind(PARTInterface):
         dummy_witness_stack = self.getScriptLockTxDummyWitness(script_lock)
 
         # Use a junk change pubkey to avoid adding unused keys to the wallet
-        zero_change_key = self.getNewSecretKey()
+        zero_change_key = self.getNewRandomKey()
         zero_change_pubkey = self.getPubkey(zero_change_key)
         inputs_info = {
             "0": {
@@ -949,7 +949,7 @@ class PARTInterfaceBlind(PARTInterface):
         dummy_witness_stack = [x.hex() for x in dummy_witness_stack]
 
         # Use a junk change pubkey to avoid adding unused keys to the wallet
-        zero_change_key = self.getNewSecretKey()
+        zero_change_key = self.getNewRandomKey()
         zero_change_pubkey = self.getPubkey(zero_change_key)
         inputs_info = {
             "0": {

basicswap/interface/xmr.py

@@ -326,7 +326,7 @@ class XMRInterface(CoinInterface):
 
         return float(self.format_amount(fee_per_k_bytes)), "get_fee_estimate"
 
-    def getNewSecretKey(self) -> bytes:
+    def getNewRandomKey(self) -> bytes:
         # Note: Returned bytes are in big endian order
         return i2b(edu.get_secret())
 

tests/basicswap/extended/test_dcr.py

@@ -879,7 +879,7 @@ class Test(BaseTest):
 
         ci = DCRInterface(coin_settings, "mainnet")
 
-        k = ci.getNewSecretKey()
+        k = ci.getNewRandomKey()
         K = ci.getPubkey(k)
 
         pkh = ci.pkh(K)
@@ -1417,8 +1417,8 @@ class Test(BaseTest):
         # fee_rate is in sats/kvB
         fee_rate: int = 10000
 
-        a = ci.getNewSecretKey()
-        b = ci.getNewSecretKey()
+        a = ci.getNewRandomKey()
+        b = ci.getNewRandomKey()
 
         A = ci.getPubkey(a)
         B = ci.getPubkey(b)
@@ -1477,8 +1477,8 @@ class Test(BaseTest):
         assert expect_size - size_actual < 10
 
         # Test chain b (no-script) lock tx size
-        v = ci.getNewSecretKey()
-        s = ci.getNewSecretKey()
+        v = ci.getNewRandomKey()
+        s = ci.getNewRandomKey()
         S = ci.getPubkey(s)
         lock_tx_b_txid = ci.publishBLockTx(v, S, amount, fee_rate)
         test_delay_event.wait(1)

tests/basicswap/extended/test_doge.py

@@ -410,8 +410,8 @@ class Test(TestFunctions):
         fee_rate: int = 1000000
 
         # Test chain b (no-script) lock tx size
-        v = ci.getNewSecretKey()
-        s = ci.getNewSecretKey()
+        v = ci.getNewRandomKey()
+        s = ci.getNewRandomKey()
         S = ci.getPubkey(s)
         lock_tx_b_txid = ci.publishBLockTx(v, S, amount, fee_rate)
         test_delay_event.wait(1)

tests/basicswap/test_bch_xmr.py

@@ -513,8 +513,8 @@ class TestBCH(BasicSwapTest):
         # fee_rate is in sats/B
         fee_rate: int = 1
 
-        a = ci.getNewSecretKey()
-        b = ci.getNewSecretKey()
+        a = ci.getNewRandomKey()
+        b = ci.getNewRandomKey()
 
         A = ci.getPubkey(a)
         B = ci.getPubkey(b)

tests/basicswap/test_btc_xmr.py

@@ -1147,8 +1147,8 @@ class BasicSwapTest(TestFunctions):
         # fee_rate is in sats/kvB
         fee_rate: int = 1000
 
-        a = ci.getNewSecretKey()
-        b = ci.getNewSecretKey()
+        a = ci.getNewRandomKey()
+        b = ci.getNewRandomKey()
 
         A = ci.getPubkey(a)
         B = ci.getPubkey(b)
@@ -1217,8 +1217,8 @@ class BasicSwapTest(TestFunctions):
         assert expect_vsize - vsize_actual < 10
 
         # Test chain b (no-script) lock tx size
-        v = ci.getNewSecretKey()
-        s = ci.getNewSecretKey()
+        v = ci.getNewRandomKey()
+        s = ci.getNewRandomKey()
         S = ci.getPubkey(s)
         lock_tx_b_txid = ci.publishBLockTx(v, S, amount, fee_rate)
 

tests/basicswap/test_other.py

@@ -185,8 +185,8 @@ class Test(unittest.TestCase):
         coin_settings = {"rpcport": 0, "rpcauth": "none"}
         coin_settings.update(REQUIRED_SETTINGS)
         ci = BTCInterface(coin_settings, "regtest")
-        vk_sign = ci.getNewSecretKey()
-        vk_encrypt = ci.getNewSecretKey()
+        vk_sign = ci.getNewRandomKey()
+        vk_encrypt = ci.getNewRandomKey()
 
         pk_sign = ci.getPubkey(vk_sign)
         pk_encrypt = ci.getPubkey(vk_encrypt)
@@ -209,7 +209,7 @@ class Test(unittest.TestCase):
         coin_settings.update(REQUIRED_SETTINGS)
         ci = BTCInterface(coin_settings, "regtest")
 
-        vk = ci.getNewSecretKey()
+        vk = ci.getNewRandomKey()
         pk = ci.getPubkey(vk)
 
         message = "test signing message"
@@ -224,7 +224,7 @@ class Test(unittest.TestCase):
         coin_settings.update(REQUIRED_SETTINGS)
         ci = BTCInterface(coin_settings, "regtest")
 
-        vk = ci.getNewSecretKey()
+        vk = ci.getNewRandomKey()
         pk = ci.getPubkey(vk)
         sig = ci.signCompact(vk, "test signing message")
         assert len(sig) == 64
@@ -239,7 +239,7 @@ class Test(unittest.TestCase):
         coin_settings.update(REQUIRED_SETTINGS)
         ci = BTCInterface(coin_settings, "regtest")
 
-        vk = ci.getNewSecretKey()
+        vk = ci.getNewRandomKey()
         pk = ci.getPubkey(vk)
         sig = ci.signRecoverable(vk, "test signing message")
         assert len(sig) == 65
@@ -264,7 +264,7 @@ class Test(unittest.TestCase):
 
         ci = XMRInterface(coin_settings, "regtest")
 
-        key = ci.getNewSecretKey()
+        key = ci.getNewRandomKey()
         proof = ci.proveDLEAG(key)
         assert ci.verifyDLEAG(proof)
 

tests/basicswap/test_partblind_xmr.py

@@ -141,9 +141,9 @@ class Test(BaseTest):
         # fee_rate is in sats/kvB
         fee_rate: int = 1000
 
-        vkbv = ci.getNewSecretKey()
-        a = ci.getNewSecretKey()
-        b = ci.getNewSecretKey()
+        vkbv = ci.getNewRandomKey()
+        a = ci.getNewRandomKey()
+        b = ci.getNewRandomKey()
 
         A = ci.getPubkey(a)
         B = ci.getPubkey(b)
@@ -210,8 +210,8 @@ class Test(BaseTest):
         assert ci.rpc("sendrawtransaction", [lock_spend_tx.hex()]) == txid
 
         # Test chain b (no-script) lock tx size
-        v = ci.getNewSecretKey()
-        s = ci.getNewSecretKey()
+        v = ci.getNewRandomKey()
+        s = ci.getNewRandomKey()
         S = ci.getPubkey(s)
         lock_tx_b_txid = ci.publishBLockTx(v, S, amount, fee_rate)
 

tests/basicswap/test_xmr.py

@@ -1077,8 +1077,8 @@ class Test(BaseTest):
         # fee_rate is in sats/kvB
         fee_rate: int = 1000
 
-        a = ci.getNewSecretKey()
-        b = ci.getNewSecretKey()
+        a = ci.getNewRandomKey()
+        b = ci.getNewRandomKey()
 
         A = ci.getPubkey(a)
         B = ci.getPubkey(b)
@@ -1147,8 +1147,8 @@ class Test(BaseTest):
         assert expect_vsize - vsize_actual < 10
 
         # Test chain b (no-script) lock tx size
-        v = ci.getNewSecretKey()
-        s = ci.getNewSecretKey()
+        v = ci.getNewRandomKey()
+        s = ci.getNewRandomKey()
         S = ci.getPubkey(s)
         lock_tx_b_txid = ci.publishBLockTx(v, S, amount, fee_rate)
 
@@ -1176,8 +1176,8 @@ class Test(BaseTest):
         amount: int = ci.make_int(random.uniform(0.1, 2.0), r=1)
         fee_rate: int = 1000  # TODO: How to set feerate for rpc functions?
 
-        v = ci.getNewSecretKey()
-        s = ci.getNewSecretKey()
+        v = ci.getNewRandomKey()
+        s = ci.getNewRandomKey()
         S = ci.getPubkey(s)
         lock_tx_b_txid = ci.publishBLockTx(v, S, amount, fee_rate)
 
@@ -2083,8 +2083,8 @@ class Test(BaseTest):
         ci = swap_clients[1].ci(Coins.PART_ANON)
         amount: int = ci.make_int(random.uniform(0.1, 2.0), r=1)
         fee_rate: int = 1000
-        v = ci.getNewSecretKey()
-        s = ci.getNewSecretKey()
+        v = ci.getNewRandomKey()
+        s = ci.getNewRandomKey()
         S = ci.getPubkey(s)
         lock_tx_b_txid = ci.publishBLockTx(v, S, amount, fee_rate)