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native: add preferable method to TestCryptoLib_KoblitzVerificationScript
It's based on the constant-length network magic, ref. https://github.com/nspcc-dev/neo-go/pull/3425#discussion_r1582068061. Signed-off-by: Anna Shaleva <shaleva.ann@nspcc.ru>
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@ -102,6 +102,14 @@ func TestCryptoLib_KoblitzVerificationScript(t *testing.T) {
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e.CheckGASBalance(t, to, big.NewInt(int64(amount)))
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}
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// The proposed preferable witness verification script
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// (110 bytes, 2154270 GAS including Invocation script execution).
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// The user has to sign the keccak256([4-bytes-network-magic-LE, txHash-bytes-BE]).
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check(t, buildKoblitzVerificationScript, constructMessage)
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// Below presented some variations of verification scripts that were also considered, but
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// they are not as good as the first one.
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// The simplest witness verification script with low length and low execution cost
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// (98 bytes, 2092530 GAS including Invocation script execution).
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// The user has to sign the keccak256([var-bytes-network-magic, txHash-bytes-BE]).
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@ -126,6 +134,66 @@ func TestCryptoLib_KoblitzVerificationScript(t *testing.T) {
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check(t, buildKoblitzVerificationScriptCompat, constructMessageCompat)
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}
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// buildKoblitzVerificationScript builds witness verification script for Koblitz public key.
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// This method checks
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//
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// keccak256([4-bytes-network-magic-LE, txHash-bytes-BE])
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//
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// instead of (comparing with N3)
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//
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// sha256([4-bytes-network-magic-LE, txHash-bytes-BE]).
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func buildKoblitzVerificationScript(t *testing.T, pub *keys.PublicKey) []byte {
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criptoLibH := state.CreateNativeContractHash(nativenames.CryptoLib)
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// vrf is witness verification script corresponding to the pub.
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vrf := io.NewBufBinWriter()
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emit.Int(vrf.BinWriter, int64(native.Secp256k1Keccak256)) // push Koblitz curve identifier.
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emit.Opcodes(vrf.BinWriter, opcode.SWAP) // swap curve identifier with the signature.
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emit.Bytes(vrf.BinWriter, pub.Bytes()) // emit the caller's public key.
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// Construct and push the signed message. The signed message is effectively the network-dependent transaction hash,
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// i.e. msg = [4-network-magic-bytes-LE, tx-hash-BE]
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// Firstly, retrieve network magic (it's uint32 wrapped into BigInteger and represented as Integer stackitem on stack).
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emit.Syscall(vrf.BinWriter, interopnames.SystemRuntimeGetNetwork) // push network magic (Integer stackitem), can have 0-5 bytes length serialized.
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// Convert network magic to 4-bytes-length LE byte array representation.
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emit.Int(vrf.BinWriter, 0x100000000)
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emit.Opcodes(vrf.BinWriter, opcode.ADD, // some new number that is 5 bytes at least when serialized, but first 4 bytes are intact network value (LE).
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opcode.PUSH4, opcode.LEFT) // cut the first 4 bytes out of a number that is at least 5 bytes long, the result is 4-bytes-length LE network representation.
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// Retrieve executing transaction hash.
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emit.Syscall(vrf.BinWriter, interopnames.SystemRuntimeGetScriptContainer) // push the script container (executing transaction, actually).
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emit.Opcodes(vrf.BinWriter, opcode.PUSH0, opcode.PICKITEM) // pick 0-th transaction item (the transaction hash).
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// Concatenate network magic and transaction hash.
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emit.Opcodes(vrf.BinWriter, opcode.CAT) // this instruction will convert network magic to bytes using BigInteger rules of conversion.
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// Continue construction of 'verifyWithECDsa' call.
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emit.Opcodes(vrf.BinWriter, opcode.PUSH4, opcode.PACK) // pack arguments for 'verifyWithECDsa' call.
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emit.AppCallNoArgs(vrf.BinWriter, criptoLibH, "verifyWithECDsa", callflag.All) // emit the call to 'verifyWithECDsa' itself.
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require.NoError(t, vrf.Err)
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return vrf.Bytes()
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// Here's an example of the resulting witness verification script (110 bytes length, always constant length, with constant length of signed data):
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// NEO-GO-VM > loadbase64 ABhQDCECoIi/qx5LS+3n1GJFcoYbQByyDDsU6QaHvYhiJypOYWZBxfug4AMAAAAAAQAAAJ4UjUEtUQgwEM6LFMAfDA92ZXJpZnlXaXRoRUNEc2EMFBv1dasRiWiEE2EKNaEohs3gtmxyQWJ9W1I=
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// READY: loaded 110 instructions
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// NEO-GO-VM 0 > ops
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// INDEX OPCODE PARAMETER
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// 0 PUSHINT8 24 (18) <<
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// 2 SWAP
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// 3 PUSHDATA1 02a088bfab1e4b4bede7d4624572861b401cb20c3b14e90687bd8862272a4e6166
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// 38 SYSCALL System.Runtime.GetNetwork (c5fba0e0)
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// 43 PUSHINT64 4294967296 (0000000001000000)
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// 52 ADD
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// 53 PUSH4
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// 54 LEFT
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// 55 SYSCALL System.Runtime.GetScriptContainer (2d510830)
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// 60 PUSH0
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// 61 PICKITEM
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// 62 CAT
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// 63 PUSH4
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// 64 PACK
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// 65 PUSH15
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// 66 PUSHDATA1 766572696679576974684543447361 ("verifyWithECDsa")
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// 83 PUSHDATA1 1bf575ab1189688413610a35a12886cde0b66c72 ("NNToUmdQBe5n8o53BTzjTFAnSEcpouyy3B", "0x726cb6e0cd8628a1350a611384688911ab75f51b")
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// 105 SYSCALL System.Contract.Call (627d5b52)
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}
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// buildKoblitzVerificationScriptSimpleSingleHash builds witness verification script for Koblitz public key.
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// This method differs from buildKoblitzVerificationScriptCompat in that it checks
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//
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@ -462,6 +530,14 @@ func buildKoblitzInvocationScript(t *testing.T, signature []byte) []byte {
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// 0 PUSHDATA1 4c18a53f31d4a2ce5cda54d0d451b775ccc650278dde4da678bc10a99a427fc158754d8ac05846c5c87864aaaf9a6313c2512e3734a25d2535dabdc8c1f2c4cf <<
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}
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// constructMessage constructs message for signing that consists of the
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// unhashed constant 4-bytes length LE magic and transaction hash bytes:
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//
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// [4-bytes-network-magic-LE, txHash-bytes-BE]
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func constructMessage(t *testing.T, magic uint32, tx hash.Hashable) []byte {
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return hash.GetSignedData(magic, tx)
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}
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// constructMessageNoHash constructs message for signing that consists of the
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// unhashed magic and transaction hash bytes:
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//
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