package ante import ( "fmt" "github.com/cosmos/cosmos-sdk/codec" codectypes "github.com/cosmos/cosmos-sdk/codec/types" cryptotypes "github.com/cosmos/cosmos-sdk/crypto/types" sdk "github.com/cosmos/cosmos-sdk/types" sdkerrors "github.com/cosmos/cosmos-sdk/types/errors" "github.com/cosmos/cosmos-sdk/types/tx/signing" authante "github.com/cosmos/cosmos-sdk/x/auth/ante" "github.com/cosmos/cosmos-sdk/x/auth/migrations/legacytx" authsigning "github.com/cosmos/cosmos-sdk/x/auth/signing" ethcrypto "github.com/ethereum/go-ethereum/crypto" "github.com/ethereum/go-ethereum/crypto/secp256k1" "github.com/evmos/ethermint/crypto/ethsecp256k1" "github.com/evmos/ethermint/ethereum/eip712" ethermint "github.com/evmos/ethermint/types" evmtypes "github.com/evmos/ethermint/x/evm/types" ) var ethermintCodec codec.ProtoCodecMarshaler func init() { registry := codectypes.NewInterfaceRegistry() ethermint.RegisterInterfaces(registry) ethermintCodec = codec.NewProtoCodec(registry) } // Eip712SigVerificationDecorator Verify all signatures for a tx and return an error if any are invalid. Note, // the Eip712SigVerificationDecorator decorator will not get executed on ReCheck. // // CONTRACT: Pubkeys are set in context for all signers before this decorator runs // CONTRACT: Tx must implement SigVerifiableTx interface type Eip712SigVerificationDecorator struct { ak evmtypes.AccountKeeper signModeHandler authsigning.SignModeHandler } // NewEip712SigVerificationDecorator creates a new Eip712SigVerificationDecorator func NewEip712SigVerificationDecorator(ak evmtypes.AccountKeeper, signModeHandler authsigning.SignModeHandler) Eip712SigVerificationDecorator { return Eip712SigVerificationDecorator{ ak: ak, signModeHandler: signModeHandler, } } // AnteHandle handles validation of EIP712 signed cosmos txs. // it is not run on RecheckTx func (svd Eip712SigVerificationDecorator) AnteHandle(ctx sdk.Context, tx sdk.Tx, simulate bool, next sdk.AnteHandler, ) (newCtx sdk.Context, err error) { // no need to verify signatures on recheck tx if ctx.IsReCheckTx() { return next(ctx, tx, simulate) } sigTx, ok := tx.(authsigning.SigVerifiableTx) if !ok { return ctx, sdkerrors.Wrapf(sdkerrors.ErrInvalidType, "tx %T doesn't implement authsigning.SigVerifiableTx", tx) } authSignTx, ok := tx.(authsigning.Tx) if !ok { return ctx, sdkerrors.Wrapf(sdkerrors.ErrInvalidType, "tx %T doesn't implement the authsigning.Tx interface", tx) } // stdSigs contains the sequence number, account number, and signatures. // When simulating, this would just be a 0-length slice. sigs, err := sigTx.GetSignaturesV2() if err != nil { return ctx, err } signerAddrs := sigTx.GetSigners() // EIP712 allows just one signature if len(sigs) != 1 { return ctx, sdkerrors.Wrapf(sdkerrors.ErrUnauthorized, "invalid number of signers (%d); EIP712 signatures allows just one signature", len(sigs)) } // check that signer length and signature length are the same if len(sigs) != len(signerAddrs) { return ctx, sdkerrors.Wrapf(sdkerrors.ErrUnauthorized, "invalid number of signer; expected: %d, got %d", len(signerAddrs), len(sigs)) } // EIP712 has just one signature, avoid looping here and only read index 0 i := 0 sig := sigs[i] acc, err := authante.GetSignerAcc(ctx, svd.ak, signerAddrs[i]) if err != nil { return ctx, err } // retrieve pubkey pubKey := acc.GetPubKey() if !simulate && pubKey == nil { return ctx, sdkerrors.Wrap(sdkerrors.ErrInvalidPubKey, "pubkey on account is not set") } // Check account sequence number. if sig.Sequence != acc.GetSequence() { return ctx, sdkerrors.Wrapf( sdkerrors.ErrWrongSequence, "account sequence mismatch, expected %d, got %d", acc.GetSequence(), sig.Sequence, ) } // retrieve signer data genesis := ctx.BlockHeight() == 0 chainID := ctx.ChainID() var accNum uint64 if !genesis { accNum = acc.GetAccountNumber() } signerData := authsigning.SignerData{ ChainID: chainID, AccountNumber: accNum, Sequence: acc.GetSequence(), } if simulate { return next(ctx, tx, simulate) } if err := VerifySignature(pubKey, signerData, sig.Data, svd.signModeHandler, authSignTx); err != nil { errMsg := fmt.Errorf("signature verification failed; please verify account number (%d) and chain-id (%s): %w", accNum, chainID, err) return ctx, sdkerrors.Wrap(sdkerrors.ErrUnauthorized, errMsg.Error()) } return next(ctx, tx, simulate) } // VerifySignature verifies a transaction signature contained in SignatureData abstracting over different signing modes // and single vs multi-signatures. func VerifySignature( pubKey cryptotypes.PubKey, signerData authsigning.SignerData, sigData signing.SignatureData, _ authsigning.SignModeHandler, tx authsigning.Tx, ) error { switch data := sigData.(type) { case *signing.SingleSignatureData: if data.SignMode != signing.SignMode_SIGN_MODE_LEGACY_AMINO_JSON { return sdkerrors.Wrapf(sdkerrors.ErrNotSupported, "unexpected SignatureData %T: wrong SignMode", sigData) } // Note: this prevents the user from sending thrash data in the signature field if len(data.Signature) != 0 { return sdkerrors.Wrap(sdkerrors.ErrTooManySignatures, "invalid signature value; EIP712 must have the cosmos transaction signature empty") } // @contract: this code is reached only when Msg has Web3Tx extension (so this custom Ante handler flow), // and the signature is SIGN_MODE_LEGACY_AMINO_JSON which is supported for EIP712 for now msgs := tx.GetMsgs() if len(msgs) == 0 { return sdkerrors.Wrap(sdkerrors.ErrNoSignatures, "tx doesn't contain any msgs to verify signature") } txBytes := legacytx.StdSignBytes( signerData.ChainID, signerData.AccountNumber, signerData.Sequence, tx.GetTimeoutHeight(), legacytx.StdFee{ Amount: tx.GetFee(), Gas: tx.GetGas(), }, msgs, tx.GetMemo(), tx.GetTip(), ) signerChainID, err := ethermint.ParseChainID(signerData.ChainID) if err != nil { return sdkerrors.Wrapf(err, "failed to parse chainID: %s", signerData.ChainID) } txWithExtensions, ok := tx.(authante.HasExtensionOptionsTx) if !ok { return sdkerrors.Wrap(sdkerrors.ErrUnknownExtensionOptions, "tx doesnt contain any extensions") } opts := txWithExtensions.GetExtensionOptions() if len(opts) != 1 { return sdkerrors.Wrap(sdkerrors.ErrUnknownExtensionOptions, "tx doesnt contain expected amount of extension options") } extOpt, ok := opts[0].GetCachedValue().(*ethermint.ExtensionOptionsWeb3Tx) if !ok { return sdkerrors.Wrap(sdkerrors.ErrInvalidChainID, "unknown extension option") } if extOpt.TypedDataChainID != signerChainID.Uint64() { return sdkerrors.Wrap(sdkerrors.ErrInvalidChainID, "invalid chainID") } if len(extOpt.FeePayer) == 0 { return sdkerrors.Wrap(sdkerrors.ErrUnknownExtensionOptions, "no feePayer on ExtensionOptionsWeb3Tx") } feePayer, err := sdk.AccAddressFromBech32(extOpt.FeePayer) if err != nil { return sdkerrors.Wrap(err, "failed to parse feePayer from ExtensionOptionsWeb3Tx") } feeDelegation := &eip712.FeeDelegationOptions{ FeePayer: feePayer, } typedData, err := eip712.WrapTxToTypedData(ethermintCodec, extOpt.TypedDataChainID, msgs[0], txBytes, feeDelegation) if err != nil { return sdkerrors.Wrap(err, "failed to pack tx data in EIP712 object") } sigHash, err := eip712.ComputeTypedDataHash(typedData) if err != nil { return err } feePayerSig := extOpt.FeePayerSig if len(feePayerSig) != ethcrypto.SignatureLength { return sdkerrors.Wrap(sdkerrors.ErrorInvalidSigner, "signature length doesn't match typical [R||S||V] signature 65 bytes") } // Remove the recovery offset if needed (ie. Metamask eip712 signature) if feePayerSig[ethcrypto.RecoveryIDOffset] == 27 || feePayerSig[ethcrypto.RecoveryIDOffset] == 28 { feePayerSig[ethcrypto.RecoveryIDOffset] -= 27 } feePayerPubkey, err := secp256k1.RecoverPubkey(sigHash, feePayerSig) if err != nil { return sdkerrors.Wrap(err, "failed to recover delegated fee payer from sig") } ecPubKey, err := ethcrypto.UnmarshalPubkey(feePayerPubkey) if err != nil { return sdkerrors.Wrap(err, "failed to unmarshal recovered fee payer pubkey") } pk := ðsecp256k1.PubKey{ Key: ethcrypto.CompressPubkey(ecPubKey), } if !pubKey.Equals(pk) { return sdkerrors.Wrapf(sdkerrors.ErrInvalidPubKey, "feePayer pubkey %s is different from transaction pubkey %s", pubKey, pk) } recoveredFeePayerAcc := sdk.AccAddress(pk.Address().Bytes()) if !recoveredFeePayerAcc.Equals(feePayer) { return sdkerrors.Wrapf(sdkerrors.ErrorInvalidSigner, "failed to verify delegated fee payer %s signature", recoveredFeePayerAcc) } // VerifySignature of ethsecp256k1 accepts 64 byte signature [R||S] // WARNING! Under NO CIRCUMSTANCES try to use pubKey.VerifySignature there if !secp256k1.VerifySignature(pubKey.Bytes(), sigHash, feePayerSig[:len(feePayerSig)-1]) { return sdkerrors.Wrap(sdkerrors.ErrorInvalidSigner, "unable to verify signer signature of EIP712 typed data") } return nil default: return sdkerrors.Wrapf(sdkerrors.ErrTooManySignatures, "unexpected SignatureData %T", sigData) } }