laconicd-deprecated/docs/spec/transactions
Aleksandr Bezobchuk e99e02908f Update tx spec doc
2018-08-24 08:46:58 -07:00
..
README.md Update tx spec doc 2018-08-24 08:46:58 -07:00

Transactions

NOTE: The specification documented below is still highly active in development and subject to change.

Routing

Ethermint needs to parse and handle transactions routed for both the EVM and for the Cosmos hub. We attempt to achieve this by mimicking Geth's Transaction structure to handle Ethereum transactions and utilizing the SDK's auth.StdTx for Cosmos transactions. Both of these structures are registered with an Amino codec, so the TxDecoder that in invoked during the BaseApp#runTx, will be able to decode raw transaction bytes into the appropriate transaction type which will then be passed onto handlers downstream.

Note: Our goal is to utilize Geth as a library, at least as much as possible, so it should be expected that these types and the operations you may perform on them will keep in line with Ethereum (e.g. signature algorithms and gas/fees).

Transactions & Messages

The SDK distinguishes between transactions (sdk.Tx) and messages (sdk.Msg). A sdk.Tx is a list of sdk.Msg wrapped with authentication and fee data. Users can create messages containing arbitrary information by implementing the sdk.Msg interface.

In Ethermint, the Transaction type implements the Cosmos SDK sdk.Tx interface. It addition, it implements the Cosmos SDK sdk.Msg interface for the sole purpose of being to perform basic validation checks in the BaseApp. It, however, has no distinction between transactions and messages.

Signatures

Ethermint supports EIP-155 signatures. A Transaction is expected to have a single signature for Ethereum routed transactions. However, just as in Cosmos, Ethermint will support multiple signers for auth.StdTx Cosmos routed transactions. Signatures over the Transaction type are identical to Ethereum. However, the auth.StdTx contains a canonical signature structure that contains the signature itself and other information such as an account's sequence number. This, in addition to the chainID, helps prevent "replay attacks", where the same message could be executed over and over again.

An auth.StdTx list of signatures must much the unique list of addresses returned by each message's GetSigners call. In addition, the address of first signer of the auth.StdTx is responsible for paying the fees.

Gas & Fees

TODO