/app-plugin-kiln-v2

Ethereum Ledger App for Kiln

Primary LanguageCApache License 2.0Apache-2.0

Badges

Code style check Compilation & tests

app-plugin-kiln

Kiln Logo

This plug-in is compatible with Nano S / X devices, it enables to interact in a secure way with the Kiln On-Chain v1, v2 and EigenLayer Liquid Restaking contracts.

Prerequisite

Clone the plugin to a new folder.

git clone https://github.com/LedgerHQ/app-plugin-kiln.git

Then in the same folder clone two more repositories, which is the plugin-tools and app-ethereum.

git clone https://github.com/LedgerHQ/plugin-tools.git                          #plugin-tools
git clone --recurse-submodules https://github.com/LedgerHQ/app-ethereum.git     #app-ethereum

Documentation

Plugin codebase

This plugin follows the structure of a Ledger Ethereum app plugin described here.

It receives data from the Ethereum app, processes it and displays (ie "clearsign") on the device screen.

All the plugin code is in the src folder.

The plugin codebase follows the 6 steps of the plugin flow:

  1. initialize (in src/handle_init_contract.c): plugin receives the selector to manage, and init the correct parser initial state for the function (context->next_param).
  2. provide parameter (in src/provide_parameter/handle_provide_parameter.c): selected parser receives parameters 32 bytes by 32 bytes, and parse them to the correct state. See files like src/provide_parameter/eigenlayer.c for the different parsers.
  3. finalize (in src/handle_finalize.c): plugin returns the number of screens to display
  4. provide_token not used here
  5. query_contract_id (in src/handle_query_contract_id.c): plugin returns the contract name as the first displayed screen on the device
  6. query_contract_ui (in src/query_contract_ui/handle_query_contract_ui.c): plugin returns the screens to display on the device, each product has its own file like src/query_contract_ui/eigenlayer.c.

Other important files:

  • src/contracts.c holds all the constant representing contract functions, parameters or known contracts mappings.
  • src/kiln_plugin.h is where we define all the parser states and the plugin context structure.

Plugin context

The plugin context is defined in src/kiln_plugin.h and holds the state of the plugin. It is passed to all the plugin functions.

It is defined using a union of all the possible parser parameters of the plugin, and a next_param field to know which parser state to use next.

The plugin context is memset to 0 everytime init_contract is called (beginning of a clearsigning flow), so we make sure that the plugin context union is in a clean state before using it in the parsers.

Provide parameter parsers

The provide parameter parsers are defined in src/provide_parameter/ and are called by the handle_provide_parameter function.

Each parser is a state machine that receives 32 bytes of data at a time (abi format), and updates the plugin context state accordingly.

Build

Go to the plugin-tools folder and run the "./start" script.

cd plugin-tools  # go to plugin folder
./start.sh       # run the script start.sh

The script will build a docker image and attach a console. When the docker image is running go to the "app-plugin-kiln" folder and build the ".elf" files.

cd app-plugin-kiln/tests        # go to the tests folder in app-plugin-kiln
./build_local_test_elfs.sh      # run the script build_local_test_elfs.sh

Tests

The tests are in the tests/src folder. They are written in javascript and use the @ledgerhq/hw-app-eth library to simulate the device.

The tests are run using the yarn test command.

The output of the tests is a series of screenshots stored in the tests/snapshots-tmp folder that are compared to the expected screenshots in the tests/snapshots folder. The latter are stored in the git repository to make sure we expect the correct outputs.

To test the plugin go to the tests folder from the "app-plugin-kiln/tests" and run the script "test"

cd app-plugin-kiln/tests        # go to the tests folder in app-plugin-kiln
yarn                            # install dependencies
yarn test                       # run the script test

Continuous Integration

The flow processed in GitHub Actions is the following:

Supported Smart Contracts

Smart contracts covered by this plugin are:

Network Name Address
Mainnet Kiln On-Chain v1 0x1e68238ce926dec62b3fbc99ab06eb1d85ce0270
Mainnet Kiln On-Chain v2 Native20 0x5db5235b5c7e247488784986e58019fffd98fda4
Mainnet Kiln On-Chain v2 ExitQueue 0x8d6fd650500f82c7d978a440348e5a9b886943bf
Mainnet EigenLayer Strategy Manager 0x858646372cc42e1a627fce94aa7a7033e7cf075a
Mainnet EigenLayer Delegation Manager 0x39053d51b77dc0d36036fc1fcc8cb819df8ef37a

Clearsigning

KILN ON-CHAIN v1 - Deposit

Function: deposit() Clearsigned:

  • tx.value

KILN ON-CHAIN v1 - Withdraw

Function withdraw(bytes validatorPubkey) Clearsigned:

  • none as BLS key is not digest to display on device and only owner of the validator can withdraw on its behalf so no attack vector possible.

KILN ON-CHAIN v1 - Withdraw EL

Function withdrawEL(bytes validatorPubkey) Clearsigned:

  • none as BLS key is not digest to display on device and only owner of the validator can withdraw on its behalf so no attack vector possible.

KILN ON-CHAIN v1 - Withdraw CL

Function withdrawCL(bytes validatorPubkey) Clearsigned:

  • none as BLS key is not digest to display on device and only owner of the validator can withdraw on its behalf so no attack vector possible.

KILN ON-CHAIN v1 - Batch Withdraw

Function batchWithdraw(bytes validatorPubkeys)

  • none as validatorPubkeys can represent many BLS keys that we can't store on the device. Also only owner of the validator can withdraw on its behalf so no attack vector possible.

KILN ON-CHAIN v1 - Batch Withdraw EL

Function batchWithdrawEL(bytes validatorPubkeys) Clearsigned:

  • none as validatorPubkeys can represent many BLS keys that we can't store on the device. Also only owner of the validator can withdraw on its behalf so no attack vector possible.

KILN ON-CHAIN v1 - Batch WithdrawCL

Function batchWithdrawCL(bytes validatorPubkeys) Clearsigned:

  • none as validatorPubkeys can represent many BLS keys that we can't store on the device. Also only owner of the validator can withdraw on its behalf so no attack vector possible.

KILN ON-CHAIN v1 - Request Exits

Function requestValidatorsExit(bytes validatorPubkeys) Clearsigned:

  • none as validatorPubkeys can represent many BLS keys that we can't store on the device. Also only owner of the validator can request exit on its behalf so no attack vector possible.

KILN ON-CHAIN v2 - Stake

Function: stake() Clearsigned:

  • tx.value

KILN ON-CHAIN v2 - RequestExit

Function: requestExit(uint256 shares) Clearsigned:

  • none as shares is not 1:1 with ETH value, it would confuse users

KILN ON-CHAIN v2 - MultiClaim

Function: multiClaim(address[] exitQueues, uint256[][] ticketIds, uint32[][] casksIds) Clearsigned:

  • none

KILN ON-CHAIN v2 - Claim

Function: claim(uint256[] ticketIds, uint32[] caskIds, uint16 maxClaimDepth) Clearsigned:

  • none

EigenLayer Strategy Manager - LR Deposit Into Strategy

Function: depositIntoStrategy(address strategy, address erc20, uint256 amount) Clearsigned:

  • strategy: using mapping in contracts.c, it is either recognized or displayed as "UNKOWN"
  • erc20: using mapping in contracts.c, it is either recognized or displayed as "UNKOWN"
  • amount

EigenLayer Delegation Manager - Delegate To

Function:

struct SignatureWithExpiry {
    bytes signature;
    uint256 expiry;
}

function delegateTo(
    address operator,
    SignatureWithExpiry memory approverSignatureAndExpiry,
    bytes32 approverSalt
)

Clearsigned:

  • operator: using mapping in contracts.c, it is either recognized or displayed as address

Shares are confusing for users and would be hard to store properly on the device for display.

EigenLayer Delegation Manager - Undelegate

Function: undelegate(address staker) Clearsigned:

  • none as there is a staker == msg.sender requirement in the contract

EigenLayer Strategy Manager - Queue Withdrawals

Function:

struct QueuedWithdrawalParams {
    address[] strategies;
    uint256[] shares;
    address withdrawer;
}

function queueWithdrawals(
    QueuedWithdrawalParams[] queuedWithdrawalParams
)

Clearsigned:

  • strategies: using mapping in contracts.c, they are either recognized or displayed as "UNKOWN"
  • withdrawer

Shares are confusing for users and would be hard to store properly on the device for display.

EigenLayer Strategy Manager - LR Complete Queued Withdrawals

Function:

struct Withdrawal {
    address staker;
    address delegatedTo;
    address withdrawer;
    uint256 nonce;
    uint32 startBlock;
    address[] strategies;
    uint256[] shares;
}

function completeQueuedWithdrawals(
    Withdrawal[] withdrawals,
    address[][] tokens,
    uint256[] middlewareTimesIndexes,
    bool[] receiveAsTokens
)

Clearsigned:

  • strategies: using mapping in contracts.c, they are either recognized or displayed as "UNKOWN"
  • if each withdrawal corresponding receiveAsTokens is true, then the corresponding token is displayed as "Withdraw" else as "Redelegation

Shares are confusing for users and would be hard to store properly on the device for display.