SINGLE.md

Single Execution

• Environment Setup
• Approving the transaction
  • 1. Update repo and move to the appropriate folder for this rehearsal task
  • 2. Setup Ledger
  • 3. Simulate and validate the transaction
  • 3.1. Validate integrity of the simulation.
  • 3.2. Validate correctness of the state diff.
  • 3.3. Extract the domain hash and the message hash to approve.
  • 4. Approve the signature on your ledger
  • 5. Send the output to Facilitator(s)
• [For Facilitator ONLY] How to execute
  • Execute the output

Environment Setup

Make sure you've followed the setup instructions in the main README.

Then, if this task contains a .env file, open it. The ETH_RPC_URL value may be empty and contain instructions for populating it, typically with an L1 RPC URL that has archive data. Fill this out with an appropriate value.

Approving the transaction

1. Update repo and move to the appropriate folder for this rehearsal task

cd superchain-ops
git pull
just install
cd tasks/<NETWORK_DIR>/<RUNBOOK_DIR>

2. Setup Ledger

Your Ledger needs to be connected and unlocked. The Ethereum application needs to be opened on Ledger with the message "Application is ready".

3. Simulate and validate the transaction

Make sure your ledger is still unlocked and run the following command.

Note: Remember that by default the script will assume the derivation path of your address is m/44'/60'/0'/0/0. If you wish to use a different account, append an X to the command to set the derivation path of the address that you want to use. For example by adding a 1 to the end, it will derive the address using m/44'/60'/1'/0/0 instead.

just \
   --dotenv-path $(pwd)/.env \
   --justfile ../../../single.just \
   simulate \
   0 # or 1 or ...

You will see a "Simulation link" from the output.

Paste this URL in your browser. A prompt may ask you to choose a project, any project will do. You can create one if necessary.

Click "Simulate Transaction".

We will be performing 3 validations and extract the domain hash and message hash to approve on your Ledger:

1. Validate integrity of the simulation.
2. Validate correctness of the state diff.
3. Validate and extract domain hash and message hash to approve.

3.1. Validate integrity of the simulation.

Make sure you are on the "Overview" tab of the tenderly simulation, to validate integrity of the simulation, we need to check the following:

1. "Network": Check the network is Ethereum mainnet or Sepolia. This must match the <NETWORK_DIR> from above.
2. "Timestamp": Check the simulation is performed on a block with a recent timestamp (i.e. close to when you run the script).
3. "Sender": Check the address shown is your signer account. If not see the derivation path Note above.

3.2. Validate correctness of the state diff.

Now click on the "State" tab, and refer to the "State Validations" instructions for the transaction you are signing. Once complete return to this document to complete the signing.

3.3. Extract the domain hash and the message hash to approve.

Now that we have verified the transaction performs the right operation, we need to extract the domain hash and the message hash to approve.

Go back to the "Overview" tab, and find the GnosisSafe.checkSignatures call. This call's data parameter contains both the domain hash and the message hash that will show up in your Ledger.

Here is an example screenshot. Note that the hash value may be different:

It will be a concatenation of 0x1901, the domain hash, and the message hash: 0x1901[domain hash][message hash].

Note down this value. You will need to compare it with the ones displayed on the Ledger screen at signing.

4. Approve the signature on your ledger

Once the validations are done, it's time to actually sign the transaction. Make sure your ledger is still unlocked and run the following:

just \
   --dotenv-path $(pwd)/.env \
   --justfile ../../../single.just \
   sign \
   0 # or 1 or ...

Warning

This is the most security critical part of the playbook: make sure the domain hash and message hash in the following two places match:

1. On your Ledger screen.
2. In the Tenderly simulation. You should use the same Tenderly simulation as the one you used to verify the state diffs, instead of opening the new one printed in the console.

There is no need to verify anything printed in the console. There is no need to open the new Tenderly simulation link either.

After verification, sign the transaction. You will see the Data, Signer and Signature printed in the console. Format should be something like this:

Data:  <DATA>
Signer: <ADDRESS>
Signature: <SIGNATURE>

Double check the signer address is the right one.

5. Send the output to Facilitator(s)

Nothing has occurred onchain - these are offchain signatures which will be collected by Facilitators for execution. Execution can occur by anyone once a threshold of signatures are collected, so a Facilitator will do the final execution for convenience.

Share the Data, Signer and Signature with the Facilitator, and congrats, you are done!

[For Facilitator ONLY] How to execute

Execute the output

1. Collect outputs from all participating signers.
2. Concatenate all signatures and export it as the SIGNATURES environment variable, i.e. export SIGNATURES="0x[SIGNATURE1][SIGNATURE2]...".
3. Run just execute 0 # or 1 or ... to execute the transaction onchain.

For example, if the quorum is 2 and you get the following outputs:

Data:  0xDEADBEEF
Signer: 0xC0FFEE01
Signature: AAAA

Data:  0xDEADBEEF
Signer: 0xC0FFEE02
Signature: BBBB

Then you should run:

export SIGNATURES="0xAAAABBBB"
just \
   --dotenv-path $(pwd)/.env \
   --justfile ../../../single.just \
    execute \
    0 # or 1 or ...