From c2d8547e7d4982398fc75ad84d3e41f653e6c1d0 Mon Sep 17 00:00:00 2001 From: Alex Miller Date: Fri, 16 Dec 2022 16:41:10 -0600 Subject: [PATCH] Adds note about where the connection is saved Also adds some emojis because why not --- README.md | 40 ++++++++++++++++++++++++---------------- 1 file changed, 24 insertions(+), 16 deletions(-) diff --git a/README.md b/README.md index 7cb1e0e..c88d6f8 100644 --- a/README.md +++ b/README.md @@ -1,4 +1,4 @@ -# GridPlus CLI +# 🖥 GridPlus CLI > ⚠️ WARNING: This CLI is alpha software and should be used with caution. If you discover any bugs, please report them in this repo. Pull requests are also welcome! @@ -28,7 +28,7 @@ This will generate a set of binaries in `./releases`. Run the one you wish to us Before you can use the CLI, you will need to connect to an online [Lattice](https://gridplus.io/lattice). -### Discovering your Lattice +### 1️⃣ Discovering your Lattice If you don't have a saved connection between your Lattice and this CLI, you will need to answer some prompts in order to connect for the first time: @@ -38,21 +38,29 @@ If you don't have a saved connection between your Lattice and this CLI, you will * **Enter Connection URL:** The routing domain in which to search for your target Lattice. By default, your Lattice is discoverable on the GridPlus routing domain. If you haven't changed that, you should use the default. You can always change your routing domain using [Lattice Connect](https://github.com/GridPlus/lattice-connect-v2). -### Pairing with your Lattice +### 2️⃣ Pairing with your Lattice -If the CLI is able to discover your Lattice and does not find an existing connection, your Lattice will render a screen with a six digit pairing code, which is valid for 60 seconds. You will now be prompted to enter this pairing secret into the CLI. If you enter the correct secret, a pairing record will be created on the Lattice. As long as this record remains on the Lattice (the user can remove it at any time), you will be able to re-establish the same connection without having to re-pair. +> If you have already paired the CLI with your Lattice, this step will get skipped automatically. -### Saving Connection +If the CLI is able to discover your Lattice, but has never established a saved connection with it before, you will need to **pair** the CLI with your Lattice. -At this point, you will be asked if you wish to save this connection for future use. If you do, you won't have to enter any of the discovery info again. If you wish to connect to a different Lattice at some later time, you may also choose to start up the CLI and *not* use the saved login data. Note that only one connection can be saved at a time. +Your Lattice should render a six-digit pairing code, which is valid for 60 seconds. Enter that code into the CLI and a pairing record will be created on your Lattice. As long as that record is not removed from the device, you will not need to re-pair with the same device. -# 🖥️ Commands +### 3️⃣ Saving The Connection + +> **NOTE:** Only one connection can be saved at a time; if you have a saved connection to some Lattice and wish to connect with a *different* Lattice, you can simply choose *not* use the saved connection when starting up the CLI. + +After you connect (and possibly pair) with your target Lattice, you will be asked if you wish to save this connection for future use. If you do, you won't have to enter any of the discovery info again. + +Connection data is saved to a local `.env` file, so be aware that if you delete that file or move your CLI binary to a different directory, you will need to re-connect (but not re-pair). + +# 🕹 Commands > NOTE: This is a subset of Lattice functionality. More commands may be added to the CLI at a later date. Pull requests are also welcome! There are a series of commands you can use to interact with your Lattice. -## Export ETH2 Deposit Data +## ↪️ Export ETH2 Deposit Data If your Lattice is on firmware v0.17.0 or greater, you have access to your BLS keys and signatures. You can use your Lattice to generate data necessary to start one or more validators. For more background information on the data being generated, see [this GridPlus resource](https://gridplus.github.io/gridplus-sdk/tutorials/ethDeposits). @@ -65,7 +73,7 @@ In order to create a new validator, two things must happen: Both pieces of data are generated when you execute the `Export ETH2 Deposit Data` command. We will now walk through the steps of generating deposit data for one or more validators. -### Step 1: Selecting a Withdrawal Key +### 1️⃣ Selecting a Withdrawal Key > NOTE: It is **highly** recommended that you use the ETH1 option, unless you have a good reason to select a BLS withdrawal type. In order to withdraw ether, you need to set your withdrawal credentials to an ETH1 address (BLS addresses cannot currently receive ether on the ETH execution layer). @@ -74,7 +82,7 @@ After you select the `Export ETH2 Deposit Data` option, you will first be asked 1. **ETH1 Address (default)** - if you choose this option, you will be asked for the ETH1 address and it will be the only key capable of withdrawaing funds from your validator(s). Unlike for the default BLS option, the same ETH1 address will be used for *all* validators you generate. 2. **BLS Key** - if you choose this option, a BLS withdrawal public key will be fetched and included in the deposit data for this validator. The withdrawal key is derived relative to the deposit/validator key according to [EIP2334](https://eips.ethereum.org/EIPS/eip-2334). Specifically, for every deposit/validator key at `m/12381/3600/i/0/0`, a withdrawal key will be derived at `m/12381/3600/i/0`. -### Step 2: Set Deposit Amount +### 2️⃣ Set Deposit Amount > **NOTE:** Unless you have a good reason to use a different deposit amount, you should probably stick with the 32 ETH default. @@ -87,13 +95,13 @@ Per the deposit contract, there are a few constraints on the deposit amount: * This seems insane, so we've (somewhat arbitrarily) set the max to 64 ETH in this CLI. I'm not sure why you would ever want to set more than 32 ETH but if you can think of a good reason, feel free to open a pull request! * Deposit must be a multiple of 1 Gwei (i.e. multiple of 0.000000001 ETH) -### Step 3: Setting a Starting Index +### 3️⃣ Setting a Starting Index > NOTE: You should probably start with the default `0` index if you are adding validators from a new wallet. Choosing a starting index lets you resume the process of adding more validators from the same wallet at some later point. After selecting your withdrawal key type, you will be asked for a **starting** validator index. Per [EIP2334](https://eips.ethereum.org/EIPS/eip-2334), the BIP39 path in question is `m/12381/3600/i/0/0` for the validator/depositor key. -### Step 4: Selecting Export Type +### 4️⃣ Selecting Export Type In order to make a deposit and start an ETH validator, you need to make an on-chain transaction on the *execution layer*. You will be calling the `deposit` function on the [deposit contract](https://etherscan.io/address/0x00000000219ab540356cbb839cbe05303d7705fa#code). The Ethereum Foundation built a web tool called the [Ethereum Launchpad](https://launchpad.ethereum.org) to improve the UX around signing deposit transactions. The data format expected by the Launchpad comes from the official [Staking Deposit CLI](https://github.com/ethereum/staking-deposit-cli). This data can also be generated using the Lattice CLI. @@ -102,7 +110,7 @@ You will be presented with two options for data export type: 1. **JSON file for Ethereum Launchpad (default)** - if you choose this option, the CLI will create a `deposit-data-{timestamp}.json` file containing an array of objects mapping to the set of validators you want to create. You can take this `.json` file and drop it directly into the [Launchpad](https://launchpade.ethereum.org). 2. **Raw transaction calldata** - if you choose this option, the CLI will create a `deposit-calldata-{timestamp}.json` file which contains an array of objects, each of which has a pubkey (for reference) and the raw transaction calldata which should be included in a transaction to the deposit contract. This is a more advanced option, so care should be taken if you choose it. For example, your deposit transaction's `msg.value` *must* match the amount specified when creating the data. -### Step 5: Build Deposit Data +### 5️⃣ Build Deposit Data Now that you have declared your options, the CLI will start generating data. For *each* validator index (starting with the first one): @@ -110,14 +118,14 @@ Now that you have declared your options, the CLI will start generating data. For 2. Request a BLS signature from your Lattice to build deposit data. You are signing the root of the [`DepositData`](https://github.com/ethereum/consensus-specs/blob/dev/specs/phase0/beacon-chain.md#depositdata) message object. 3. Ask if you'd like to repeat the process (steps 1 & 2) for the next sequential validator. -### Step 6: Exporting Deposit Data +### 6️⃣ Exporting Deposit Data Once you decline to generate data for the next validator, the process will ask where you want to save the exported files. Once you choose the location, the CLI will output several files into the specified directory: * `{outDir}/deposit-X-{timestamp}.json` (either `-data-` or `-calldata`, depending on selected export type) * For each validator index `i`: `{outDir}/keystore-m_12381_3600_{i}_0_0-{timestamp}.json` -## Get Public Key +## ↪️ Get Public Key If you would like to get a public key for a supported curve (see below table) you can request its hex-string representation using a BIP39 derivation path. As with other methods, the returned pubkey will be derived from the target Lattice's current active wallet. @@ -127,7 +135,7 @@ If you would like to get a public key for a supported curve (see below table) yo | `ed25519` | 32 | N/A | | `bls12_381_g1` | 48 | `{X}` | -## Get Address +## ↪️ Get Address The Lattice is able to export a few types of *formatted* addresses, which depend on the BIP39 derivation path specified (specifically on the first two path indices, `purpose`, and `coin_type`, respectively):