This tutorial walks you through using Keycard with Wallet CLI. Keycard is optional hardware that can offer enhance security to a LEZ wallet. A LEZ wallet that utilizes Keycard does not store any secret keys for public accounts (eventually, this will extend to private accounts). Instead, Wallet CLI retrieves the appropriate public keys and signatures from Keycard. ## Keycard Setup ### Required hardware - Keycard (Blank) - a Keycard, directly, from Keycard.tech cannot (currently) be updated to support LEE. - Smartcard reader ### Firmware installation LEE key protocol support (on top of standard Status Keycard commands) is built from source, from [`keycard-tech/status-keycard`](https://github.com/keycard-tech/status-keycard)'s default branch: ```bash git clone --recurse-submodules https://github.com/keycard-tech/status-keycard.git cd status-keycard ``` The build requires **OpenJDK 11 specifically** (newer JDKs aren't compatible with its Gradle/plugin versions): ```bash sudo apt-get install -y openjdk-11-jdk export JAVA_HOME=/usr/lib/jvm/java-11-openjdk-amd64 ``` Gradle's default heap is too small for this build and will OOM during `buildSrc` compilation; bump it once: ```bash echo "org.gradle.jvmargs=-Xmx2g" >> gradle.properties ``` Build and install onto a connected, blank card (disconnect all other card readers first): ```bash ./gradlew install ``` This uses the GlobalPlatform default keys (`404142434445464748494a4b4c4d4e4f`) or the Keycard development-card key (`c212e073ff8b4bbfaff4de8ab655221f`) to load it onto the card. **Warning: `./gradlew install` uninstalls and reinstalls the applet, which erases any existing personalization.** If you run this against a card that's already personalized (identity certificate, PIN, PUK, and any loaded keys), all of that is wiped, regardless of whether the firmware source changed at all — reinstalling the exact same build twice has the same effect. ### Personalizing your card **Personalization is mandatory, not optional — every card requires it before any command will work, immediately after installing the firmware.** A freshly installed (or freshly reinstalled) card has no identity certificate, and refuses every command. **Important:** keycard can only connect with one application at a time; if another tool is using the keycard then Wallet CLI cannot access the same keycard, and vice-versa. ## PIN entry Each Keycard command prompts for a PIN interactively. To avoid re-entering it across multiple commands, export it as an environment variable: ```bash export KEYCARD_PIN=123456 ``` Unset it when done: ```bash unset KEYCARD_PIN ``` ## Default CA public key `keycard-rs` verifies every card's identity certificate against a trusted CA public key before anything else happens — no match, no commands, regardless of whether the firmware or PIN is correct. The baked-in default is: ``` 029ab99ee1e7a71bdf45b3f9c58c99866ff1294d2c1e304e228a86e10c3343501c ``` Cards personalized for development/testing (see "Personalizing the card" above) are signed by a different, throwaway CA instead, so the wallet needs to be told to trust it explicitly: ```bash export KEYCARD_CA_PUBLIC_KEY=025877220aaae6e54a6f974602d5995c0fe24a3ea7ddabd8644bec795b9da00743 # unset KEYCARD_CA_PUBLIC_KEY when done testing against a dev card ``` If the card's certificate doesn't match whichever CA is in effect, every command reports the card as simply "not available." ## Keycard Commands Keycard uses Secure Channel V2 (applet version >= 4.0) — the wallet authenticates the card via its identity certificate and opens a fresh ECDHE-derived channel every session. There's no pairing step and nothing cached between commands; you'll enter your PIN each time you connect. ### Keycard | Command | Description | |----------------------------------|-----------------------------------------------------------------------| | `wallet keycard available` | Checks whether a Keycard reader and card are accessible | | `wallet keycard init` | Initializes a blank Keycard with a PIN and a generated PUK | | `wallet keycard connect` | Opens a secure channel with the Keycard and verifies the PIN | | `wallet keycard load` | Loads a mnemonic phrase onto the Keycard | | `wallet keycard factory-reset` | Wipes PIN/PUK/keys back to uninitialized, for re-`init` — **debug builds only** (see below) | | `wallet keycard get-private-keys`| Prints NSK and VSK for a BIP-32 path — **debug builds only** (see below) | 1. Check keycard availability ```bash wallet keycard available # Output: ✅ Keycard is available. ``` 2. Initialize a blank Keycard ```bash wallet keycard init # Output: Keycard PIN: Keycard PUK: 847302916485 Record this PUK and store it somewhere safe. It cannot be recovered. ✅ Keycard initialized successfully. ``` 3. Connect (open a secure channel and verify the PIN) ```bash wallet keycard connect # Output: Keycard PIN: ✅ Keycard connected and PIN verified. ``` 4. Load a mnemonic phrase ```bash # Supply mnemonic via environment variable to avoid interactive prompt export KEYCARD_MNEMONIC="fashion degree mountain wool question damp current pond grow dolphin chronic then" wallet keycard load unset KEYCARD_MNEMONIC # Output: Keycard PIN: ✅ Keycard is now connected to wallet. ✅ Mnemonic phrase loaded successfully. ``` 5. `factory-reset` and `get-private-keys` (**debug builds only**) Both require building the wallet with the `keycard-debug` feature: ```bash cargo install --path lez/wallet --force --features keycard-debug ``` `factory-reset` wipes the card's PIN, PUK, and loaded keys back to an uninitialized state, so it can be re-`init`ialized — the counterpart to `init`. It does **not** remove the identity certificate, so the card doesn't need re-personalizing afterward. Irreversibly destroys any keys currently on the card, so it requires `--confirm`: ```bash wallet keycard factory-reset --confirm # Output: ✅ Keycard factory-reset. Run `wallet keycard init` to reinitialize it. ``` `get-private-keys` exports the raw NSK and VSK for a derivation path. NSK gates nullifier creation and VSK gates note decryption — either key is sufficient to fully compromise that account's privacy. Requires `--reveal` to confirm intent: ```bash wallet keycard get-private-keys --key-path "m/44'/60'/0'/0/0" --reveal # Output: WARNING: NSK and VSK are being printed to stdout. Any terminal log, scrollback, or screen recording captures these keys. Keycard PIN: NSK: 55e505bf925e536c843a12ebc08c41ca5f4761eeeb7fa33725f0b44e6f1ac2e4 VSK: 30f798893977a7b7263d1f77abf58e11e014428c92030d6a02fe363cceb41ffa ``` To restore the standard build without `keycard-debug` afterwards: ```bash cargo install --path lez/wallet --force ``` ### Pinata (testnet) | Command | Description | |-----------------------|--------------------------------------------------------------------------| | `wallet pinata claim` | Claims a testnet pinata reward to a public or private recipient account | Note: The recipient account must be initialized with `wallet auth-transfer init` before claiming. `--to` accepts any of: - A BIP32 key path — uses Keycard (e.g. `m/44'/60'/0'/0/0`) - An account ID with privacy prefix (e.g. `Public/9bKm...`) - An account label (e.g. `my-account`) 1. Claim to a Keycard public account ```bash wallet pinata claim --to "m/44'/60'/0'/0/0" # Output: Keycard PIN: Computing solution for pinata... Found solution 989106 in 33.739525ms Transaction hash is fd320c01f5469e62d2486afa1d9d5be39afcca0cd01d1575905b7acd95cf6397 ``` 2. Claim to a local wallet account by label ```bash wallet pinata claim --to my-account # Output: Transaction hash is 2c8a4f1e903d5b76e80214c5b82e1d46a105e28930ad71bcce48f2d07b49a16f ``` ### Authenticated-transfer program | Command | Description | |-----------------------------|-------------------------------------------------------------------------------| | `wallet auth-transfer init` | Registers an account with the auth-transfer program | | `wallet auth-transfer send` | Sends native tokens between accounts | `--account-id` (for `init`) and `--from`/`--to` (for `send`) each accept any of: - A BIP32 key path — uses Keycard (e.g. `m/44'/60'/0'/0/0`) - An account ID with privacy prefix (e.g. `Public/9bKm...`) - An account label (e.g. `my-account`) For `send`, foreign recipient accounts (not in the local wallet and not a Keycard path) do not need to sign — pass their account ID directly via `--to`. Shielded sends to foreign private accounts use `--to-npk`/`--to-vpk`. 1. Initialize a Keycard public account ```bash wallet auth-transfer init --account-id "m/44'/60'/0'/0/0" # Output: Keycard PIN: Transaction hash is 49c16940493e1618c393645c1211b5c793d405838221c29ac6562a8a4b11c5a7 ``` 2. Send native tokens between two Keycard accounts ```bash wallet auth-transfer send \ --from "m/44'/60'/0'/0/0" \ --to "m/44'/60'/0'/0/1" \ --amount 40 # Output: Keycard PIN: Transaction hash is 1a9764ab20763dcc1ffb51c6e9badd5a6316a773759032ca48e0eee59caaf488 ``` 3. Send native tokens from a Keycard account to a foreign account ```bash wallet auth-transfer send \ --from "m/44'/60'/0'/0/0" \ --to "Public/9bKmZ4n7PqVRxEtY3dWsQjA2cHrFT5LpDoGXM8wJuNv6" \ --amount 20 # Output: Keycard PIN: Transaction hash is 3e7b2a91cf804d56fe19084b3c8b25d07e8f243829bc50addf6e2c78b4b09d34 ``` 4. Send native tokens from a Keycard account to a local wallet account by label ```bash wallet auth-transfer send \ --from "m/44'/60'/0'/0/0" \ --to my-account \ --amount 20 # Output: Keycard PIN: Transaction hash is 7d4c1b8e2f903a56fd19084b3c8b25d07e8f243829bc50addf6e2c78b4b09e45 ``` ### Token program `--definition`, `--holder`, `--from`, and `--to` each accept any of: - A BIP-32 key path — uses Keycard (e.g. `m/44'/60'/0'/0/0`) - An account ID with privacy prefix (e.g. `Public/9bKm...`) - An account label (e.g. `my-account`) The token program requires both the definition account and the holder/recipient to sign when both are owned. If only one is a Keycard path, only that account signs via the card; the other signs locally or is treated as foreign. **Shielded transfers** (public Keycard sender → private recipient) are supported. The Keycard signs the public sender's authorization; the ZK circuit handles the private recipient side. | Command | Description | |--------------------|-------------------------------------------------------| | `wallet token new` | Creates a new token definition with an initial supply | | `wallet token send`| Transfers tokens between accounts | | `wallet token mint`| Mints tokens to a holder account | | `wallet token burn`| Burns tokens from a holder account | 1. Create a new token — definition and supply both on Keycard ```bash wallet token new \ --definition-account-id "m/44'/60'/0'/0/2" \ --supply-account-id "m/44'/60'/0'/0/3" \ --name LEZ \ --total-supply 100000 # Output: Keycard PIN: Transaction hash is a3f1c8e2049b7d56fe19084b3c8b25d07e8f243829bc50addf6e2c78b4b09d11 Transaction data is ... ``` 2. Transfer tokens between two Keycard accounts (public → public) ```bash wallet token send \ --from "m/44'/60'/0'/0/3" \ --to "m/44'/60'/0'/0/6" \ --amount 20000 # Output: Keycard PIN: Transaction hash is b2e4d9f1038c6e45ad28175c4d9c36e18bf9354930cd61beef59f3e89c5a0e22 Transaction data is ... ``` 3. Transfer tokens from a Keycard account to a private account (shielded) ```bash wallet token send \ --from "m/44'/60'/0'/0/6" \ --to "Private/CJwKfrb3DFMmFvujQSB5ARcRTAa8EdP6eWm2hmSkF7Rb" \ --amount 500 # Output: Keycard PIN: Transaction hash is c5f7e0a2149d8f67be39286d5eaa47f29cg0465041de72cff06a4f9ad6b1f33 ``` 4. Mint tokens — Keycard definition account mints to a Keycard holder ```bash wallet token mint \ --definition "m/44'/60'/0'/0/2" \ --holder "m/44'/60'/0'/0/6" \ --amount 2000 # Output: Keycard PIN: Transaction hash is d6g8f1b3250e9a78cf4a397e6fbb58g3ah1567152ef83dgg17b5g0be7c2g0g44 Transaction data is ... ``` 5. Burn tokens — Keycard holder burns from its own account ```bash wallet token burn \ --definition "Public/9bKmZ4n7PqVRxEtY3dWsQjA2cHrFT5LpDoGXM8wJuNv6" \ --holder "m/44'/60'/0'/0/6" \ --amount 500 # Output: Keycard PIN: Transaction hash is e7h9g2c4361f0b89dg5b408f7gcc69h4bi2678263fg94ehh28c6h1cf8d3h1h55 Transaction data is ... ``` ### AMM program AMM operations are **public only** — all holdings involved must be public accounts. Keycard accounts can be used for any or all of the holding accounts. `--user-holding-a`, `--user-holding-b`, and `--user-holding-lp` each accept any of: - A BIP-32 key path — uses Keycard (e.g. `m/44'/60'/0'/0/0`) - An account ID with privacy prefix (e.g. `Public/9bKm...`) - An account label (e.g. `my-account`) For swaps, only the seller's holding signs — the wallet identifies which holding corresponds to the input token and signs only that account. | Command | Description | |----------------------------|-------------------------------------------------------| | `wallet amm new` | Creates a new AMM liquidity pool | | `wallet amm swap-exact-input` | Swaps specifying exact input amount | | `wallet amm swap-exact-output` | Swaps specifying exact output amount | | `wallet amm add-liquidity` | Adds liquidity to an existing pool | | `wallet amm remove-liquidity` | Removes liquidity from a pool | 1. Create a new AMM pool — all holdings on Keycard ```bash wallet amm new \ --user-holding-a "m/44'/60'/0'/0/6" \ --user-holding-b "m/44'/60'/0'/0/7" \ --user-holding-lp "m/44'/60'/0'/0/8" \ --balance-a 10000 \ --balance-b 10000 # Output: Keycard PIN: Transaction hash is f8i0h3d5472g1c90eh6c519g8hdd70i5cj3789374gh05fii39d7i2dg9e4i2i66 Transaction data is ... ``` 2. Swap exact input — Keycard account sells LEE, receives LEZ ```bash wallet amm swap-exact-input \ --user-holding-a "m/44'/60'/0'/0/6" \ --user-holding-b "m/44'/60'/0'/0/7" \ --amount-in 500 \ --min-amount-out 1 \ --token-definition "9bKmZ4n7PqVRxEtY3dWsQjA2cHrFT5LpDoGXM8wJuNv6" # Output: Keycard PIN: Transaction hash is g9j1i4e6583h2d01fi7d620h9iee81j6dk4890485hi16gjj40e8j3eh0f5j3j77 Transaction data is ... ``` 3. Add liquidity — all three holdings on Keycard ```bash wallet amm add-liquidity \ --user-holding-a "m/44'/60'/0'/0/6" \ --user-holding-b "m/44'/60'/0'/0/7" \ --user-holding-lp "m/44'/60'/0'/0/8" \ --max-amount-a 1000 \ --max-amount-b 1000 \ --min-amount-lp 1 # Output: Keycard PIN: Transaction hash is h0k2j5f7694i3e12gj8e731i0jff92k7el5901596ij27hkk51f9k4fi1g6k4k88 Transaction data is ... ``` 4. Remove liquidity — LP holding on Keycard ```bash wallet amm remove-liquidity \ --user-holding-a "m/44'/60'/0'/0/6" \ --user-holding-b "m/44'/60'/0'/0/7" \ --user-holding-lp "m/44'/60'/0'/0/8" \ --balance-lp 500 \ --min-amount-a 1 \ --min-amount-b 1 # Output: Keycard PIN: Transaction hash is i1l3k6g8705j4f23hk9f842j1kgg03l8fm6012607jk38ill62g0l5gj2h7l5l99 Transaction data is ... ``` ### ATA program The Associated Token Account program derives a deterministic token holding address from an owner account and a token definition. Keycard accounts can be used as the owner. `--owner` and `--from`/`--holder` accept any of: - A BIP-32 key path — uses Keycard (e.g. `m/44'/60'/0'/0/0`) - An account ID with privacy prefix (e.g. `Public/9bKm...`) - An account label (e.g. `my-account`) | Command | Description | |--------------------|------------------------------------------------------------------| | `wallet ata address` | Derives and prints the ATA address (local only, no network) | | `wallet ata create` | Creates the ATA on-chain | | `wallet ata send` | Sends tokens from the owner's ATA to a recipient | | `wallet ata burn` | Burns tokens from the owner's ATA | | `wallet ata list` | Lists ATAs for a given owner across token definitions | 1. Derive an ATA address for a Keycard account ```bash # First resolve the Keycard account ID OWNER_ID=$(wallet account id --account-id "m/44'/60'/0'/0/9") wallet ata address \ --owner "$OWNER_ID" \ --token-definition "9bKmZ4n7PqVRxEtY3dWsQjA2cHrFT5LpDoGXM8wJuNv6" # Output: DFMmFvujQSB5ARcRTAa8EdP6eWm2hmSkF7RbCJwKfrb3 ``` 2. Create an ATA — Keycard account as owner ```bash wallet ata create \ --owner "m/44'/60'/0'/0/9" \ --token-definition "9bKmZ4n7PqVRxEtY3dWsQjA2cHrFT5LpDoGXM8wJuNv6" # Output: Keycard PIN: Transaction hash is j2m4l7h9816k5g34il0g953k2lhh14m9gn7123718kl49jmm73h1m6hk3i8m6m00 Transaction data is ... ``` 3. Send tokens from a Keycard ATA to another account ```bash wallet ata send \ --from "m/44'/60'/0'/0/9" \ --token-definition "9bKmZ4n7PqVRxEtY3dWsQjA2cHrFT5LpDoGXM8wJuNv6" \ --to "DFMmFvujQSB5ARcRTAa8EdP6eWm2hmSkF7RbCJwKfrb3" \ --amount 500 # Output: Keycard PIN: Transaction hash is k3n5m8i0927l6h45jm1h064l3mii25n0ho8234829lm50knn84i2n7il4j9n7n11 Transaction data is ... ``` 4. Burn tokens from a Keycard ATA ```bash wallet ata burn \ --holder "m/44'/60'/0'/0/9" \ --token-definition "9bKmZ4n7PqVRxEtY3dWsQjA2cHrFT5LpDoGXM8wJuNv6" \ --amount 200 # Output: Keycard PIN: Transaction hash is l4o6n9j1038m7i56kn2i175m4njj36o1ip9345930mn61loo95j3o8jm5k0o8o22 Transaction data is ... ``` ## Testing Tests for Keycard commands are in `lez/keycard_wallet/tests/`. | Test file | Description | |---|---| | `keycard_tests.sh` | Core Keycard wallet commands and `auth-transfer` commands | | `keycard_tests_2.sh` | Tests Keycard wallet commands for `amma`, `token` and `ata` programs | | `keycard_test_3.sh` | Demonstrates retrieving private account keys from keycard | | `keycard_power_recovery_tests.sh` | Modified test file of `keycard_tests.sh` to test power recovery paths | Run from the repo root with a Keycard connected: ```bash bash lez/keycard_wallet/tests/keycard_tests.sh bash lez/keycard_wallet/tests/keycard_tests_2.sh bash lez/keycard_wallet/tests/keycard_test_3.sh bash lez/keycard_wallet/tests/keycard_power_recovery_tests.sh ```