ICP ledger local setup
Overview
The Internet Computer Protocol (ICP) implements management of its utility token (ticker "ICP") using a specialized canister, called the ICP ledger canister. It is a single ledger canister that runs alongside other canisters on a special subnet of the Internet Computer - the NNS subnet. The ICP ledger canister is a smart contract that holds blocks, each containing a single transaction.
These transactions either:
Mint ICP tokens for accounts.
Transfer ICP tokens from one account to another.
Burn ICP tokens eliminating them from existence.
Approve ICP tokens to be spent by some other
AccountIdentifier
.Transfer ICP from a previously approved
AccountIdentifier
.
All operations are recorded as transactions in the ledger canister.
The ICP ledger canister maintains a traceable history of all transactions, starting from its genesis state (initial state).
Each new transaction is placed into a block, and each block is associated with a monotonically increasing unique index. The entire chain is regularly signed by the network. The signature used to authenticate the chain can be verified by any third party who has access to the root public key of the Internet Computer. Specific transactions can be retrieved by querying the ICP ledger for blocks.
If you are working in a local development environment, i.e., with a local replica instead of the public Internet Computer, you can't access the ICP ledger running on the mainnet. In order to test your application that integrates with the ICP ledger locally, you need to deploy a local ledger canister or install the NNS locally through dfx. However, this local ledger canister won't have the history and balances of the live ICP ledger.
Architecture
Accounts
An ICP ledger account (see ICRC-1 standard) belongs to and is controlled by the account owner, who must have a valid principal ID. No account can be owned by two or more principals (no "joint accounts"). However, since a principal can refer to an external user as well as to a canister, joint accounts can be implemented as canisters.
An account on the ledger is represented and stored as an AccountIdentifier
, which is derived from the principal ID and subaccount identifier by computing a hash of the two. The subaccount is an optional bitstring that helps distinguish between the different sub-accounts of the same owner.
In this context, you can think of principal identifiers as a rough equivalent to the hash of a user’s public key for Bitcoin or Ethereum. You use the corresponding secret key to sign messages and therefore authenticate to the ledger canister and operate on the principal’s account. Canisters can also have accounts in the ledger canister, in which case the address is derived from the canister’s principal.
AccountIdentifier
s and not just principal IDs?The main reason for introducing accounts was to allow a principal to control multiple accounts. While this could be abstracted away for a user by the wallet software, this is not possible for canisters.
Deploying the ledger locally
There are two ways of deploying an ICP ledger locally.
- Use dfx-nns to deploy the entire NNS locally. Since the ICP ledger is part of the NNS, this command will also install an ICP ledger with canister ID
ryjl3-tyaaa-aaaaa-aaaba-cai
. This solution is fast and straightforward, but also more heavyweight. - Deploy the ICP ledger
wasm
locally. This method is discussed and demonstrated in this guide, as it gives you more control over the deployment and is lightweight.
Deploying an ICP ledger locally gives you certain advantages over the default ledger from dfx
that is installed with dfx nns install
. For instance, you can define the minting account
, you have control over the initialization arguments and you have control over which wasm
version of the ICP ledger you want to interact with.
The ICP ledger only exists on the mainnet and the wasm
that is running on the mainnet is not meant to be used for other token deployments. It needs to be backward compatible and thus contains a lot of legacy code that should not be used when deploying a new ledger.
If you want to deploy your own token or build an ICRC-1 ledger, have a look at the guide on setting up an ICRC-1 ledger.
Follow the steps below to deploy your copy of the ledger canister to a local replica.
Step 1: Make sure you use a recent version of the IC SDK.
If you don’t have the IC SDK installed, follow the instructions on the installing the IC SDK section to install it.
Step 2: Create a new dfx project with the command:
dfx new icp_ledger_canister
cd icp_ledger_canister
If using dfx
version 0.17.1 or newer, choose 'Motoko' for the backend language, and 'No frontend canister' for the frontend language.
Step 3: Determine the ledger file locations.
Go to the releases overview and copy the latest replica binary revision. At the time of writing, this is aba60ffbc46acfc8990bf4d5685c1360bd7026b9
.
The URL for the ledger Wasm module is https://download.dfinity.systems/ic/<REVISION>/canisters/ledger-canister.wasm.gz
, so with the above revision it would be https://download.dfinity.systems/ic/aba60ffbc46acfc8990bf4d5685c1360bd7026b9/canisters/ledger-canister.wasm.gz
.
The URL for the ledger.did file is https://raw.githubusercontent.com/dfinity/ic/<REVISION>/rs/ledger_suite/icp/ledger.did
, so with the above revision it would be https://raw.githubusercontent.com/dfinity/ic/aba60ffbc46acfc8990bf4d5685c1360bd7026b9/rs/ledger_suite/icp/ledger.did
.
Optional
If you want to make sure you have the latest ICP ledger files, you can run the following script. Please ensure that you have jq
installed as the script relies on it.
curl -o download_latest_icp_ledger.sh "https://raw.githubusercontent.com/dfinity/ic/aba60ffbc46acfc8990bf4d5685c1360bd7026b9/rs/rosetta-api/scripts/download_latest_icp_ledger.sh"
chmod +x download_latest_icp_ledger.sh
./download_latest_icp_ledger.sh
Step 4: Create a new identity that will work as a minting account:
dfx identity new minter
dfx identity use minter
echo $(dfx ledger account-id)
Record the output of these commands as your minting account ID.
Transfers from the minting account will create Mint
transactions. Transfers to the minting account will create Burn
transactions.
Step 5: Switch back to your default identity and record its ledger account identifier.
dfx identity use default
echo $(dfx ledger account-id)
Record the output of these commands as your default account ID.
Step 6: Configure the dfx.json
file.
Open the dfx.json
file in your project's directory. Replace the existing content with the following, updating the values of MINTER_ACCOUNT_ID
and DEFAULT_ACCOUNT_ID
with the values obtained in the previous steps:
dfx.json
does not support referring to values through environment variables. Values must be hardcoded in plain text.
{
"canisters": {
"icp_ledger_canister": {
"type": "custom",
"candid": "https://raw.githubusercontent.com/dfinity/ic/aba60ffbc46acfc8990bf4d5685c1360bd7026b9/rs/ledger_suite/icp/ledger.did",
"wasm": "https://download.dfinity.systems/ic/aba60ffbc46acfc8990bf4d5685c1360bd7026b9/canisters/ledger-canister.wasm.gz",
"remote": {
"id": {
"ic": "ryjl3-tyaaa-aaaaa-aaaba-cai"
}
},
"init_arg" : "(variant { Init = record { minting_account = "MINTER_ACCOUNT_ID"; initial_values = vec { record { "DEFAULT_ACCOUNT_ID"; record { e8s = 10_000_000_000 : nat64; }; }; }; send_whitelist = vec {}; transfer_fee = opt record { e8s = 10_000 : nat64; }; token_symbol = opt \"LICP\"; token_name = opt \"Local ICP\"; } })"
}
},
"defaults": {
"build": {
"args": "",
"packtool": ""
}
},
"output_env_file": ".env",
"version": 1
}
If you chose to download the ICP ledger files with the script you need to replace the Candid and Wasm file entries:
...
"candid": icp_ledger.did,
"wasm" : icp_ledger.wasm.gz,
...
This dfx.json
file also defines the init arguments for the ledger canister:
- Sets the minting account to the account identifier you saved in a previous step (
MINTER_ACCOUNT_ID
). - Mints 100 ICP tokens to the
DEFAULT_ACCOUNT_ID
(1 ICP is equal to 10^8 e8s). - Sets the transfer fee to 0.0001 ICP.
- Names the token
Local ICP / LICP
.
You can also pass these init args to the canister using the command line. Learn more about init args.
Step 7: Start a local replica.
dfx start --clean --background
Step 8: Deploy the ledger canister locally:
In this workflow, you cannot deploy this canister to the playground (using flag dfx deploy --playground
) because it does not accept gzipped Wasm files.
dfx deploy --specified-id ryjl3-tyaaa-aaaaa-aaaba-cai icp_ledger_canister
Take a moment to read the details of the call made above. Not only are you deploying the ICP ledger canister, you are also deploying the canister to the same canister ID as the mainnet ledger canister. This is to make it easier to switch between local and mainnet deployments.
Step 9: Interact with the canister.
You can interact with the canister by running CLI commands, such as:
dfx canister call icp_ledger_canister name
This command will return the token's name, such as:
("Local ICP")
Or, you can interact with it using the Candid UI by navigating to the URL provided when the canister was deployed, such as:
http://127.0.0.1:4943/?canisterId=bnz7o-iuaaa-aaaaa-qaaaa-cai&id=ryjl3-tyaaa-aaaaa-aaaba-cai
After navigating to this URL in a web browser, the Candid UI will resemble the following:
Your local ICP ledger canister is up and running. You can now deploy other canisters that need to communicate with the ledger canister.