Rosetta
Rosetta is an open standard introduced by Coinbase to simplify the integration of blockchain-based tokens in exchanges, block explorers, and wallets. This documentation might help if you want to deploy a token on the IC that aims to be tradable on CeFi exchanges or if you are working on a block explorer or wallet.
Set up a Rosetta node
You can set up a Rosetta API-compliant node to interact with the Internet Computer and exchange Internet Computer Protocol (ICP) tokens. To keep the instructions simple, we use a Docker image to create the integration with the Rosetta API. You can also build and run the binary using the source code. If you don’t already have Docker on your computer, download and install the latest version.
To set up a Rosetta node (which connects to a testnet):
Install Docker and start the Docker daemon.
The Docker daemon (
dockerd
) should automatically start when you reboot your computer. If you start the Docker daemon manually, the instructions vary depending on the local operating system.Pull the latest
dfinity/rosetta-api
image from the Docker Hub by running the following command:docker pull dfinity/rosetta-api
Start the integration software by running the following command:
docker run \
--interactive \
--tty \
--publish 8080:8080 \
--rm \
dfinity/rosetta-apiThis command starts the software on the local host and displays output similar to the following:
Listening on 0.0.0.0:8080
Starting Rosetta API serverBy default, the software connects to a testnet. It does not connect to the ledger canister running on the Internet Computer blockchain mainnet.
If you have been assigned a test network and corresponding ledger canister identifier, you can run the command against that network by specifying an additional
canister
argument. For example, the following command illustrates connecting to the ledger canister on a test network by setting thecanister
argument to2xh5f-viaaa-aaaab-aae3q-cai
.docker run \
--interactive \
--tty \
--publish 8080:8080 \
--rm \
dfinity/rosetta-api \
--canister 2xh5f-viaaa-aaaab-aae3q-cainoteThe first time you run the command, it might take some time for the node to catch up to the current link of the chain. When the node is caught up, you should see output similar to the following:
You are all caught up to block height 109
After completing this step, the node continues to run as a passive node that does not participate in block making.
Open a new terminal window or tab and run the
ps
command to verify the status of the service.If you need to stop the service, press Ctrl-C. You might want to do this to change the canister identifier you are using, for example.
To test the integration after setting up the node, you will need to write a program to simulate a principal submitting a transaction or looking up an account balance.
Run the Rosetta node in production
When you are finished testing, you should run the Docker image in production mode without the --interactive
, --tty
, and --rm
command-line options.
These command-line options are used to attach an interactive terminal session and remove the container, and are primarily intended for testing purposes.
To run the software in a production environment, you can start the Docker image using the --detach
option to run the container in the background and, optionally, specify the --volume
command for storing blocks.
To connect the Rosetta node instance to the mainnet, add flags: --mainnet
and --not-whitelisted
.
For more information about Docker command-line options, see the Docker reference documentation.
Requirements and limitations
The integration software provided in the Docker image has one requirement that is not part of the standard Rosetta API specification.
For transactions involving ICP tokens, the unsigned transaction must be created less than 24 hours before the network receives the signed transaction. The reason is that each transaction's 'created_at' field refers to an existing transaction (essentially last_index available locally at the time of transaction creation). Any submitted transaction that refers back to a too old transaction is rejected to maintain operational efficiency.
Other than this requirement, the Rosetta API integration software fully complies with all standard Rosetta endpoints and passes all of the rosetta-cli
tests.
The software can accept any valid Rosetta request.
However, the integration software only prompts for transactions to be signed using Ed25519, rather than [all the signature schemes listed here, and only replies with a small subset of the potential responses that the specification supports.
For example, the software doesn’t implement any of the UTXO features of Rosetta, so you won’t see any UTXO messages in any of the software responses.
Frequently asked questions
The following questions come from the most commonly reported questions and blockers from the developer community regarding Rosetta integration with the Internet Computer.
The Rosetta node
How do I run an instance of the Rosetta node?
An easy way to accomplish this is to use the dfinity/rosetta-api
Docker image.
Once the node initializes and syncs all blocks, you can perform queries and submit transactions by invoking the Rosetta API on the node.
The node listens on the 8080
port.
How do I connect the Rosetta node to the mainnet?
Use flags --mainnet
and --not-whitelisted
How do I connect the Rosetta node to the mainnet?
Use flags --mainnet
and --not-whitelisted
How do I know if the node has caught up with the test net?
Search the Starting Rosetta API server
startup log. There will be a log entry that says You are all caught up to block XX
.
This message confirms that you are caught up with all blocks.
How to persist synced blocks data?
Mount the /data
directory as a volume.
docker volume create rosetta
docker run \
--volume rosetta:/data \
--interactive \
--tty \
--publish 8080:8080 \
--rm \
dfinity/rosetta-api
Is the Rosetta node versioned?
Yes, we regularly publish new versions on DockerHub.
We recommend using a specific version in production settings, e.g., dfinity/rosetta-api:v1.7.0
You can query the version of a running rosetta node using the /network/options
endpoint.
$ curl -s -q -H 'Content-Type: application/json' -d '{"network_identifier": {"blockchain": "Internet Computer", "network": "00000000000000020101"}}' -X POST http://localhost:8080/network/options | jq '.version.node_version'
"1.7.0"
ICP-specific Rosetta API details
How are accounts generated and verified?
- Generate an ED25519 keypair.
- The secret key is used for signing transactions.
- The public key is used for generating a self-authenticating Principal ID. For more information, see Section Principals in the Interface Specification.
- The Principal ID is hashed to generate the account address.
How to use the public key to generate its account address?
- Call the
/construction/derive
endpoint with the hex-encoded 32-byte public key. - Call the
pub_key_to_address
function in the JavaScript SDK.
How to verify the checksum of an account address?
- After hex decoding, the first 4 bytes is the big-endian CRC32 checksum of the rest of the address.
- Call
address_from_hex
in the JavaScript SDK. It returns and error if checksum doesn’t match. - Here is a Java implementation of address validation logic.
What are signature_type
and curve_type
for ED25519?
signature_type
is"ed25519"
curve_type
is"edwards25519"
What kinds of transactions can appear in a block, and what do they mean?
Each block as queried from the
/block
endpoint contains precisely one transaction. Note that some operations, such asburn
, are not supported in Rosetta API calls.Transfer
- Operation 0: type
"TRANSACTION"
, subtracts the transfer amount from the source account. - Operation 1: type
"TRANSACTION"
, adds the same transfer amount to the destination account. - Operation 2: type
"FEE"
, subtracts the fee from the source account.
noteDon’t rely on the order of operations presented in the previous point; the system can rearrange the operations passed the
/construction/payloads
call. You should check for transaction type and amount sign instead.- Operation 0: type
Mint
- Operation 0: type
"MINT"
, adds the minted amount to the destination account.
- Operation 0: type
Burn
- Operation 0: type
"BURN"
, subtract the burned amount from the source account.
- Operation 0: type
"status"
is always"COMPLETED"
. Failed transactions do not appear on the ledger.
What fee is needed? Can I customize the fee?
- By calling
/construction/metadata
, you can getsuggested_fee
. - At the moment,
suggested_fee
is a constant, and the fee specified in a transfer must be equal to it. - Fees do not apply to Mint or Burn operations.
How do I know if the submitted transaction hit the chain?
The Rosetta server will wait for a short period of time after a
/construction/submit
call; if the transaction hits the chain, the server will return the block hash.In case of an error from the ledger, the error information will be available in the
/construction/submit
result.It’s still possible that a
/construction/submit
call has returned successfully, but there’s still some time before it hits the chain. You can poll the latest blocks and search for the transaction hash. The Rosetta node also supports a subset of the/search/transactions
interface that allows searching for a transaction given its hash.Five minutes is a worst-case timeout.
Don’t use
mempool
APIs; our implementation is an empty stub.
What kinds of errors might I get from Rosetta API calls?
- Successful calls always have
200
response status code. - Failed calls always have
500
response status code, with a JSON payload containing more information. You can find all possible Rosetta error codes and their text descriptions in the/network/options
call result.
How do I send Mint or Burn transactions?
- Mint is a privileged operation; we don’t support Burn through Rosetta API calls at the moment.
What happens if the same signed transaction is submitted multiple times?
The ledger rejects duplicate transactions.
Only the first transaction will make it to the chain; the /construction/submit
call will fail for the duplicates.
How to sign a transaction without calling Rosetta API?
The JavaScript SDK contains an implementation of the offline signing logic.
This functionality is unstable because it is coupled with internal implementation details, so we strongly advise you to call /construction/combine
to sign transactions if possible.
How to configure the ingress time period?
In the /construction/payloads
call, you can add one or all of the ingress_start
/ ingress_end
fields to specify the ingress time period.
These are nanoseconds since the Unix epoch and must be within the next 24 hours.
Adding ingress_start
/ingress_end
fields enables generating & signing of a transaction but delays the submission to a later time.
How to deserialize a signed transaction?
Use the /construction/parse
endpoint of a Rosetta Node.
This functionality is also available in offline mode.