Peggo is a Go implementation of the Gravity Bridge Orchestrator originally implemented by Injective Labs. Peggo itself is a fork of the original Gravity Bridge Orchestrator implemented by Althea.
To install the peggo
binary:
$ make install
First we must register the validator's Ethereum key. This key will be used to sign claims going from Ethereum to Umee and to sign any transactions sent to Ethereum (batches or validator set updates).
$ umeed tx gravity set-orchestrator-address \
{validatorAddress} \
{orchestrator-address} \
{ethAddress} \
--eth-priv-key="..." \
--chain-id="..." \
--fees="..." \
--keyring-backend=... \
--keyring-dir=... \
--from=...
export PEGGO_ETH_PK={ethereum private key}
$ peggo orchestrator {gravityAddress} \
--eth-rpc=$ETH_RPC \
--relay-batches=true \
--valset-relay-mode=minimum \
--cosmos-chain-id=... \
--cosmos-grpc="tcp://..." \
--tendermint-rpc="http://..." \
--cosmos-keyring=... \
--cosmos-keyring-dir=... \
--cosmos-from=...
- You need to set the auth client on gcp
ex.:
- Downlaod your service account on GCP and set this env variable
GOOGLE_APPLICATION_CREDENTIALS
- Downlaod your service account on GCP and set this env variable
$~ export GOOGLE_APPLICATION_CREDENTIALS=/path/to/your/service_account.json
- also remember to add the proper variables
export PEGGO_ETH_PK={ethereum private key}
$ peggo orchestrator {gravityAddress} \
--eth-rpc=$ETH_RPC \
--relay-batches=true \
--valset-relay-mode=minimum \
--cosmos-chain-id=... \
--cosmos-grpc="tcp://..." \
--tendermint-rpc="http://..." \
--cosmos-keyring=... \
--cosmos-keyring-dir=... \
--cosmos-from=... \
--gcp-log-level="error" \
--gcp-log-moniker="YOUR-MONIKER-NAME" \
--gcp-log-project-name="gcp-project-name"
Notes:
moniker
is a your name which will appear in log as a log source
This is done using the command umeed tx gravity send-to-eth
, use the --help
flag for more information.
If the coin doesn't have a corresponding ERC20 equivalent on the Ethereum
network, the transaction will fail. This is only required for Cosmos originated
coins and anyone can call the deployERC20
function on the Gravity Bridge
contract to fix this (Peggo has a helper command for this, see
peggo bridge deploy-erc20 --help
for more details).
This process takes longer than transfers the other way around because they get relayed in batches rather than individually. It primarily depends on the amount of transfers of the same token and the fees the senders are paying.
Important notice: if an "unlisted" (with no monetary value) ERC20 token gets sent into Umee it won't be possible to transfer it back to Ethereum, unless a validator is configured to batch and relay transactions of this token.
Any ERC20 token can be sent to Umee and it's done using the command
peggo bridge send-to-cosmos
, use the --help
flag for more information. It
can also be done by calling the sendToCosmos
method on the Gravity Bridge contract.
The ERC20 tokens will be locked in the Gravity Bridge contract and new coins will
be minted on Umee with the denomination gravity{token_address}
. This process takes
around 3 minutes or 12 Ethereum blocks.
Peggo allows transfers of assets back and forth between Ethereum and Umee. It supports both assets originating on Umee and assets originating on Ethereum (any ERC20 token).
It works by scanning the events of the contract deployed on Ethereum (Gravity) and relaying them as messages to the Umee chain; and relaying transaction batches and validator sets from Umee to Ethereum.
Deposits (SendToCosmosEvent
): emitted when sending tokens from Ethereum to
Umee using the sendToCosmos
function on Gravity.
Withdraw (TransactionBatchExecutedEvent
): emitted when a batch of
transactions is sent from Umee to Ethereum using the submitBatch
function on
the Gravity Bridge contract by a validator. This serves as a confirmation to Umee
that the batch was sent successfully.
Valset update (ValsetUpdatedEvent
): emitted on init of the Gravity Bridge contract
and on every execution of the updateValset
function.
Deployed ERC 20 (ERC20DeployedEvent
): emitted when executing the function
deployERC20
. This event signals Umee that there's a new ERC20 deployed from
Gravity, so Umee can map the token contract address to the corresponding native
coin. This enables transfers from Umee to Ethereum.
Validator sets: Umee informs the Gravity Bridge contract who are the current
validators and their power. This results in an execution of the updateValset
function.
Request batch: Peggo will check for new transactions in the Outgoing TX Pool and if the transactions' fees are greater than the set minimum batch fee, it will send a message to Umee requesting a new batch.
Batches: Peggo queries Umee for any batches ready to be relayed and relays
them over to Ethereum using the submitBatch
function on the Gravity Bridge contract.