Learn about the different ways to pay for fees, how the fees are paid out and what happens when not enough escrowed fees are available for payout {synopsis}
The fee middleware module exposes two different ways to pay fees for relaying IBC packets:
MsgPayPacketFee
enables the escrowing of fees for a packet at the next sequence send and should be combined into one MultiMsgTx
with the message that will be paid for. Note that the Relayers
field has been set up to allow for an optional whitelist of relayers permitted to receive this fee, however, this feature has not yet been enabled at this time.
type MsgPayPacketFee struct{
// fee encapsulates the recv, ack and timeout fees associated with an IBC packet
Fee Fee
// the source port unique identifier
SourcePortId string
// the source channel unique identifer
SourceChannelId string
// account address to refund fee if necessary
Signer string
// optional list of relayers permitted to the receive packet fee
Relayers []string
}
The Fee
message contained in this synchronous fee payment method configures different fees which will be paid out for MsgRecvPacket
, MsgAcknowledgement
, and MsgTimeout
/MsgTimeoutOnClose
.
type Fee struct {
RecvFee types.Coins
AckFee types.Coins
TimeoutFee types.Coins
}
The diagram below shows the MultiMsgTx
with the MsgTransfer
coming from a token transfer message, along with MsgPayPacketFee
.
MsgPayPacketFeeAsync
enables the asynchronous escrowing of fees for a specified packet. Note that a packet can be 'topped up' multiple times with additional fees of any coin denomination by broadcasting multiple MsgPayPacketFeeAsync
messages.
type MsgPayPacketFeeAsync struct {
// unique packet identifier comprised of the channel ID, port ID and sequence
PacketId channeltypes.PacketId
// the packet fee associated with a particular IBC packet
PacketFee PacketFee
}
where the PacketFee
also specifies the Fee
to be paid as well as the refund address for fees which are not paid out
type PacketFee struct {
Fee Fee
RefundAddress string
Relayers []string
}
The diagram below shows how multiple MsgPayPacketFeeAsync
can be broadcasted asynchronously. Escrowing of the fee associated with a packet can be carried out by any party because ICS-29 does not dictate a particular fee payer. In fact, chains can choose to simply not expose this fee payment to end users at all and rely on a different module account or even the community pool as the source of relayer incentives.
Please see our wiki for example flows on how to use these messages to incentivise a token transfer channel using a CLI.
Following diagram takes a look at the packet flow for an incentivized token transfer and investigates the several scenario's for paying out the escrowed fees. We assume that the relayers have registered their counterparty address, detailed in the Fee distribution section.
- In the case of a successful transaction,
RecvFee
will be paid out to the designated counterparty payee address which has been registered on the receiver chain and sent back with theMsgAcknowledgement
,AckFee
will be paid out to the relayer address which has submitted theMsgAcknowledgement
on the sending chain (or the registered payee in case one has been registered for the relayer address), andTimeoutFee
will be reimbursed to the account which escrowed the fee. - In case of a timeout transaction,
RecvFee
andAckFee
will be reimbursed. TheTimeoutFee
will be paid to theTimeout Relayer
(who submits the timeout message to the source chain).
Please note that fee payments are built on the assumption that sender chains are the source of incentives — the chain that sends the packets is the same chain where fee payments will occur -- please see the Fee distribution section to understand the flow for registering payee and counterparty payee (fee receiving) addresses.
The fee middleware module can become locked if the situation arises that the escrow account for the fees does not have sufficient funds to pay out the fees which have been escrowed for each packet. This situation indicates a severe bug. In this case, the fee module will be locked until manual intervention fixes the issue.
A locked fee module will simply skip fee logic and continue on to the underlying packet flow. A channel with a locked fee module will temporarily function as a fee disabled channel, and the locking of a fee module will not affect the continued flow of packets over the channel.