Open Message Passing Channels
Demonstrates how to use horizontal relay-routed message passing(HRMP) for communication between parachains.
Last updated
Demonstrates how to use horizontal relay-routed message passing(HRMP) for communication between parachains.
Last updated
In the InfraBlockchain ecosystem, chains can communicate with each other by passing messages over secure channels. There are four main communication channels:
Upward message passing (UMP) to enable a parachain to pass messages up to its relay chain.
Downward message passing (DMP) to enable the relay chain to pass messages down to a parachain.
Cross-consensus message passing (XCMP) to enable parachains to send messages to each other.
Horizontal relay-routed message passing (HRMP) is an interim version of cross-consensus message passing (XCMP).
This interim solution —also sometimes referred to as XCMP-Lite— provides the same functionality as XCMP but stores all of the messages passed between chains in the relay chain storage.
Although HRMP is intended to be phased out when XCMP is fully implemented, this tutorial uses HRMP to illustrate how you can open message passing channels to enable parachains to communicate with each other.
It is important to note that HRMP channels are unidirectional. If you want parachain 1000 to communicate with parachain 1001, you must first make a request to open an HRMP channel from parachain 1000 to parachain 1001. Parachain 1001 must then accept the request before parachain 1000 can pass messages to it. Because the channel is unidirectional, however, parachain 1000 can't receive messages from parachain 1001 over the channel.
For parachain 1000 to receive messages from parachain 1001, you must open another channel from parachain 1001 to parachain 1000. After parachain 1000 confirms that it will accept messages from parachain 1001, the chains can exchange messages at the next session change.
In this tutorial, you'll open HRMP channels that enable a parachain with the unique identifier 1000 and a parachain with the unique identifier 1001 to exchange messages. Before you begin, verify the following:
You have set up a using Zombienet or a local relay chain using the rococo-local chain specification.
You have set up two local or virtual parachains for testing purposes.
For the purposes of this tutorial, parachain A has the unique identifier 1000 and parachain B has the unique identifier 1001.
You have the Sudo pallet available for both local parachains to use. For this tutorial in a test environment, you can add the Sudo pallet to each collator node.
Before the parachain can exchange messages with another parachain, it must have an account on the relay chain that has assets available to pay for XCM instructions to be executed.
To add sovereign account addresses to the relay chain:
Parachain A (1000) address: 5Ec4AhPZk8STuex8Wsi9TwDtJQxKqzPJRCH7348Xtcs9vZLJ
Parachain B (1001) address: 5Ec4AhPZwkVeRmswLWBsf7rxQ3cjzMKRWuVvffJ6Uuu89s1P
Note that if the parachain identifier registered for a parachain changes, the sovereign account and address will also change. You should also note that the account address used for a parachain on the relay chain is different from the address used for the parachain on another parachain.
Click Accounts and select Address Book.
Click Add contact.
Add the address and a name for parachain A (1000), then click Save.
Click Accounts and transfer some assets from Alice to the parachain A (1000) account.
Repeat step 3 through step 6 for parachain B (1001).
To set up communication between the parachains, you must first send a request to open a message passing channel. The request must take the form of an encoded call with parameters that specify the parachain to receive the request, the message capacity for the channel, and maximum message size. You'll need to include the encoded version of this information in the message you create to make the request, but you can generate the encoded call without submitting the transaction to prepare the request.
To prepare the encoded call to open a channel:
Check the channel configuration limits for the relay chain, if needed.
To check the configuration settings for the current relay chain:
Click Developer and select Chain State.
Select configuration, then select activeConfig() and click +.
Check the parameter values for hrmpChannelMaxCapacity and hrmlChannelMaxMessageSize.
For example:
Click Developer and select Extrinsics.
Select hrmp, then select hrmpInitOpenChannel(recipient, proposedMaxCapacity, proposedMaxMessageSize) to initialize the request to open a new channel.
For the transaction parameters, specify the following to prepare the call data:
recipient: Type the identifier for the parachain you want to open the channel with (1001).
proposedMaxCapacity: Type the maximum number of messages that can be in the channel at once (8).
proposedMaxMessageSize: Specify the maximum size of the messages (1048576).
Note that the values you set for proposedMaxCapacity and proposedMaxMessageSize shouldn't exceeded the values defined for the hrmpChannelMaxCapacity and hrmpChannelMaxMessageSize parameters for the relay chain.
Copy the encoded call data.
You'll need this information to construct the XCM Transact instruction. The following is an example of the encoded call data in Rococo: 0x3c00e90300000800000000001000
Now that you have the encoded call, you can configure the request to open a channel from parachain A to parachain B through the relay chain.
Click Developer and select Extrinsics.
Select sudo, then select sudo(call) to use the Sudo pallet to execute privileged transactions.
Select ibs, then select send(dest, message) to notify the relay chain that you want to open a channel with parachain B (1001).
Specify the destination parameters to indicate the relative location for the message to be delivered.
Specify the XCM version, then click Add item to construct the message to be executed.
At a minimum, you need to add the following set of instructions for this message:
WithdrawAsset: move the specified on-chain assets into the virtual holding register.
BuyExecution: pay for the execution of the current message using the assets that were deposited in the virtual holding register using the WithdrawAsset instruction.
Transact: specify the encoded call that you prepared on the relay chain.
In most cases, you also want to include the following instructions:
RefundSurplus: to move any overestimate of fees previously paid using the BuyExecution instruction into a second virtual register called the refunded weight register.
DepositAsset: subtract assets from the refunded weight register and deposit on-chain equivalent assets under the ownership of the beneficiary.
Note that each instruction requires you to specify additional information to enable the message recipient to execute the intended XCM instructions. Be sure that you construct the information for each instruction from the point of view of the receiving system.
Let's take a closer look at the instructions.
To move assets into the virtual holding register:
Select WithdrawAsset as the first instruction for this message.
Click Add item to identify the on-chain assets to withdraw.
Select Concrete to use the location of the asset to identify the asset to be withdrawn.
Set parents: 0 and interior: Here to withdraw assets from the sovereign account on the relay chain.
Select Fungible to identify the asset as a fungible asset.
Specify the total fungible assets to withdraw.
To pay for execution from assets deposited in the holding register:
Click Add item to select BuyExecution as the second instruction for this message.
Select Concrete to use the location of the asset to identify the asset to be used to pay for executing XCM instructions.
Set parents: 0 and interior: Here to indicate that you're using the local chain's native asset for execution payment.
Select Fungible to identify the asset as a fungible asset.
Specify the total fungible assets to use.
Select Unlimited to skip setting a weight limit for this instruction.
To execute the encoded call that you prepared on the relay chain:
Select Native as the message origin for executing the instruction.
Set requireWeightAtMost to specify the maximum amount of weight to use in dispatching the XCM call.
If the XCM dispatch requires more weight than specified, the transaction fails. If the XCM dispatch requires less weight than specified, the difference can be added to the surplus weight register.
Specify the encoded call data for transaction you want to be executed by the Transact instruction.
For example, paste the encoded call for initiating an open channel request.
To move any overestimate of fees:
Click the top Add item to select RefundSurplus as the four instruction for this message.
Click the top Add item to select DepositAsset as the fifth instruction for this message.
Select Wild to allow an unspecified number of assets to be deposited.
Select All to allow all of the refunded assets to be deposited.
Set 1 as the maximum number of unique assets to remove from the holding register for the deposit.
In this tutorial, there's only one asset instance available to be removed.
Specify the beneficiary to receive the deposited assets.
Typically, the beneficiary for the DepositAsset instruction is the sovereign account of the message sender. In this case, you can specify parachain A (1000) as parents: 0, interior: X1, Parachain: 1000 so that any surplus assets are returned to the account and can be used to deliver other XCM instructions or to open additional HRMP channels.
Alternatively, you can specify the beneficiary as parents: 0, interior: X1, AccountId and identify a network and account address to receive the assets.
This set of XCM instructions:
Withdraw assets from the parachain A sovereign account to the virtual holding register.
Uses the assets in the holding register to pay for the execution time the XCM instructions require.
Executes the initialization request for an open channel on the relay chain.
Refunds any left over assets and deposits the refunded assets into the account owned by the specified beneficiary.
xcm
hrmp
weight
cumulus
To submit the transaction:
Click Submit Transaction.
Click Sign and Submit.
Click Network and select Explorer to verify the message is sent.
After you submit the transaction, you should verify that the message was received and executed on the relay chain.
To verify the request:
In the browser instance connecting to the parachain, click Network then select Explorer.
Check the list of recent events and verify that there is a sudo.Sudid event and a ibsXcm.Sent event.
You can expand the ibsXcm.Sent event to see details about the instructions included in the message that was sent.
In the browser instance connecting to the relay chain, click Network then select Explorer.
Check the list of recent events and verify that the ump.UpwardMessagesReceived, hrmp.OpenChannelRequested, and ump.ExecutedUpward events are displayed.
You can expand these events to see details about the instructions that were executed.
Check the sovereign account balance for parachain A (1000).
After you have successfully created the open channel request, parachain B (1001) must accept the request before you can send any messages using the channel you've requested. The steps are similar to the steps for initiating an open channel request, but you'll use a different encoded call and you'll send the message from parachain B instead of parachain A.
The first step is to prepare the encoded call on the relay chain.
To prepare the encoded call:
Click Developer and select Extrinsics.
Select hrmp, then select hrmpAcceptOpenChannel(sender) and specify the sender, in this case, parachain A (1000).
Copy the encoded call data.
You'll need this information to craft the XCM Transact instruction. The following is an example of encoded call data in Rococo: 0x3c01e8030000
Now that you have the encoded call, you can construct the the set of XCM instructions to accept the open channel requested by parachain A.
Click Developer and select Extrinsics.
Select sudo, then select sudo(call) to use the Sudo pallet to execute privileged transactions.
Select ibsXcm, then select send(dest, message) to notify the relay chain that you want to open a channel with parachain B (1001).
Specify the destination parameters to indicate the relative location for the message to be delivered.
Specify the XCM version, then click Add item to construct the message to be executed.
You can use a similar set of instructions for this message:
WithdrawAsset: move the specified on-chain assets into the virtual holding register.
BuyExecution: pay for the execution of the current message using the assets that were deposited in the virtual holding register.
Transact: specify the encoded call—for example, 0x3c01e8030000—that you prepared on the relay chain.
RefundSurplus: move any overestimate of fee into the refunded weight register.
DepositAsset: subtract assets from the refunded weight register and deposit on-chain equivalent assets under the ownership of the beneficiary.
Click Submit Transaction.
After you submit the transaction, you must wait for the next epoch to see the change reflected in the chain state.
After you submit the transaction, you can verify that the message was received and executed on the relay chain.
To verify the request:
In the browser instance connecting to the parachain, click Network then select Explorer.
Check the list of recent events and verify that there is a sudo.Sudid event and a ibsXcm.Sent event.
In the browser instance connecting to the relay chain, click Network then select Explorer.
Check the list of recent events and verify that the hrmp.OpenChannelAccepted and ump.ExecutedUpward events are displayed.
After the start of the next epoch, you can also query the chain state for hrmpChannels to verify that you've opened a channel from parachain A (1000) to parachain B (1001).
If you only want to send XCM instructions to parachain B (1001), your work is done.
However, if you want to enable two-way communication-where both chains can receive and execute instructions sent by the other chain, you need to follow the same steps for parachain B that you just completed for parachain A. After parachain A accepts the open channel requests, both chains can send, receive, and execute XCM instructions.
Repeat all of the steps for preparing the encoded calls, sending the open channel request, and accepting the request to enable communication from parachain B (1001) to parachain A (1000). After you open the channel from parachain B to parachain A, the two parachains can send messages directly to each other or have messages routed through the relay chain.
Although you can send XCM instructions between the parachains at this point, constructing messages that can be executed successfully on a remote chain requires additional configuration to reach a shared understanding of assets that can be transferred or to define mutual trust relationships that allow assets to be moved from one chain to another. In future tutorials, you'll see examples of a few common scenarios for communication between parachains.
Open the and connect to a relay chain endpoint.
Calculate the parachain to use on the relay chain.
Open the and connect to a relay chain endpoint.
Connect to the endpoint for parachain A (1000) using the .
The destination parameters specify where the XCM should be executed. In this example, the parent of parachain 1000 is the relay chain, and in the context of the parent the interior setting of Here means that the relay chain is going to execute the XCM. For more information about specifying relative locations for XCM, see .
Click the top Add item to select as the third instruction for this message.
For an example that illustrates all of the settings for this set of instructions, see the sample file.
Open the in two separate browser tabs or windows with one instance connecting to the relay chain and one instance connecting to the parachain endpoint.
Open the and connect to the relay chain.
Connect to the endpoint for parachain B (1001) using the .
Open the in two separate browser tabs or windows with one instance connecting to the relay chain and one instance connecting to the parachain endpoint.
