Basic storage migration

This guide illustrates how to perform storage migration for a specific pallet by modifying the FRAME Nicks pallet. In this tutorial, you'll modify a storage map to provide an optional field that includes a last name and write a migration function that can then be triggered with a runtime upgrade. You can use this type of simple storage migration when changes are limited to specific pallets and individual storage items. You can follow similar steps for more complex data migration, but you'll need to write more complex migration functions and use additional tooling to test your migration than explained in this tutorial.

Add the Nicks pallet locally

We are going to make a change in the FRAME's Nick's pallet, in the tutorial Add a pallet to the runtime we show how to add the Nicks pallet to the runtime for the node template.

For this guide, because we are going to make changes in the code of the pallet we are going to take the code of the pallet and add it locally in our node template. You can check an example of how to add it locally here.

For testing we can now start our node and set a nickname using the Nicks pallet within the extrinsic setName.

Create a storage struct and update storage item

By default, the Nicks pallet uses a storage map to provide a lookup table with a BoundedVec to store the nickname. For example, the default storage definition looks like this:

/// The lookup table for names.
	#[pallet::storage]
	pub(super) type NameOf<T: Config> =
		StorageMap<_, Twox64Concat, T::AccountId, (BoundedVec<u8, T::MaxLength>, BalanceOf<T>)>;

We want to update the storage to add an optional field that includes a last name too. For that we create a new struct Nickname to manage the previous and new storage items, first name and last name:

    #[derive(Encode, Decode, Default, TypeInfo, MaxEncodedLen, PartialEqNoBound, RuntimeDebug)]
	#[scale_info(skip_type_params(T))]
	#[codec(mel_bound())]
	pub struct Nickname<T: Config> {
		pub first: BoundedVec<u8, T::MaxLength>,
		pub last: Option<BoundedVec<u8, T::MaxLength>>,
	}

To change now the data stored in the storage we will update the StorageMap NameOf to store the Nickname struct instead of only a BoundedVec

    #[pallet::storage]
	pub(super) type NameOf<T: Config> =
		StorageMap<_, Twox64Concat, T::AccountId, (Nickname<T>, BalanceOf<T>)>;

Update functions

Now that you have added the new data structure and modified storage to include both a first name and an optional last name, you must update the Nicks pallet functions to include the new last: Option<BoundedVec<u8>> parameter declaration. In most cases, updating the functions when modifying storage items will require adding some logic to account for the changes.For example, you might need to modify parameter names or add new variables.

In this case, most of the changes required are in the set_name and force_name functions. For example, you might modify the set_name function to change bounded_name to bounded_first and add the bounded_last declaration with code similar to the following:

//--snip
pub fn set_name(origin,
    first: Vec<u8>,
    last: Option<Vec<u8>>)  -> DispatchResult{

In addition, update all storage writes with the Nickname struct:

//--snip
pub fn set_name(origin,
    first: Vec<u8>,
    last: Option<Vec<u8>>)  -> DispatchResult{
    //--snip

    let bounded_first: BoundedVec<_, _> =
        first.try_into().map_err(|_| Error::<T>::TooLong)?;
    ensure!(bounded_first.len() >= T::MinLength::get() as usize, Error::<T>::TooShort);

    let mut bounded_last: BoundedVec<_, _> = Default::default();
    if let Some(last) = last {
        bounded_last= last.try_into().map_err(|_| Error::<T>::TooLong)?;
        ensure!(bounded_last.len() >= T::MinLength::get() as usize, Error::<T>::TooShort);
    }
    let bounded_last: Option<BoundedVec<u8, T::MaxLength>> = Some(bounded_last);

    //--snip
    <NameOf<T>>::insert(&sender, (Nickname{first: bounded_first, last: bounded_last}, deposit));
    }

Check an example of how to update the extrinsics here.

Add the storage version

The pallet::pallet macro implements traits::GetStorageVersion but the current storage version needs to be communicated to the macro. This can be done by using the pallet::storage_version macro.

    /// The current storage version, we set to 2 our new version.
	const STORAGE_VERSION: StorageVersion = StorageVersion::new(2);


    #[pallet::pallet]
	#[pallet::storage_version(STORAGE_VERSION)]
	pub struct Pallet<T>(_);

Declare a migration module

The migration module should contain two parts:

  • A module indicating the deprecated storage to migrate from.
  • The migration function which returns a weight.

Create a new file in src/pallets/nicks/migration.rs

The scaffolding of this module looks like this:

pub mod migration {
  use super::*;

  pub mod v1 {...} // only contains V1 storage format

  pub fn migrate_to_v2<T: Config>() -> Weight {...} // contains checks and transforms storage to V2 format
}

Write migrate_to_v2

Here's an overview of what this function needs to do:

  • Check the storage version to make sure a migration is needed (good practice)
  • Transform the storage values into the new storage format
  • Update the storage version
  • Return the weight consumed by the migration

Check the storage version

Construct the migrate_to_v2 logic around the check. If the storage migration doesn't need to happen, return 0:

    let onchain_version =  Pallet::<T>::on_chain_storage_version();
    if onchain_version < 2 {

    }
    else {
        // We don't do anything here.
		Weight::zero()
    }

Transform storage values

Using the translate storage method, transform the storage values to the new format. Since the existing nick value in storage can be made of a string separated by a space, split it at the ' ' and place anything after that into the new last storage item. If it isn't, last takes the None value:

        // We transform the storage values from the old into the new format.
        NameOf::<T>::translate::<(Vec<u8>, BalanceOf<T>), _>(
            |k: T::AccountId, (nick, deposit): (Vec<u8>, BalanceOf<T>)| {
                info!(target: LOG_TARGET, "     Migrated nickname for {:?}...", k);

                // We split the nick at ' ' (<space>).
                match nick.iter().rposition(|&x| x == b" "[0]) {
                    Some(ndx) => {
                        let bounded_first: BoundedVec<_, _> = nick[0..ndx].to_vec().try_into().unwrap();
                        let bounded_last: BoundedVec<_, _> = nick[ndx + 1..].to_vec().try_into().unwrap();
                        Some((Nickname {
                            first: bounded_first,
                            last: Some(bounded_last)
                        }, deposit))
                },
                    None => {
                        let bounded_name: BoundedVec<_, _> = nick.to_vec().try_into().unwrap();
                        Some((Nickname { first: bounded_name, last: None }, deposit))
                    }
                }
            }
        );

Update the storage version

    // Update storage version.
	StorageVersion::new(2).put::<Pallet::<T>>();

Return the consumed weight

To do this, count the number of storage reads and writes and return the corresponding weight:

let count = NameOf::<T>::iter().count();
T::DbWeight::get().reads_writes(count as Weight + 1, count as Weight + 1)

7. Use migrate_to_v2 in on_runtime_upgrade

In your pallet lib.rs, declare the mod migration.

mod migration;

And go back to the pallet's functions and specify the migrate_to_v2 function in on_runtime_upgrade. This lets you express what should happen when the runtime upgrades:

    #[pallet::hooks]
	impl<T: Config> Hooks<BlockNumberFor<T>> for Pallet<T> {
		fn on_runtime_upgrade() -> frame_support::weights::Weight {
			migration::migrate_to_v2::<T>()
		}
	}

Check an example of the full migration code [here] (https://github.com/substrate-developer-hub/substrate-node-template/commit/cfbe01dd4be358d0df45a81b87b6ba7393e20368).

Update unit tests

When writing a runtime migration module it is important to test it to avoid any critical issues caused by mangling storage items.

For the Nicks pallet we have following tests:

  • fn kill_name_should_work()
  • fn force_name_should_work()
  • fn normal_operation_should_work()
  • fn error_catching_should_work()

We have to update them to work with the new code we have added, for example:

    #[test]
	fn normal_operation_should_work() {
		new_test_ext().execute_with(|| {
			assert_ok!(Nicks::set_name(RuntimeOrigin::signed(1), b"Gav".to_vec(), None));
			assert_eq!(Balances::reserved_balance(1), 2);
			assert_eq!(Balances::free_balance(1), 8);
			assert_eq!(<NameOf<Test>>::get(1).unwrap().0.first, b"Gav".to_vec());

			assert_ok!(Nicks::set_name(RuntimeOrigin::signed(1), b"Gavin".to_vec(), None));
			assert_eq!(Balances::reserved_balance(1), 2);
			assert_eq!(Balances::free_balance(1), 8);
			assert_eq!(<NameOf<Test>>::get(1).unwrap().0.first, b"Gavin".to_vec());

			assert_ok!(Nicks::clear_name(RuntimeOrigin::signed(1)));
			assert_eq!(Balances::reserved_balance(1), 0);
			assert_eq!(Balances::free_balance(1), 10);
		});
	}

Check an example of the full test fixes here.

Examples

Resources

Rust docs