Cross-Contract Calls

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Your contract can interact with other deployed contracts, querying information and executing functions on them.

Since NEAR is a sharded blockchain, its cross-contract calls behave differently than calls do in other chains. In NEAR. cross-contract calls are asynchronous and independent.


Snippet: Querying Information

While making your contract, it is likely that you will want to query information from another contract. Below, you can see a basic example in which we query the greeting message from our Hello NEAR example.






Snippet: Sending Information

Calling another contract passing information is also a common scenario. Below you can see a function that interacts with the Hello NEAR example to change its greeting message.






Promises

Cross-contract calls work by creating two promises in the network:

  1. A promise to execute code in the external contract (Promise.create)
  2. Optional: A promise to call another function with the result (Promise.then)

Both promises will contain the following information:

  • The address of the contract you want to interact with
  • The function that you want to execute
  • The (encoded) arguments to pass to the function
  • The amount of GAS to use (deducted from the attached Gas)
  • The amount of NEAR to attach (deducted from your contract’s balance)

Creating a Cross Contract Call

To create a cross-contract call with a callback, create two promises and use the .then method to link them:


“`ts
NearPromise.new(“external_address”).functionCall(“function_name”, JSON.stringify(arguments), DEPOSIT, GAS)
.then(
// this function is the callback
NearPromise.new(near.currentAccountId()).functionCall(“callback_name”, JSON.stringify(arguments), DEPOSIT, GAS)
);
“`


There is a helper macro that allows you to make cross-contract calls with the syntax `#[ext_contract(…)]`. It takes a Rust Trait and converts it to a module with static methods. Each of these static methods takes positional arguments defined by the Trait, then the `receiver_id`, the attached deposit and the amount of gas and returns a new `Promise`.

“`rust
#[ext_contract(external_trait)]
trait Contract {
fn function_name(&self, param1: T, param2: T) -> T;
}

external_trait::ext(“external_address”)
.with_attached_deposit(DEPOSIT)
.with_static_gas(GAS)
.function_name(arguments)
.then(
// this is the callback
Self::ext(env::current_account_id())
.with_attached_deposit(DEPOSIT)
.with_static_gas(GAS)
.callback_name(arguments)
);

“`

Gas

You can attach an unused GAS weight by specifying the `.with_unused_gas_weight()` method but it is defaulted to 1. The unused GAS will be split amongst all the functions in the current execution depending on their weights. If there is only 1 function, any weight above 1 will result in all the unused GAS being attached to that function. If you specify a weight of 0, however, the unused GAS will **not** be attached to that function. If you have two functions, one with a weight of 3, and one with a weight of 1, the first function will get `3/4` of the unused GAS and the other function will get `1/4` of the unused GAS.


If a function returns a promise, then it will delegate the return value and status of transaction execution, but if you return a value or nothing, then the Promise result will not influence the transaction status

::caution

The Promises you are creating will not execute immediately. In fact, they will be queued in the network an:

  • The cross-contract call will execute 1 or 2 blocks after your function finishes correctly.

:::


Callback Function

If your function finishes correctly, then eventually your callback function will execute. This will happen whether the external contract fails or not.

In the callback function you will have access to the result, which will contain the status of the external function (if it worked or not), and the values in case of success.



Always make sure to have enough Gas for your callback function to execute


What happens if the function I call fails?

If the external function fails (i.e. it panics), then your callback will be executed anyway. Here you need to manually rollback any changes made in your
contract during the original call. Particularly:

  1. Refund the predecessor if needed: If the contract attached NEAR to the call, the funds are now back in the contract’s account
  2. Revert any state changes: If the original function made any state changes (i.e. changed or stored data), you need to manually roll them back. They won’t revert automatically

If your original function finishes correctly then the callback executes even if the external function panics. Your state will not rollback automatically,
and $NEAR will not be returned to the signer automatically. Always make sure to check in the callback if the external function failed, and manually rollback any
operation if necessary.


Concatenating Functions and Promises

✅ Promises can be concatenate using the .and operator: P1.and(P2).and(P3).then(P4): P1, P2, and P3 execute in parallel, after they finish, P4 will execute and have access to all their results

â›” You cannot return a joint promise without a callback: return P1.and(P2) is invalid since it misses the then

✅ You can concatenate then promises: P1.then(P2).then(P3): P1 executes, then P2 executes with the result of P1, then P3 executes with the result of P2

â›” You cannot use an and within a then: P1.then(P2.and(P3)) is invalid

â›” You cannot use a then within a then: P1.then(P2.then(P3)) is invalid


Multiple Functions, Same Contract

You can call multiple functions in the same external contract, which is known as a batch call.

An important property of batch calls is that they act as a unit: they execute in the same receipt, and if any function fails, then they all get reverted.





Multiple Functions: Different Contracts

You can also call multiple functions in different contracts. These functions will be executed in parallel, and do not impact each other. This means that, if one fails, the others will execute, and NOT be reverted.





Security Concerns

While writing cross-contract calls there is a significant aspect to keep in mind: all the calls are independent and asynchronous. In other words:

  • The function in which you make the call and function for the callback are independent.
  • There is a delay between the call and the callback, in which people can still interact with the contract

This has important implications on how you should handle the callbacks. Particularly:

  1. Make sure you don’t leave the contract in a exploitable state between the call and the callback.
  2. Manually rollback any changes to the state in the callback if the external call failed.

We have a whole security section dedicated to these specific errors, so please go and check it.

Not following these basic security guidelines could expose your contract to exploits. Please check the security section, and if still in doubt, join us in Discord.

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