ligo/gitlab-pages/docs/advanced/entrypoints-contracts.md

---
id: entrypoints-contracts
title: Entrypoints, Contracts
---

## Entrypoints

Each LIGO smart contract is essentially a single function, that has the following *(pseudo)* type signature:

<!--DOCUSAURUS_CODE_TABS-->
<!--Pascaligo-->
```
(const parameter: my_type, const store: my_store_type): (list(operation), my_store_type)
```

<!--CameLIGO-->
```
(parameter, store: my_type * my_store_type) : operation list * my_store_type
```

<!--ReasonLIGO-->
```
(parameter_store: (my_type, my_store_type)) : (list(operation), my_store_type)
```

<!--END_DOCUSAURUS_CODE_TABS-->

This means that every smart contract needs at least one entrypoint function, here's an example:

> 💡 The contract below literally does *nothing*

<!--DOCUSAURUS_CODE_TABS-->
<!--Pascaligo-->
```pascaligo group=a
type parameter is unit;
type store is unit;
function main(const parameter: parameter; const store: store): (list(operation) * store) is
    block { skip } with ((nil : list(operation)), store)
```

<!--CameLIGO-->
```cameligo group=a
type parameter = unit
type store = unit
let main (parameter, store: parameter * store) : operation list * store =
  (([]: operation list), store)
```

<!--ReasonLIGO-->
```reasonligo group=a
type parameter = unit;
type store = unit;
let main = ((parameter, store): (parameter, store)) : (list(operation), store) => {
  (([]: list(operation)), store);
};
```

<!--END_DOCUSAURUS_CODE_TABS-->

Each entrypoint function receives two arguments:
- `parameter` - this is the parameter received in the invocation operation
- `storage` - this is the current (real) on-chain storage value

Storage can only be modified by running the smart contract entrypoint, which is responsible for returning a list of operations, and a new storage at the end of it's execution.


## Built-in contract variables

Each LIGO smart contract deployed on the Tezos blockchain, has access to certain built-in variables/constants that can be used to determine a range
of useful things. In this section you'll find how those built-ins can be utilized.

### Accepting/declining money in a smart contract

This example shows how `amount` and `failwith` can be used to decline a transaction that sends more tez than `0mutez`.

<!--DOCUSAURUS_CODE_TABS-->
<!--Pascaligo-->
```pascaligo group=b
function main (const p : unit ; const s : unit) : (list(operation) * unit) is
  block {
      if amount > 0mutez then failwith("This contract does not accept tez") else skip
  } with ((nil : list(operation)), unit);
```

<!--CameLIGO-->
```cameligo group=b
let main (p, s: unit * unit) : operation list * unit =
  if amount > 0mutez
  then (failwith "This contract does not accept tez": operation list * unit)
  else (([]: operation list), unit)
```

<!--ReasonLIGO-->
```reasonligo group=b
let main = ((p,s): (unit, unit)) : (list(operation), unit) => {
  if (amount > 0mutez) {
    (failwith("This contract does not accept tez"): (list(operation), unit));
  }
  else {
    (([]: list(operation)), ());
  };
};
```

<!--END_DOCUSAURUS_CODE_TABS-->

### Access Control

This example shows how `sender` or `source` can be used to deny access to an entrypoint.

<!--DOCUSAURUS_CODE_TABS-->
<!--Pascaligo-->
```pascaligo group=c
const owner: address = ("tz1KqTpEZ7Yob7QbPE4Hy4Wo8fHG8LhKxZSx": address);
function main (const p : unit ; const s : unit) : (list(operation) * unit) is
  block {
      if source =/= owner then failwith("This address can't call the contract") else skip
  } with ((nil : list(operation)), unit);
```

<!--CameLIGO-->
```cameligo group=c
let owner: address = ("tz1KqTpEZ7Yob7QbPE4Hy4Wo8fHG8LhKxZSx": address)
let main (p,s: unit * unit) : operation list * unit =
  if source <> owner
  then (failwith "This address can't call the contract": operation list * unit)
  else (([]: operation list), ())
```

<!--ReasonLIGO-->
```reasonligo group=c
let owner: address = ("tz1KqTpEZ7Yob7QbPE4Hy4Wo8fHG8LhKxZSx": address);
let main = ((p,s): (unit, unit)) : (list(operation), unit) => {
  if (source != owner) {
    (failwith("This address can't call the contract"): (list(operation), unit));
  }
  else {
    (([]: list(operation)), ());
  };
};
```
<!--END_DOCUSAURUS_CODE_TABS-->

### Cross contract calls

This example shows how a contract can invoke another contract by emiting a transaction operation at the end of an entrypoint.

> The same technique can be used to transfer tez to an implicit account (tz1, ...), all you have to do is use `unit` instead of a parameter for a smart contract.

In our case, we have a `counter.ligo` contract that accepts a parameter of type `action`, and we have a `proxy.ligo` contract that accepts the same parameter type, and forwards the call to the deployed counter contract.

<!--DOCUSAURUS_CODE_TABS-->
<!--Pascaligo-->
```pascaligo
// counter.ligo
type action is
| Increment of int
| Decrement of int
| Reset of unit

```

```pascaligo skip
// proxy.ligo

type action is
| Increment of int
| Decrement of int
| Reset of unit

const dest: address = ("KT19wgxcuXG9VH4Af5Tpm1vqEKdaMFpznXT3": address);

function proxy(const param: action; const store: unit): (list(operation) * unit)
    is block {
        const counter: contract(action) = get_contract(dest);
        // re-use the param passed to the proxy in the subsequent transaction
        // e.g.:
        // const mockParam: action = Increment(5);
        const op: operation = transaction(param, 0mutez, counter);
        const opList: list(operation) = list op; end;
    } with (opList, store)
```
<!--CameLIGO-->
```cameligo
// counter.mligo
type action = 
| Increment of int
| Decrement of int
| Reset of unit

// ...
```

```cameligo
// proxy.mligo

type action = 
| Increment of int
| Decrement of int
| Reset of unit

let dest: address = ("KT19wgxcuXG9VH4Af5Tpm1vqEKdaMFpznXT3": address)

let proxy (param, storage: action * unit): operation list * unit =
  let counter: action contract = Operation.get_contract dest in
  let op: operation = Operation.transaction param 0mutez counter in
  [op], storage
```

<!--ReasonLIGO-->
```reasonligo
// counter.religo

type action =
  | Increment(int)
  | Decrement(int)
  | Reset(unit);

// ...
```

```reasonligo
// proxy.religo

type action =
  | Increment(int)
  | Decrement(int)
  | Reset(unit);

let dest: address = ("KT19wgxcuXG9VH4Af5Tpm1vqEKdaMFpznXT3": address);

let proxy = ((param, s): (action, unit)): (list(operation), unit) =>
  let counter: contract(action) = Operation.get_contract(dest);
  let op: operation = Operation.transaction(param, 0mutez, counter);
  ([op], s);
```

<!--END_DOCUSAURUS_CODE_TABS-->