ligo/gitlab-pages/docs/language-basics/tezos-specific.md
Francis Brunelle 562f7d1b10 Merge branch 'dev' into 'dev'
# Conflicts:
#   gitlab-pages/docs/advanced/entrypoints-contracts.md
#   gitlab-pages/docs/language-basics/boolean-if-else.md
#   gitlab-pages/docs/language-basics/functions.md
2020-01-29 16:31:09 +00:00

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---
id: tezos-specific
title: Tezos Domain-Specific Operations
---
LIGO is a language for writing Tezos smart contracts. It would be a little odd if
it didn't have any Tezos specific functions. This page will tell you about them.
## Pack and Unpack
Michelson provides the `PACK` and `UNPACK` instructions for data serialization.
`PACK` converts Michelson data structures to a binary format, and `UNPACK`
reverses it. This functionality can be accessed from within LIGO.
> ⚠️ `PACK` and `UNPACK` are features of Michelson that are intended to be used by people that really know what they're doing. There are several failure cases (such as `UNPACK`ing a lambda from an untrusted source), most of which are beyond the scope of this document. Don't use these functions without doing your homework first.
<!--DOCUSAURUS_CODE_TABS-->
<!--PascaLIGO-->
```pascaligo
function id_string (const p : string) : option(string) is block {
const packed : bytes = bytes_pack(p) ;
} with (bytes_unpack(packed): option(string))
```
<!--CameLIGO-->
```cameligo
let id_string (p: string) : string option =
let packed: bytes = Bytes.pack p in
((Bytes.unpack packed): string option)
```
<!--ReasonLIGO-->
```reasonligo
let id_string = (p: string) : option(string) => {
let packed : bytes = Bytes.pack(p);
((Bytes.unpack(packed)): option(string));
};
```
<!--END_DOCUSAURUS_CODE_TABS-->
## Hashing Keys
It is often desirable to hash a public key. In Michelson, certain data structures
such as maps will not allow the use of the `key` type. Even if this weren't the case
hashes are much smaller than keys, and storage on blockchains comes at a cost premium.
You can hash keys with the `key_hash` type and associated built in function.
<!--DOCUSAURUS_CODE_TABS-->
<!--PascaLIGO-->
```pascaligo
function check_hash_key (const kh1 : key_hash; const k2 : key) : bool * key_hash is block {
var ret : bool := False ;
var kh2 : key_hash := crypto_hash_key(k2) ;
if kh1 = kh2 then ret := True else skip;
} with (ret, kh2)
```
<!--CameLIGO-->
```cameligo
let check_hash_key (kh1, k2: key_hash * key) : bool * key_hash =
let kh2 : key_hash = Crypto.hash_key k2 in
if kh1 = kh2
then (true, kh2)
else (false, kh2)
```
<!--ReasonLIGO-->
```reasonligo
let check_hash_key = ((kh1, k2): (key_hash, key)) : (bool, key_hash) => {
let kh2 : key_hash = Crypto.hash_key(k2);
if (kh1 == kh2) {
(true, kh2);
}
else {
(false, kh2);
}
};
```
<!--END_DOCUSAURUS_CODE_TABS-->
## Checking Signatures
Sometimes a contract will want to check that a message has been signed by a
particular key. For example, a point-of-sale system might want a customer to
sign a transaction so it can be processed asynchronously. You can do this in LIGO
using the `key` and `signature` types.
> ⚠️ There is no way to *generate* a signed message in LIGO. This is because that would require storing a private key on chain, at which point it isn't very private anymore.
<!--DOCUSAURUS_CODE_TABS-->
<!--PascaLIGO-->
```pascaligo
function check_signature
(const pk: key;
const signed: signature;
const msg: bytes) : bool
is crypto_check(pk, signed, msg)
```
<!--CameLIGO-->
```cameligo
let check_signature (pk, signed, msg: key * signature * bytes) : bool =
Crypto.check pk signed msg
```
<!--ReasonLIGO-->
```reasonligo
let check_signature = ((pk, signed, msg): (key, signature, bytes)) : bool => {
Crypto.check(pk, signed, msg);
};
```
<!--END_DOCUSAURUS_CODE_TABS-->
## Getting The Contract's Own Address
Often you want to get the address of the contract being executed. You can do it with
`self_address`.
> ⚠️ Due to limitations in Michelson, self_address in a contract is only allowed at the entry-point level. Using it in a utility function will cause an error.
<!--DOCUSAURUS_CODE_TABS-->
<!--PascaLIGO-->
```pascaligo
const current_addr : address = self_address;
```
<!--CameLIGO-->
```cameligo
let current_addr : address = Current.self_address
```
<!--ReasonLIGO-->
```reasonligo
let current_addr : address = Current.self_address;
```
<!--END_DOCUSAURUS_CODE_TABS-->