Serializing Data
여기서 Serialization에 대해 얘기할 때, Data를 serializing 하는 것과 deserializing 하는 것 모두를 의미합니다.
Solana Program과 Program Account들의 생명 주기를 따라서 Serialization이 동작하는 몇 가지 포인트들이 있습니다:
- Client에서 Instruction Data를 Serializing 하는 것
- Program에서 Instruction Data를 Deserializing 하는 것
- Program에서 Account Data를 Serializing 하는 것
- Client에서 Account Data를 Deserializing 하는 것
위의 행위들은 모두 같은 Serialization 접근에 의해 지원된다는 것이 중요합니다. 포함된 Snippet들이 Borsh를 사용하는 Serialization을 보여주고 있습니다.
이 문서의 나머지 예제들은 Solana CLI Program Template으로부터 가져온 것들입니다.
Setting up for Borsh Serialization
Rust Program, Rust Client, Node 그리고/또는 Python Client에 Borsh 라이브러리가 설치되어야 합니다.
[package]
name = "solana-cli-template-program-bpf"
version = "0.1.0"
edition = "2018"
license = "WTFPL"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[features]
no-entrypoint = []
[dependencies]
borsh = "0.9.0"
lazy_static = "1.4.0"
num-derive = "0.3"
num_enum = "0.5.1"
num-integer = "0.1.44"
num-traits = "0.2"
sol-template-shared = {path = "../shared"}
solana-program = "1.8.2"
thiserror = "1.0"
[dev-dependencies]
solana-program-test = "1.8.2"
solana-sdk = "1.8.2"
[lib]
crate-type = ["cdylib", "lib"]
[package]
name = "cli-program-template"
version = "0.1.5"
edition = "2018"
license = "WTFPL"
publish = false
[dependencies]
borsh = "0.9.0"
clap = "2.33.3"
lazy_static = "1.4.0"
serde = { version = "1.0.125", features = ["derive"] }
serde_yaml = "0.8.17"
sol-template-shared = {path = "shared"}
solana-clap-utils = "1.8.2"
solana-cli-config = "1.8.2"
solana-client = "1.8.2"
solana-logger = "1.8.2"
solana-remote-wallet = "1.8.2"
solana-sdk = "1.8.2"
tokio = { version = "1", features = ["full"] }
[workspace]
members = [
"program",
"shared",
]
[dev-dependencies]
lazy_static = "1.4.0"
solana-validator = "1.8.2"
solana-streamer = "1.8.2"
{
"name": "ts-program-template",
"version": "0.1.0",
"description": "Sample TS App",
"main": "client/nmain.ts",
"author": "",
"keywords": [],
"workspace": "client/",
"repository": {
"type": "git",
"url": "https: //github.com/hashblock/solana-cli-program-template"
},
"homepage": "https: //github.com/hashblock/solana-cli-program-template",
"scripts": {
"test:all": "npm run build:client && npm run test:client",
"build:client": "rm -rf ./.dist/client && tsc ",
"start": "node ./node_modules/.bin/mocha .dist/client/main.js",
"test:client": "npm run start",
"lint": "eslint --ext .ts client/* && prettier --check \"client/**/*.ts\"",
"lint:fix": "eslint --ext .ts client/* --fix",
"pretty": "prettier --write '{,client/**/}*.ts'"
},
"devDependencies": {
"@tsconfig/recommended": "^1.0.1",
"@types/chai": "^4.3.0",
"@types/eslint": "^7.28.2",
"@types/eslint-plugin-prettier": "^3.1.0",
"@types/mkdirp": "^1.0.2",
"@types/mocha": "^9.0.0",
"@types/prettier": "^2.4.1",
"@typescript-eslint/eslint-plugin": "^5.6.0",
"@typescript-eslint/parser": "^5.6.0",
"chai": "^4.3.4",
"eslint": "^8.2.0",
"eslint-config-google": "^0.14.0",
"eslint-config-prettier": "^8.3.0",
"eslint-plugin-prettier": "^4.0.0",
"html-webpack-plugin": "^5.5.0",
"mocha": "^9.1.3",
"prettier": "^2.4.1",
"start-server-and-test": "^1.14.0",
"ts-node": "^10.4.0",
"typescript": "^4.5.2"
},
"dependencies": {
"@solana/web3.js": "^1.31.0",
"borsh": "^0.7.0",
"env": "^0.0.2",
"fs": "^0.0.1-security",
"mkdirp": "^1.0.4",
"npm-check-updates": "^12.0.3",
"sync-request": "^6.1.0",
"update": "^0.4.2"
}
}
borsh-construct==0.1.0
solana==0.20.0
How to serialize instruction data on the client
만약 outbound Instruction Data를 Program에 보내기 위해 serializing 한다면, 이것은 Program이 inbound Instruction Data를 어떻게 deserializing 해야 하는지 그대로 보여줍니다.
이 템플릿에서, 하나의 Instruction Data block은 serialize 된 배열이며, 아래의 예제들을 포함하고 있습니다.
Instruction (Variant index) | Serialized Key | Serialized Value |
---|---|---|
Initialize (0) | Instruction에 적용되지 않음 | Instruction에 적용되지 않음 |
Mint (1) | "foo" | "bar" |
Transfer (2) | "foo" | Instruction에 적용되지 않음 |
Burn (2) | "foo" | Instruction에 적용되지 않음 |
아래 예제에서, Account를 소유한 Program은 초기화 되었다고 가정합니다.
// Include borsh functionality
import { serialize, deserialize, deserializeUnchecked } from "borsh";
import { Buffer } from "buffer";
// Get Solana
import {
Keypair,
Connection,
PublicKey,
Transaction,
TransactionInstruction,
sendAndConfirmTransaction,
} from "@solana/web3.js";
// Flexible class that takes properties and imbues them
// to the object instance
class Assignable {
constructor(properties) {
Object.keys(properties).map((key) => {
return (this[key] = properties[key]);
});
}
}
// Our instruction payload vocabulary
class Payload extends Assignable {}
// Borsh needs a schema describing the payload
const payloadSchema = new Map([
[
Payload,
{
kind: "struct",
fields: [
["id", "u8"],
["key", "string"],
["value", "string"],
],
},
],
]);
// Instruction variant indexes
enum InstructionVariant {
InitializeAccount = 0,
MintKeypair,
TransferKeypair,
BurnKeypair,
}
/**
* Mint a key value pair to account
* @param {Connection} connection - Solana RPC connection
* @param {PublicKey} progId - Sample Program public key
* @param {PublicKey} account - Target program owned account for Mint
* @param {Keypair} wallet - Wallet for signing and payment
* @param {string} mintKey - The key being minted key
* @param {string} mintValue - The value being minted
* @return {Promise<Keypair>} - Keypair
*/
export async function mintKV(
connection: Connection,
progId: PublicKey,
account: PublicKey,
wallet: Keypair,
mintKey: string,
mintValue: string
): Promise<string> {
// Construct the payload
const mint = new Payload({
id: InstructionVariant.MintKeypair,
key: mintKey, // 'ts key'
value: mintValue, // 'ts first value'
});
// Serialize the payload
const mintSerBuf = Buffer.from(serialize(payloadSchema, mint));
// console.log(mintSerBuf)
// => <Buffer 01 06 00 00 00 74 73 20 6b 65 79 0e 00 00 00 74 73 20 66 69 72 73 74 20 76 61 6c 75 65>
// let mintPayloadCopy = deserialize(schema, Payload, mintSerBuf)
// console.log(mintPayloadCopy)
// => Payload { id: 1, key: 'ts key', value: 'ts first value' }
// Create Solana Instruction
const instruction = new TransactionInstruction({
data: mintSerBuf,
keys: [
{ pubkey: account, isSigner: false, isWritable: true },
{ pubkey: wallet.publicKey, isSigner: false, isWritable: false },
],
programId: progId,
});
// Send Solana Transaction
const transactionSignature = await sendAndConfirmTransaction(
connection,
new Transaction().add(instruction),
[wallet],
{
commitment: "singleGossip",
preflightCommitment: "singleGossip",
}
);
console.log("Signature = ", transactionSignature);
return transactionSignature;
}
from borsh_construct import String, CStruct, U8
from enum import IntEnum
from solana.transaction import Transaction
from solders.pubkey import Pubkey
from solders.keypair import Keypair
from solders.instruction import Instruction, AccountMeta
from solders.rpc.responses import SendTransactionResp
from solana.rpc.api import Client
# Instruction variants for target program
class InstructionVariant(IntEnum):
INITIALIZE = 0
MINT = 1
TRANSFER = 2
BURN = 3
# Schema for sending instructionVariants to on-chain sample program
payload_schema = CStruct("id" / U8, "key" / String, "value" / String)
def construct_payload(instruction_variant: InstructionVariant, key: str, value: str):
"""Generate a serialized instructionVariant"""
return payload_schema.build({"id": instruction_variant, "key": key, "value": value})
def mint_kv(
client: Client,
program_pk: Pubkey,
account_pk: Pubkey,
wallet_kp: Keypair,
mint_key: str,
mint_value: str,
) -> SendTransactionResp:
"""Mint with a key/value pair to an account"""
# Construct the program payload for Mint invariant
payload_ser = construct_payload(InstructionVariant.MINT, mint_key, mint_value)
# print(payload_ser)
# => b'\x01\n\x00\x00\x00python key\x0c\x00\x00\x00python value'
# mint_payload_copy = payload_schema.parse(payload_ser)
# print(mint_payload_copy)
# => Container:
# => initialized = 1
# => key = u'python key' (total 10)
# => value = u'python value' (total 12)
# Construct the transaction with instructionVariant
txn = Transaction().add(
Instruction(
accounts=[AccountMeta(account_pk, False, True)], program_id=program_pk, data=payload_ser
)
)
return client.send_transaction(txn, wallet_kp)
# => {'jsonrpc': '2.0', 'result': '4ZdpWNdovdVaLextWSiqEBWp67k9rNTTUaX3qviHDXWY9c98bVtaRt5sasPhYzMVXHqhex78gzNKytcBnVH5CSTZ', 'id': 2}
/// Instruction payload gets serialized
#[derive(BorshSerialize)]
pub struct Payload<'a> {
variant: u8,
key: &'a str,
value: &'a str,
}
/// Perform a mint transaction consisting of a key/value pair
/// See submit_transaction below
pub fn mint_transaction(
rpc_client: &RpcClient,
accounts: &[AccountMeta],
wallet_signer: &dyn Signer,
mint_key: &str,
mint_value: &str,
mint_instruction_id: u8,
commitment_config: CommitmentConfig,
) -> Result<Signature, Box<dyn std::error::Error>> {
// Setup the payload. `mint_instruction_id` is instruction variant index = 1
let data = Payload<`_> {
variant: mint_instruction_id,
key: mint_key,
value: mint_value,
};
let instruction = Instruction::new_with_borsh(PROG_KEY.pubkey(), &data, accounts.to_vec());
submit_transaction(rpc_client, wallet_signer, instruction, commitment_config)
}
/// Submits the program instruction as per the
/// instruction definition
pub fn submit_transaction(
rpc_client: &RpcClient,
wallet_signer: &dyn Signer,
instruction: Instruction,
commitment_config: CommitmentConfig,
) -> Result<Signature, Box<dyn std::error::Error>> {
let mut transaction =
Transaction::new_unsigned(Message::new(&[instruction], Some(&wallet_signer.pubkey())));
let (recent_blockhash, _fee_calculator) = rpc_client
.get_recent_blockhash()
.map_err(|err| format!("error: unable to get recent blockhash: {}", err))?;
transaction
.try_sign(&vec![wallet_signer], recent_blockhash)
.map_err(|err| format!("error: failed to sign transaction: {}", err))?;
let signature = rpc_client
.send_and_confirm_transaction_with_spinner_and_commitment(&transaction, commitment_config)
.map_err(|err| format!("error: send transaction: {}", err))?;
Ok(signature)
}
How to deserialize instruction data on the program
//! instruction Contains the main ProgramInstruction enum
use {
crate::error::SampleError, borsh::BorshDeserialize, solana_program::program_error::ProgramError,
};
#[derive(Debug, PartialEq)]
/// All custom program instructions
pub enum ProgramInstruction {
InitializeAccount,
MintToAccount { key: String, value: String },
TransferBetweenAccounts { key: String },
BurnFromAccount { key: String },
MintToAccountWithFee { key: String, value: String },
TransferBetweenAccountsWithFee { key: String },
BurnFromAccountWithFee { key: String },
}
/// Generic Payload Deserialization
#[derive(BorshDeserialize, Debug)]
struct Payload {
variant: u8,
arg1: String,
arg2: String,
}
impl ProgramInstruction {
/// Unpack inbound buffer to associated Instruction
/// The expected format for input is a Borsh serialized vector
pub fn unpack(input: &[u8]) -> Result<Self, ProgramError> {
let payload = Payload::try_from_slice(input).unwrap();
match payload.variant {
0 => Ok(ProgramInstruction::InitializeAccount),
1 => Ok(Self::MintToAccount {
key: payload.arg1,
value: payload.arg2,
}),
2 => Ok(Self::TransferBetweenAccounts { key: payload.arg1 }),
3 => Ok(Self::BurnFromAccount { key: payload.arg1 }),
4 => Ok(Self::MintToAccountWithFee {
key: payload.arg1,
value: payload.arg2,
}),
5 => Ok(Self::TransferBetweenAccountsWithFee { key: payload.arg1 }),
6 => Ok(Self::BurnFromAccountWithFee { key: payload.arg1 }),
_ => Err(SampleError::DeserializationFailure.into()),
}
}
}
How to serialize account data on the program
Program Account Data block(샘플 저장소에 있는)은 다음과 같이 구성되어 있습니다.
Byte 0 | Bytes 1-4 | Remaining Byte up to 1019 |
---|---|---|
Initialized flag | length of serialized BTreeMap | BTreeMap (where key value pairs are stored) |
Pack
Pack trait에 대한 설명
Pack trait은 당신의 Core Program이 Instruction을 처리하기 위해 Account Data를 serialization/deserialization 하는 것에 대한 상세한 내용을 숨기는 것을 쉽게 만들어 줍니다. 그래서 Pack trait은 Program에 모든 serialize/desrialize 코드를 작성하는 것 대신에, 아래 나오는 3개의 Functions들 뒤로 상세 내용들을 캡슐화해줍니다.
unpack_unchecked
- Account가 초기화되었는지 체크하는 것 없이 deserialize 가능하게 해 줍니다. 이것은 초기화 함수 (variant index 0)를 다룰 때 유용합니다.unpack
-unpack_from_slice
의 Pack 구현체를 호출하고 Account가 초기화되었는지 체크합니다.pack
-pack_into_slice
의 Pack 구현체를 호출합니다.
샘플 Program을 위한 Pack trait 구현체가 입니다. 이것은 Borsh를 사용해서 실제 Account Data의 처리를 보여줍니다.
//! @brief account_state manages account data
use crate::error::SampleError;
use sol_template_shared::ACCOUNT_STATE_SPACE;
use solana_program::{
entrypoint::ProgramResult,
program_error::ProgramError,
program_pack::{IsInitialized, Pack, Sealed},
};
use std::collections::BTreeMap;
/// Maintains global accumulator
#[derive(Debug, Default, PartialEq)]
pub struct ProgramAccountState {
is_initialized: bool,
btree_storage: BTreeMap<String, String>,
}
impl ProgramAccountState {
/// Returns indicator if this account has been initialized
pub fn set_initialized(&mut self) {
self.is_initialized = true;
}
/// Adds a new key/value pair to the account
pub fn add(&mut self, key: String, value: String) -> ProgramResult {
match self.btree_storage.contains_key(&key) {
true => Err(SampleError::KeyAlreadyExists.into()),
false => {
self.btree_storage.insert(key, value);
Ok(())
}
}
}
/// Removes a key from account and returns the keys value
pub fn remove(&mut self, key: &str) -> Result<String, SampleError> {
match self.btree_storage.contains_key(key) {
true => Ok(self.btree_storage.remove(key).unwrap()),
false => Err(SampleError::KeyNotFoundInAccount),
}
}
}
impl Sealed for ProgramAccountState {}
// Pack expects the implementation to satisfy whether the
// account is initialzed.
impl IsInitialized for ProgramAccountState {
fn is_initialized(&self) -> bool {
self.is_initialized
}
}
impl Pack for ProgramAccountState {
const LEN: usize = ACCOUNT_STATE_SPACE;
/// Store 'state' of account to its data area
fn pack_into_slice(&self, dst: &mut [u8]) {
sol_template_shared::pack_into_slice(self.is_initialized, &self.btree_storage, dst);
}
/// Retrieve 'state' of account from account data area
fn unpack_from_slice(src: &[u8]) -> Result<Self, ProgramError> {
match sol_template_shared::unpack_from_slice(src) {
Ok((is_initialized, btree_map)) => Ok(ProgramAccountState {
is_initialized,
btree_storage: btree_map,
}),
Err(_) => Err(ProgramError::InvalidAccountData),
}
}
}
Serialization/Deserialization
아래의 serialization 그리고 deserialization을 완성하기 위해:
sol_template_shared::pack_into_slice
- 실제 serialization이 일어나는 곳sol_template_shared::unpack_from_slice
- 실제 deserialization이 일어나는 곳
Data 배치를 보면 BTREE_STORAGE
앞에 BTREE_LENGTH
를 위한 u32
(4 bytes) 타입의 부분을 가지고 있다는 사실에 주목하세요. 이것은 borsh가 serialization을 하는 동안 실제 수신된 객체를 재결합하기 앞서, 당신이 deserializing 하는 slice의 길이가 읽으려는 데이터의 양과 일치하는지 확인하기 때문입니다. 아래에 예시가 증명해주듯이 먼저 BTREE_STORAGE
pointer로부터 slice
에 대한 크기를 얻기 위해 BTREE_LENGTH
를 읽습니다.
use {
arrayref::*,
borsh::{BorshDeserialize, BorshSerialize},
solana_program::program_memory::sol_memcpy,
std::{collections::BTreeMap, error::Error},
};
/// Initialization flag size for account state
pub const INITIALIZED_BYTES: usize = 1;
/// Storage for the serialized size of the BTreeMap control
pub const BTREE_LENGTH: usize = 4;
/// Storage for the serialized BTreeMap container
pub const BTREE_STORAGE: usize = 1019;
/// Sum of all account state lengths
pub const ACCOUNT_STATE_SPACE: usize = INITIALIZED_BYTES + BTREE_LENGTH + BTREE_STORAGE;
/// Packs the initialized flag and data content into destination slice
#[allow(clippy::ptr_offset_with_cast)]
pub fn pack_into_slice(
is_initialized: bool,
btree_storage: &BTreeMap<String, String>,
dst: &mut [u8],
) {
let dst = array_mut_ref![dst, 0, ACCOUNT_STATE_SPACE];
// Setup pointers to key areas of account state data
let (is_initialized_dst, data_len_dst, data_dst) =
mut_array_refs![dst, INITIALIZED_BYTES, BTREE_LENGTH, BTREE_STORAGE];
// Set the initialized flag
is_initialized_dst[0] = is_initialized as u8;
// Store the core data length and serialized content
let keyval_store_data = btree_storage.try_to_vec().unwrap();
let data_len = keyval_store_data.len();
if data_len < BTREE_STORAGE {
data_len_dst[..].copy_from_slice(&(data_len as u32).to_le_bytes());
sol_memcpy(data_dst, &keyval_store_data, data_len);
} else {
panic!();
}
}
/// Unpacks the data from slice and return the initialized flag and data content
#[allow(clippy::ptr_offset_with_cast)]
pub fn unpack_from_slice(src: &[u8]) -> Result<(bool, BTreeMap<String, String>), Box<dyn Error>> {
let src = array_ref![src, 0, ACCOUNT_STATE_SPACE];
// Setup pointers to key areas of account state data
let (is_initialized_src, data_len_src, data_src) =
array_refs![src, INITIALIZED_BYTES, BTREE_LENGTH, BTREE_STORAGE];
let is_initialized = match is_initialized_src {
[0] => false,
[1] => true,
_ => {
return Err(Box::<dyn Error>::from(format!(
"unrecognized initialization flag \"{:?}\". in account",
is_initialized_src
)))
}
};
// Get current size of content in data area
let data_len = u32::from_le_bytes(*data_len_src) as usize;
// If emptry, create a default
if data_len == 0 {
Ok((is_initialized, BTreeMap::<String, String>::new()))
} else {
let data_dser = BTreeMap::<String, String>::try_from_slice(&data_src[0..data_len]).unwrap();
Ok((is_initialized, data_dser))
}
}
Usage
아래는 모든 것을 합쳐 놓았고 Program이 어떻게 ProgramAccountState
와 상호 작용하는지를 보여줍니다. ProgramAccountState
는 초기화 flag 뿐만 아니라 key/value 쌍을 위한 BTreeMap
을 캡슐화합니다.
첫 번째로, 새로운 Account를 초기화하고 싶을 때:
/// Initialize a new program account, which is the first in AccountInfo array
fn initialize_account(accounts: &[AccountInfo]) -> ProgramResult {
msg!("Initialize account");
let account_info_iter = &mut accounts.iter();
let program_account = next_account_info(account_info_iter)?;
let mut account_data = program_account.data.borrow_mut();
// Here we use unpack_unchecked as we have yet to initialize
// Had we tried to use unpack it would fail because, well, chicken and egg
let mut account_state = ProgramAccountState::unpack_unchecked(&account_data)?;
// We double check that we haven't already initialized this accounts data
// more than once. If we are good, we set the initialized flag
if account_state.is_initialized() {
return Err(SampleError::AlreadyInitializedState.into());
} else {
account_state.set_initialized();
}
// Finally, we store back to the accounts space
ProgramAccountState::pack(account_state, &mut account_data).unwrap();
Ok(())
}
이제 우리는 다른 Instruction들을 동작시킬 수 있습니다. 아래는 Client에서 Instruction들을 보낼 때 보여줬던 새로운 key value 쌍을 minting 하는 것을 보여줍니다.
/// Mint a key/pair to the programs account, which is the first in accounts
fn mint_keypair_to_account(accounts: &[AccountInfo], key: String, value: String) -> ProgramResult {
msg!("Mint to account");
let account_info_iter = &mut accounts.iter();
let program_account = next_account_info(account_info_iter)?;
let mut account_data = program_account.data.borrow_mut();
// Unpacking an uninitialized account state will fail
let mut account_state = ProgramAccountState::unpack(&account_data)?;
// Add the key value pair to the underlying BTreeMap
account_state.add(key, value)?;
// Finally, serialize back to the accounts data
ProgramAccountState::pack(account_state, &mut account_data)?;
Ok(())
}
How to deserialize account data on the client
Client들은 Program이 소유한 Account를 가지고 오기 위해 Solana를 호출할 수 있고, 이때 serialize 된 Data block은 반환 값의 일부입니다. Deserializing을 위해서는 Data block 배치를 알아야 합니다.
Account Data의 배치는 여기에 설명되어 있습니다.
import { serialize, deserialize, deserializeUnchecked } from "borsh";
import { Buffer } from "buffer";
import {
Keypair,
AccountMeta,
Connection,
LAMPORTS_PER_SOL,
PublicKey,
SystemProgram,
Transaction,
TransactionInstruction,
sendAndConfirmTransaction,
} from "@solana/web3.js";
// Flexible class that takes properties and imbues them
// to the object instance
class Assignable {
constructor(properties) {
Object.keys(properties).map((key) => {
return (this[key] = properties[key]);
});
}
}
export class AccoundData extends Assignable {}
const dataSchema = new Map([
[
AccoundData,
{
kind: "struct",
fields: [
["initialized", "u8"],
["tree_length", "u32"],
["map", { kind: "map", key: "string", value: "string" }],
],
},
],
]);
/**
* Fetch program account data
* @param {Connection} connection - Solana RPC connection
* @param {PublicKey} account - Public key for account whose data we want
* @return {Promise<AccoundData>} - Keypair
*/
export async function getAccountData(
connection: Connection,
account: PublicKey
): Promise<AccoundData> {
let nameAccount = await connection.getAccountInfo(account, "processed");
return deserializeUnchecked(dataSchema, AccoundData, nameAccount.data);
}
from borsh_construct import CStruct, U8, U32, HashMap, String
from solana.rpc.commitment import Confirmed
from solders.pubkey import Pubkey
from solana.rpc.api import Client
# Schema to deserialize program's account data
account_schema = CStruct(
"initialized" / U8,
"map_length" / U32,
"map" / HashMap(String, String)
)
def get_account_info(client: Client, account_pk: Pubkey):
"""Fetch account information from RPC, parse out the data and deserialize"""
res = client.get_account_info(account_pk, Confirmed, encoding='base64')
return account_schema.parse(res.value.data)
# Results in or similar
# => Container:
# => initialized = 1
# => map_length = 109
# => map = {'Happy': 'New Year!', 'newKey': 'A new value',
# => 'python key': 'python value', 'ts key': 'ts first value'}
use {
arrayref::*,
borsh::{BorshDeserialize, BorshSerialize},
std::{collections::BTreeMap, error::Error},
};
#[allow(clippy::ptr_offset_with_cast)]
pub fn unpack_from_slice(src: &[u8]) -> Result<(bool, BTreeMap<String, String>), Box<dyn Error>> {
let src = array_ref![src, 0, ACCOUNT_STATE_SPACE];
// Setup pointers to key areas of account state data
let (is_initialized_src, data_len_src, data_src) =
array_refs![src, INITIALIZED_BYTES, BTREE_LENGTH, BTREE_STORAGE];
let is_initialized = match is_initialized_src {
[0] => false,
[1] => true,
_ => {
return Err(Box::<dyn Error>::from(format!(
"unrecognized initialization flag \"{:?}\". in account",
is_initialized_src
)))
}
};
// Get current size of content in data area
let data_len = u32::from_le_bytes(*data_len_src) as usize;
// If emptry, create a default
if data_len == 0 {
Ok((is_initialized, BTreeMap::<String, String>::new()))
} else {
let data_dser = BTreeMap::<String, String>::try_from_slice(&data_src[0..data_len]).unwrap();
Ok((is_initialized, data_dser))
}
}
Common Solana TS/JS Mappings
Borsh Specification는 원시 타입과 복합 데이터 타입들을 위한 대부분의 맵핑을 포함하고 있습니다.
TS/JS와 Python에서의 핵심은 적절한 정의를 가지고 Serialize와 Deserialize가 각각의 input들을 생산하고 다룰 수 있게 Borsh 스키마를 생성하는 것입니다.
여기서는 원시 타입(numbers, strings)들과 복합 타입(fixed size arry, Map)들에 대한 serialization을 보여준다. 먼저 Typesecript과 Python 그러고 나서 대응되는 Deserialization을 Rust에서 보여줍니다.
#!/usr/bin/env node
import { serialize, deserialize, deserializeUnchecked } from "borsh";
import { Buffer } from "buffer";
import { expect } from "chai";
import { PublicKey, Struct } from "@solana/web3.js";
/**
* Primitive extends the Struct type from Solana Library
* for convenience of dynamic property setting
* @extends {Struct} Solana JS Struct class
*/
class Primitive extends Struct {
constructor(properties) {
super(properties);
}
}
/**
* Entry point for script *
*/
async function entry() {
// Emulate BTreeMap
let map = new Map();
map.set("cookbook", "recipe");
map.set("recipe", "ingredient");
// Setup a Primitive for all basic and a few
// compound types
const value = new Primitive({
U8: 255,
U16: 65535,
U32: 4294967295,
FIXED_STRING_ARRAY: ["hello", "world"],
FIXED_U8_ARRAY: [1, 2, 3, 4, 5],
MAP_STRING_STRING: map,
});
// Define our schema
const schema = new Map([
[
Primitive,
{
kind: "struct",
fields: [
["U8", "u8"],
["U16", "u16"],
["U32", "u32"],
["FIXED_STRING_ARRAY", ["string", 2]],
["FIXED_U8_ARRAY", ["u8", 5]],
[
"MAP_STRING_STRING",
{ kind: "map", key: "string", value: "string" },
],
],
},
],
]);
console.log("Value = ", value);
// Serialize then deserialize
const dser = Buffer.from(serialize(schema, value));
console.log(dser);
const newValue = deserialize(schema, Primitive, dser);
// Viola!
console.log("New value = ", newValue);
console.log("Fixed string array = ", newValue["FIXED_STRING_ARRAY"]);
console.log("Fixed u8 array = ", newValue["FIXED_U8_ARRAY"]);
console.log("Map = ", newValue["MAP_STRING_STRING"]);
}
entry();
from borsh_construct import U8, U16, U32, String, HashMap
# Schema to deserialize various types
primitive_schema = CStruct(
"U8" / U8,
"U16" / U16,
"U32" / U32,
"FIXED_STRING_ARRAY" / String[2],
"FIXED_U8_ARRAY" / U8[5],
"MAP_STRING_STRING" / HashMap(String, String)
)
def common():
mapping = {"cookbook": "recipe", "recipe": "ingredient"}
# Serialize
dser = primitive_schema.build({
'U8': 255,
'U16': 65535,
'U32': 4294967295,
"FIXED_STRING_ARRAY": ['hello', 'world'],
"FIXED_U8_ARRAY": [1, 2, 3, 4, 5],
"MAP_STRING_STRING": mapping})
print(dser)
# => b'\xff\xff\xff\xff\xff\xff\xff\x05\x00\x00\x00hello\x05\x00\x00\x00world\x01\x02\x03\x04\x05\x02\x00\x00\x00\x08\x00\x00\x00cookbook\x06\x00\x00\x00recipe\x06\x00\x00\x00recipe\n\x00\x00\x00ingredient'
# Deserialize
new_value = primitive_schema.parse(dser)
# Viola
print(new_value)
# => Container:
# => U8 = 255
# => U16 = 65535
# => U32 = 4294967295
# => FIXED_STRING_ARRAY = ListContainer:
# => hello
# => world
# => FIXED_U8_ARRAY = ListContainer:
# => 1
# => 2
# => 3
# => 4
# => 5
# => MAP_STRING_STRING = {'cookbook': 'recipe', 'recipe': 'ingredient'}
fn main() {}
#[cfg(test)]
mod tests {
use borsh::{BorshDeserialize, BorshSerialize};
use std::collections::BTreeMap;
#[test]
fn primitives() {
let prim = [
255u8, 255, 255, 255, 255, 255, 255, 5, 0, 0, 0, 104, 101, 108, 108, 111, 5, 0, 0, 0,
119, 111, 114, 108, 100, 1, 2, 3, 4, 5, 2, 0, 0, 0, 8, 0, 0, 0, 99, 111, 111, 107, 98,
111, 111, 107, 6, 0, 0, 0, 114, 101, 99, 105, 112, 101, 6, 0, 0, 0, 114, 101, 99, 105,
112, 101, 10, 0, 0, 0, 105, 110, 103, 114, 101, 100, 105, 101, 110, 116,
];
#[derive(BorshDeserialize, BorshSerialize, Debug)]
struct Primitive(
u8,
u16,
u32,
String,
String,
[u8; 5],
BTreeMap<String, String>,
);
let x = Primitive::try_from_slice(&prim).unwrap();
println!("{:?}", x);
}
}
Advanced Constructs
이전 예제들에서 간단한 Payload들을 생성하는 방법을 보여줬습니다. 때때로 Solana는 특정 타입들에 대해서 throw a fastball 합니다. 이번 섹션에서는 TS/JS 와 Rust 사이에서 그것들을 다루기 위한 적절한 맵핑을 보여줍니다.
COption
#!/usr/bin/env node
import { serialize, deserialize, deserializeUnchecked } from "borsh";
import { Buffer } from "buffer";
import { PublicKey, Struct } from "@solana/web3.js";
/**
* COption is meant to mirror the
* `solana_program::options::COption`
*
* This type stores a u32 flag (0 | 1) indicating
* the presence or not of a underlying PublicKey
*
* Similar to a Rust Option
* @extends {Struct} Solana JS Struct class
* @implements {encode}
*/
class COption extends Struct {
constructor(properties) {
super(properties);
}
/**
* Creates a COption from a PublicKey
* @param {PublicKey?} akey
* @returns {COption} COption
*/
static fromPublicKey(akey?: PublicKey): COption {
if (akey == undefined) {
return new COption({
noneOrSome: 0,
pubKeyBuffer: new Uint8Array(32),
});
} else {
return new COption({
noneOrSome: 1,
pubKeyBuffer: akey.toBytes(),
});
}
}
/**
* @returns {Buffer} Serialized COption (this)
*/
encode(): Buffer {
return Buffer.from(serialize(COPTIONSCHEMA, this));
}
/**
* Safe deserializes a borsh serialized buffer to a COption
* @param {Buffer} data - Buffer containing borsh serialized data
* @returns {COption} COption object
*/
static decode(data): COption {
return deserialize(COPTIONSCHEMA, this, data);
}
/**
* Unsafe deserializes a borsh serialized buffer to a COption
* @param {Buffer} data - Buffer containing borsh serialized data
* @returns {COption} COption object
*/
static decodeUnchecked(data): COption {
return deserializeUnchecked(COPTIONSCHEMA, this, data);
}
}
/**
* Defines the layout of the COption object
* for serializing/deserializing
* @type {Map}
*/
const COPTIONSCHEMA = new Map([
[
COption,
{
kind: "struct",
fields: [
["noneOrSome", "u32"],
["pubKeyBuffer", [32]],
],
},
],
]);
/**
* Entry point for script *
*/
async function entry(indata?: PublicKey) {
// If we get a PublicKey
if (indata) {
// Construct COption instance
const coption = COption.fromPublicKey(indata);
console.log("Testing COption with " + indata.toBase58());
// Serialize it
let copt_ser = coption.encode();
console.log("copt_ser ", copt_ser);
// Deserialize it
const tdone = COption.decode(copt_ser);
console.log(tdone);
// Validate contains PublicKey
if (tdone["noneOrSome"] == 1) {
console.log("pubkey: " + new PublicKey(tdone["pubKeyBuffer"]).toBase58());
}
/*
Output:
Testing COption with A94wMjV54C8f8wn7zL8TxNCdNiGoq7XSN7vWGrtd4vwU
copt_ser Buffer(36) [1, 0, 0, 0, 135, 202, 71, 214, 68, 105, 98, 176, 211, 130, 105, 2, 55, 187, 86, 186, 109, 176, 80, 208, 77, 100, 221, 101, 20, 203, 149, 166, 96, 171, 119, 35, buffer: ArrayBuffer(8192), byteLength: 36, byteOffset: 1064, length: 36]
COption {noneOrSome: 1, pubKeyBuffer: Uint8Array(32)}
pubkey: A94wMjV54C8f8wn7zL8TxNCdNiGoq7XSN7vWGrtd4vwU
*/
} else {
console.log("Testing COption with null");
// Construct COption instance
const coption = COption.fromPublicKey();
// Serialize it
const copt_ser = coption.encode();
console.log(copt_ser);
// Deserialize it
const tdone1 = COption.decode(copt_ser);
console.log(tdone1);
// Validate does NOT contains PublicKey
if (tdone1["noneOrSome"] == 1) {
throw Error("Expected no public key");
} else console.log("pubkey: null");
/*
Output:
Testing COption with null
Buffer(36)[0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, buffer: ArrayBuffer(8192), byteLength: 36, byteOffset: 2272, length: 36]
COption { noneOrSome: 0, pubKeyBuffer: Uint8Array(32) }
pubkey: null
*/
}
}
// Test with PublicKey
entry(new PublicKey("A94wMjV54C8f8wn7zL8TxNCdNiGoq7XSN7vWGrtd4vwU"));
console.log("");
// Test without PublicKey
entry();
fn main() {}
#[cfg(test)]
mod tests {
use arrayref::{array_ref, array_refs};
use solana_program::{program_option::COption, pubkey::Pubkey};
/// Emulate how COption is 'unpacked'
fn deser_option(data: &[u8]) -> COption<Pubkey> {
// Map the data block
let ain = array_ref![data, 0, 36];
let (base, key) = array_refs![ain, 4, 32];
// Get the SOME or NONE u32
let nos = u32::from_le_bytes(*base);
// Construct the COption accordingly
let opt: COption<Pubkey> = if nos == 0 {
COption::None
} else {
COption::Some(Pubkey::new_from_array(*key))
};
opt
}
#[test]
fn btest() {
// From Typescript with borsh'ing
let copt = [
1u8, 0, 0, 0, 135, 202, 71, 214, 68, 105, 98, 176, 211, 130, 105, 2, 55, 187, 86, 186,
109, 176, 80, 208, 77, 100, 221, 101, 20, 203, 149, 166, 96, 171, 119, 35,
];
// Emulate COption deserialization
let coption = deser_option(&copt);
if coption.is_some() {
println!("{:?}", coption.expect("Uh-oh"));
}
// As a Borsh Struct
#[derive(BorshDeserialize, BorshSerialize, Debug)]
struct TOption(u32, [u8; 32]);
let toption = TOption::try_from_slice(&copt).unwrap();
let pkey = Pubkey::new_from_array(toption.1);
println!("Some = {:?} Pubkey = {:?}", toption.0, pkey);
}
}