Serialisasi Data
Ketika kita berbicara tentang serialisasi, yang kita maksud adalah serialisasi data dan juga deserialisasi data.
Serialisasi berperan di beberapa titik sepanjang lifecycle akun program dan program Solana:
- Serialisasi data instruksi ke klien
- Deserialisasi data instruksi pada program
- Serialisasi data Akun pada program
- Deserialisasi Data Akun pada klien
Penting bahwa semua tindakan di atas didukung oleh pendekatan serialisasi yang sama. Snippet yang dimasukkan disini mendemonstrasikan serialisasi menggunakan Borsh.
Contoh dalam sisa dokumen ini adalah kutipan yang diambil dari Template Program CLI Solana
Persiapan untuk Borsh Serialization
Library untuk Borsh harus disiapkan dalam program Rust, klien Rust, Node dan/atau klien Python.
[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
Cara serialize data instruksi pada klien
Jika Anda membuat serialisasi data instruksi yang keluar untuk dikirim ke suatu program, itu harus mencerminkan bagaimana program melakukan deserialisasi data instruksi yang masuk.
Dalam template ini, blok data instruksi adalah array serial yang berisi, dengan contoh:
Instruksi (Variant index) | Serialized Key | Serialized Value |
---|---|---|
Initialize (0) | tidak berlaku untuk instruksi | tidak berlaku untuk instruksi |
Mint (1) | "foo" | "bar" |
Transfer (2) | "foo" | tidak berlaku untuk instruksi |
Burn (2) | "foo" | tidak berlaku untuk instruksi |
Dalam contoh berikut, kita menganggap akun milik program telah diinisialisasi
// 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)
}
Cara deserialisasi data instruksi pada 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()),
}
}
}
Cara serialisasi data akun pada program
Blok data akun program (dari contoh repo) ditata sebagai
Byte 0 | Byte 1-4 | Sisa Byte hingga 1019 |
---|---|---|
Initlialized flag | panjang dari BTreeMap yang telah di serialize | BTreeMap (tempat key value pair disimpan) |
Pack
Sepatah kata tentang sifat Pack
Sifat dari Pack memudahkan untuk menyembunyikan detail akan serialisasi/deserialisasi data akun dari pemrosesan instruksi Program inti Anda. Jadi daripada meletakkan semua serialisasi/deserialisasi masuk ke kode pemrosesan program, Pack melakukan encapsulate detilnya di dalam (3) fungsi:
unpack_unchecked
- Memungkinkan Anda untuk deserialize akun tanpa memeriksa apakah akun telah diinisialisasi. Ini berguna ketika Anda sedang memproses Initialization Function (indeks varian 0)unpack
- Memanggil implementasi Pack Anda yaituunpack_from_slice
dan memeriksa apakah akun telah diinisialisasi.pack
- Memanggil implementasi Pack Anda yaitupack_into_slice
Berikut adalah implementasi sifat Pack untuk program sampel kita. Ini diikuti dengan yang pengolahan data akun yang sebenarnya menggunakan borsh.
//! @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),
}
}
}
Serialisasi/Deserialisasi
Untuk menyelesaikan serialisasi dan deserialisasi:
sol_template_shared::pack_into_slice
- Di mana serialisasi sebenarnya terjadisol_template_shared::unpack_from_slice
- Di mana deserialisasi sebenarnya terjadi
Perhatikan bahwa berikut ini kita memiliki partisi u32
(4 byte) dalam layout data untuk BTREE_LENGTH
sebelum BTREE_STORAGE
. Ini karena borsh, selama deserialisasi, memeriksa apakah panjang slice yang Anda deserialize sesuai dengan jumlah data yang dibacanya sebelum melakukan rekombinasi objek penerima. Pendekatan yang ditunjukkan di bawah ini pertama-tama membaca BTREE_LENGTH
untuk mendapatkan ukuran slice
dari pointer BTREE_STORAGE
.
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))
}
}
Penggunaan
Contoh berikut menggabungkan semuanya dan menunjukkan bagaimana program berinteraksi dengan ProgramAccountState
yang merangkum initialization flag serta BTreeMap
yang menjadi dasar untuk key/value pair kita.
Pertama ketika kita ingin menginisialisasi akun baru:
/// 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(())
}
Sekarang kita dapat mengoperasikan instruksi kita yang lain seperti yang ditunjukkan berikut merupakan proses minting key/value pair yang kita demonstrasikan di atas saat mengirim instruksi dari klien:
/// 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(())
}
Cara deserialisasi data akun pada klien
Klien dapat memanggil Solana untuk mengambil akun milik program, di mana serialisasi data blok adalah bagian dari data yang diambil. Deserialisasi membutuhkan pengetahuan akan layout dari blok data.
Layout dari akun data akun dijelaskan Di Sini
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))
}
}
Pemetaan Solana TS/JS Umum
Spesifikasi Borsh berisi sebagian besar pemetaan untuk tipe data yang primitive dan compound.
Kunci untuk TS/JS dan Python adalah membuat Skema Borsh dengan definisi yang tepat sehingga serialisasi dan deserialize dapat menghasilkan atau menjalankan input masing-masing yang bersesuaian.
Di sini kita mendemonstrasikan serialisasi dari tipe data primitive (angka, string) dan compound (array berukuran tetap, Map) pertama di TypeScript, lalu di Python dan kemudian deserialisasi yang ekuivalen di sisi Rust:
#!/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);
}
}
Metode Lanjutan
Kita telah menunjukkan cara membuat Payload sederhana dalam contoh sebelumnya. Kadang-kadang Solana melempar fastball pada tipe tertentu. Bagian ini akan menunjukkan pemetaan yang tepat antara TS/JS dan Rust untuk menanganinya
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);
}
}