SHA256
Добавить кошелек блокчейна и озвучивание агента
This commit is contained in:
@@ -0,0 +1,489 @@
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import { importPkcs8Ed25519, sha256Bytes, signBytes } from './crypto-utils.js';
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import { extractSeed32FromPkcs8B64 } from './device-key-utils.js';
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import { SHINE_PAYMENTS_PROGRAM_ID, SHINE_USERS_ECONOMY_CONFIG_SEED, SHINE_USERS_PROGRAM_ID } from '../solana-programs.js';
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const MAGIC = 'SHiNE';
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const LAST_BLOCK_STATE_PREFIX = 'SHiNE_LAST_BLOCK';
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const SHINE_PAYMENTS_INFLOW_VAULT_SEED = 'shine_payments_inflow_vault';
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const LIMIT_STEP = 10_000n;
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const UPDATE_USER_PDA_DISCRIMINATOR = new Uint8Array([42, 133, 114, 232, 38, 245, 167, 234]);
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const ED25519_PROGRAM_ID = 'Ed25519SigVerify111111111111111111111111111';
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const SYSVAR_INSTRUCTIONS_ID = 'Sysvar1nstructions1111111111111111111111111';
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const BLOCK_TYPE_ROOT_KEY = 1;
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const BLOCK_TYPE_DEVICE_KEY = 2;
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const BLOCK_TYPE_BLOCKCHAIN_REGISTRY = 3;
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const BLOCK_TYPE_SERVER_PROFILE = 30;
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const BLOCK_TYPE_ACCESS_SERVERS = 40;
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const BLOCK_TYPE_TRUSTED_STATE = 50;
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let solanaLibPromise = null;
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function loadSolanaLib() {
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if (!solanaLibPromise) solanaLibPromise = import('https://esm.sh/@solana/web3.js@1.98.4?bundle');
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return solanaLibPromise;
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}
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function pushU32LE(buf, v) {
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const n = Number(v) >>> 0;
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buf.push(n & 0xff, (n >>> 8) & 0xff, (n >>> 16) & 0xff, (n >>> 24) & 0xff);
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}
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function pushU64LE(buf, v) {
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const b = BigInt(v);
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const lo = Number(b & 0xffffffffn) >>> 0;
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const hi = Number((b >> 32n) & 0xffffffffn) >>> 0;
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pushU32LE(buf, lo);
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pushU32LE(buf, hi);
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}
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function pushStrU8(buf, value) {
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const bytes = new TextEncoder().encode(String(value || ''));
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if (bytes.length > 255) throw new Error('Слишком длинная строка для формата U8');
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buf.push(bytes.length);
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for (const x of bytes) buf.push(x);
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}
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function pushStrU32(buf, value) {
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const bytes = new TextEncoder().encode(String(value || ''));
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pushU32LE(buf, bytes.length);
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for (const x of bytes) buf.push(x);
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}
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function pushVecU8(buf, bytes) {
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const data = bytes || new Uint8Array();
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pushU32LE(buf, data.length);
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for (const x of data) buf.push(x);
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}
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function pushVecStrU32(buf, values) {
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const arr = Array.isArray(values) ? values : [];
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pushU32LE(buf, arr.length);
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for (const s of arr) pushStrU32(buf, s);
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}
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function makeReader(bytes) {
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let o = 0;
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const dv = new DataView(bytes.buffer, bytes.byteOffset, bytes.byteLength);
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const ensure = (n) => { if (o + n > bytes.length) throw new Error('Повреждённый формат PDA'); };
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const readU8 = () => { ensure(1); const v = dv.getUint8(o); o += 1; return v; };
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const readU16 = () => { ensure(2); const v = dv.getUint16(o, true); o += 2; return v; };
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const readU32 = () => { ensure(4); const v = dv.getUint32(o, true); o += 4; return v; };
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const readU64 = () => { ensure(8); const v = dv.getBigUint64(o, true); o += 8; return v; };
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const readBytes = (n) => { ensure(n); const out = bytes.slice(o, o + n); o += n; return out; };
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const readStrU8 = () => {
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const len = readU8();
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return new TextDecoder().decode(readBytes(len));
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};
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return { readU8, readU16, readU32, readU64, readBytes, readStrU8 };
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}
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function parseShineUserPda(dataBytes) {
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const r = makeReader(dataBytes);
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const magic = new TextDecoder().decode(r.readBytes(5));
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if (magic !== MAGIC) throw new Error('Некорректный формат PDA');
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r.readU8();
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r.readU8();
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r.readU16();
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const createdAtMs = r.readU64();
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const updatedAtMs = r.readU64();
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const recordNumber = r.readU32();
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const prevRecordHash = r.readBytes(32);
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const login = r.readStrU8();
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const blocksCount = r.readU8();
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const out = {
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createdAtMs,
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updatedAtMs,
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recordNumber,
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prevRecordHash,
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login,
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rootKey: null,
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deviceKey: null,
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blockchain: null,
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isServer: false,
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serverKey: new Uint8Array(32),
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serverAddress: '',
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syncServers: [],
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accessServers: [],
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trustedCount: 0,
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};
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for (let i = 0; i < blocksCount; i += 1) {
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const type = r.readU8();
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r.readU8();
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if (type === BLOCK_TYPE_ROOT_KEY) { out.rootKey = r.readBytes(32); continue; }
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if (type === BLOCK_TYPE_DEVICE_KEY) { out.deviceKey = r.readBytes(32); continue; }
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if (type === BLOCK_TYPE_BLOCKCHAIN_REGISTRY) {
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const count = r.readU8();
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for (let j = 0; j < count; j += 1) {
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const blockchainType = r.readU8();
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const blockchainName = r.readStrU8();
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const blockchainPublicKey = r.readBytes(32);
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const paidLimitBytes = r.readU64();
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const usedBytes = r.readU64();
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const lastBlockNumber = r.readU32();
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const lastBlockHash = r.readBytes(32);
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const lastBlockSignature = r.readBytes(64);
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const arPresent = r.readU8();
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const arweaveTxId = arPresent ? r.readStrU8() : '';
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if (!out.blockchain) {
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out.blockchain = {
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blockchainType,
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blockchainName,
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blockchainPublicKey,
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paidLimitBytes,
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usedBytes,
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lastBlockNumber,
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lastBlockHash,
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lastBlockSignature,
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arweaveTxId,
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};
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}
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}
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continue;
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}
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if (type === BLOCK_TYPE_SERVER_PROFILE) {
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out.isServer = r.readU8() === 1;
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out.serverKey = r.readBytes(32);
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out.serverAddress = r.readStrU8();
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const syncCount = r.readU8();
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out.syncServers = [];
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for (let k = 0; k < syncCount; k += 1) out.syncServers.push(r.readStrU8());
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continue;
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}
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if (type === BLOCK_TYPE_ACCESS_SERVERS) {
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const accessCount = r.readU8();
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out.accessServers = [];
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for (let k = 0; k < accessCount; k += 1) out.accessServers.push(r.readStrU8());
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continue;
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}
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if (type === BLOCK_TYPE_TRUSTED_STATE) {
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out.trustedCount = r.readU8();
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continue;
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}
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throw new Error(`Неизвестный блок PDA: ${type}`);
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}
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if (!out.rootKey || !out.deviceKey || !out.blockchain) {
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throw new Error('В PDA отсутствуют обязательные блоки');
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}
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return out;
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}
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function serializeUnsignedRecordFromState(stateLike) {
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const buf = [];
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const login = String(stateLike.login || '');
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const bch = stateLike.blockchain;
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buf.push(0x53, 0x48, 0x69, 0x4e, 0x45, 1, 0, 0, 0);
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pushU64LE(buf, stateLike.createdAtMs);
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pushU64LE(buf, stateLike.updatedAtMs);
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pushU32LE(buf, stateLike.recordNumber);
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for (const x of stateLike.prevRecordHash) buf.push(x);
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pushStrU8(buf, login);
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const blocksCount = stateLike.isServer ? 6 : 5;
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buf.push(blocksCount);
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buf.push(BLOCK_TYPE_ROOT_KEY, 0);
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for (const x of stateLike.rootKey) buf.push(x);
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buf.push(BLOCK_TYPE_DEVICE_KEY, 0);
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for (const x of stateLike.deviceKey) buf.push(x);
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buf.push(BLOCK_TYPE_BLOCKCHAIN_REGISTRY, 0, 1);
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buf.push(bch.blockchainType);
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pushStrU8(buf, bch.blockchainName);
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for (const x of bch.blockchainPublicKey) buf.push(x);
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pushU64LE(buf, bch.paidLimitBytes);
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pushU64LE(buf, bch.usedBytes);
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pushU32LE(buf, bch.lastBlockNumber);
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for (const x of bch.lastBlockHash) buf.push(x);
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for (const x of bch.lastBlockSignature) buf.push(x);
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if (String(bch.arweaveTxId || '').trim()) {
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buf.push(1);
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pushStrU8(buf, bch.arweaveTxId);
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} else {
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buf.push(0);
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}
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if (stateLike.isServer) {
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buf.push(BLOCK_TYPE_SERVER_PROFILE, 0, 1);
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for (const x of stateLike.serverKey) buf.push(x);
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pushStrU8(buf, stateLike.serverAddress);
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const sync = Array.isArray(stateLike.syncServers) ? stateLike.syncServers : [];
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buf.push(sync.length & 0xff);
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for (const s of sync) pushStrU8(buf, s);
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}
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buf.push(BLOCK_TYPE_ACCESS_SERVERS, 0);
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const access = Array.isArray(stateLike.accessServers) ? stateLike.accessServers : [];
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buf.push(access.length & 0xff);
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for (const s of access) pushStrU8(buf, s);
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buf.push(BLOCK_TYPE_TRUSTED_STATE, 0, Number(stateLike.trustedCount || 0) & 0xff);
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const recLen = buf.length + 64;
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buf[7] = recLen & 0xff;
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buf[8] = (recLen >>> 8) & 0xff;
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return new Uint8Array(buf);
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}
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function buildLastBlockStateBytes(login, blockchainName, lastBlockNumber, lastBlockHash32, usedBytes) {
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const buf = [];
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for (const x of new TextEncoder().encode(LAST_BLOCK_STATE_PREFIX)) buf.push(x);
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pushStrU8(buf, login);
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pushStrU8(buf, blockchainName);
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pushU32LE(buf, lastBlockNumber);
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for (const x of lastBlockHash32) buf.push(x);
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pushU64LE(buf, usedBytes);
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return new Uint8Array(buf);
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}
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function buildEd25519IxData(sig64, pubkey32, msgHash32) {
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const sigOff = 16;
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const pkOff = sigOff + 64;
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const msgOff = pkOff + 32;
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const data = new Uint8Array(msgOff + 32);
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const v = new DataView(data.buffer);
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data[0] = 1;
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data[1] = 0;
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v.setUint16(2, sigOff, true);
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v.setUint16(4, 0xffff, true);
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v.setUint16(6, pkOff, true);
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v.setUint16(8, 0xffff, true);
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v.setUint16(10, msgOff, true);
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v.setUint16(12, 32, true);
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v.setUint16(14, 0xffff, true);
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data.set(sig64, sigOff);
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data.set(pubkey32, pkOff);
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data.set(msgHash32, msgOff);
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return data;
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}
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function serializeUpdateUserPdaArgs(args) {
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const b = [];
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for (const x of UPDATE_USER_PDA_DISCRIMINATOR) b.push(x);
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pushStrU32(b, args.login);
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for (const x of args.rootKey32) b.push(x);
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pushU64LE(b, args.createdAtMs);
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pushU64LE(b, args.updatedAtMs);
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pushU32LE(b, args.version);
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pushVecU8(b, args.prevHash32);
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pushU64LE(b, args.additionalLimitBytes);
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for (const x of args.deviceKey32) b.push(x);
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for (const x of args.blockchainPublicKey32) b.push(x);
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pushStrU32(b, args.blockchainName);
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pushU64LE(b, args.usedBytes);
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pushU32LE(b, args.lastBlockNumber);
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pushVecU8(b, args.lastBlockHash32);
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pushVecU8(b, args.lastBlockSignature64);
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pushStrU32(b, args.arweaveTxId);
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b.push(args.isServer ? 1 : 0);
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for (const x of args.serverKey32) b.push(x);
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pushStrU32(b, args.serverAddress);
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pushVecStrU32(b, args.syncServers);
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pushVecStrU32(b, args.accessServers);
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b.push(Number(args.trustedCount || 0) & 0xff);
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pushVecU8(b, args.rootSignature64);
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return new Uint8Array(b);
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}
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function parseUsersEconomyConfig(dataBytes) {
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const v = new DataView(dataBytes.buffer, dataBytes.byteOffset, dataBytes.byteLength);
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if (dataBytes.byteLength < 25) throw new Error('Некорректный economy config');
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return {
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version: v.getUint8(0),
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registrationFeeLamports: v.getBigUint64(1, true),
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lamportsPerLimitStep: v.getBigUint64(9, true),
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startBonusLimit: v.getBigUint64(17, true),
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};
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}
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export async function getShineUsersEconomyConfig({ solanaEndpoint }) {
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const endpoint = String(solanaEndpoint || '').trim();
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if (!endpoint) throw new Error('Не указан Solana RPC endpoint');
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const solana = await loadSolanaLib();
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const connection = new solana.Connection(endpoint, 'confirmed');
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const usersProgram = new solana.PublicKey(SHINE_USERS_PROGRAM_ID);
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const [economyPda] = solana.PublicKey.findProgramAddressSync(
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[new TextEncoder().encode(SHINE_USERS_ECONOMY_CONFIG_SEED)],
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usersProgram,
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);
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const ai = await connection.getAccountInfo(economyPda, 'confirmed');
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if (!ai?.data) throw new Error('Economy config PDA не найден');
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const economy = parseUsersEconomyConfig(ai.data);
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return { endpoint, economyPda: economyPda.toBase58(), ...economy };
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}
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export async function getShineBlockchainUsage({ login, solanaEndpoint }) {
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const cleanLogin = String(login || '').trim().toLowerCase();
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const endpoint = String(solanaEndpoint || '').trim();
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if (!cleanLogin) throw new Error('Не указан логин');
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if (!endpoint) throw new Error('Не указан Solana RPC endpoint');
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const solana = await loadSolanaLib();
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const connection = new solana.Connection(endpoint, 'confirmed');
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const usersProgram = new solana.PublicKey(SHINE_USERS_PROGRAM_ID);
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const enc = new TextEncoder();
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const [userPda] = solana.PublicKey.findProgramAddressSync([enc.encode('login='), enc.encode(cleanLogin)], usersProgram);
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const ai = await connection.getAccountInfo(userPda, 'confirmed');
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if (!ai?.data) throw new Error('Пользовательский PDA не найден в Solana');
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const parsed = parseShineUserPda(ai.data);
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const bch = parsed.blockchain;
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const leftBytes = bch.paidLimitBytes > bch.usedBytes ? (bch.paidLimitBytes - bch.usedBytes) : 0n;
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return {
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endpoint,
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userPda: userPda.toBase58(),
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login: parsed.login,
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recordNumber: parsed.recordNumber,
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paidLimitBytes: bch.paidLimitBytes,
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usedBytes: bch.usedBytes,
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leftBytes,
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lastBlockNumber: bch.lastBlockNumber,
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lastBlockHashHex: Array.from(bch.lastBlockHash).map((x) => x.toString(16).padStart(2, '0')).join(''),
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};
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}
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export async function updateShineUserPdaOnSolana({
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login,
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solanaEndpoint,
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rootPrivatePkcs8B64,
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devicePrivatePkcs8B64,
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blockchainPrivatePkcs8B64,
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additionalLimitBytes = 0n,
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nextUsedBytes,
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nextLastBlockNumber,
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nextLastBlockHashHex,
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}) {
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const cleanLogin = String(login || '').trim().toLowerCase();
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if (!cleanLogin) throw new Error('Не указан логин');
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const endpoint = String(solanaEndpoint || '').trim();
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if (!endpoint) throw new Error('Не указан Solana RPC endpoint');
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const solana = await loadSolanaLib();
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const connection = new solana.Connection(endpoint, 'confirmed');
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const usersProgram = new solana.PublicKey(SHINE_USERS_PROGRAM_ID);
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const paymentsProgram = new solana.PublicKey(SHINE_PAYMENTS_PROGRAM_ID);
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const ed25519Program = new solana.PublicKey(ED25519_PROGRAM_ID);
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const sysvarInstructions = new solana.PublicKey(SYSVAR_INSTRUCTIONS_ID);
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const enc = new TextEncoder();
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const [userPda] = solana.PublicKey.findProgramAddressSync([enc.encode('login='), enc.encode(cleanLogin)], usersProgram);
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const [economyPda] = solana.PublicKey.findProgramAddressSync([enc.encode(SHINE_USERS_ECONOMY_CONFIG_SEED)], usersProgram);
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const [inflowVault] = solana.PublicKey.findProgramAddressSync([enc.encode(SHINE_PAYMENTS_INFLOW_VAULT_SEED)], paymentsProgram);
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const userAi = await connection.getAccountInfo(userPda, 'confirmed');
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if (!userAi?.data) throw new Error('PDA пользователя не найден');
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const current = parseShineUserPda(userAi.data);
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const currentBch = current.blockchain;
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const effectiveUsed = nextUsedBytes == null ? currentBch.usedBytes : BigInt(nextUsedBytes);
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const effectiveLastNum = nextLastBlockNumber == null ? currentBch.lastBlockNumber : Number(nextLastBlockNumber);
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const effectiveLastHash = nextLastBlockHashHex
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? Uint8Array.from(String(nextLastBlockHashHex).match(/.{1,2}/g).map((h) => parseInt(h, 16)))
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: currentBch.lastBlockHash;
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if (effectiveLastHash.length !== 32) throw new Error('last block hash должен быть 32 байта');
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const addLimit = BigInt(additionalLimitBytes || 0);
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if (addLimit < 0n) throw new Error('Нельзя уменьшать лимит');
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if (addLimit % LIMIT_STEP !== 0n) throw new Error(`Лимит можно увеличивать только шагом ${LIMIT_STEP}`);
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const rootPriv = await importPkcs8Ed25519(rootPrivatePkcs8B64);
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const bchPriv = await importPkcs8Ed25519(blockchainPrivatePkcs8B64);
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const deviceSeed32 = extractSeed32FromPkcs8B64(devicePrivatePkcs8B64);
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const deviceKeypair = solana.Keypair.fromSeed(deviceSeed32);
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const updatedAtMs = BigInt(Date.now());
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const newPaid = currentBch.paidLimitBytes + addLimit;
|
||||
const newRecordNumber = current.recordNumber + 1;
|
||||
const prevHash = await sha256Bytes(serializeUnsignedRecordFromState(current));
|
||||
|
||||
const lastBlockStateBytes = buildLastBlockStateBytes(cleanLogin, currentBch.blockchainName, effectiveLastNum, effectiveLastHash, effectiveUsed);
|
||||
const lastBlockStateHash = await sha256Bytes(lastBlockStateBytes);
|
||||
const lastBlockSig64 = await signBytes(bchPriv, lastBlockStateHash);
|
||||
|
||||
const nextState = {
|
||||
...current,
|
||||
updatedAtMs,
|
||||
recordNumber: newRecordNumber,
|
||||
prevRecordHash: prevHash,
|
||||
blockchain: {
|
||||
...currentBch,
|
||||
paidLimitBytes: newPaid,
|
||||
usedBytes: effectiveUsed,
|
||||
lastBlockNumber: effectiveLastNum,
|
||||
lastBlockHash: effectiveLastHash,
|
||||
lastBlockSignature: lastBlockSig64,
|
||||
},
|
||||
};
|
||||
const unsignedNext = serializeUnsignedRecordFromState(nextState);
|
||||
const unsignedNextHash = await sha256Bytes(unsignedNext);
|
||||
const rootSig64 = await signBytes(rootPriv, unsignedNextHash);
|
||||
|
||||
const ixData = serializeUpdateUserPdaArgs({
|
||||
login: cleanLogin,
|
||||
rootKey32: current.rootKey,
|
||||
createdAtMs: current.createdAtMs,
|
||||
updatedAtMs,
|
||||
version: newRecordNumber,
|
||||
prevHash32: prevHash,
|
||||
additionalLimitBytes: addLimit,
|
||||
deviceKey32: current.deviceKey,
|
||||
blockchainPublicKey32: currentBch.blockchainPublicKey,
|
||||
blockchainName: currentBch.blockchainName,
|
||||
usedBytes: effectiveUsed,
|
||||
lastBlockNumber: effectiveLastNum,
|
||||
lastBlockHash32: effectiveLastHash,
|
||||
lastBlockSignature64: lastBlockSig64,
|
||||
arweaveTxId: currentBch.arweaveTxId,
|
||||
isServer: current.isServer,
|
||||
serverKey32: current.serverKey,
|
||||
serverAddress: current.serverAddress,
|
||||
syncServers: current.syncServers,
|
||||
accessServers: current.accessServers,
|
||||
trustedCount: current.trustedCount,
|
||||
rootSignature64: rootSig64,
|
||||
});
|
||||
|
||||
const edIxRoot = new solana.TransactionInstruction({
|
||||
programId: ed25519Program,
|
||||
keys: [],
|
||||
data: buildEd25519IxData(rootSig64, current.rootKey, unsignedNextHash),
|
||||
});
|
||||
const edIxBch = new solana.TransactionInstruction({
|
||||
programId: ed25519Program,
|
||||
keys: [],
|
||||
data: buildEd25519IxData(lastBlockSig64, currentBch.blockchainPublicKey, lastBlockStateHash),
|
||||
});
|
||||
const updIx = new solana.TransactionInstruction({
|
||||
programId: usersProgram,
|
||||
keys: [
|
||||
{ pubkey: deviceKeypair.publicKey, isSigner: true, isWritable: true },
|
||||
{ pubkey: userPda, isSigner: false, isWritable: true },
|
||||
{ pubkey: solana.SystemProgram.programId, isSigner: false, isWritable: false },
|
||||
{ pubkey: inflowVault, isSigner: false, isWritable: true },
|
||||
{ pubkey: sysvarInstructions, isSigner: false, isWritable: false },
|
||||
{ pubkey: economyPda, isSigner: false, isWritable: false },
|
||||
],
|
||||
data: ixData,
|
||||
});
|
||||
|
||||
const signature = await solana.sendAndConfirmTransaction(
|
||||
connection,
|
||||
new solana.Transaction().add(edIxRoot, edIxBch, updIx),
|
||||
[deviceKeypair],
|
||||
{ commitment: 'confirmed' },
|
||||
);
|
||||
|
||||
return {
|
||||
signature,
|
||||
userPda: userPda.toBase58(),
|
||||
paidLimitBytes: newPaid,
|
||||
usedBytes: effectiveUsed,
|
||||
leftBytes: newPaid > effectiveUsed ? (newPaid - effectiveUsed) : 0n,
|
||||
lastBlockNumber: effectiveLastNum,
|
||||
lastBlockHashHex: Array.from(effectiveLastHash).map((x) => x.toString(16).padStart(2, '0')).join(''),
|
||||
};
|
||||
}
|
||||
|
||||
export function calcLimitTopupPriceLamports(additionalLimitBytes, lamportsPerLimitStep) {
|
||||
const add = BigInt(additionalLimitBytes || 0);
|
||||
const pricePerStep = BigInt(lamportsPerLimitStep || 0);
|
||||
if (add < 0n) throw new Error('Некорректный размер увеличения лимита');
|
||||
if (add % LIMIT_STEP !== 0n) throw new Error(`Увеличение лимита должно быть кратно ${LIMIT_STEP} байт`);
|
||||
return (add / LIMIT_STEP) * pricePerStep;
|
||||
}
|
||||
|
||||
export function getLimitStepBytes() {
|
||||
return LIMIT_STEP;
|
||||
}
|
||||
Reference in New Issue
Block a user