import { WsJsonClient } from './ws-client.js'; import { base64ToBytes, bytesToBase64, deriveEd25519FromPassword, exportEd25519PublicKeyB64, exportPkcs8B64, generateEd25519Pair, importPkcs8Ed25519, randomBase64, sha256Bytes, signBytes, signBase64, utf8Bytes, } from './crypto-utils.js'; import { channelNameErrorText, normalizeChannelDisplayName, toCanonicalChannelSlug, validateChannelDisplayName, } from './channel-name-rules.js'; import { loadEncryptedUserSecrets, loadSessionMaterial, saveEncryptedUserSecrets, saveSessionMaterial, } from './key-vault.js'; const BCH_SUFFIX = '001'; const ZERO64 = '0'.repeat(64); const ZERO_HASH_HEX = ZERO64; const MSG_TYPE_TECH = 0; const MSG_TYPE_TEXT = 1; const MSG_TYPE_REACTION = 2; const MSG_TYPE_CONNECTION = 3; const MSG_SUBTYPE_TECH_CREATE_CHANNEL = 1; const MSG_SUBTYPE_TEXT_POST = 10; const MSG_SUBTYPE_TEXT_REPLY = 20; const MSG_SUBTYPE_REACTION_LIKE = 1; const MSG_SUBTYPE_REACTION_UNLIKE = 2; const MSG_SUBTYPE_CONNECTION_FOLLOW = 30; const MSG_SUBTYPE_CONNECTION_UNFOLLOW = 31; const CREATE_CHANNEL_BODY_VERSION = 3; const CHANNEL_TYPE_STORIES = 0; const CHANNEL_TYPE_PUBLIC = 1; const CHANNEL_TYPE_PERSONAL = 100; const CHANNEL_TYPE_GROUP = 200; const CHANNEL_TYPE_VERSION_DEFAULT = 1; const CONNECTION_SUBTYPES = Object.freeze({ // Legacy alias: friend == close_friend. Оба ключа ведут на один и тот же код 10/11. close_friend: { on: 10, off: 11 }, friend: { on: 10, off: 11 }, contact: { on: 20, off: 21 }, follow: { on: 30, off: 31 }, spouse: { on: 40, off: 41 }, parent: { on: 50, off: 51 }, child: { on: 52, off: 53 }, sibling: { on: 54, off: 55 }, }); function normalizeServerUrl(url) { const value = (url || '').trim(); if (!value) return 'wss://shineup.me/ws'; if (value.startsWith('ws://') || value.startsWith('wss://')) { try { const parsed = new URL(value); if (!parsed.pathname || parsed.pathname === '/') parsed.pathname = '/ws'; return parsed.toString(); } catch { return value; } } if (value.startsWith('https://') || value.startsWith('http://')) { try { const parsed = new URL(value); parsed.protocol = parsed.protocol === 'https:' ? 'wss:' : 'ws:'; if (!parsed.pathname || parsed.pathname === '/') parsed.pathname = '/ws'; return parsed.toString(); } catch { return `${value.replace(/^http/, 'ws').replace(/\/$/, '')}/ws`; } } return value; } function opError(op, response) { const payload = response?.payload || {}; const message = payload?.message || response?.message || payload?.error || response?.error || 'Unknown server error'; const code = String(payload?.code || response?.code || payload?.error || response?.error || 'UNKNOWN').toUpperCase(); const error = new Error(`${op}: ${message} (${code})`); error.op = op; error.code = code; error.status = response?.status || 0; return error; } function makeClientInfo() { const ua = navigator.userAgent || 'unknown'; return ua.slice(0, 50); } function hexToBytes(hex) { const clean = String(hex || '').trim().toLowerCase(); if (!clean || clean.length % 2 !== 0) throw new Error('Некорректный hex'); const out = new Uint8Array(clean.length / 2); for (let i = 0; i < out.length; i += 1) { const byte = Number.parseInt(clean.slice(i * 2, i * 2 + 2), 16); if (Number.isNaN(byte)) throw new Error('Некорректный hex'); out[i] = byte; } return out; } function normalizeHex32(value, fallback = ZERO64) { const raw = String(value || '').trim().toLowerCase(); if (!raw) return fallback; if (/^0+$/.test(raw)) return ZERO64; if (!/^[0-9a-f]{64}$/.test(raw)) throw new Error('Bad hash32 format'); return raw; } function concatBytes(...chunks) { const total = chunks.reduce((sum, chunk) => sum + chunk.length, 0); const out = new Uint8Array(total); let offset = 0; chunks.forEach((chunk) => { out.set(chunk, offset); offset += chunk.length; }); return out; } function int32Bytes(value) { const bytes = new Uint8Array(4); const view = new DataView(bytes.buffer); view.setInt32(0, Number(value), false); return bytes; } function int16Bytes(value) { const bytes = new Uint8Array(2); const view = new DataView(bytes.buffer); view.setUint16(0, Number(value), false); return bytes; } function int8Byte(value) { const n = Number(value); if (!Number.isFinite(n) || n < 0 || n > 255) throw new Error('Bad uint8 value'); return new Uint8Array([n & 0xff]); } function int64Bytes(value) { const bytes = new Uint8Array(8); const view = new DataView(bytes.buffer); view.setBigInt64(0, BigInt(value), false); return bytes; } function uint16Bytes(value) { const bytes = new Uint8Array(2); const view = new DataView(bytes.buffer); view.setUint16(0, Number(value), false); return bytes; } function uint32Bytes(value) { const bytes = new Uint8Array(4); const view = new DataView(bytes.buffer); view.setUint32(0, Number(value), false); return bytes; } function uint64Bytes(value) { const bytes = new Uint8Array(8); const view = new DataView(bytes.buffer); view.setBigUint64(0, BigInt(value), false); return bytes; } function uint8Bytes(value) { return new Uint8Array([Number(value) & 0xff]); } const DM2_PREFIX = utf8Bytes('SHiNE_dm2'); const DM2_TYPE_INCOMING = 1; const DM2_TYPE_OUTGOING_COPY = 2; const DM2_TYPE_READ_INCOMING = 3; const DM2_TYPE_READ_OUTGOING_COPY = 4; function ensureAsciiBytes(value, field, min = 1, max = 60) { const text = String(value || '').trim(); const bytes = utf8Bytes(text); if (bytes.length < min || bytes.length > max) { throw new Error(`${field} должен быть ${min}..${max} ASCII-символов`); } for (let i = 0; i < bytes.length; i += 1) { const code = bytes[i]; if (code < 0x20 || code > 0x7e) throw new Error(`${field} должен быть ASCII`); } return bytes; } function dm2BaseKey({ toLogin, fromLogin, timeMs, nonce }) { return `${fromLogin}|${toLogin}|${Number(timeMs)}|${Number(nonce)}`; } function dm2MessageKey({ toLogin, fromLogin, timeMs, nonce, messageType }) { return `${dm2BaseKey({ toLogin, fromLogin, timeMs, nonce })}|${Number(messageType)}`; } function buildReadReceiptPayloadBytes({ refToLogin, refFromLogin, refTimeMs, refNonce, refType }) { const toBytes = ensureAsciiBytes(refToLogin, 'receipt.refToLogin'); const fromBytes = ensureAsciiBytes(refFromLogin, 'receipt.refFromLogin'); return concatBytes( uint8Bytes(toBytes.length), toBytes, uint8Bytes(fromBytes.length), fromBytes, uint64Bytes(refTimeMs), uint32Bytes(refNonce), uint16Bytes(refType), ); } function parseSignedMessageBlockBytes(bytes) { if (!(bytes instanceof Uint8Array)) throw new Error('Expected Uint8Array'); let o = 0; const read = (n) => { if (o + n > bytes.length) throw new Error('BAD_LEN'); const out = bytes.slice(o, o + n); o += n; return out; }; const readU8 = () => read(1)[0]; const readU16 = () => { const part = read(2); const view = new DataView(part.buffer, part.byteOffset, 2); return view.getUint16(0, false); }; const readU32 = () => { const part = read(4); const view = new DataView(part.buffer, part.byteOffset, 4); return view.getUint32(0, false); }; const readU64 = () => { const part = read(8); const view = new DataView(part.buffer, part.byteOffset, 8); return Number(view.getBigUint64(0, false)); }; const readAscii = () => { const len = readU8(); const part = read(len); const text = new TextDecoder().decode(part); for (let i = 0; i < part.length; i += 1) { const c = part[i]; if (c < 0x20 || c > 0x7e) throw new Error('BAD_ASCII'); } return text; }; const prefix = read(DM2_PREFIX.length); for (let i = 0; i < DM2_PREFIX.length; i += 1) { if (prefix[i] !== DM2_PREFIX[i]) throw new Error('BAD_PREFIX'); } const toLogin = readAscii(); const fromLogin = readAscii(); const timeMs = readU64(); const nonce = readU32(); const messageType = readU16(); const payloadLen = readU16(); const payloadBytes = read(payloadLen); const signatureBytes = read(64); if (o !== bytes.length) throw new Error('BAD_LEN'); const signedBody = bytes.slice(0, bytes.length - 64); const baseKey = dm2BaseKey({ toLogin, fromLogin, timeMs, nonce }); const messageKey = dm2MessageKey({ toLogin, fromLogin, timeMs, nonce, messageType }); return { toLogin, fromLogin, timeMs, nonce, messageType, payloadBytes, signatureBytes, signedBody, rawBytes: bytes, baseKey, messageKey, }; } function makeUserParamBodyBytes({ lineCode, prevLineNumber, prevLineHashHex, thisLineNumber, key, value }) { const keyBytes = utf8Bytes(String(key || '')); const valueBytes = utf8Bytes(String(value || '')); const prevHashBytes = hexToBytes(prevLineHashHex); if (!keyBytes.length || !valueBytes.length) throw new Error('Пустые key/value для блока параметра'); if (prevHashBytes.length !== 32) throw new Error('prevLineHash должен быть 32 байта'); return concatBytes( int32Bytes(lineCode), int32Bytes(prevLineNumber), prevHashBytes, int32Bytes(thisLineNumber), int16Bytes(keyBytes.length), keyBytes, int16Bytes(valueBytes.length), valueBytes, ); } function makeReactionLikeBodyBytes({ toBlockchainName, toBlockNumber, toBlockHashHex }) { const cleanBch = String(toBlockchainName || '').trim(); if (!cleanBch) throw new Error('toBlockchainName is required for like'); const blockNumber = Number(toBlockNumber); if (!Number.isFinite(blockNumber) || blockNumber < 0) { throw new Error('Invalid toBlockNumber for like'); } const bchBytes = utf8Bytes(cleanBch); if (bchBytes.length < 1 || bchBytes.length > 255) { throw new Error('toBlockchainName must be 1..255 bytes'); } return concatBytes( int8Byte(bchBytes.length), bchBytes, int32Bytes(blockNumber), hexToBytes(normalizeHex32(toBlockHashHex)) ); } function makeTextReplyBodyBytes({ toBlockchainName, toBlockNumber, toBlockHashHex, text }) { const cleanBch = String(toBlockchainName || '').trim(); if (!cleanBch) throw new Error('toBlockchainName is required for reply'); const blockNumber = Number(toBlockNumber); if (!Number.isFinite(blockNumber) || blockNumber < 0) { throw new Error('Invalid toBlockNumber for reply'); } const message = String(text || '').trim(); if (!message) throw new Error('Reply text is required'); const bchBytes = utf8Bytes(cleanBch); if (bchBytes.length < 1 || bchBytes.length > 255) { throw new Error('toBlockchainName must be 1..255 bytes'); } const textBytes = utf8Bytes(message); if (textBytes.length < 1 || textBytes.length > 65535) { throw new Error('Reply text must be 1..65535 UTF-8 bytes'); } return concatBytes( int8Byte(bchBytes.length), bchBytes, int32Bytes(blockNumber), hexToBytes(normalizeHex32(toBlockHashHex)), int16Bytes(textBytes.length), textBytes ); } function makeConnectionBodyBytes({ lineCode = 0, prevLineNumber = -1, prevLineHashHex = ZERO64, thisLineNumber = -1, toBlockchainName, toBlockNumber, toBlockHashHex, }) { const cleanBch = String(toBlockchainName || '').trim(); if (!cleanBch) throw new Error('toBlockchainName is required for connection'); const blockNumber = Number(toBlockNumber); if (!Number.isFinite(blockNumber) || blockNumber < 0) { throw new Error('Invalid toBlockNumber for connection'); } const bchBytes = utf8Bytes(cleanBch); if (bchBytes.length < 1 || bchBytes.length > 255) { throw new Error('toBlockchainName must be 1..255 bytes'); } return concatBytes( int32Bytes(lineCode), int32Bytes(prevLineNumber), hexToBytes(normalizeHex32(prevLineHashHex)), int32Bytes(thisLineNumber), int8Byte(bchBytes.length), bchBytes, int32Bytes(blockNumber), hexToBytes(normalizeHex32(toBlockHashHex)) ); } function normalizeChannelDescription(value) { const text = String(value == null ? '' : value).trim().replace(/\s+/g, ' '); const bytes = utf8Bytes(text); if (bytes.length > 200) { throw new Error('Описание канала слишком длинное: максимум 200 символов.'); } return text; } function makeCreateChannelBodyV3Bytes({ lineCode, prevLineNumber, prevLineHashHex, thisLineNumber, channelName, channelDescription = '', channelType = CHANNEL_TYPE_PUBLIC, channelTypeVersion = CHANNEL_TYPE_VERSION_DEFAULT, }) { const check = validateChannelDisplayName(channelName); if (!check.ok) throw new Error(channelNameErrorText(check.code)); const cleanName = check.normalized; const cleanDescription = normalizeChannelDescription(channelDescription); const nameBytes = utf8Bytes(cleanName); if (nameBytes.length < 1 || nameBytes.length > 255) { throw new Error('Channel name must be 1..255 bytes'); } const descriptionBytes = utf8Bytes(cleanDescription); if (descriptionBytes.length > 200) { throw new Error('Описание канала слишком длинное: максимум 200 символов.'); } const typeCode = Number(channelType); const typeVer = Number(channelTypeVersion); if (!Number.isFinite(typeCode) || typeCode < 0 || typeCode > 65535) { throw new Error('Некорректный тип канала.'); } if (!Number.isFinite(typeVer) || typeVer < 0 || typeVer > 65535) { throw new Error('Некорректная версия типа канала.'); } return concatBytes( int32Bytes(lineCode), int32Bytes(prevLineNumber), hexToBytes(normalizeHex32(prevLineHashHex)), int32Bytes(thisLineNumber), int8Byte(nameBytes.length), nameBytes, int16Bytes(descriptionBytes.length), descriptionBytes, uint16Bytes(typeCode), uint16Bytes(typeVer), ); } function makeTextPostBodyBytes({ lineCode, prevLineNumber, prevLineHashHex, thisLineNumber, text }) { const message = String(text || '').trim(); if (!message) throw new Error('Message text is required'); const textBytes = utf8Bytes(message); if (textBytes.length < 1 || textBytes.length > 65535) { throw new Error('Message text must be 1..65535 UTF-8 bytes'); } return concatBytes( int32Bytes(lineCode), int32Bytes(prevLineNumber), hexToBytes(normalizeHex32(prevLineHashHex)), int32Bytes(thisLineNumber), int16Bytes(textBytes.length), textBytes ); } function normalizeMessageRefTarget(target, actionName = 'action') { const cleanBch = String(target?.blockchainName || '').trim(); const cleanBlockNumber = Number(target?.blockNumber); const cleanBlockHash = String(target?.blockHash || '').trim().toLowerCase(); if (!cleanBch) { throw new Error(`Missing message target blockchain for ${actionName}`); } if (!Number.isFinite(cleanBlockNumber) || cleanBlockNumber < 0) { throw new Error(`Invalid message target block number for ${actionName}`); } if (!/^[0-9a-f]{64}$/.test(cleanBlockHash) || /^0+$/.test(cleanBlockHash)) { throw new Error(`Invalid message target hash for ${actionName}`); } return { blockchainName: cleanBch, blockNumber: cleanBlockNumber, blockHash: cleanBlockHash, }; } function buildBlockPreimage({ prevBlockHashHex, blockNumber, msgType, msgSubType, msgVersion = 1, bodyBytes }) { const prevHashBytes = hexToBytes(normalizeHex32(prevBlockHashHex)); const body = bodyBytes || new Uint8Array(0); const blockSize = 2 + 32 + 4 + 4 + 8 + 2 + 2 + 2 + body.length; return concatBytes( int16Bytes(0), prevHashBytes, int32Bytes(blockSize), int32Bytes(blockNumber), int64Bytes(Math.floor(Date.now() / 1000)), int16Bytes(msgType), int16Bytes(msgSubType), int16Bytes(msgVersion), body ); } export class AuthService { constructor(serverUrl) { this.serverUrl = normalizeServerUrl(serverUrl); this.ws = new WsJsonClient(this.serverUrl); this.headerHashCache = new Map(); this.writeLocks = new Map(); } async reconnect(serverUrl) { const normalized = normalizeServerUrl(serverUrl); if (normalized === this.serverUrl) return; this.ws.close(); this.serverUrl = normalized; this.ws = new WsJsonClient(this.serverUrl); this.headerHashCache = new Map(); this.writeLocks.clear(); } runWriteLocked(lockKey, runAction) { const key = String(lockKey || '').trim() || 'write'; if (this.writeLocks.has(key)) return this.writeLocks.get(key); const task = (async () => runAction())().finally(() => { this.writeLocks.delete(key); }); this.writeLocks.set(key, task); return task; } async getUser(login) { const response = await this.ws.request('GetUser', { login }); if (response.status !== 200) throw opError('GetUser', response); return response.payload || {}; } async ensureLoginFree(login) { const payload = await this.getUser(login); return payload.exists !== true; } async derivePasswordKeyBundle(password) { const normalizedPassword = String(password ?? ''); const rootPair = await deriveEd25519FromPassword(normalizedPassword, 'root.key'); const blockchainPair = await deriveEd25519FromPassword(normalizedPassword, 'bch.key'); const devicePair = await deriveEd25519FromPassword(normalizedPassword, 'dev.key'); return { rootPair, blockchainPair, devicePair }; } async createAuthSession(login, keyBundle) { const cleanLogin = (login || '').trim(); if (!cleanLogin) throw new Error('Введите логин'); const sessionPair = await generateEd25519Pair(); const sessionKeyPub = await exportEd25519PublicKeyB64(sessionPair.publicKey); const sessionKey = `ed25519/${sessionKeyPub}`; const storagePwd = randomBase64(32); const challengeResp = await this.ws.request('AuthChallenge', { login: cleanLogin }); if (challengeResp.status !== 200) throw opError('AuthChallenge', challengeResp); const authNonce = challengeResp?.payload?.authNonce; if (!authNonce) throw new Error('AuthChallenge: сервер не вернул authNonce'); const timeMs = Date.now(); const preimage = `AUTH_CREATE_SESSION:${cleanLogin}:${sessionKey}:${storagePwd}:${timeMs}:${authNonce}`; const signatureB64 = await signBase64(keyBundle.devicePair.privateKey, preimage); const createResp = await this.ws.request('CreateAuthSession', { login: cleanLogin, storagePwd, sessionKey, timeMs, authNonce, deviceKey: keyBundle.devicePair.publicKeyB64, signatureB64, clientInfo: makeClientInfo(), }); if (createResp.status !== 200) throw opError('CreateAuthSession', createResp); const sessionId = createResp?.payload?.sessionId; if (!sessionId) throw new Error('CreateAuthSession: не вернулся sessionId'); return { login: cleanLogin, sessionId, storagePwd, sessionMaterial: { sessionId, sessionKey, sessionPrivPkcs8: await exportPkcs8B64(sessionPair.privateKey), }, }; } async registerUser(login, password) { const cleanLogin = (login || '').trim(); if (!cleanLogin) throw new Error('Введите логин'); const isFree = await this.ensureLoginFree(cleanLogin); if (!isFree) throw new Error('Этот логин уже занят'); const keyBundle = await this.derivePasswordKeyBundle(password); const addResp = await this.ws.request('AddUser', { login: cleanLogin, blockchainName: `${cleanLogin}-${BCH_SUFFIX}`, solanaKey: keyBundle.devicePair.publicKeyB64, blockchainKey: keyBundle.blockchainPair.publicKeyB64, deviceKey: keyBundle.devicePair.publicKeyB64, bchLimit: 1000000, }); if (addResp.status !== 200) throw opError('AddUser', addResp); const session = await this.createAuthSession(cleanLogin, keyBundle); return { ...session, keyBundle }; } async createSessionForExistingUser(login, password) { const cleanLogin = (login || '').trim(); if (!cleanLogin) throw new Error('Введите логин'); const user = await this.getUser(cleanLogin); if (!user.exists) throw new Error('Пользователь не найден'); const keyBundle = await this.derivePasswordKeyBundle(password); const session = await this.createAuthSession(cleanLogin, keyBundle); return { ...session, keyBundle }; } async persistSelectedKeys(login, storagePwd, keyBundle, saveOptions = { saveRoot: true, saveBlockchain: true }) { const secrets = { deviceKey: keyBundle.devicePair.privatePkcs8B64 }; if (saveOptions.saveRoot) secrets.rootKey = keyBundle.rootPair.privatePkcs8B64; if (saveOptions.saveBlockchain) secrets.blockchainKey = keyBundle.blockchainPair.privatePkcs8B64; await saveEncryptedUserSecrets(login, storagePwd, secrets); } async persistSessionMaterial(login, sessionMaterial) { await saveSessionMaterial(login, sessionMaterial); } async resumeSession(login, preferredSessionId = '') { const cleanLogin = (login || '').trim(); if (!cleanLogin) throw new Error('Нет login для авто-входа'); const sessionMaterial = await loadSessionMaterial(cleanLogin); if (!sessionMaterial?.sessionId || !sessionMaterial?.sessionKey || !sessionMaterial?.sessionPrivPkcs8) { throw new Error('На устройстве нет сохраненного ключа сессии'); } const targetSessionId = preferredSessionId || sessionMaterial.sessionId; const privateKey = await importPkcs8Ed25519(sessionMaterial.sessionPrivPkcs8); const challengeResp = await this.ws.request('SessionChallenge', { sessionId: targetSessionId }); if (challengeResp.status !== 200) throw opError('SessionChallenge', challengeResp); const nonce = challengeResp?.payload?.nonce; if (!nonce) throw new Error('SessionChallenge: не вернулся nonce'); const timeMs = Date.now(); const preimage = `SESSION_LOGIN:${targetSessionId}:${timeMs}:${nonce}`; const signatureB64 = await signBase64(privateKey, preimage); const loginResp = await this.ws.request('SessionLogin', { sessionId: targetSessionId, sessionKey: sessionMaterial.sessionKey, timeMs, signatureB64, clientInfo: makeClientInfo(), }); if (loginResp.status !== 200) throw opError('SessionLogin', loginResp); const storagePwd = loginResp?.payload?.storagePwd; if (!storagePwd) throw new Error('SessionLogin: не вернулся storagePwd'); return { login: cleanLogin, sessionId: targetSessionId, storagePwd, }; } async listSessions() { const response = await this.ws.request('ListSessions', {}); if (response.status !== 200) throw opError('ListSessions', response); return response?.payload?.sessions || []; } async closeSession(sessionId) { const response = await this.ws.request('CloseActiveSession', { sessionId }); if (response.status !== 200) throw opError('CloseActiveSession', response); } async listSubscriptionsFeed(login, limit = 200) { const response = await this.ws.request('ListSubscriptionsFeed', { login, limit }); if (response.status !== 200) throw opError('ListSubscriptionsFeed', response); return response.payload || {}; } async getChannelMessages(channel, limit = 200, sort = 'asc', login = '') { const normalizedChannel = { ownerBlockchainName: String(channel?.ownerBlockchainName || '').trim(), channelRootBlockNumber: Number(channel?.channelRootBlockNumber), channelRootBlockHash: String(channel?.channelRootBlockHash || '').trim(), }; const payload = { channel: normalizedChannel, limit, sort }; const cleanLogin = String(login || '').trim(); if (cleanLogin) payload.login = cleanLogin; const response = await this.ws.request('GetChannelMessages', payload); if (response.status !== 200) throw opError('GetChannelMessages', response); return response.payload || {}; } async getMessageThread(message, depthUp = 20, depthDown = 2, limitChildrenPerNode = 50, login = '') { const normalizedMessage = { blockchainName: String(message?.blockchainName || '').trim(), blockNumber: Number(message?.blockNumber), blockHash: String(message?.blockHash || '').trim(), }; const payload = { message: normalizedMessage, depthUp, depthDown, limitChildrenPerNode }; const cleanLogin = String(login || '').trim(); if (cleanLogin) payload.login = cleanLogin; const response = await this.ws.request('GetMessageThread', payload); if (response.status !== 200) throw opError('GetMessageThread', response); return response.payload || {}; } async addBlockSigned({ login, storagePwd, msgType, msgSubType, msgVersion = 1, bodyBytes }) { const cleanLogin = (login || '').trim(); if (!cleanLogin) throw new Error('Missing login for AddBlock'); if (!storagePwd) throw new Error('Missing storagePwd for AddBlock signing'); const user = await this.getUser(cleanLogin); const blockchainName = String(user?.blockchainName || `${cleanLogin}-${BCH_SUFFIX}`).trim(); const freshNum = Number(user?.serverLastGlobalNumber); const freshHash = normalizeHex32(user?.serverLastGlobalHash, ZERO64); const freshCursor = { serverLastGlobalNumber: Number.isFinite(freshNum) ? freshNum : -1, serverLastGlobalHash: freshHash, }; const savedKeys = await loadEncryptedUserSecrets(cleanLogin, storagePwd); const blockchainPrivatePkcs8 = savedKeys?.blockchainKey; if (!blockchainPrivatePkcs8) { throw new Error('Missing saved blockchain private key on device'); } const privateKey = await importPkcs8Ed25519(blockchainPrivatePkcs8); const tryAdd = async (cursor) => { const blockNumber = Number(cursor?.serverLastGlobalNumber ?? -1) + 1; const prevBlockHash = normalizeHex32(cursor?.serverLastGlobalHash, ZERO64); const preimage = buildBlockPreimage({ prevBlockHashHex: prevBlockHash, blockNumber, msgType, msgSubType, msgVersion, bodyBytes, }); const hash32 = await sha256Bytes(preimage); const signatureBytes = await signBytes(privateKey, hash32); const fullBlock = concatBytes(preimage, int16Bytes(0x0100), signatureBytes); return this.ws.request('AddBlock', { blockchainName, blockNumber, prevBlockHash, blockBytesB64: bytesToBase64(fullBlock), }); }; let cursor = freshCursor; let response = await tryAdd(cursor); if (response.status !== 200) { const knownNum = Number(response?.payload?.serverLastGlobalNumber); const knownHash = String(response?.payload?.serverLastGlobalHash || ''); if (Number.isFinite(knownNum) && /^[0-9a-fA-F]{64}$/.test(knownHash)) { cursor = { serverLastGlobalNumber: knownNum, serverLastGlobalHash: knownHash.toLowerCase() }; response = await tryAdd(cursor); } } if (response.status !== 200) throw opError('AddBlock', response); const payload = response.payload || {}; const acceptedNum = Number(payload?.serverLastGlobalNumber); const acceptedHash = normalizeHex32(payload?.serverLastGlobalHash, ZERO64); if (Number.isFinite(acceptedNum) && acceptedNum === 0 && acceptedHash !== ZERO64) { this.headerHashCache.set(blockchainName, acceptedHash); } return payload; } async ensureChainInitializedForLineOps(login, storagePwd) { const current = await this.getUser(login); const lastNum = Number(current?.serverLastGlobalNumber); if (Number.isFinite(lastNum) && lastNum >= 0) return current; if (!(Number.isFinite(lastNum) && lastNum === -1)) return current; // Bootstrap an empty chain with a minimal USER_PARAM block so line-based // channel operations have a valid anchor at block #0. await this.addBlockUserParam({ login, storagePwd, param: 'shine', value: 'yes', }); return this.getUser(login); } async addBlockLike({ login, message, storagePwd }) { const cleanLogin = String(login || '').trim(); const target = normalizeMessageRefTarget(message, 'like'); const key = `like:${cleanLogin}:${target.blockchainName}:${target.blockNumber}:${target.blockHash}`; return this.runWriteLocked(key, async () => { const bodyBytes = makeReactionLikeBodyBytes({ toBlockchainName: target.blockchainName, toBlockNumber: target.blockNumber, toBlockHashHex: target.blockHash, }); return this.addBlockSigned({ login: cleanLogin, storagePwd, msgType: MSG_TYPE_REACTION, msgSubType: MSG_SUBTYPE_REACTION_LIKE, msgVersion: 1, bodyBytes, }); }); } async addBlockUnlike({ login, message, storagePwd }) { const cleanLogin = String(login || '').trim(); const target = normalizeMessageRefTarget(message, 'unlike'); const key = `unlike:${cleanLogin}:${target.blockchainName}:${target.blockNumber}:${target.blockHash}`; return this.runWriteLocked(key, async () => { const bodyBytes = makeReactionLikeBodyBytes({ toBlockchainName: target.blockchainName, toBlockNumber: target.blockNumber, toBlockHashHex: target.blockHash, }); return this.addBlockSigned({ login: cleanLogin, storagePwd, msgType: MSG_TYPE_REACTION, msgSubType: MSG_SUBTYPE_REACTION_UNLIKE, msgVersion: 1, bodyBytes, }); }); } async addBlockReply({ login, message, text, storagePwd }) { const cleanLogin = String(login || '').trim(); const cleanText = String(text || '').trim(); const target = normalizeMessageRefTarget(message, 'reply'); const key = `reply:${cleanLogin}:${target.blockchainName}:${target.blockNumber}:${target.blockHash}:${cleanText}`; return this.runWriteLocked(key, async () => { const bodyBytes = makeTextReplyBodyBytes({ toBlockchainName: target.blockchainName, toBlockNumber: target.blockNumber, toBlockHashHex: target.blockHash, text: cleanText, }); return this.addBlockSigned({ login: cleanLogin, storagePwd, msgType: MSG_TYPE_TEXT, msgSubType: MSG_SUBTYPE_TEXT_REPLY, msgVersion: 1, bodyBytes, }); }); } async addBlockFollowUser({ login, targetLogin, storagePwd, unfollow = false }) { const cleanTargetLogin = String(targetLogin || '').trim().replace(/^@+/, ''); if (!cleanTargetLogin) throw new Error('Target login is required'); const cleanLogin = String(login || '').trim(); const key = `${unfollow ? 'unfollow-user' : 'follow-user'}:${cleanLogin}:${cleanTargetLogin.toLowerCase()}`; return this.runWriteLocked(key, async () => { const targetUser = await this.getUser(cleanTargetLogin); if (!targetUser?.exists) throw new Error('Target user not found'); const targetHeaderHash = await this.resolveHeaderHashForBlockchain(targetUser.blockchainName); return this.addBlockFollowChannel({ login: cleanLogin, storagePwd, targetBlockchainName: targetUser.blockchainName, targetBlockNumber: 0, targetBlockHashHex: targetHeaderHash, unfollow, }); }); } async addBlockFollowChannel({ login, storagePwd, targetBlockchainName, targetBlockNumber, targetBlockHashHex, unfollow = false, }) { const cleanLogin = String(login || '').trim(); const cleanTargetBch = String(targetBlockchainName || '').trim(); const cleanTargetBlockNumber = Number(targetBlockNumber); if (!cleanTargetBch) throw new Error('Target blockchain is required'); if (!Number.isFinite(cleanTargetBlockNumber) || cleanTargetBlockNumber < 0) { throw new Error('Invalid target block number'); } const seedHash = normalizeHex32(targetBlockHashHex, ZERO64); const key = `${unfollow ? 'unfollow-channel' : 'follow-channel'}:${cleanLogin}:${cleanTargetBch}:${cleanTargetBlockNumber}:${seedHash}`; return this.runWriteLocked(key, async () => { let targetHashHex = seedHash; if (targetHashHex === ZERO64) { targetHashHex = cleanTargetBlockNumber === 0 ? await this.resolveHeaderHashForBlockchain(cleanTargetBch) : await this.getBlockHashByNumber(cleanTargetBch, cleanTargetBlockNumber); } const bodyBytes = makeConnectionBodyBytes({ lineCode: 0, prevLineNumber: -1, prevLineHashHex: ZERO64, thisLineNumber: -1, toBlockchainName: cleanTargetBch, toBlockNumber: cleanTargetBlockNumber, toBlockHashHex: targetHashHex, }); return this.addBlockSigned({ login: cleanLogin, storagePwd, msgType: MSG_TYPE_CONNECTION, msgSubType: unfollow ? MSG_SUBTYPE_CONNECTION_UNFOLLOW : MSG_SUBTYPE_CONNECTION_FOLLOW, msgVersion: 1, bodyBytes, }); }); } async getBlockHashByNumber(blockchainName, blockNumber) { const cleanBlockNumber = Number(blockNumber); try { const payload = await this.getMessageThread( { blockchainName: String(blockchainName || '').trim(), blockNumber: cleanBlockNumber, blockHash: ZERO64, }, 0, 0, 1 ); const hash = payload?.focus?.messageRef?.blockHash; return normalizeHex32(hash, ZERO64); } catch (error) { if (cleanBlockNumber === 0 && Number(error?.status) === 404) { return ZERO64; } throw error; } } async resolveHeaderHashForBlockchain(blockchainName) { const cleanBch = String(blockchainName || '').trim(); if (!cleanBch) throw new Error('Missing blockchainName'); if (this.headerHashCache.has(cleanBch)) { const cached = normalizeHex32(this.headerHashCache.get(cleanBch), ZERO64); if (cached !== ZERO64) return cached; this.headerHashCache.delete(cleanBch); } const headerHash = await this.getBlockHashByNumber(cleanBch, 0); if (headerHash !== ZERO64) { this.headerHashCache.set(cleanBch, headerHash); } else { this.headerHashCache.delete(cleanBch); } return headerHash; } async listOwnChannelsForBlockchain(login, blockchainName) { const feed = await this.listSubscriptionsFeed(login, 500); const own = feed?.ownedChannels || []; return own .filter((item) => String(item?.channel?.ownerBlockchainName || '') === blockchainName) .map((item) => ({ rootBlockNumber: Number(item?.channel?.channelRoot?.blockNumber), rootBlockHash: normalizeHex32(item?.channel?.channelRoot?.blockHash, ZERO64), channelName: String(item?.channel?.channelName || ''), channelTypeCode: Number(item?.channel?.channelTypeCode ?? CHANNEL_TYPE_PUBLIC), })) .filter((item) => Number.isFinite(item.rootBlockNumber) && item.rootBlockNumber >= 0); } async addBlockCreateChannel({ login, channelName, channelDescription = '', channelType = CHANNEL_TYPE_PUBLIC, channelTypeVersion = CHANNEL_TYPE_VERSION_DEFAULT, storagePwd, }) { const cleanLogin = (login || '').trim(); if (!cleanLogin) throw new Error('Missing login'); const check = validateChannelDisplayName(channelName); if (!check.ok) throw new Error(channelNameErrorText(check.code)); const cleanChannelName = normalizeChannelDisplayName(check.normalized); const cleanChannelDescription = normalizeChannelDescription(channelDescription); const channelSlug = toCanonicalChannelSlug(cleanChannelName); const typeCode = Number(channelType); const typeVersion = Number(channelTypeVersion); const key = `create-channel:${cleanLogin}:${typeCode}:${channelSlug || cleanChannelName.toLowerCase()}`; return this.runWriteLocked(key, async () => { const user = await this.ensureChainInitializedForLineOps(cleanLogin, storagePwd); const blockchainName = String(user?.blockchainName || `${cleanLogin}-${BCH_SUFFIX}`).trim(); const userLastGlobalNumber = Number(user?.serverLastGlobalNumber); const userLastGlobalHash = normalizeHex32(user?.serverLastGlobalHash, ZERO64); const ownChannels = await this.listOwnChannelsForBlockchain(cleanLogin, blockchainName); const createdChannels = ownChannels .filter((item) => item.rootBlockNumber > 0) .sort((a, b) => a.rootBlockNumber - b.rootBlockNumber); let prevLineNumber = 0; let prevLineHashHex = ( Number.isFinite(userLastGlobalNumber) && userLastGlobalNumber === 0 && userLastGlobalHash !== ZERO64 ) ? userLastGlobalHash : await this.resolveHeaderHashForBlockchain(blockchainName); let thisLineNumber = 1; if (createdChannels.length > 0) { const last = createdChannels[createdChannels.length - 1]; prevLineNumber = last.rootBlockNumber; prevLineHashHex = normalizeHex32(last.rootBlockHash, ZERO64); thisLineNumber = createdChannels.length + 1; } const payload = await this.addBlockSigned({ login: cleanLogin, storagePwd, msgType: MSG_TYPE_TECH, msgSubType: MSG_SUBTYPE_TECH_CREATE_CHANNEL, msgVersion: CREATE_CHANNEL_BODY_VERSION, bodyBytes: makeCreateChannelBodyV3Bytes({ lineCode: 0, prevLineNumber, prevLineHashHex, thisLineNumber, channelName: cleanChannelName, channelDescription: cleanChannelDescription, channelType: typeCode, channelTypeVersion: typeVersion, }), }); const selector = { ownerBlockchainName: blockchainName, channelRootBlockNumber: Number(payload?.serverLastGlobalNumber), channelRootBlockHash: normalizeHex32(payload?.serverLastGlobalHash, ZERO64), }; return { ...payload, channel: { ...selector, }, }; }); } async addBlockTextPost({ login, channel, text, storagePwd }) { const cleanLogin = (login || '').trim(); if (!cleanLogin) throw new Error('Missing login'); const cleanText = String(text || '').trim(); const selector = channel || {}; const owner = String(selector?.ownerBlockchainName || '').trim(); const root = Number(selector?.channelRootBlockNumber); const key = `text-post:${cleanLogin}:${owner}:${root}:${cleanText}`; return this.runWriteLocked(key, async () => { const user = await this.ensureChainInitializedForLineOps(cleanLogin, storagePwd); const blockchainName = String(user?.blockchainName || `${cleanLogin}-${BCH_SUFFIX}`).trim(); const ownerBlockchainName = owner; const lineCode = root; if (!ownerBlockchainName || !Number.isFinite(lineCode) || lineCode < 0) { throw new Error('Invalid channel selector'); } if (ownerBlockchainName !== blockchainName) { throw new Error('Posting is allowed only to your own channels'); } let rootHashHex = normalizeHex32(selector?.channelRootBlockHash, ZERO64); if (rootHashHex === ZERO64) { const ownChannels = await this.listOwnChannelsForBlockchain(cleanLogin, blockchainName); const rootChannel = ownChannels.find((item) => item.rootBlockNumber === lineCode); if (!rootChannel) throw new Error('Channel root not found'); rootHashHex = normalizeHex32(rootChannel.rootBlockHash, ZERO64); } const bodyBytes = makeTextPostBodyBytes({ lineCode, prevLineNumber: lineCode, prevLineHashHex: rootHashHex, thisLineNumber: 0, text: cleanText, }); const payload = await this.addBlockSigned({ login: cleanLogin, storagePwd, msgType: MSG_TYPE_TEXT, msgSubType: MSG_SUBTYPE_TEXT_POST, msgVersion: 1, bodyBytes, }); return { ...payload, channel: { ownerBlockchainName, channelRootBlockNumber: lineCode, channelRootBlockHash: rootHashHex, }, }; }); } onEvent(op, handler) { return this.ws.onEvent(op, handler); } async upsertPushToken({ endpoint, p256dhKey, authKey, sessionId, platform = 'web', userAgent = navigator.userAgent || '' }) { const response = await this.ws.request('UpsertPushToken', { endpoint, p256dhKey, authKey, sessionId, platform, userAgent }); if (response.status !== 200) throw opError('UpsertPushToken', response); return response.payload || {}; } async sendTestWebPush({ login = '', sessionId = '', title = '', text = '' } = {}) { const payload = {}; if (String(login || '').trim()) payload.login = String(login || '').trim(); if (String(sessionId || '').trim()) payload.sessionId = String(sessionId || '').trim(); if (String(title || '').trim()) payload.title = String(title || '').trim(); if (String(text || '').trim()) payload.text = String(text || '').trim(); const response = await this.ws.request('SendTestWebPush', payload); if (response.status !== 200) throw opError('SendTestWebPush', response); return response.payload || {}; } async buildSignedDm2Block({ login, toLogin, storagePwd, timeMs, nonce, messageType, payloadBytes, }) { const cleanFromLogin = String(login || '').trim(); const cleanToLogin = String(toLogin || '').trim(); if (!cleanFromLogin || !cleanToLogin) throw new Error('Не передан login/toLogin'); if (!storagePwd) throw new Error('Не передан storagePwd для подписи'); const secrets = await loadEncryptedUserSecrets(cleanFromLogin, storagePwd); const devicePriv = secrets?.deviceKey; if (!devicePriv) throw new Error('Не найден приватный deviceKey'); const privateKey = await importPkcs8Ed25519(devicePriv); const toBytes = ensureAsciiBytes(cleanToLogin, 'toLogin'); const fromBytes = ensureAsciiBytes(cleanFromLogin, 'fromLogin'); if (!(payloadBytes instanceof Uint8Array) || payloadBytes.length < 1 || payloadBytes.length > 4096) { throw new Error('payload должен быть 1..4096 байт'); } const preimage = concatBytes( DM2_PREFIX, uint8Bytes(toBytes.length), toBytes, uint8Bytes(fromBytes.length), fromBytes, uint64Bytes(timeMs), uint32Bytes(nonce), uint16Bytes(messageType), uint16Bytes(payloadBytes.length), payloadBytes, ); const signature = await signBytes(privateKey, preimage); return concatBytes(preimage, signature); } parseSignedMessageBlob(blobB64) { const bytes = base64ToBytes(String(blobB64 || '').trim()); return parseSignedMessageBlockBytes(bytes); } parseReadReceiptPayload(payloadBytes) { if (!(payloadBytes instanceof Uint8Array)) throw new Error('Expected Uint8Array'); let o = 0; const read = (n) => { if (o + n > payloadBytes.length) throw new Error('BAD_RECEIPT_LEN'); const out = payloadBytes.slice(o, o + n); o += n; return out; }; const readU8 = () => read(1)[0]; const readU16 = () => { const part = read(2); return new DataView(part.buffer, part.byteOffset, 2).getUint16(0, false); }; const readU32 = () => { const part = read(4); return new DataView(part.buffer, part.byteOffset, 4).getUint32(0, false); }; const readU64 = () => { const part = read(8); return Number(new DataView(part.buffer, part.byteOffset, 8).getBigUint64(0, false)); }; const readAscii = () => { const len = readU8(); const part = read(len); return new TextDecoder().decode(part); }; const refToLogin = readAscii(); const refFromLogin = readAscii(); const refTimeMs = readU64(); const refNonce = readU32(); const refType = readU16(); if (o !== payloadBytes.length) throw new Error('BAD_RECEIPT_LEN'); return { refToLogin, refFromLogin, refTimeMs, refNonce, refType }; } async sendMessagePair({ incomingBlobB64, outgoingBlobB64 }) { const body = { incomingBlobB64, outgoingBlobB64 }; const primaryOp = 'ReceiveOutcomingMessage'; let response = await this.ws.request(primaryOp, body); if (response.status === 404) { response = await this.ws.request('SendMessagePair', body); if (response.status !== 200) throw opError('SendMessagePair', response); return response.payload || {}; } if (response.status !== 200) throw opError(primaryOp, response); return response.payload || {}; } async sendDirectMessage({ login, toLogin, text, storagePwd }) { const cleanFromLogin = String(login || '').trim(); const cleanToLogin = String(toLogin || '').trim(); const cleanText = String(text || ''); if (!cleanFromLogin || !cleanToLogin || !cleanText) throw new Error('Не передан login/toLogin/text'); const timeMs = Date.now(); const nonce = Math.floor(Math.random() * 0x100000000); const incomingPayload = utf8Bytes(cleanText); const outgoingPayload = utf8Bytes(cleanText); const incomingBlock = await this.buildSignedDm2Block({ login: cleanFromLogin, toLogin: cleanToLogin, storagePwd, timeMs, nonce, messageType: DM2_TYPE_INCOMING, payloadBytes: incomingPayload, }); const outgoingBlock = await this.buildSignedDm2Block({ login: cleanFromLogin, toLogin: cleanToLogin, storagePwd, timeMs, nonce, messageType: DM2_TYPE_OUTGOING_COPY, payloadBytes: outgoingPayload, }); const payload = await this.sendMessagePair({ incomingBlobB64: bytesToBase64(incomingBlock), outgoingBlobB64: bytesToBase64(outgoingBlock), }); return { ...payload, localIncomingBlobB64: bytesToBase64(incomingBlock), localOutgoingBlobB64: bytesToBase64(outgoingBlock), localBaseKey: dm2BaseKey({ toLogin: cleanToLogin, fromLogin: cleanFromLogin, timeMs, nonce }), }; } async sendReadReceipt({ login, toLogin, storagePwd, refToLogin, refFromLogin, refTimeMs, refNonce, refType = DM2_TYPE_INCOMING }) { const timeMs = Date.now(); const nonce = Math.floor(Math.random() * 0x100000000); const payload = buildReadReceiptPayloadBytes({ refToLogin, refFromLogin, refTimeMs, refNonce, refType }); const type3 = await this.buildSignedDm2Block({ login, toLogin, storagePwd, timeMs, nonce, messageType: DM2_TYPE_READ_INCOMING, payloadBytes: payload, }); const type4 = await this.buildSignedDm2Block({ login, toLogin, storagePwd, timeMs, nonce, messageType: DM2_TYPE_READ_OUTGOING_COPY, payloadBytes: payload, }); return this.sendMessagePair({ incomingBlobB64: bytesToBase64(type3), outgoingBlobB64: bytesToBase64(type4), }); } async ackSessionDelivery(messageKey) { const response = await this.ws.request('AckSessionDelivery', { messageKey }); if (response.status !== 200) throw opError('AckSessionDelivery', response); return response.payload || {}; } async callInviteBroadcast({ toLogin, callId, type = 100 }) { const response = await this.ws.request('CallInviteBroadcast', { toLogin, callId, type }); if (response.status !== 200) throw opError('CallInviteBroadcast', response); return response.payload || {}; } async callSignalToSession({ toLogin, targetSessionId, callId, type, data = '' }) { const response = await this.ws.request('CallSignalToSession', { toLogin, targetSessionId, callId, type, data }); if (response.status !== 200) throw opError('CallSignalToSession', response); return response.payload || {}; } async getCallIceConfig() { const response = await this.ws.request('GetCallIceConfig', {}); if (response.status !== 200) throw opError('GetCallIceConfig', response); return response.payload || {}; } async sendCallDeliveryReport(payload = {}) { const response = await this.ws.request('CallDeliveryReport', payload); if (response.status !== 200) throw opError('CallDeliveryReport', response); return response.payload || {}; } async listContacts() { const response = await this.ws.request('ListContacts', {}); if (response.status !== 200) throw opError('ListContacts', response); return response.payload || {}; } async addCloseFriend(toLogin) { const response = await this.ws.request('AddCloseFriend', { toLogin }); if (response.status !== 200) throw opError('AddCloseFriend', response); return response.payload || {}; } async getUserConnectionsGraph(login) { const response = await this.ws.request('GetUserConnectionsGraph', { login }); if (response.status !== 200) throw opError('GetUserConnectionsGraph', response); return response.payload || {}; } async searchUsers(prefix) { const response = await this.ws.request('SearchUsers', { prefix }); if (response.status !== 200) throw opError('SearchUsers', response); return response.payload?.logins || []; } async getUserParam(login, param) { const cleanLogin = (login || '').trim(); const cleanParam = (param || '').trim(); if (!cleanLogin || !cleanParam) throw new Error('Не переданы login/param'); const response = await this.ws.request('GetUserParam', { login: cleanLogin, param: cleanParam }); if (response.status === 200) return response.payload || {}; if (response.status === 404 || response.status === 204) return {}; throw opError('GetUserParam', response); } async listUserParams(login) { const cleanLogin = (login || '').trim(); if (!cleanLogin) throw new Error('Не передан login'); const response = await this.ws.request('ListUserParams', { login: cleanLogin }); if (response.status !== 200) throw opError('ListUserParams', response); return response.payload || {}; } async setUserRelation({ login, toLogin, kind, enabled, storagePwd }) { const cleanKind = String(kind || '').trim().toLowerCase(); const kinds = CONNECTION_SUBTYPES[cleanKind]; if (!kinds) throw new Error(`Неподдерживаемый тип связи: ${kind}`); const subType = enabled ? kinds.on : kinds.off; return this.addBlockConnection({ login, toLogin, subType, storagePwd }); } async addBlockUserParam({ login, param, value, storagePwd }) { const cleanLogin = (login || '').trim(); const cleanParam = (param || '').trim(); const cleanValue = String(value ?? '').trim(); if (!cleanLogin || !cleanParam) throw new Error('Не переданы login/param.'); if (!cleanValue) throw new Error('Значение параметра не может быть пустым.'); if (!storagePwd) throw new Error('Не передан storagePwd для подписи AddBlock.'); const user = await this.getUser(cleanLogin); const blockchainName = String(user?.blockchainName || `${cleanLogin}-${BCH_SUFFIX}`).trim(); const freshNum = Number(user?.serverLastGlobalNumber); const freshHash = String(user?.serverLastGlobalHash || '').trim().toLowerCase(); const freshCursor = { serverLastGlobalNumber: Number.isFinite(freshNum) ? freshNum : -1, serverLastGlobalHash: freshHash.length === 64 ? freshHash : ZERO_HASH_HEX, }; const savedKeys = await loadEncryptedUserSecrets(cleanLogin, storagePwd); const blockchainPrivatePkcs8 = savedKeys?.blockchainKey; if (!blockchainPrivatePkcs8) { throw new Error('На устройстве нет сохраненного приватного blockchainKey'); } const privateKey = await importPkcs8Ed25519(blockchainPrivatePkcs8); const tryAdd = async (cursor) => { const blockNumber = Number(cursor?.serverLastGlobalNumber ?? -1) + 1; const prevBlockHash = String(cursor?.serverLastGlobalHash || ZERO_HASH_HEX); // Для USER_PARAM отправляем старт новой line-цепочки: // prevLineNumber=-1, prevLineHash=0x00..00, thisLineNumber=-1. // Этот формат соответствует BodyHasLine правилам на сервере. const bodyBytes = makeUserParamBodyBytes({ lineCode: 0, prevLineNumber: -1, prevLineHashHex: ZERO_HASH_HEX, thisLineNumber: -1, key: cleanParam, value: cleanValue, }); const preimage = concatBytes( int16Bytes(0), hexToBytes(prevBlockHash), int32Bytes(2 + 32 + 4 + 4 + 8 + 2 + 2 + 2 + bodyBytes.length), int32Bytes(blockNumber), int64Bytes(Math.floor(Date.now() / 1000)), int16Bytes(4), int16Bytes(1), int16Bytes(1), bodyBytes, ); const hash32 = await sha256Bytes(preimage); const signatureBytes = await signBytes(privateKey, hash32); const fullBlock = concatBytes(preimage, int16Bytes(0x0100), signatureBytes); const response = await this.ws.request('AddBlock', { blockchainName, blockNumber, prevBlockHash, blockBytesB64: bytesToBase64(fullBlock), }); return response; }; let cursor = freshCursor; let response = await tryAdd(cursor); if (response.status !== 200) { const knownNum = Number(response?.payload?.serverLastGlobalNumber); const knownHash = String(response?.payload?.serverLastGlobalHash || ''); if (Number.isFinite(knownNum) && knownHash.length === 64) { cursor = { serverLastGlobalNumber: knownNum, serverLastGlobalHash: knownHash }; response = await tryAdd(cursor); } } if (response.status !== 200) throw opError('AddBlock', response); return response.payload || {}; } async addBlockConnection({ login, toLogin, subType, storagePwd }) { const cleanLogin = (login || '').trim(); const cleanToLogin = (toLogin || '').trim(); const cleanSubType = Number(subType); if (!cleanLogin || !cleanToLogin) throw new Error('Не переданы login/toLogin для CONNECTION.'); if (!Number.isFinite(cleanSubType)) throw new Error('Не передан subType для CONNECTION.'); if (!storagePwd) throw new Error('Не передан storagePwd для подписи AddBlock.'); if (cleanLogin.toLowerCase() === cleanToLogin.toLowerCase()) { throw new Error('Нельзя создать связь на самого себя.'); } const user = await this.getUser(cleanLogin); if (user?.exists === false) throw new Error('Текущий пользователь не найден.'); const blockchainName = String(user?.blockchainName || `${cleanLogin}-${BCH_SUFFIX}`).trim(); const freshNum = Number(user?.serverLastGlobalNumber); const freshHash = String(user?.serverLastGlobalHash || '').trim().toLowerCase(); const freshCursor = { serverLastGlobalNumber: Number.isFinite(freshNum) ? freshNum : -1, serverLastGlobalHash: freshHash.length === 64 ? freshHash : ZERO_HASH_HEX, }; const targetUser = await this.getUser(cleanToLogin); if (!targetUser?.exists) throw new Error('Пользователь цели не найден.'); const toBlockchainName = String(targetUser?.blockchainName || `${cleanToLogin}-${BCH_SUFFIX}`).trim(); const savedKeys = await loadEncryptedUserSecrets(cleanLogin, storagePwd); const blockchainPrivatePkcs8 = savedKeys?.blockchainKey; if (!blockchainPrivatePkcs8) { throw new Error('На устройстве нет сохраненного приватного blockchainKey'); } const privateKey = await importPkcs8Ed25519(blockchainPrivatePkcs8); const tryAdd = async (cursor) => { const blockNumber = Number(cursor?.serverLastGlobalNumber ?? -1) + 1; const prevBlockHash = String(cursor?.serverLastGlobalHash || ZERO_HASH_HEX); // Для CONNECTION в UI-MVP всегда стартуем новую line-цепочку: // prevLineNumber=-1, prevLineHash=0x00..00, thisLineNumber=-1. // target для user-связей указывает на HEADER пользователя (blockNumber=0). const bodyBytes = makeConnectionBodyBytes({ lineCode: 0, prevLineNumber: -1, prevLineHashHex: ZERO_HASH_HEX, thisLineNumber: -1, toBlockchainName, toBlockNumber: 0, toBlockHashHex: ZERO_HASH_HEX, }); const preimage = concatBytes( int16Bytes(0), hexToBytes(prevBlockHash), int32Bytes(2 + 32 + 4 + 4 + 8 + 2 + 2 + 2 + bodyBytes.length), int32Bytes(blockNumber), int64Bytes(Math.floor(Date.now() / 1000)), int16Bytes(3), int16Bytes(cleanSubType), int16Bytes(1), bodyBytes, ); const hash32 = await sha256Bytes(preimage); const signatureBytes = await signBytes(privateKey, hash32); const fullBlock = concatBytes(preimage, int16Bytes(0x0100), signatureBytes); return this.ws.request('AddBlock', { blockchainName, blockNumber, prevBlockHash, blockBytesB64: bytesToBase64(fullBlock), }); }; let cursor = freshCursor; let response = await tryAdd(cursor); if (response.status !== 200) { const knownNum = Number(response?.payload?.serverLastGlobalNumber); const knownHash = String(response?.payload?.serverLastGlobalHash || '').trim().toLowerCase(); if (Number.isFinite(knownNum) && knownHash.length === 64) { cursor = { serverLastGlobalNumber: knownNum, serverLastGlobalHash: knownHash }; response = await tryAdd(cursor); } } if (response.status !== 200) throw opError('AddBlock', response); return response.payload || {}; } async reportClientDebug({ runId = '', level = 'info', message = '', details = '' } = {}) { try { const response = await this.ws.request('ClientDebugLog', { runId, level, message, details }, 3000); return response?.status === 200; } catch { return false; } } async reportClientError(details) { try { const response = await this.ws.request('ClientErrorLog', details || {}, 3000); return response?.status === 200; } catch { return false; } } close() { this.ws.close(); } }