packages/shade-transfer/tests/memory-roundtrip.test.ts

import { describe, test, expect } from 'bun:test';
import { SubtleCryptoProvider } from '@shade/crypto-web';
import { sha256Once } from '@shade/streams';
import {
  TransferEngine,
  MemoryControlChannel,
  MemoryTransferTransport,
} from '../src/index.js';
import type { IncomingTransfer, TransferResult } from '../src/index.js';

const crypto = new SubtleCryptoProvider();

function hex(bytes: Uint8Array): string {
  return Array.from(bytes, (b) => b.toString(16).padStart(2, '0')).join('');
}

interface PairedEngines {
  sender: TransferEngine;
  receiver: TransferEngine;
}

function makePair(): PairedEngines {
  const { a: ctrlA, b: ctrlB } = MemoryControlChannel.linked('alice', 'bob');
  const { a: txA, b: txB } = MemoryTransferTransport.linked('alice', 'bob');

  const senderEngine = new TransferEngine({
    crypto,
    controlChannel: ctrlA,
    transport: txA,
    myAddress: 'alice',
  });
  const receiverEngine = new TransferEngine({
    crypto,
    controlChannel: ctrlB,
    transport: txB,
    myAddress: 'bob',
  });

  // Wire receiver-side transport to route chunks into receiver-engine.
  txB.setChunkHandler(async (from, streamId, laneId, seq, bytes) =>
    receiverEngine.receiveChunk(from, streamId, laneId, seq, bytes),
  );
  txB.setResumeProvider(async (from, streamId) =>
    receiverEngine.getResumeState(from, streamId),
  );

  return { sender: senderEngine, receiver: receiverEngine };
}

async function uploadAndAwait(
  pair: PairedEngines,
  input: Uint8Array,
  opts?: { lanes?: number; chunkSize?: number; partition?: 'auto' | 'range' | 'round-robin' },
): Promise<{ result: TransferResult; received: Uint8Array }> {
  // The handler accepts and PUBLISHES the receive-handle out-of-band so
  // it can return promptly (control channel awaits handler completion).
  let resolveReceiveHandle!: (h: import('../src/index.js').TransferHandle) => void;
  const receiveHandlePromise = new Promise<import('../src/index.js').TransferHandle>(
    (r) => { resolveReceiveHandle = r; },
  );
  const unsubscribe = pair.receiver.onIncomingTransfer(async (incoming: IncomingTransfer) => {
    const handle = await incoming.accept({ output: { kind: 'buffer' } });
    resolveReceiveHandle(handle);
  });

  const handle = await pair.sender.upload({
    to: 'bob',
    input,
    ...(opts?.lanes !== undefined ? { lanes: opts.lanes } : {}),
    ...(opts?.chunkSize !== undefined ? { chunkSize: opts.chunkSize } : {}),
    ...(opts?.partition !== undefined ? { partition: opts.partition } : {}),
    metadata: { name: 'test.bin', contentType: 'application/octet-stream' },
  });
  const recvHandle = await receiveHandlePromise;
  const [senderResult, receiverResult] = await Promise.all([handle.done(), recvHandle.done()]);
  unsubscribe();
  const bytes =
    (receiverResult as TransferResult & { bytes?: Uint8Array }).bytes ?? new Uint8Array(0);
  return { result: senderResult, received: bytes };
}

describe('TransferEngine (memory loopback)', () => {
  test('1 KiB upload — 1 lane (auto-degrade for small file)', async () => {
    const pair = makePair();
    const input = crypto.randomBytes(1024);
    const { result, received } = await uploadAndAwait(pair, input, { lanes: 4, chunkSize: 256 });
    expect(received).toEqual(input);
    expect(result.sha256).toBe(hex(sha256Once(input)));
  });

  test('256 KiB upload — 4 lanes range partition', async () => {
    const pair = makePair();
    const input = crypto.randomBytes(256 * 1024);
    const { result, received } = await uploadAndAwait(pair, input, {
      lanes: 4,
      chunkSize: 16 * 1024,
      partition: 'range',
    });
    expect(received).toEqual(input);
    expect(result.sha256).toBe(hex(sha256Once(input)));
  });

  test('1 MiB upload — 4 lanes round-robin partition', async () => {
    const pair = makePair();
    const input = crypto.randomBytes(1024 * 1024);
    const { result, received } = await uploadAndAwait(pair, input, {
      lanes: 4,
      chunkSize: 64 * 1024,
      partition: 'round-robin',
    });
    expect(received).toEqual(input);
    expect(result.sha256).toBe(hex(sha256Once(input)));
  });

  test('integrity: same sha256 across lane counts', async () => {
    const input = crypto.randomBytes(512 * 1024);
    const expected = hex(sha256Once(input));
    for (const lanes of [1, 2, 4, 8]) {
      const pair = makePair();
      const { result, received } = await uploadAndAwait(pair, input, { lanes, chunkSize: 8 * 1024 });
      expect(received).toEqual(input);
      expect(result.sha256).toBe(expected);
    }
  });

  test('upload with ReadableStream input → round-robin partition', async () => {
    const pair = makePair();
    const input = crypto.randomBytes(300 * 1024);
    const stream = new ReadableStream<Uint8Array>({
      start(controller) {
        for (let off = 0; off < input.length; off += 64 * 1024) {
          controller.enqueue(input.subarray(off, Math.min(off + 64 * 1024, input.length)));
        }
        controller.close();
      },
    });
    let resolveRecv!: (h: import('../src/index.js').TransferHandle) => void;
    const recvHandlePromise = new Promise<import('../src/index.js').TransferHandle>((r) => {
      resolveRecv = r;
    });
    const unsubscribe = pair.receiver.onIncomingTransfer(async (incoming) => {
      const h = await incoming.accept({ output: { kind: 'buffer' } });
      resolveRecv(h);
    });
    const handle = await pair.sender.upload({
      to: 'bob',
      input: stream,
      lanes: 4,
      chunkSize: 32 * 1024,
    });
    const recvHandle = await recvHandlePromise;
    const [, recvResult] = await Promise.all([handle.done(), recvHandle.done()]);
    unsubscribe();
    const bytes = (recvResult as TransferResult & { bytes?: Uint8Array }).bytes ?? new Uint8Array();
    expect(bytes).toEqual(input);
  });

  test('progress events fire and end with complete', async () => {
    const pair = makePair();
    const input = crypto.randomBytes(64 * 1024);
    const senderProgressSamples: number[] = [];
    const receiverEvents: string[] = [];

    let resolveRecv!: (h: import('../src/index.js').TransferHandle) => void;
    const recvHandlePromise = new Promise<import('../src/index.js').TransferHandle>((r) => {
      resolveRecv = r;
    });
    const unsub = pair.receiver.onIncomingTransfer(async (incoming) => {
      const h = await incoming.accept({
        output: { kind: 'buffer' },
        onEvent: (e) => {
          receiverEvents.push(e.type);
        },
      });
      resolveRecv(h);
    });

    const handle = await pair.sender.upload({
      to: 'bob',
      input,
      lanes: 2,
      chunkSize: 8 * 1024,
      onProgress: (p) => senderProgressSamples.push(p.bytesSent),
    });
    const recvHandle = await recvHandlePromise;
    await Promise.all([handle.done(), recvHandle.done()]);
    unsub();
    expect(senderProgressSamples.length).toBeGreaterThan(0);
    expect(senderProgressSamples[senderProgressSamples.length - 1]).toBe(64 * 1024);
    expect(receiverEvents).toContain('start');
    expect(receiverEvents).toContain('complete');
  });
});
feat(files): @shade/files 0.3.0 — E2EE filesystem RPC primitive M-Files-1..6 land the full files-RPC layer + everything 0.3.0 needs to ship. Apps keep their own UI; this layer ships the typed RPC, the streams bridge for content I/O, and production hooks (rate limit, retention, fingerprint gate, metrics). @shade/files (NEW) - Standard ops: list/stat/mkdir/delete/move/read/write/getThumbnail with Zod-validated wire schemas + clean user-handler types. - Custom ops: typed via TypeScript declaration merging on CustomOpsMap + per-op Zod schemas; client.custom('app.foo', {...}) is fully typed. - Content I/O: inline (≤ 256 KiB plaintext) base64-in-RPC; streams (> 256 KiB) ride @shade/transfer via userMetadata.shadeFilesWriteId / shadeFilesReadStreamId correlation. Server-side TransformStream bridges accept inbound transfers immediately (engine rejects chunks that arrive before accept) and park the readable for the matching RPC. - Directory ops: walk(path, opts) async-iterable depth-first walker; uploadDirectory()/downloadDirectory() with bounded concurrency pool (default 4, cap 16), aggregated progress, abort. - Production hooks (callback-based, vendor-neutral): rate-limit (op + byte), idempotency cache (LRU + TTL + in-flight de-dupe), path policy (traversal + percent-decode hardening), fingerprint gate (required/optional/reject), pluggable Ed25519 sig verification with ±5 min replay window, onMetric sink (standard names). - React hooks (subpath @shade/files/react): ShadeFilesProvider, useShadeFiles, useFileList, useFileTransfer/Upload/Download. - Shade.files.serve(handler) + Shade.files.client(peer) high-level entrypoint in @shade/sdk; lazy + memoized; one handler per Shade. Wire format bump - @shade/proto wire VERSION 0x01 → 0x02. Length prefixes changed from u16 to u32. The previous u16 silently truncated payloads above 64 KiB — a hard correctness ceiling that blocked inline file ops up to 256 KiB. Wire-incompatible with 0.2.x peers; new sessions only. Cross-platform Kotlin port (android/shade-android) updated to match; test-vectors/wire-format.json regenerated. Concurrency safety - ShadeSessionManager.encrypt/.decrypt now run under per-peer mutex. Concurrent decryptions of the same peer raced ratchet state (manifested as sporadic "Failed to decrypt — wrong key or tampered data" under load — surfaced once concurrent uploadDirectory pumped many writes in flight). Encrypt was already serialized via Shade.send's encryptChains; decrypt is now serialized at the manager layer too. @shade/streams extension - StreamMetadata.userMetadata?: Record<string, string> for application-level key/value pairs that round-trip verbatim through stream-init plaintext. Used by @shade/files for write/read correlation; available to any consumer. @shade/sdk extension - Shade.files getter (lazy + memoized). - BackgroundHooks.onPruneFiles + periodic timer (default 5 min) + BackgroundTasks.setHook(name, fn) for runtime hook registration. Bundles in-flight 0.2.0 work - packages/shade-streams/, packages/shade-transfer/, related shade-sdk streams-bridge + shade-widgets transfer hooks were uncommitted prior to this session. Including them keeps the workspace consistent at 0.3.0 since @shade/files depends on them. Tests - 74 new tests in @shade/files (572 → 646 workspace pass; 0 fail; 3× stable). Coverage spans unit (inline-threshold + concurrency), integration (read-write inline + streams up to 1 MiB, walk + upload/download directory, custom-op, metrics, SDK namespace end-to-end), and security (tampered-envelope sig verification, replay window, fingerprint gate, rate-limit + quota). Release artifacts - All packages bumped to 0.3.0 via scripts/bump-version.ts. - scripts/publish-all.ts PACKAGES updated with shade-files in topological order (after shade-transfer, before shade-sdk). - bun run publish:dry clean (14 packed, 0 failed). - examples/08-files-browser/ — three-process CLI demo (prekey + Bob server + Alice CLI) covering list/stat/mkdir/delete/upload/download. - docs/files.md — full API + design doc. - CHANGELOG.md 0.3.0 entry. Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com> 2026-05-02 14:00:01 +02:00			`import { describe, test, expect } from 'bun:test';`
			`import { SubtleCryptoProvider } from '@shade/crypto-web';`
			`import { sha256Once } from '@shade/streams';`
			`import {`
			`TransferEngine,`
			`MemoryControlChannel,`
			`MemoryTransferTransport,`
			`} from '../src/index.js';`
			`import type { IncomingTransfer, TransferResult } from '../src/index.js';`

			`const crypto = new SubtleCryptoProvider();`

			`function hex(bytes: Uint8Array): string {`
			`return Array.from(bytes, (b) => b.toString(16).padStart(2, '0')).join('');`
			`}`

			`interface PairedEngines {`
			`sender: TransferEngine;`
			`receiver: TransferEngine;`
			`}`

			`function makePair(): PairedEngines {`
			`const { a: ctrlA, b: ctrlB } = MemoryControlChannel.linked('alice', 'bob');`
			`const { a: txA, b: txB } = MemoryTransferTransport.linked('alice', 'bob');`

			`const senderEngine = new TransferEngine({`
			`crypto,`
			`controlChannel: ctrlA,`
			`transport: txA,`
			`myAddress: 'alice',`
			`});`
			`const receiverEngine = new TransferEngine({`
			`crypto,`
			`controlChannel: ctrlB,`
			`transport: txB,`
			`myAddress: 'bob',`
			`});`

			`// Wire receiver-side transport to route chunks into receiver-engine.`
			`txB.setChunkHandler(async (from, streamId, laneId, seq, bytes) =>`
			`receiverEngine.receiveChunk(from, streamId, laneId, seq, bytes),`
			`);`
			`txB.setResumeProvider(async (from, streamId) =>`
			`receiverEngine.getResumeState(from, streamId),`
			`);`

			`return { sender: senderEngine, receiver: receiverEngine };`
			`}`

			`async function uploadAndAwait(`
			`pair: PairedEngines,`
			`input: Uint8Array,`
			`opts?: { lanes?: number; chunkSize?: number; partition?: 'auto' \| 'range' \| 'round-robin' },`
			`): Promise<{ result: TransferResult; received: Uint8Array }> {`
			`// The handler accepts and PUBLISHES the receive-handle out-of-band so`
			`// it can return promptly (control channel awaits handler completion).`
			`let resolveReceiveHandle!: (h: import('../src/index.js').TransferHandle) => void;`
			`const receiveHandlePromise = new Promise<import('../src/index.js').TransferHandle>(`
			`(r) => { resolveReceiveHandle = r; },`
			`);`
			`const unsubscribe = pair.receiver.onIncomingTransfer(async (incoming: IncomingTransfer) => {`
			`const handle = await incoming.accept({ output: { kind: 'buffer' } });`
			`resolveReceiveHandle(handle);`
			`});`

			`const handle = await pair.sender.upload({`
			`to: 'bob',`
			`input,`
			`...(opts?.lanes !== undefined ? { lanes: opts.lanes } : {}),`
			`...(opts?.chunkSize !== undefined ? { chunkSize: opts.chunkSize } : {}),`
			`...(opts?.partition !== undefined ? { partition: opts.partition } : {}),`
			`metadata: { name: 'test.bin', contentType: 'application/octet-stream' },`
			`});`
			`const recvHandle = await receiveHandlePromise;`
			`const [senderResult, receiverResult] = await Promise.all([handle.done(), recvHandle.done()]);`
			`unsubscribe();`
			`const bytes =`
			`(receiverResult as TransferResult & { bytes?: Uint8Array }).bytes ?? new Uint8Array(0);`
			`return { result: senderResult, received: bytes };`
			`}`

			`describe('TransferEngine (memory loopback)', () => {`
			`test('1 KiB upload — 1 lane (auto-degrade for small file)', async () => {`
			`const pair = makePair();`
			`const input = crypto.randomBytes(1024);`
			`const { result, received } = await uploadAndAwait(pair, input, { lanes: 4, chunkSize: 256 });`
			`expect(received).toEqual(input);`
			`expect(result.sha256).toBe(hex(sha256Once(input)));`
			`});`

			`test('256 KiB upload — 4 lanes range partition', async () => {`
			`const pair = makePair();`
			`const input = crypto.randomBytes(256 * 1024);`
			`const { result, received } = await uploadAndAwait(pair, input, {`
			`lanes: 4,`
			`chunkSize: 16 * 1024,`
			`partition: 'range',`
			`});`
			`expect(received).toEqual(input);`
			`expect(result.sha256).toBe(hex(sha256Once(input)));`
			`});`

			`test('1 MiB upload — 4 lanes round-robin partition', async () => {`
			`const pair = makePair();`
			`const input = crypto.randomBytes(1024 * 1024);`
			`const { result, received } = await uploadAndAwait(pair, input, {`
			`lanes: 4,`
			`chunkSize: 64 * 1024,`
			`partition: 'round-robin',`
			`});`
			`expect(received).toEqual(input);`
			`expect(result.sha256).toBe(hex(sha256Once(input)));`
			`});`

			`test('integrity: same sha256 across lane counts', async () => {`
			`const input = crypto.randomBytes(512 * 1024);`
			`const expected = hex(sha256Once(input));`
			`for (const lanes of [1, 2, 4, 8]) {`
			`const pair = makePair();`
			`const { result, received } = await uploadAndAwait(pair, input, { lanes, chunkSize: 8 * 1024 });`
			`expect(received).toEqual(input);`
			`expect(result.sha256).toBe(expected);`
			`}`
			`});`

			`test('upload with ReadableStream input → round-robin partition', async () => {`
			`const pair = makePair();`
			`const input = crypto.randomBytes(300 * 1024);`
			`const stream = new ReadableStream<Uint8Array>({`
			`start(controller) {`
			`for (let off = 0; off < input.length; off += 64 * 1024) {`
			`controller.enqueue(input.subarray(off, Math.min(off + 64 * 1024, input.length)));`
			`}`
			`controller.close();`
			`},`
			`});`
			`let resolveRecv!: (h: import('../src/index.js').TransferHandle) => void;`
			`const recvHandlePromise = new Promise<import('../src/index.js').TransferHandle>((r) => {`
			`resolveRecv = r;`
			`});`
			`const unsubscribe = pair.receiver.onIncomingTransfer(async (incoming) => {`
			`const h = await incoming.accept({ output: { kind: 'buffer' } });`
			`resolveRecv(h);`
			`});`
			`const handle = await pair.sender.upload({`
			`to: 'bob',`
			`input: stream,`
			`lanes: 4,`
			`chunkSize: 32 * 1024,`
			`});`
			`const recvHandle = await recvHandlePromise;`
			`const [, recvResult] = await Promise.all([handle.done(), recvHandle.done()]);`
			`unsubscribe();`
			`const bytes = (recvResult as TransferResult & { bytes?: Uint8Array }).bytes ?? new Uint8Array();`
			`expect(bytes).toEqual(input);`
			`});`

			`test('progress events fire and end with complete', async () => {`
			`const pair = makePair();`
			`const input = crypto.randomBytes(64 * 1024);`
			`const senderProgressSamples: number[] = [];`
			`const receiverEvents: string[] = [];`

			`let resolveRecv!: (h: import('../src/index.js').TransferHandle) => void;`
			`const recvHandlePromise = new Promise<import('../src/index.js').TransferHandle>((r) => {`
			`resolveRecv = r;`
			`});`
			`const unsub = pair.receiver.onIncomingTransfer(async (incoming) => {`
			`const h = await incoming.accept({`
			`output: { kind: 'buffer' },`
			`onEvent: (e) => {`
			`receiverEvents.push(e.type);`
			`},`
			`});`
			`resolveRecv(h);`
			`});`

			`const handle = await pair.sender.upload({`
			`to: 'bob',`
			`input,`
			`lanes: 2,`
			`chunkSize: 8 * 1024,`
			`onProgress: (p) => senderProgressSamples.push(p.bytesSent),`
			`});`
			`const recvHandle = await recvHandlePromise;`
			`await Promise.all([handle.done(), recvHandle.done()]);`
			`unsub();`
			`expect(senderProgressSamples.length).toBeGreaterThan(0);`
			`expect(senderProgressSamples[senderProgressSamples.length - 1]).toBe(64 * 1024);`
			`expect(receiverEvents).toContain('start');`
			`expect(receiverEvents).toContain('complete');`
			`});`
			`});`