packages/shade-streams/tests/partition.test.ts

import { describe, test, expect } from 'bun:test';
import { ValidationError } from '@shade/core';
import {
  planRangePartition,
  planRoundRobinPartition,
  chunkRange,
  partitionsEqual,
} from '../src/index.js';

describe('planRangePartition', () => {
  test('evenly divisible totalBytes', () => {
    const lanes = planRangePartition(100, 4);
    expect(lanes).toHaveLength(4);
    expect(lanes[0]!.partition).toEqual({ kind: 'range', startByte: 0, endByte: 25, startChunk: 0 });
    expect(lanes[3]!.partition).toEqual({ kind: 'range', startByte: 75, endByte: 100, startChunk: 0 });
  });

  test('non-divisible: extra bytes go to early lanes', () => {
    const lanes = planRangePartition(10, 3);
    const ranges = lanes.map((l) => l.partition);
    // 10 / 3 = 3 remainder 1 — lane 0 gets 4, lanes 1+2 get 3 each
    expect(ranges[0]).toEqual({ kind: 'range', startByte: 0, endByte: 4, startChunk: 0 });
    expect(ranges[1]).toEqual({ kind: 'range', startByte: 4, endByte: 7, startChunk: 0 });
    expect(ranges[2]).toEqual({ kind: 'range', startByte: 7, endByte: 10, startChunk: 0 });
  });

  test('lanes cover entire range without gaps or overlap', () => {
    for (const total of [0, 1, 7, 100, 1024 * 1024]) {
      for (const count of [1, 2, 4, 16]) {
        const lanes = planRangePartition(total, count);
        let cursor = 0;
        for (const lane of lanes) {
          if (lane.partition.kind !== 'range') throw new Error('expected range');
          expect(lane.partition.startByte).toBe(cursor);
          cursor = lane.partition.endByte;
        }
        expect(cursor).toBe(total);
      }
    }
  });

  test('1-lane partition spans entire input', () => {
    const lanes = planRangePartition(500, 1);
    expect(lanes).toHaveLength(1);
    expect(lanes[0]!.partition).toEqual({ kind: 'range', startByte: 0, endByte: 500, startChunk: 0 });
  });

  test('rejects negative totalBytes / fractional / non-positive count', () => {
    expect(() => planRangePartition(-1, 1)).toThrow(ValidationError);
    expect(() => planRangePartition(1.5, 1)).toThrow(ValidationError);
    expect(() => planRangePartition(100, 0)).toThrow(ValidationError);
    expect(() => planRangePartition(100, -1)).toThrow(ValidationError);
  });

  test('laneIds are 0..count-1 in order', () => {
    const lanes = planRangePartition(64, 16);
    for (let i = 0; i < 16; i++) expect(lanes[i]!.laneId).toBe(i);
  });
});

describe('planRoundRobinPartition', () => {
  test('produces N lanes labeled 0..N-1', () => {
    const lanes = planRoundRobinPartition(8);
    expect(lanes).toHaveLength(8);
    for (let i = 0; i < 8; i++) {
      expect(lanes[i]!.laneId).toBe(i);
      expect(lanes[i]!.partition).toEqual({ kind: 'round-robin', lane: i, count: 8 });
    }
  });

  test('rejects non-positive count', () => {
    expect(() => planRoundRobinPartition(0)).toThrow(ValidationError);
    expect(() => planRoundRobinPartition(-1)).toThrow(ValidationError);
  });
});

describe('chunkRange', () => {
  test('splits an even range into chunkSize slices', () => {
    expect(chunkRange(0, 1024, 256)).toEqual([
      { start: 0, end: 256 },
      { start: 256, end: 512 },
      { start: 512, end: 768 },
      { start: 768, end: 1024 },
    ]);
  });

  test('last chunk truncated for non-divisible range', () => {
    expect(chunkRange(0, 1000, 256)).toEqual([
      { start: 0, end: 256 },
      { start: 256, end: 512 },
      { start: 512, end: 768 },
      { start: 768, end: 1000 },
    ]);
  });

  test('non-zero start offset is preserved', () => {
    expect(chunkRange(100, 350, 100)).toEqual([
      { start: 100, end: 200 },
      { start: 200, end: 300 },
      { start: 300, end: 350 },
    ]);
  });

  test('empty range produces a single empty chunk (so isLast can be carried)', () => {
    expect(chunkRange(50, 50, 100)).toEqual([{ start: 50, end: 50 }]);
  });

  test('rejects non-positive chunkSize', () => {
    expect(() => chunkRange(0, 100, 0)).toThrow(ValidationError);
    expect(() => chunkRange(0, 100, -1)).toThrow(ValidationError);
  });
});

describe('partitionsEqual', () => {
  test('identical range partitions', () => {
    expect(
      partitionsEqual(
        { kind: 'range', startByte: 0, endByte: 100, startChunk: 0 },
        { kind: 'range', startByte: 0, endByte: 100, startChunk: 0 },
      ),
    ).toBe(true);
  });

  test('different range bounds', () => {
    expect(
      partitionsEqual(
        { kind: 'range', startByte: 0, endByte: 100, startChunk: 0 },
        { kind: 'range', startByte: 0, endByte: 200, startChunk: 0 },
      ),
    ).toBe(false);
  });

  test('range vs round-robin → false', () => {
    expect(
      partitionsEqual(
        { kind: 'range', startByte: 0, endByte: 100, startChunk: 0 },
        { kind: 'round-robin', lane: 0, count: 1 },
      ),
    ).toBe(false);
  });

  test('identical round-robin partitions', () => {
    expect(
      partitionsEqual(
        { kind: 'round-robin', lane: 2, count: 4 },
        { kind: 'round-robin', lane: 2, count: 4 },
      ),
    ).toBe(true);
  });

  test('different round-robin lane index', () => {
    expect(
      partitionsEqual(
        { kind: 'round-robin', lane: 1, count: 4 },
        { kind: 'round-robin', lane: 2, count: 4 },
      ),
    ).toBe(false);
  });
});
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 { ValidationError } from '@shade/core';`
			`import {`
			`planRangePartition,`
			`planRoundRobinPartition,`
			`chunkRange,`
			`partitionsEqual,`
			`} from '../src/index.js';`

			`describe('planRangePartition', () => {`
			`test('evenly divisible totalBytes', () => {`
			`const lanes = planRangePartition(100, 4);`
			`expect(lanes).toHaveLength(4);`
			`expect(lanes[0]!.partition).toEqual({ kind: 'range', startByte: 0, endByte: 25, startChunk: 0 });`
			`expect(lanes[3]!.partition).toEqual({ kind: 'range', startByte: 75, endByte: 100, startChunk: 0 });`
			`});`

			`test('non-divisible: extra bytes go to early lanes', () => {`
			`const lanes = planRangePartition(10, 3);`
			`const ranges = lanes.map((l) => l.partition);`
			`// 10 / 3 = 3 remainder 1 — lane 0 gets 4, lanes 1+2 get 3 each`
			`expect(ranges[0]).toEqual({ kind: 'range', startByte: 0, endByte: 4, startChunk: 0 });`
			`expect(ranges[1]).toEqual({ kind: 'range', startByte: 4, endByte: 7, startChunk: 0 });`
			`expect(ranges[2]).toEqual({ kind: 'range', startByte: 7, endByte: 10, startChunk: 0 });`
			`});`

			`test('lanes cover entire range without gaps or overlap', () => {`
			`for (const total of [0, 1, 7, 100, 1024 * 1024]) {`
			`for (const count of [1, 2, 4, 16]) {`
			`const lanes = planRangePartition(total, count);`
			`let cursor = 0;`
			`for (const lane of lanes) {`
			`if (lane.partition.kind !== 'range') throw new Error('expected range');`
			`expect(lane.partition.startByte).toBe(cursor);`
			`cursor = lane.partition.endByte;`
			`}`
			`expect(cursor).toBe(total);`
			`}`
			`}`
			`});`

			`test('1-lane partition spans entire input', () => {`
			`const lanes = planRangePartition(500, 1);`
			`expect(lanes).toHaveLength(1);`
			`expect(lanes[0]!.partition).toEqual({ kind: 'range', startByte: 0, endByte: 500, startChunk: 0 });`
			`});`

			`test('rejects negative totalBytes / fractional / non-positive count', () => {`
			`expect(() => planRangePartition(-1, 1)).toThrow(ValidationError);`
			`expect(() => planRangePartition(1.5, 1)).toThrow(ValidationError);`
			`expect(() => planRangePartition(100, 0)).toThrow(ValidationError);`
			`expect(() => planRangePartition(100, -1)).toThrow(ValidationError);`
			`});`

			`test('laneIds are 0..count-1 in order', () => {`
			`const lanes = planRangePartition(64, 16);`
			`for (let i = 0; i < 16; i++) expect(lanes[i]!.laneId).toBe(i);`
			`});`
			`});`

			`describe('planRoundRobinPartition', () => {`
			`test('produces N lanes labeled 0..N-1', () => {`
			`const lanes = planRoundRobinPartition(8);`
			`expect(lanes).toHaveLength(8);`
			`for (let i = 0; i < 8; i++) {`
			`expect(lanes[i]!.laneId).toBe(i);`
			`expect(lanes[i]!.partition).toEqual({ kind: 'round-robin', lane: i, count: 8 });`
			`}`
			`});`

			`test('rejects non-positive count', () => {`
			`expect(() => planRoundRobinPartition(0)).toThrow(ValidationError);`
			`expect(() => planRoundRobinPartition(-1)).toThrow(ValidationError);`
			`});`
			`});`

			`describe('chunkRange', () => {`
			`test('splits an even range into chunkSize slices', () => {`
			`expect(chunkRange(0, 1024, 256)).toEqual([`
			`{ start: 0, end: 256 },`
			`{ start: 256, end: 512 },`
			`{ start: 512, end: 768 },`
			`{ start: 768, end: 1024 },`
			`]);`
			`});`

			`test('last chunk truncated for non-divisible range', () => {`
			`expect(chunkRange(0, 1000, 256)).toEqual([`
			`{ start: 0, end: 256 },`
			`{ start: 256, end: 512 },`
			`{ start: 512, end: 768 },`
			`{ start: 768, end: 1000 },`
			`]);`
			`});`

			`test('non-zero start offset is preserved', () => {`
			`expect(chunkRange(100, 350, 100)).toEqual([`
			`{ start: 100, end: 200 },`
			`{ start: 200, end: 300 },`
			`{ start: 300, end: 350 },`
			`]);`
			`});`

			`test('empty range produces a single empty chunk (so isLast can be carried)', () => {`
			`expect(chunkRange(50, 50, 100)).toEqual([{ start: 50, end: 50 }]);`
			`});`

			`test('rejects non-positive chunkSize', () => {`
			`expect(() => chunkRange(0, 100, 0)).toThrow(ValidationError);`
			`expect(() => chunkRange(0, 100, -1)).toThrow(ValidationError);`
			`});`
			`});`

			`describe('partitionsEqual', () => {`
			`test('identical range partitions', () => {`
			`expect(`
			`partitionsEqual(`
			`{ kind: 'range', startByte: 0, endByte: 100, startChunk: 0 },`
			`{ kind: 'range', startByte: 0, endByte: 100, startChunk: 0 },`
			`),`
			`).toBe(true);`
			`});`

			`test('different range bounds', () => {`
			`expect(`
			`partitionsEqual(`
			`{ kind: 'range', startByte: 0, endByte: 100, startChunk: 0 },`
			`{ kind: 'range', startByte: 0, endByte: 200, startChunk: 0 },`
			`),`
			`).toBe(false);`
			`});`

			`test('range vs round-robin → false', () => {`
			`expect(`
			`partitionsEqual(`
			`{ kind: 'range', startByte: 0, endByte: 100, startChunk: 0 },`
			`{ kind: 'round-robin', lane: 0, count: 1 },`
			`),`
			`).toBe(false);`
			`});`

			`test('identical round-robin partitions', () => {`
			`expect(`
			`partitionsEqual(`
			`{ kind: 'round-robin', lane: 2, count: 4 },`
			`{ kind: 'round-robin', lane: 2, count: 4 },`
			`),`
			`).toBe(true);`
			`});`

			`test('different round-robin lane index', () => {`
			`expect(`
			`partitionsEqual(`
			`{ kind: 'round-robin', lane: 1, count: 4 },`
			`{ kind: 'round-robin', lane: 2, count: 4 },`
			`),`
			`).toBe(false);`
			`});`
			`});`