---
phase: 03-round-trip-verification
plan: 02
type: execute
wave: 2
depends_on: ["03-01"]
files_modified:
  - tests/golden.rs
  - tests/round_trip.rs
autonomous: true
requirements: [INT-02, TST-01, TST-02]

must_haves:
  truths:
    - "Golden test vectors pass: AES-256-CBC encryption of 'Hello' with project KEY and fixed IV produces exact expected ciphertext (cross-verified with openssl)"
    - "Golden test vectors pass: HMAC-SHA256 of IV||ciphertext produces exact expected hash"
    - "Golden test vectors pass: SHA-256 of 'Hello' matches known value from FORMAT.md"
    - "Round-trip pack->unpack produces byte-identical files for: single text file, multiple files, empty file, Cyrillic filename, large (11MB) binary"
    - "cargo test --test golden passes all golden vector tests"
    - "cargo test --test round_trip passes all integration tests"
  artifacts:
    - path: "tests/golden.rs"
      provides: "Golden test vectors with fixed IV/key for deterministic verification"
      contains: "test_golden_aes256cbc"
    - path: "tests/round_trip.rs"
      provides: "CLI round-trip integration tests via assert_cmd"
      contains: "test_roundtrip"
  key_links:
    - from: "tests/golden.rs"
      to: "src/crypto.rs"
      via: "use encrypted_archive::crypto"
      pattern: "encrypted_archive::crypto"
    - from: "tests/golden.rs"
      to: "src/key.rs"
      via: "use encrypted_archive::key::KEY"
      pattern: "encrypted_archive::key::KEY"
    - from: "tests/round_trip.rs"
      to: "encrypted_archive binary"
      via: "Command::cargo_bin(\"encrypted_archive\")"
      pattern: "cargo_bin.*encrypted_archive"
---

<objective>
Implement golden test vectors (TST-02) and CLI round-trip integration tests (INT-02, TST-01) that prove byte-identical round-trips for all edge cases.

Purpose: Golden vectors prove the crypto implementation matches the spec (cross-verifiable with openssl). Round-trip tests prove the full pack->unpack pipeline preserves file content exactly. Together they satisfy the Phase 3 success criteria.

Output: `tests/golden.rs` with fixed-IV crypto tests, `tests/round_trip.rs` with CLI integration tests for all edge cases.
</objective>

<execution_context>
@/home/nick/.claude/get-shit-done/workflows/execute-plan.md
@/home/nick/.claude/get-shit-done/templates/summary.md
</execution_context>

<context>
@.planning/PROJECT.md
@.planning/ROADMAP.md
@.planning/STATE.md
@.planning/phases/03-round-trip-verification/03-RESEARCH.md
@.planning/phases/03-round-trip-verification/03-01-SUMMARY.md
@docs/FORMAT.md
@src/crypto.rs
@src/key.rs
</context>

<tasks>

<task type="auto">
  <name>Task 1: Create golden test vectors with fixed IV/key</name>
  <files>tests/golden.rs</files>
  <action>
Create `tests/golden.rs` with deterministic golden test vectors. These call library functions directly with fixed IVs (NOT via CLI which uses random IVs).

Import:
```rust
use encrypted_archive::{crypto, key::KEY};
use hex_literal::hex;
```

**Test 1: `test_golden_aes256cbc_hello`**
Encrypt "Hello" (5 bytes) with project KEY and IV = `00000000000000000000000000000001`.
Expected ciphertext: `hex!("6e66ae8bc740efeefe83b5713fcb716f")` (16 bytes -- verified with openssl in research).
```rust
let iv = hex!("00000000000000000000000000000001");
let ciphertext = crypto::encrypt_data(b"Hello", &KEY, &iv);
assert_eq!(ciphertext, hex!("6e66ae8bc740efeefe83b5713fcb716f").to_vec());
```

**Test 2: `test_golden_aes256cbc_decrypt_hello`**
Decrypt the ciphertext from Test 1 back to "Hello". Verifies round-trip with the exact golden vector.
```rust
let iv = hex!("00000000000000000000000000000001");
let ciphertext = hex!("6e66ae8bc740efeefe83b5713fcb716f");
let plaintext = crypto::decrypt_data(&ciphertext, &KEY, &iv).unwrap();
assert_eq!(plaintext, b"Hello");
```

**Test 3: `test_golden_aes256cbc_empty`**
Encrypt empty slice with KEY and IV = zero. Expected: 16 bytes (full PKCS7 padding block). Decrypt back, assert empty.
Use a fixed IV (e.g., all zeros). The exact ciphertext can be computed: encrypt b"" and store the result as golden vector. Since empty + PKCS7 = 16 bytes of 0x10, encrypt that. Compute the expected value by running the test once, then hardcode it. ALTERNATIVELY: just test the round-trip property (encrypt then decrypt gives empty) plus verify length == 16. This is simpler and sufficient for the empty case.

**Test 4: `test_golden_hmac_sha256`**
Compute HMAC-SHA256 over IV || ciphertext from Test 1.
Expected: `hex!("0c85780b6628ba3b52654d2f6e0d9bbec67443cf2a6104eb3120ec93fc2d38d4")` (verified with openssl in research).
```rust
let iv = hex!("00000000000000000000000000000001");
let ciphertext = hex!("6e66ae8bc740efeefe83b5713fcb716f");
let hmac = crypto::compute_hmac(&KEY, &iv, &ciphertext);
assert_eq!(hmac, hex!("0c85780b6628ba3b52654d2f6e0d9bbec67443cf2a6104eb3120ec93fc2d38d4"));
```

**Test 5: `test_golden_hmac_verify`**
Verify HMAC from Test 4 returns true. Also verify with a wrong expected value returns false.

**Test 6: `test_golden_sha256_hello`**
SHA-256("Hello") must equal `hex!("185f8db32271fe25f561a6fc938b2e264306ec304eda518007d1764826381969")` (from FORMAT.md Section 12.3).

**Test 7: `test_golden_sha256_32x01`**
SHA-256 of 32 bytes of 0x01 must equal `hex!("72cd6e8422c407fb6d098690f1130b7ded7ec2f7f5e1d30bd9d521f015363793")` (from FORMAT.md Section 12.3).

CRITICAL: Do NOT create golden vectors for compressed-then-encrypted data (gzip non-determinism across platforms). All golden vectors test raw plaintext encryption only.
  </action>
  <verify>
    <automated>cd /home/nick/Projects/Rust/encrypted_archive && cargo test --test golden 2>&1</automated>
    <manual>All 7 golden vector tests pass</manual>
  </verify>
  <done>Golden test vectors exist for AES-256-CBC encrypt/decrypt, HMAC-SHA256, and SHA-256. All values cross-verified with openssl enc / openssl dgst / sha256sum during research. TST-02 satisfied.</done>
</task>

<task type="auto">
  <name>Task 2: Create CLI round-trip integration tests</name>
  <files>tests/round_trip.rs</files>
  <action>
Create `tests/round_trip.rs` with integration tests that run the actual `encrypted_archive` binary via `assert_cmd::Command::cargo_bin("encrypted_archive")`.

Import:
```rust
use assert_cmd::Command;
use tempfile::tempdir;
use std::fs;
```

**Test 1: `test_roundtrip_single_text_file`**
- Create tempdir, write `hello.txt` with content `b"Hello"`.
- Run `encrypted_archive pack hello.txt -o archive.bin`.
- Run `encrypted_archive unpack archive.bin -o output/`.
- Assert `output/hello.txt` content == original `b"Hello"`.

**Test 2: `test_roundtrip_multiple_files`**
- Create two files: `text.txt` ("Some text content") and `binary.dat` (256 bytes of 0x42).
- Pack both into one archive.
- Unpack.
- Assert both files byte-identical to originals.

**Test 3: `test_roundtrip_empty_file`**
- Create `empty.txt` with 0 bytes.
- Pack, unpack.
- Assert extracted file is exactly 0 bytes.
- This tests PKCS7 full-block padding on 0-byte input (encrypted_size = 16).

**Test 4: `test_roundtrip_cyrillic_filename`**
- Create `файл.txt` with content "Содержимое" (Cyrillic, UTF-8).
- Pack, unpack.
- Assert extracted `файл.txt` content equals original.
- This tests non-ASCII (UTF-8) filename handling in TOC entries.

**Test 5: `test_roundtrip_large_file`**
- Generate 11MB (11_000_000 bytes) of deterministic pseudo-random data: `(0..11_000_000u32).map(|i| (i.wrapping_mul(2654435761)) as u8).collect()`.
- Write as `large.bin`.
- Pack with `--no-compress bin` (skip compression for binary extension).
- Unpack.
- Assert byte-identical.
- This tests large file handling (>10MB) per Phase 3 success criteria.

**Test 6: `test_roundtrip_no_compress_flag`**
- Create `data.apk` with some content (e.g., 100 bytes of pattern).
- Pack (APK auto-detected as no-compress).
- Unpack.
- Assert byte-identical.
- This tests that no-compression round-trip works (compression_flag=0).

Each test uses `tempdir()` for isolation (auto-cleanup, parallel-safe).
Each test asserts `.success()` on both pack and unpack commands.
Each test compares file content with `assert_eq!(fs::read(original), fs::read(extracted))`.

IMPORTANT: Use `assert_cmd::Command::cargo_bin("encrypted_archive").unwrap()` to locate the binary. This handles debug/release build paths automatically.
  </action>
  <verify>
    <automated>cd /home/nick/Projects/Rust/encrypted_archive && cargo test --test round_trip 2>&1</automated>
    <manual>All 6 round-trip tests pass including empty file, Cyrillic filename, and 11MB file</manual>
  </verify>
  <done>Round-trip integration tests cover: single file, multiple files, empty file, Cyrillic filename, large (11MB) binary, no-compression APK. All tests verify byte-identical extraction via SHA-256 implicit comparison (assert_eq on raw bytes). INT-02 and TST-01 satisfied.</done>
</task>

</tasks>

<verification>
- `cargo test --test golden` passes all 7 golden vector tests
- `cargo test --test round_trip` passes all 6 integration tests
- `cargo test` passes ALL tests (unit + golden + round-trip)
- Golden vectors use fixed IVs (no randomness, fully deterministic)
- Round-trip tests cover all edge cases from Phase 3 success criteria: empty file, large APK (>10MB), non-ASCII name (Cyrillic)
</verification>

<success_criteria>
1. `cargo test` runs 30+ tests (19 unit + 7 golden + 6 round-trip), all pass
2. Golden test values match openssl cross-verification from research
3. All Phase 3 success criteria met:
   - Byte-identical round-trips (INT-02)
   - Golden vectors exist (TST-02)
   - Unit tests per module (TST-03, from Plan 01)
   - Edge cases: empty file, >10MB, Cyrillic filename
</success_criteria>

<output>
After completion, create `.planning/phases/03-round-trip-verification/03-02-SUMMARY.md`
</output>