| `fuzz_transaction_decoding` | Borsh decoding of `NSSATransaction`, `Block`, and `HashableBlockData`; roundtrip re-encoding of successfully decoded transactions | `fuzz/fuzz_targets/fuzz_transaction_decoding.rs` |
| `fuzz_stateless_verification` | `transaction_stateless_check()` no-panic on arbitrary bytes; idempotency — a transaction that passes the check must pass it again | `fuzz/fuzz_targets/fuzz_stateless_verification.rs` |
| `fuzz_state_transition` | `execute_check_on_state()` across up to 8 transactions with fuzz-driven initial state and monotonically-advancing block context; asserts **StateIsolationOnFailure** (balances unchanged on rejection), **BalanceConservation** (total balance unchanged on success), and **ReplayRejection** (nonce consumed on first acceptance) | `fuzz/fuzz_targets/fuzz_state_transition.rs` |
| `fuzz_block_verification` | Three block-hash invariants: **HashRoundTrip** (`HashableBlockData::from(Block)` is lossless), **HashPreimage** (block_id, prev_block_hash, timestamp each individually affect the hash), **TxOrderCommitment** (reversing the transaction list changes the hash) | `fuzz/fuzz_targets/fuzz_block_verification.rs` |
| `fuzz_encoding_roundtrip` | `decode(encode(tx)) == Ok(tx)` and `encode(decode(encode(tx))) == encode(tx)` for `PublicTransaction` and `ProgramDeploymentTransaction`; raw bytes that decode successfully must re-encode identically (canonical encoding) | `fuzz/fuzz_targets/fuzz_encoding_roundtrip.rs` |
| `fuzz_replay_prevention` | A tx accepted in block N must be rejected when replayed in block N+1 (nonce consumed); fuzz-driven initial state exposes nonce edge cases (nonce 0, `u128::MAX`, zero-balance sender) | `fuzz/fuzz_targets/fuzz_replay_prevention.rs` |
| `fuzz_state_diff_computation` | **Forward containment**: `ValidatedStateDiff` only modifies accounts declared in `affected_public_account_ids()`; **Reverse completeness**: every declared account actually modified by `execute_check_on_state` appears in the diff | `fuzz/fuzz_targets/fuzz_state_diff_computation.rs` |
| `fuzz_validate_execute_consistency` | `validate_on_state` and `execute_check_on_state` must agree on success/failure; diff accuracy (forward + reverse); **BalanceConservation** on success | `fuzz/fuzz_targets/fuzz_validate_execute_consistency.rs` |
| `fuzz_witness_set_verification` | `WitnessSet::is_valid_for` no-panic on adversarial input (**NoPanic**); **CorrectVerification** (`WitnessSet::for_message` always passes `is_valid_for` on the same message); **MessageIsolation** (witness set built for message A fails `is_valid_for` on any Borsh-distinct message B) | `fuzz/fuzz_targets/fuzz_witness_set_verification.rs` |
| `fuzz_program_deployment_lifecycle` | `V03State::transition_from_program_deployment_transaction` no-panic on arbitrary WASM bytecode (**NoPanic**); **BalanceIsolation** (successful deployment must not move tokens); **StateIsolationOnFailure** (failed deployment must not change any genesis account balance or nonce) | `fuzz/fuzz_targets/fuzz_program_deployment_lifecycle.rs` |
| `fuzz_apply_state_diff_split_path` | **SplitPathEquivalence**: for every known account, `validate_on_state` + `apply_state_diff` must produce exactly the same balance, nonce, data, and program_owner as `execute_check_on_state`; **NonceIncrementCorrectness**: nonce after the split path equals nonce after the direct path for all signer accounts (catches bugs in the two-step `apply_state_diff` nonce-increment logic) | `fuzz/fuzz_targets/fuzz_apply_state_diff_split_path.rs` |
| `fuzz_multi_block_state_sequence` | **LongRangeBalanceConservation**: total genesis-account balance identical before and after all N (≤ 16) blocks; **FailedTxNonceStability**: every genesis-account nonce unchanged after a rejected transaction; **PerBlockReplayRejection**: every transaction accepted in block B is rejected in block B+1 (cumulative nonce-interaction coverage) | `fuzz/fuzz_targets/fuzz_multi_block_state_sequence.rs` |
| `fuzz_sequencer_vs_replayer` | **SequencerReplayerEquivalence**: for every known account (genesis ∪ diff-declared), the sequencer path (`validate_on_state` → `apply_state_diff`) and the replayer path (`execute_check_on_state`) must produce identical balance, nonce, data, and program_owner after applying a full block of up to 8 transactions plus the mandatory clock invocation; **ReplayerAcceptsAllSequencerTxs**: every transaction accepted by `validate_on_state` must also be accepted by `execute_check_on_state`; **ClockConsistency**: the mandatory clock invocation must succeed on both paths and leave both states identical | `fuzz/fuzz_targets/fuzz_sequencer_vs_replayer.rs` |
| `StateIsolationOnFailure` | Per-account balance must not change for any tracked account when a transaction is rejected | ✅ Fully implemented |
| `BalanceConservation` | Total balance of all known accounts must be conserved when a transaction succeeds | ✅ Fully implemented |
| `FailedTxNonceStability` | Every account's nonce must remain unchanged when a transaction is rejected | ✅ Fully implemented |
| `ReplayRejection` | An accepted transaction must be rejected when replayed | ⚠️ Registry stub — always returns `None` from `InvariantCtx`; use `assert_replay_rejection()` directly (see note below) |
| `NonceIncrementCorrectness` | Every signer account's nonce must be incremented by exactly one after a successful transaction | ⚠️ Registry stub — always returns `None` from `InvariantCtx`; use `assert_nonce_increment_correctness()` directly (see note below) |
> **Note on stub invariants:** `ReplayRejection` and `NonceIncrementCorrectness` cannot be
> fully exercised through `InvariantCtx` alone. Each requires information that is consumed
> before `InvariantCtx` is built:
>
> - **`ReplayRejection`**: `execute_check_on_state` returns the `NSSATransaction` on `Ok`,
> consuming `self`. Replaying it requires re-applying the returned transaction to the
> post-execution state — not possible via a shared `&InvariantCtx`. Use the standalone
| `arbitrary_fuzz_state()` | 1–8 fuzz-driven accounts with arbitrary IDs, balances, and private keys; used by `fuzz_state_transition`, `fuzz_replay_prevention`, `fuzz_validate_execute_consistency`, `fuzz_state_diff_computation` |
| `arb_fuzz_native_transfer()` | Correctly-signed native-transfer `NSSATransaction` referencing accounts from an `arbitrary_fuzz_state()` result; gives the fuzzer a path to successful state transitions |
| `arbitrary_transaction()` | Structured `NSSATransaction` (`Public` or `ProgramDeployment`) from unstructured bytes via `ArbNSSATransaction` |
| `arb_borsh_transaction_bytes()` | Raw Borsh bytes including invalid encodings |
| `arb_native_transfer_tx()` | Valid native-transfer `NSSATransaction` between known testnet genesis accounts (proptest strategy) |
| `PrivacyPreservingTransaction` coverage | Excluded from `fuzz_encoding_roundtrip` because its ZK receipt cannot be reconstructed in a fuzzing loop. A dedicated slow target with `RISC0_DEV_MODE=1` and `proptest` should be added after the current targets are stable |
| `fuzz_validate_execute_consistency` new-account detection | If `execute_check_on_state` creates a brand-new account absent from both the genesis set and the diff, that state-widening will not be detected — full detection requires iterating all accounts in `V03State`, which the API does not currently expose |
| Differential testing (sequencer vs replayer) | ✅ Implemented — `fuzz_sequencer_vs_replayer` feeds the same block through the sequencer path (`validate_on_state` → `apply_state_diff`) and the replayer path (`execute_check_on_state`) and asserts identical state for all known accounts |
| LEZ version tracking | There is no submodule pin — `lez-fuzzing` reads `../logos-execution-zone` as checked out. Update that repo to a release tag or a tested commit, then run `just update-lez` (which does `git pull --ff-only`) and open a PR to bump it |
