fef249d9e7
Cycle #27 ships a new test class systematizing the three-layer protocol invariant framework. ## Context After cycles #20–#26, the protocol has three distinct invariant classes: 1. **Structural compliance** (#178): Does the envelope exist? 2. **Quality compliance** (#179): Is stderr silent + error message truthful? 3. **Cross-channel consistency** (#181 + NEW): Do multiple channels agree? #181 revealed a critical gap: the second test class was incomplete. Envelopes could be structurally valid, quality-compliant, but still lie about their own state (envelope.exit_code != actual exit). ## New Test Class TestCrossChannelConsistency in test_cross_channel_consistency.py captures the third invariant layer with 5 dedicated tests: 1. envelope.command ↔ dispatched subcommand 2. envelope.output_format ↔ --output-format flag 3. envelope.timestamp ↔ actual wall clock (recent, <5s) 4. envelope.exit_code ↔ process exit code (cycle #26/#181 regression guard) 5. envelope boolean fields (found/handled/deleted) ↔ error block presence Each test specifically targets cross-channel truth, not structure or quality. ## Why Separate Test Classes Matter A command can fail all three ways independently: | Failure mode | Exit/Crash | Test class | Example | |---|---|---|---| | Structural | stderr noise | TestParseErrorEnvelope | argparse leaks to stderr | | Quality | correct shape, wrong message | TestParseErrorStderrHygiene | error instead of real message | | Cross-channel | truthy field, lie about state | TestCrossChannelConsistency | exit_code: 0 but exit 1 | #181 was invisible to the first two classes. A claw passing all structure/ quality tests could still be misled. The third class catches that. ## Audit Results (Cycle #27) All 5 tests pass — no drift detected in any channel pair: - ✅ Envelope command always matches dispatch - ✅ Envelope output_format always matches flag - ✅ Envelope timestamp always recent (<5s) - ✅ Envelope exit_code always matches process exit (post-#181 guard) - ✅ Boolean fields consistent with error block presence The systematic audit proved the fix from #181 holds, and identified no new cross-channel gaps. ## Test Impact - 209 → 214 tests passing (+5) - Zero regressions - New invariant class now has dedicated test suite - Future cross-channel bugs will be caught by this class ## Related - #178 (#20): Parser-front-door structural contract - #179 (#20): Stderr hygiene + real error message quality - #181 (#26): Envelope exit_code must match process exit - #182-N: Future cross-channel contract violations will be caught by TestCrossChannelConsistency This test class is evergreen — as new fields/channels are added to the protocol, invariants for those channels should be added here, not mixed with other test classes. Keeping invariant classes separate makes regression attribution instant (e.g., 'TestCrossChannelConsistency failed' = 'some truth channel disagreed'). Classification (per cycle #24 calibration): - Red-state bug: ✗ (audit is green) - Real friction: ✓ (structured audit of documented invariants) - Proof of equilibrium: ✓ (systematic verification, no gaps found) Source: Jobdori cycle #27 proactive invariant audit — following gaebal guidance to probe documented invariants, not speculative gaps.
Claw Code
ultraworkers/claw-code · Usage · Error Handling · Rust workspace · Parity · Roadmap · UltraWorkers Discord
Claw Code is the public Rust implementation of the claw CLI agent harness.
The canonical implementation lives in rust/, and the current source of truth for this repository is ultraworkers/claw-code.
Important
Start with
USAGE.mdfor build, auth, CLI, session, and parity-harness workflows. Makeclaw doctoryour first health check after building, userust/README.mdfor crate-level details, readPARITY.mdfor the current Rust-port checkpoint, and seedocs/container.mdfor the container-first workflow.ACP / Zed status:
claw-codedoes not ship an ACP/Zed daemon entrypoint yet. Runclaw acp(orclaw --acp) for the current status instead of guessing from source layout;claw acp serveis currently a discoverability alias only, and real ACP support remains tracked separately inROADMAP.md.
Current repository shape
rust/— canonical Rust workspace and theclawCLI binaryUSAGE.md— task-oriented usage guide for the current product surfaceERROR_HANDLING.md— unified error-handling pattern for orchestration codePARITY.md— Rust-port parity status and migration notesROADMAP.md— active roadmap and cleanup backlogPHILOSOPHY.md— project intent and system-design framingSCHEMAS.md— JSON protocol contract (Python harness reference)src/+tests/— companion Python/reference workspace and audit helpers; not the primary runtime surface
Quick start
Note
[!WARNING]
cargo install claw-codeinstalls the wrong thing. Theclaw-codecrate on crates.io is a deprecated stub that placesclaw-code-deprecated.exe— notclaw. Running it only prints"claw-code has been renamed to agent-code". Do not usecargo install claw-code. Either build from source (this repo) or install the upstream binary:cargo install agent-code # upstream binary — installs 'agent.exe' (Windows) / 'agent' (Unix), NOT 'agent-code'This repo (
ultraworkers/claw-code) is build-from-source only — follow the steps below.
# 1. Clone and build
git clone https://github.com/ultraworkers/claw-code
cd claw-code/rust
cargo build --workspace
# 2. Set your API key (Anthropic API key — not a Claude subscription)
export ANTHROPIC_API_KEY="sk-ant-..."
# 3. Verify everything is wired correctly
./target/debug/claw doctor
# 4. Run a prompt
./target/debug/claw prompt "say hello"
Note
Windows (PowerShell): the binary is
claw.exe, notclaw. Use.\target\debug\claw.exeor runcargo run -- prompt "say hello"to skip the path lookup.
Windows setup
PowerShell is a supported Windows path. Use whichever shell works for you. The common onboarding issues on Windows are:
- Install Rust first — download from https://rustup.rs/ and run the installer. Close and reopen your terminal when it finishes.
- Verify Rust is on PATH:
If this fails, reopen your terminal or run the PATH setup from the Rust installer output, then retry.cargo --version - Clone and build (works in PowerShell, Git Bash, or WSL):
git clone https://github.com/ultraworkers/claw-code cd claw-code/rust cargo build --workspace - Run (PowerShell — note
.exeand backslash):$env:ANTHROPIC_API_KEY = "sk-ant-..." .\target\debug\claw.exe prompt "say hello"
Git Bash / WSL are optional alternatives, not requirements. If you prefer bash-style paths (/c/Users/you/... instead of C:\Users\you\...), Git Bash (ships with Git for Windows) works well. In Git Bash, the MINGW64 prompt is expected and normal — not a broken install.
Post-build: locate the binary and verify
After running cargo build --workspace, the claw binary is built but not automatically installed to your system. Here's where to find it and how to verify the build succeeded.
Binary location
After cargo build --workspace in claw-code/rust/:
Debug build (default, faster compile):
- macOS/Linux:
rust/target/debug/claw - Windows:
rust/target/debug/claw.exe
Release build (optimized, slower compile):
- macOS/Linux:
rust/target/release/claw - Windows:
rust/target/release/claw.exe
If you ran cargo build without --release, the binary is in the debug/ folder.
Verify the build succeeded
Test the binary directly using its path:
# macOS/Linux (debug build)
./rust/target/debug/claw --help
./rust/target/debug/claw doctor
# Windows PowerShell (debug build)
.\rust\target\debug\claw.exe --help
.\rust\target\debug\claw.exe doctor
If these commands succeed, the build is working. claw doctor is your first health check — it validates your API key, model access, and tool configuration.
Optional: Add to PATH
If you want to run claw from any directory without the full path, choose one of these approaches:
Option 1: Symlink (macOS/Linux)
ln -s $(pwd)/rust/target/debug/claw /usr/local/bin/claw
Then reload your shell and test:
claw --help
Option 2: Use cargo install (all platforms)
Build and install to Cargo's default location (~/.cargo/bin/, which is usually on PATH):
# From the claw-code/rust/ directory
cargo install --path . --force
# Then from anywhere
claw --help
Option 3: Update shell profile (bash/zsh)
Add this line to ~/.bashrc or ~/.zshrc:
export PATH="$(pwd)/rust/target/debug:$PATH"
Reload your shell:
source ~/.bashrc # or source ~/.zshrc
claw --help
Troubleshooting
- "command not found: claw" — The binary is in
rust/target/debug/claw, but it's not on your PATH. Use the full path./rust/target/debug/clawor symlink/install as above. - "permission denied" — On macOS/Linux, you may need
chmod +x rust/target/debug/clawif the executable bit isn't set (rare). - Debug vs. release — If the build is slow, you're in debug mode (default). Add
--releasetocargo buildfor faster runtime, but the build itself will take 5–10 minutes.
Note
Auth: claw requires an API key (
ANTHROPIC_API_KEY,OPENAI_API_KEY, etc.) — Claude subscription login is not a supported auth path.
Run the workspace test suite after verifying the binary works:
cd rust
cargo test --workspace
Documentation map
USAGE.md— quick commands, auth, sessions, config, parity harnessrust/README.md— crate map, CLI surface, features, workspace layoutPARITY.md— parity status for the Rust portrust/MOCK_PARITY_HARNESS.md— deterministic mock-service harness detailsROADMAP.md— active roadmap and open cleanup workPHILOSOPHY.md— why the project exists and how it is operated
Ecosystem
Claw Code is built in the open alongside the broader UltraWorkers toolchain:
Ownership / affiliation disclaimer
- This repository does not claim ownership of the original Claude Code source material.
- This repository is not affiliated with, endorsed by, or maintained by Anthropic.