marfrit
4f5c3aeba9
Phase 9 formulate manifest + PHASE0 §11 amendment (adds Phase 9 row)
+ PHASE0 §10 amendment (config resolution order now references Phase
9's overlay step). Substrate-touch lands same commit per CLAUDE.md §3.
Four pillars:
1. .aish.lua walk-up from cwd; stops at $HOME or filesystem root.
First found file becomes the project layer. Absence = no-op.
2. Shallow merge over user config: project top-level keys REPLACE
user keys. Predictable; deep merge surprises with array/table
semantics. Users compose full blocks explicitly.
3. Trust prompt + sha256-pinned persistence in ~/.aish/trusted-
projects (JSONL, mode 0600). First encounter prompts; subsequent
startups load only if recorded sha matches. Content change ->
re-prompt. Matches direnv-allow security posture.
4. :config show meta — lists each source path with the top-level
keys it contributed + sanitized effective config dump
(token-bearing fields masked).
Key design decisions documented:
- Trust mechanism is explicit (not default-trust-all-cwds) —
.aish.lua runs arbitrary Lua via dofile; hostile cloned-repo
case is a real concern.
- $HOME boundary on walk-up — don't search /tmp or /. Repos
outside $HOME get no project layer.
- Reload on cd: NO. Config resolved at startup only.
- sha256 via shelled `sha256sum` (POSIX-portable; avoid
vendoring a Lua impl).
§9 risk table covers: hostile repo (trust prompt), corrupted trust
file (best-effort skip), updated repo (sha mismatch re-prompts),
dofile errors (pcall-protected), walk-up safety ($HOME boundary).
6 open questions for analyze:
Q-P1 — trust prompt before/after startup status
Q-P2 — sha256sum vs openssl dgst (baseline)
Q-P3 — log walk-up path?
Q-P4 — rl.readline safe at startup?
Q-P5 — :config show full vs top-level
Q-P6 — project-set secrets.vault security
Scope confirmed via AskUserQuestion: project-local overlay (chosen
over cost preflight enforcement and cross-session cost persistence,
both deferred as Phase 10 candidates per §11).
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
aish
aish — AI-augmented conversational shell.
A single REPL that interleaves shell command execution and language-model conversation, backed by a llama.cpp HTTP broker. Implementation is LuaJIT 2.x with FFI bindings to libcurl, GNU readline, and libc — no C extensions, no build step, one source tree.
Why
Three flows that currently live in three windows fold into one:
- "Run this command and show me the output" — fast feedback loop, no copy-paste between terminal and chat.
- "Explain or write code based on the output we just looked at" — exec output is automatically injected into the model's context.
- "Plan and execute a multi-step task with confirmation gates" — landing in Phase 3 as Chuck Norris autonomous mode.
aish is not a wrapper around bash. It's a first-class interactive environment where the shell is one of several execution channels.
Status
| Component | State |
|---|---|
| Repository skeleton | ✅ in this commit |
| Phase 0 manifest | ✅ docs/PHASE0.md — locked |
| Phase 0 implementation | 🔜 next session |
| Phase 1+ | 📋 enumerated in PHASE0.md §11 |
Every module file currently raises not implemented (Phase 0 pending)
when called. luajit main.lua fails loudly at the first un-implemented
function, never silently.
Quick orientation
| Read this | If you want to know |
|---|---|
docs/PHASE0.md §1–2 |
What aish is and what Phase 0 ships |
docs/PHASE0.md §3 |
Technology decisions (LuaJIT, FFI, readline, libcurl, llama.cpp) |
docs/PHASE0.md §4 |
Directory layout — these file names are stable across all phases |
docs/PHASE0.md §5 |
How input is dispatched (meta / shell / AI) |
docs/PHASE0.md §6 |
Broker contract: /v1/chat/completions, CMD: extraction |
docs/PHASE0.md §10 |
Config schema and resolution order |
docs/PHASE0.md §11 |
Phase sequence (what lands when) |
docs/PHASE0.md §13 |
Open questions, tracked per phase |
CLAUDE.md |
Project conventions for AI-assisted contributors |
Directory layout
aish/
├── main.lua # entry point
├── repl.lua # readline loop, dispatch, prompt
├── broker.lua # llama.cpp HTTP client
├── router.lua # input classifier (meta/shell/AI)
├── executor.lua # command exec + CMD: extraction
├── context.lua # in-memory turn history
├── history.lua # disk persistence (Phase 1+)
├── safety.lua # destructive-op gate (Phase 3+)
├── renderer.lua # output formatting
├── config.lua # default model registry + preferences
├── ffi/
│ ├── curl.lua # libcurl easy interface
│ ├── readline.lua # GNU readline
│ ├── pty.lua # forkpty (Phase 1+)
│ └── libc.lua # chdir, errno, strerror
└── docs/
└── PHASE0.md # locked substrate
Build / runtime dependencies
System packages (Debian / ALARM / Arch names):
luajit(>= 2.0)libcurl4/libcurl-openssl-3runtimelibreadline8runtimelibc6runtime (always present)
No compilation, no luarocks, no make. Just luajit main.lua.
Running
Once Phase 0 ships:
luajit main.lua # uses ~/.config/aish/config.lua
luajit main.lua --config ./config.lua # explicit config path
AISH_CONFIG=/path/to/config.lua luajit main.lua
Config resolution order is documented in docs/PHASE0.md §10.
Configuration
config.lua is a Lua file returning a single table. The committed
config.lua in this repo is both the canonical example and the
development-fallback config (lowest precedence). Copy it to
~/.config/aish/config.lua and edit endpoints to your local llama.cpp
servers, or point AISH_CONFIG at your own.
The default endpoints assume mfritsche's home network:
fast→dirac.fritz.box:8081(Qwen2.5-Coder-7B q4 8k ctx)deep→dirac.fritz.box:8080(Qwen2.5-Coder-7B q4 32k ctx)cloud→hossenfelder.fritz.box:8082(forwards to OpenRouter)
Replace these with your own llama.cpp endpoints if you're not on that LAN.
License
Not yet selected. Default-private until decided.
Project conventions
See CLAUDE.md for contribution conventions, commit style,
and the phase-loop discipline this project follows.