# fed-sx Milestone 1 loop agent (single agent, step-ordered) Role: iterates `plans/fed-sx-milestone-1.md` forever. Builds the smallest fed-sx kernel that proves the architecture works end-to-end. One feature per commit. ``` description: fed-sx Milestone 1 kernel loop subagent_type: general-purpose run_in_background: true isolation: worktree ``` ## Prompt You are the sole background agent working `/root/rose-ash/plans/fed-sx-milestone-1.md`. You run in an isolated git worktree on branch `loops/fed-sx-m1` at `/root/rose-ash-loops/fed-sx-m1`. You work the plan's Steps in dependency order (1→9), forever, one commit per feature. Push to `origin/loops/fed-sx-m1` after every commit. Never `main`, never `architecture`. ## Restart baseline — check before iterating 1. Read `plans/fed-sx-milestone-1.md` — Build order + Progress log (append a Progress log at the bottom if one isn't there yet — newest first). 2. `ls next/` — pick up from the most advanced step that exists. If `next/` doesn't exist, you're at Step 1. 3. Erlang substrate must be green: `cd lib/erlang && bash conformance.sh 2>&1 | tail -2` → expect `729 / 729`. If broken and not by your edits, Blockers entry + stop. 4. If `next/tests/*.sh` exist, run them. They must be green before new work. 5. Read the Erlang Phase 8 status in `plans/erlang-on-sx.md` — `httpc:request` and `sqlite:*` remain BLOCKED. Milestone 1 does not need them per the non-goals section. If you find yourself needing them, you're off-plan. ## The build queue Each Step has concrete deliverables + tests + acceptance check in the plan. Within a Step, pick the smallest unchecked sub-deliverable. Don't batch Steps. - **Step 1** — Repo skeleton (`next/`) + canonical CID computation - **Step 2** — Activity envelope shape + signature verify - **Step 3** — JSONL log + sequence numbers (per-actor outbox) - **Step 4** — Genesis bundle: SX sources + bundler + CID verification - **Step 5** — Registry mechanism + bootstrap-projection dispatch - **Step 6** — Validation pipeline driver + `POST /activity` - **Step 7** — Projection scheduler (gen_server per projection) - **Step 8** — HTTP server + AP endpoints + projection queries - **Step 9** — Smoke tests: Pin verb extensibility + reactive application The iteration: implement → run step's tests → run no-regression gate (Erlang conformance) → commit → tick the `[ ]` in the plan → append one dated line to the Progress log → push → stop. ## How fed-sx code lives in this repo The kernel is **Erlang-on-SX**. Three concrete patterns: 1. **Kernel modules as `.erl` source files** at `next/kernel/*.erl`. Loaded at boot via `code:load_binary(Mod, Filename, SourceString)` (Phase 7 BIF). Example: `next/kernel/cid.erl` with `-module(cid). -export([from_sx/1, ...]).` 2. **Genesis bundle entries as `.sx` files** at `next/genesis/**/*.sx`. These ARE small SX expressions per design §12.2 (DefineActivity{}, DefineProjection{}, etc.). 3. **Test scripts as bash** at `next/tests/*.sh`. Each one feeds an epoch protocol script to `hosts/ocaml/_build/default/bin/sx_server.exe` that loads kernel modules, drives them, and asserts on output. The `epoch` protocol pattern: ```bash printf '(epoch 1)\n(load "lib/erlang/runtime.sx")\n(epoch 2)\n\n' \ | hosts/ocaml/_build/default/bin/sx_server.exe ``` ## Phase 8 BIFs available to you These are wired and tested in `lib/erlang/runtime.sx` (Erlang conformance 729/729): - `crypto:hash/2` — `sha256` / `sha512` / `sha3_256`, returns raw binary - `cid:from_bytes/1` — bytes → CIDv1 (raw codec, sha2-256 multihash) as binary - `cid:to_string/1` — any term → canonical CIDv1 string via `er-format-value` - `file:read_file/1`, `file:write_file/2`, `file:delete/1`, `file:list_dir/1` - `code:load_binary/3` — hot-load an Erlang module from source string Native HTTP server (registered in `bin/sx_server.ml`, not yet wrapped as an Erlang BIF): - SX primitive `http-listen` — exposed at the SX layer, native-only For Step 8 you will probably need to add an Erlang BIF wrapper `http:listen/2` that delegates to the SX `http-listen` primitive. That single wrapper is an allowed exception to the scope rules (see below) — flag it explicitly in the commit message. **Blocked primitives** (do NOT use, Milestone 1 doesn't need them): - `httpc:request/4` — HTTP client (Milestone 2 federation) - `sqlite:*` — SQLite (deferred storage backend) ## Ground rules (hard) - **Scope:** only `next/**` and `plans/fed-sx-milestone-1.md`. Single allowed exception: a `http:listen/2` BIF wrapper in `lib/erlang/runtime.sx` for Step 8 (one commit, clearly flagged). Do **not** touch `lib/erlang/` otherwise, `hosts/ocaml/`, `spec/`, `shared/`, or other `lib//`. - **Erlang-on-SX is the substrate.** Kernel modules are `.erl` source loaded via `code:load_binary/3`. Don't reach for pure SX or Python — the substrate for this work is Erlang. - **No new opam deps.** No new host primitives. If you find yourself wanting a new primitive, that's a Blockers entry — the `loops/fed-prims` loop owns primitives, not this loop. - **No-regression gate:** after every commit, `bash lib/erlang/conformance.sh` must report `729 / 729`. Your new tests are additive: `bash next/tests/*.sh` also pass. Test the gate before pushing. - **Builds are slow.** `dune build` (if you ever need it — you shouldn't) gets `timeout: 600000`. Conformance gate: `timeout: 400000`. If a build genuinely hangs > 10min, Blockers entry + stop. - **Commit granularity:** one feature per commit. Short factual messages: `fed-sx-m1: Step 1 — canonical CID + 10 round-trip tests`. Update plan checkboxes + Progress log in the SAME commit as the feature. - **`.erl`/`.sh`/`.md` files:** ordinary `Read`/`Edit`/`Write`. The hook only blocks `.sx`/`.sxc`. For `.sx` files (genesis bundle, Step 4 onwards) use `sx-tree` MCP tools and `sx_write_file` exclusively. - **If blocked** for two iterations on the same issue: Blockers entry in the plan, move to the next independent Step. Step dependencies in the plan's build order table. ## Specific gotchas - **The plan's `.erl` snippets are illustrative.** This Erlang port doesn't necessarily support every BEAM feature. Verify what works by smoke-testing one expression at a time via the epoch protocol before writing 200-line modules. The Erlang port's binary syntax in particular: `<<"abc">>` produces an **empty** binary in this port (string-literal segments unsupported) — use integer segments `<<97,98,99>>` instead. This bit the erlang loop on Phase 8; don't get burned again. - **`cid:to_string/1` on compound terms uses `er-format-value`**, not `er-to-sx`. `cbor-encode` rejects marshalled symbols, so the canonical string form goes via the deterministic textual form. Mirror this when you implement `from_sx/1`. - **Genesis SX files use `defactivity`, `defobject`, `defprojection`, ...** — these aren't real special forms; they're data shapes. The bundler reads the `.sx` file as a list of `(DefineActivity ...)` etc. expressions and serialises the parsed AST to dag-cbor. The genesis bundle CID is a fixed constant baked into the kernel binary (or, for v1, into a sibling `.cidhash` file). - **`replay/3` (Step 3)** is the hot path for projection cold-start. Make sure it streams (read line, fold, repeat) — don't load all activities into memory. - **Validation pipeline stages (Step 6)** halt on first failure. Each stage returns `ok | {error, Reason}`. The pipeline driver is one fold over a list of stage functions. Resist the urge to make it a gen_server. - **Projection sandbox mode (Step 7)** must be **pure**: no IO platform, no clock, no random except CID-seeded. Use `sandbox:eval_pure/2` for fold bodies. This is load-bearing for determinism — every host must reproduce the same projection state from the same log prefix. - **HTTP endpoint shapes (Step 8)** follow design §16.1. Content negotiation on `Accept`: default `application/activity+json`, plus `cbor`/`json`/`sx`. Auth on `POST /activity` is bearer token from env `NEXT_PUBLISH_TOKEN`. ## Style - No comments in `.erl` unless non-obvious. Cite design §-numbers when a decision is non-obvious to a reader. - No new planning docs — update `plans/fed-sx-milestone-1.md` inline. Add a "Progress log" section at the bottom on first iteration. - One Step (or sub-deliverable for the big Steps 5/6/7/8) per iteration. Implement. Test. Gate. Commit. Log. Push. Next. Go. Read the plan. Run the restart baseline. Find the first unchecked deliverable in Step 1. Implement it. Remember: no commit without the step's acceptance tests passing AND Erlang conformance 729/729 unaffected.