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steve ac6ce06cdd
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feat: re-platform agentic review onto executus + large-PR cost controls (#20)
Makes gadfly a consumer of executus (run.Executor compaction/bounding/budget/critic + fanout) and fixes the large-PR token burn in size-gated layers: paginated get_diff, downshift above GADFLY_HUGE_DIFF_BYTES, and a swarm-wide GADFLY_PR_BUDGET_SECS backstop. Small PRs untouched; advisory-only and the static binary preserved. Dogfood swarm reviewed it (6 models, 21 real findings graded + folded in).

Co-authored-by: Steve Dudenhoeffer <steve@stevedudenhoeffer.com>
Co-committed-by: Steve Dudenhoeffer <steve@stevedudenhoeffer.com>
2026-06-30 15:41:03 +00:00

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Gadfly — Developer Guide

Gadfly (🪰) is an agentic adversarial code reviewer that runs in Gitea Actions. On a pull request it reads the checked-out repository with read-only tools, hunts for real problems, verifies each one against the actual code, and posts its findings as a comment. It is advisory only — it never blocks a merge.

This is a public, vibe-coded project (built largely by an AI agent). Keep that framing honest in the README; don't oversell it.

Project goals (keep changes aligned to these)

  1. Find real problems, not nits. The whole point of the agentic tools + two-pass recheck is to kill diff-only false positives. Anything that raises the false-positive rate (or removes verification) works against the project.
  2. Advisory, never blocking. Gadfly must never fail a CI job for review content, never merge, never deploy. Non-zero exit only on usage/config errors; even then run.sh posts a notice rather than failing. Do not add it to branch-protection required checks.
  3. Easy to turn on for any repo. Consumers should need only a ~15-line stub workflow + a couple of secrets/vars. All real logic lives in the image (entrypoint.sh), not in the consumer's YAML (Gitea's act_runner has weak YAML expression support).
  4. Provider-agnostic. Powered by majordomo, so it can target Ollama (local/cloud), OpenAI, Anthropic, Google, or any OpenAI/Ollama-compatible endpoint. Don't re-hardcode a single provider.
  5. Portable & self-contained. cmd/gadfly depends only on the Go stdlib, majordomo, and executus (whose corerun/compact/ model/fanout/tool — is itself majordomo+stdlib only, so the binary stays static; do NOT pull executus's contrib/store or any battery that drags in a DB driver). No heavyweight deps, no coupling to any one consumer repo (e.g. mort). Gadfly is executus's canonical light consumer.

Architecture

cmd/gadfly/            the reviewer binary — pure producer of review markdown (stdout)
  main.go              orchestration: fan specialists out (executus/fanout), each a review pass + recheck
  engine.go            reviewEngine abstraction: executus run.Executor (majordomo agent loop +
                       compaction/bounding/budget/critic) vs claude-code CLI shell-out
  executus.go          executus wiring: tool.Registry over the repo tools, the run.Executor build
                       (compact + model context-limit threshold + per-PR budget + wrap-up critic)
  specialists.go       specialist lenses: built-ins, default suite, env + .gadfly.yml resolution
  auto.go              dynamic `auto` selection: a selector model picks lenses per-diff (may invent)
  delegate.go          worker-tier delegate_investigation tool (cheap sub-agent does legwork)
  consolidate.go       verdict parsing + one-comment consolidation (a section per specialist)
  model.go             provider/model + selector + worker resolution (majordomo.Parse) + endpoint aliases
  tools.go             the 5 read-only repo tools (read_file/list_dir/grep/find_files/get_diff)
  recheck.go           second-pass verification prompt + verdict recompute
  *_test.go            sandbox, recheck, wrap-up, spec/endpoint-parse, specialist-resolution tests
scripts/run.sh         fetch PR diff+meta, run the binary, upsert ONE labeled PR comment
scripts/status-board.sh    render+upsert ONE live status-board comment (per-model/per-lens progress)
scripts/system-prompt.txt   the reviewer persona + verification discipline (generic, not repo-specific)
entrypoint.sh          container brains: trigger gating, PR clone, model loop (the logic that
                       used to live in workflow YAML)
Dockerfile             multi-stage; private-module creds via BuildKit secrets never reach the final image
.gitea/workflows/build-image.yml   push main → :latest; tag v* → :<tag>+:latest; PR → build-only
.gitea/workflows/review-reusable.yml  reusable (workflow_call) review job; resolves swarm config at
                       RUNTIME: consumer `with:` input → owner user-scope var (GADFLY_DEFAULT_MODELS /
                       _SPECIALISTS / _PROVIDER_CONCURRENCY / _PROVIDER_LENS_CONCURRENCY, +
                       GADFLY_ENDPOINT_RAGNAROS) → image default. Vars are injected per-run, so editing
                       one var retunes the whole fleet even though long-lived act_runners CACHE this file
                       by ref (a moved tag is NOT re-fetched — only a runtime value or a fresh @<sha>
                       bypasses the cache). Consumers subscribe with an ~8-line caller forwarding only the
                       secrets the reviewer needs and pinned to an immutable @<sha> (Phase 4);
                       gadfly's own adversarial-review.yml is a thin caller of it (dogfoods the path).
examples/              copy-paste consumer stub workflows for different providers

Data flow: consumer stub workflow → container entrypoint.sh (gate + clone) → scripts/run.sh (per model) → cmd/gadfly binary (agentic review) → markdown → run.sh upserts a PR comment as gitea-actions.

Two passes: a review pass drafts findings; an adversarial recheck pass independently re-verifies each finding against the code and drops the unconfirmed ones, recomputing the verdict. Verdict is one of: No material issues found / Minor issues / Blocking issues found.

Build / test

go build ./cmd/gadfly      # needs read access to the private majordomo + executus modules
go test ./...
gofmt -l cmd/               # must be clean
docker build -t gadfly:dev --secret id=REGISTRY_USER,env=REGISTRY_USER --secret id=REGISTRY_PASSWORD,env=REGISTRY_PASSWORD .

Run it locally against a real diff without CI:

git -C /path/to/repo diff main > /tmp/x.diff
GADFLY_PROVIDER=ollama GADFLY_MODEL=qwen2.5-coder:7b \
GADFLY_REPO_DIR=/path/to/repo GADFLY_DIFF_FILE=/tmp/x.diff \
GADFLY_SYSTEM_FILE=scripts/system-prompt.txt ./gadfly

Release / deploy

  • Push to main → CI builds and pushes :latest (+ :sha-<short>).
  • Tag v* → publishes :<tag> (+ :latest). Pin consumers to :vN for stability.
  • Required CI secrets: REGISTRY_USER / REGISTRY_PASSWORD (registry push + read access to the private majordomo module). Optional DISCORD_WEBHOOK_URL.

Configuration

The full env reference lives in the README (Specialists, Models & providers, Configuration). Provider selection: GADFLY_PROVIDER (default ollama-cloud), GADFLY_MODEL/GADFLY_MODELS, GADFLY_BASE_URL, GADFLY_API_KEY. Named endpoint aliases via GADFLY_ENDPOINT_<NAME> / GADFLY_ALIAS_<NAME> (http-capable) and majordomo LLM_* DSNs (HTTPS-only).

Specialists (the swarm): the reviewer runs a suite of focused lenses, one consolidated comment with a section each. Default suite = security/correctness/maintainability/performance/ error-handling; opt-in built-ins = tests/docs/conventions/improvements. Select via GADFLY_SPECIALISTS (csv or all); define/override via GADFLY_SPECIALIST_<NAME> env or a repo .gadfly.yml (specialists: + define:). See cmd/gadfly/specialists.go. Cost ≈ specialists × models × 2 passes — the image/entrypoint default stays minimal (one model) for that reason; the reusable workflow (review-reusable.yml) deliberately ships a heavier opinionated default swarm (3 cloud + Claude Code, 5 lenses) for steve's own fleet, which consumers inherit or override per-input. Dynamic auto (GADFLY_SPECIALISTS=auto): a selector (GADFLY_SELECTOR_MODEL or the review model) picks lenses per-diff and may invent ad-hoc ones (cmd/gadfly/auto.go). Worker-tier (GADFLY_WORKER_MODEL): a delegate_investigation tool offloads grep/read legwork to a cheap sub-agent (cmd/gadfly/delegate.go).

Tested vs untested: only the Ollama paths (local + OpenAI-compatible pointed at Ollama) are actually exercised. OpenAI/Anthropic/Google come from majordomo's abstraction and are untested (no spend). Keep the README honest about this; update it if that changes.

When making changes — maintenance rules

  • Keep the README and examples/ current. Any change to env vars, flags, defaults, triggers, provider support, or the consumer stub MUST be reflected in README.md and the relevant files under examples/ in the same change. The README's Configuration table, the Models & providers table, and the example workflows are the contract users rely on — stale docs are a bug.
  • Preserve the advisory-only invariant (goal #2). If you touch exit codes or the workflow, re-confirm a review can never fail/block a consumer's CI.
  • Don't add mort-specific (or any single-consumer) assumptions to the binary or system prompt. The system prompt is intentionally generic; repo-specific conventions should be discovered by the agent at runtime (it can read the repo's own CONTRIBUTING/CLAUDE.md), not hardcoded here.
  • Keep secrets out of image layers. Private-module creds flow via BuildKit --mount=type=secret in the build stage only; never bake them into the final image or commit them.
  • Add a test when you add logic (see the *_test.go patterns). Keep gofmt clean and go vet quiet.

Lessons

  • majordomo's LLM_* env DSNs are HTTPS-only (DSN.BaseURL() forces https://), so they can't express a plaintext local Ollama. That's why Gadfly adds the http-capable GADFLY_ENDPOINT_<NAME>="provider|base-url[|key]" mechanism (see cmd/gadfly/model.go).
  • Gitea vars/secrets are not auto-exposed as env in a job — the consumer stub must map each one explicitly in its env: block (dynamic alias names can't be auto-enumerated).
  • uses: docker://…:latest is CACHED by act_runner — a freshly-pushed :latest is often NOT re-pulled, so the job silently runs the previous image. For a run that must use a specific build (e.g. validating a just-pushed fix), pin the consumer stub to the immutable :sha-<short> tag the build publishes, not :latest.
  • Concurrency is per-provider (entrypoint.sh): each provider is a lane, lanes run in parallel, cap (from GADFLY_PROVIDER_CONCURRENCY else GADFLY_CONCURRENCY, default 1) bounds models-at-once within a lane. The review timeout (GADFLY_TIMEOUT_SECS) is per-lens, not shared across the suite — a slow model can't starve later lenses (the original timeout bug).
  • Large-PR token burn: the agent loop re-sends the whole transcript every step, so a giant diff (the old get_diff dumped it untruncated, and it was embedded in both the review and recheck task) was re-transmitted ~steps × lenses × passes × models times — a ~250 K-token PR could drain a metered usage block in minutes. Fixed in three size-gated layers (small PRs untouched): paginated get_diff + executus/compact compaction in the binary; an entrypoint.sh downshift above GADFLY_HUGE_DIFF_BYTES (one cheap model, fewer lenses/steps, no recheck); and a swarm-wide GADFLY_PR_BUDGET_SECS wall-clock backstop. Compaction's threshold is intentionally LOW (GADFLY_COMPACT_RATIO 0.45, not executus's 0.7) because the burning transcript on the embedded path rarely reaches 0.7×context.
  • executus re-platform: the in-process review path runs through executus/run's run.Executor (compaction, run-bounding, Ports.Budget, the wrap-up nudge as Ports.Critic), wiring it in cmd/gadfly/executus.go. Gadfly KEEPS its own model.go resolution (so GADFLY_ENDPOINT_<NAME> http aliases + the claude-code engine survive) and only hands run.Executor the already-resolved model via a trivial resolver — do NOT route review-model resolution through model.ParseModelForContext (it bypasses gadfly's endpoint aliases). run.Result exposes no transcript, so the old transcript-based forced-finalization fallback is gone; the wrap-up critic nudge is the remaining "always emit something" mechanism. The claude-code engine still shells out and is unaffected.