| name | foreman-debug |
| description | Headless root-cause debugging loop for a Foreman worker whose tests, build, or acceptance check are failing — especially on a retry. Find the root cause before changing anything, fix at the source with a regression test, and never thrash on symptom patches. Used inside a foreman-tdd build session; emits no summary of its own. |
| foreman_skill_version | 1 |
foreman-debug
(Adapted from obra/superpowers systematic-debugging (MIT) — see NOTICE. Made
headless: removed the "discuss with your human partner" hand-offs — under Foreman
there is no live human, so a genuine architectural dead end becomes a FOREMAN-SUMMARY
escalate from the surrounding foreman-tdd run, not a question. Folded the regression
step into Foreman's existing foreman-test + evidence contract.)
You are invoked inside a foreman-tdd build session when something is failing: a
red test that should be green, the project test/lint/typecheck command, the issue's
acceptance_check, or a distilled failure report from a prior attempt. You run
headless — do not ask questions. Find the root cause, fix it at the source, and
hand control back to foreman-tdd. You emit no FOREMAN-SUMMARY of your own; the
foreman-tdd run owns the single summary block.
The Iron Law
NO FIX WITHOUT ROOT-CAUSE INVESTIGATION FIRST
A symptom patch that makes the red go away without explaining why it was red is a
failure — it will bounce at Foreman's merge gate or resurface on the next slice.
The four phases (complete each before the next)
1. Root cause
- Read the failure completely. The exact assertion, the stack trace, the file and
line, the
ERROR lines in the foreman-test log on disk. The message often is
the answer. If a distilled failure report from a prior attempt is in your context,
treat its "why it was rejected" as the starting hypothesis, not noise to re-discover.
- Reproduce deterministically. Run the single failing test through
foreman-test
(use --fast while iterating). If it is flaky, that is the bug — chase the
nondeterminism (ordering, time, shared state), don't paper over it.
- Check what changed.
git diff the slice against the integration branch. The
regression almost always lives in the diff.
- Trace the bad value to its source. Where does the wrong value originate? What
passed it in? Keep walking up the call stack until you reach the origin. Fix
there, not at the symptom.
2. Pattern
Find working code that does the same thing elsewhere in the repo. List every
difference between it and the broken path, however small — "that can't matter" is how
root causes hide.
3. Hypothesis
State one specific hypothesis: "the root cause is X because Y." Make the smallest
change that tests it. One variable at a time. If it doesn't hold, form a new
hypothesis — do not stack a second fix on top of an unproven first.
4. Fix at the source
- Lock it with a failing test first. Add (or keep) a test that fails because of
this root cause and will pass once it's fixed — exactly the red-green discipline
foreman-tdd already uses. A fix with no test that proves it does not count.
- One change. Address the root cause only — no "while I'm here" refactors.
- Verify through
foreman-test. The targeted test passes AND the full suite
stays green. Read the output; do not assume.
When 3+ fixes have failed
If three distinct fixes each fail or each surfaces a new problem somewhere else, the
issue is architectural, not a bug — the slice's seam is wrong. Stop patching.
Hand back to foreman-tdd with a clear note for its FOREMAN-SUMMARY: set escalate: true with a one-line statement of the structural problem (e.g. "ISS-012 assumes a
synchronous store but the queue is async — the seam can't hold"). A wrong architecture
is Foreman's human's call, not another guess.
Red flags — stop and return to phase 1
- "Quick fix now, understand it later."
- "Just try changing X and see."
- Bundling several changes, then running tests.
- Proposing a fix before you traced the bad value to its origin.
- A fourth fix attempt after three failures (→ escalate the architecture instead).