decode-minified-js-gates
정보
이 스킬은 난독화된 자바스크립트를 분석하여 다양한 기능 플래그 게이트 구현 방식을 식별하고 분류하며, 판독기 변형, 기본값, 논리적 구조 등의 세부 정보를 추출합니다. 플래그 동작이 불분명하거나 여러 라이브러리가 사용되거나 구성 스키마가 복잡한 역공학 시나리오에 대응하도록 설계되었습니다. 출력은 향후 상태 분석을 위한 게이트 메커니즘의 구조화된 기록입니다.
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Claude Code
추천npx skills add pjt222/agent-almanac -a claude-code/plugin add https://github.com/pjt222/agent-almanacgit clone https://github.com/pjt222/agent-almanac.git ~/.claude/skills/decode-minified-js-gatesClaude Code에서 이 명령을 복사하여 붙여넣어 스킬을 설치하세요
문서
Decode Minified JS Gates
Read call-site context around flag string in minified JavaScript bundle and produce gate-mechanics record: which reader variant, what default, what conjunction, what role. Where probe-feature-flag-state answers "is this gate on or off?", this skill answers prerequisite question — "what does this gate actually do?"
When Use
- Flag surfaced by
sweep-flag-namespacecannot be classified from name alone. - Binary uses more than one gate-reader function, need to know which one flag invokes.
- Gate's "default" appears non-boolean (
{},null, numeric literal), need to decode actual reader variant. - Suspect kill-switch (inverted gate) but cannot confirm from flag name.
- Predicate combines multiple gates with
&&, need to enumerate co-gates before probing any.
Inputs
- Required: minified JavaScript bundle file (
.js,.mjs,.bun). - Required: target flag string to decode, in literal form.
- Optional: list of known reader function names from prior decode pass — speeds Step 2.
- Optional: context-window size override; default is 300 chars before, 200 chars after flag occurrence.
Steps
Step 1: Extract Context Window
Locate flag string and capture asymmetric window around each occurrence. Pre-context (before flag) is where reader function name lives; post-context (after) is where default value and conjunction live.
BUNDLE=/path/to/cli/bundle.js
FLAG=acme_widget_v3 # synthetic placeholder
PRE=300
POST=200
# All byte offsets where the flag string occurs
grep -boE "\"${FLAG}\"" "$BUNDLE" | cut -d: -f1 > /tmp/decode-offsets.txt
wc -l /tmp/decode-offsets.txt
# Capture an asymmetric window per occurrence
while read -r offset; do
start=$((offset - PRE))
[ "$start" -lt 0 ] && start=0
length=$((PRE + POST))
echo "=== offset $offset ==="
dd if="$BUNDLE" bs=1 skip="$start" count="$length" 2>/dev/null
echo
done < /tmp/decode-offsets.txt > /tmp/decode-windows.txt
less /tmp/decode-windows.txt
For fast first pass, grep -oE with negative lookbehind via Perl-compatible regex catches same windows in one pipe.
Got: one or more context windows per flag occurrence, each ~500 chars. Multiple occurrences typically share same reader function but may differ in default or conjunction — inspect each independently.
If fail: if bundle too big for dd-per-occurrence (binary > 100MB or many occurrences), use rg -B 5 -A 3 "$FLAG" "$BUNDLE" for structured-output approximation. If windows look corrupted, bundle may be UTF-16 or have non-ASCII delimiters; use iconv or treat as binary.
Step 2: Identify Reader Variant
Minified gate libraries commonly expose 4–6 reader variants with different semantics. Reader function name is first cue; call signature is verifier.
Variant taxonomy (synthetic names — substitute actual minified identifiers from your bundle):
| Variant | Synthetic shape | Returns | Common usage |
|---|---|---|---|
| Sync boolean | gate("flag", false) or gate("flag", true) | boolean | Standard on/off feature switches |
| Sync config-object | fvReader("flag", {key: value}) | JSON object | Structured config (delays, allowlists, model names) |
| Bootstrap-aware TTL | ttlReader("flag", default, ttlMs) | boolean (cached) | Startup-path gates before remote config arrives |
| Truthy-only | truthyReader("flag") | truthy/falsy | Quick checks; no explicit default |
| Async bootstrap | asyncReader("flag") | Promise<boolean> | Gates resolved post-bootstrap |
| Async bridge | bridgeReader("flag") | Promise<boolean> | Bridge/relay-channel gates with separate evaluation path |
Match each context window against variant patterns:
# Test for variant patterns. Replace the synthetic reader names with the
# actual minified identifiers found in the bundle.
grep -oE '\b(gate|fvReader|ttlReader|truthyReader|asyncReader|bridgeReader)\("acme_widget_v3"' /tmp/decode-windows.txt | sort | uniq -c
If multiple variants appear for same flag (rare but real — flag read both sync at startup and async post-bootstrap), record each occurrence's variant separately. Probe results may differ.
Got: every gate-call occurrence tagged with one variant. Variant counts across whole sweep make binary-level distribution (e.g., "60% sync boolean, 30% config-object, 10% TTL").
If fail: if context window has no recognizable reader pattern, flag may not actually be gate-called — recheck call-site classification from sweep-flag-namespace Step 2. If window has reader name not in this taxonomy, document as new variant in research artifacts and decide whether warrants separate handling path.
Step 3: Extract Default Value
Default is second positional arg to reader (or absent for truthy-only / async variants). Capture exact literal — false, true, null, 0, string, or JSON config object.
# Boolean default extraction (sync boolean and TTL variants)
grep -oE '\b(gate|ttlReader)\("acme_widget_v3",\s*(true|false)' /tmp/decode-windows.txt
# Config-object default — match the opening brace and capture until the
# matching brace at the same nesting depth. For minified bundles this is
# usually safe with a non-greedy match because objects rarely span lines.
grep -oE 'fvReader\("acme_widget_v3",\s*\{[^}]*\}' /tmp/decode-windows.txt
# Numeric default (rare but real for TTL or threshold gates)
grep -oE '\b(gate|ttlReader)\("acme_widget_v3",\s*[0-9]+' /tmp/decode-windows.txt
For config-object defaults, inspect JSON structure — keys often hint at gate's purpose (e.g., {maxRetries: 3, timeoutMs: 5000} is retry-policy config, not feature toggle).
Got: exact literal default per occurrence. Booleans unambiguous; config-objects need manual read of structure.
If fail: if config-object's matching brace falls outside context window, increase post-context size in Step 1. If default appears to be variable reference (e.g., gate("flag", x)), default computed at runtime — note as DYNAMIC and probe actual returned value via probe-feature-flag-state.
Step 4: Detect Conjunctions and Kill Switches
Many gates participate in compound predicates. Conjunctions (&&) and inversions (!) change gate's effective role.
# Conjunction detection: gate-call followed by `&&` and another gate-call
# within the same predicate window
grep -oE '(gate|fvReader|ttlReader|truthyReader|asyncReader|bridgeReader)\("acme_widget_v3"[^)]*\)\s*&&\s*(gate|fvReader|ttlReader|truthyReader|asyncReader|bridgeReader)\("acme_[a-zA-Z0-9_]+"' /tmp/decode-windows.txt
# Kill-switch detection: leading `!` before the gate-call
grep -oE '!\s*(gate|fvReader|ttlReader|truthyReader|asyncReader|bridgeReader)\("acme_widget_v3"' /tmp/decode-windows.txt
For each detected conjunction, list co-gate flag names. They are now part of probe scope — if target flag's evaluation depends on co-gates, probing target alone makes incomplete state.
For each detected inversion, mark flag as kill switch in gate-mechanics record. Kill switches flip meaning of default: kill switch with default=false is "feature on by default" (because !false === true), while normal gate with default=false is "feature off by default."
Got: conjunction list (possibly empty) and inversion flag (boolean) per occurrence.
If fail: if conjunction has more than 2 co-gates, predicate complex enough that regex misses structure. Read context window manually and document predicate shape verbatim in gate-mechanics record.
Step 5: Classify Gate's Role
Synthesize Steps 2–4 into role classification. Roles drive different probe strategies and different integration risk.
| Role | Signature | Implication |
|---|---|---|
| Feature switch | sync boolean, no inversion, no conjunction | Standard on/off; probe directly |
| Config provider | sync config-object (fvReader) | Read returned object; default-empty {} ≠ feature off |
| Lifecycle guard | bootstrap-aware TTL or async bootstrap | State depends on bootstrap timing; probe at multiple points |
| Kill switch | inverted gate, default-false | Feature on for users by default; flag flips it OFF |
| Conjunction member | any variant with && co-gate | Cannot evaluate alone; co-gates are part of the probe scope |
| Bridge gate | async bridge variant | Probe must occur over the bridge channel, not the main path |
Got: every gate-call occurrence has exactly one primary role. Some flags appear in multiple roles across occurrences (e.g., feature switch in one call site, conjunction member in another) — record each role independently.
If fail: if role does not fit table, binary uses gate library not yet documented in this skill. Add row with synthetic identifiers and contribute variant back to skill (or project-specific extension) for future investigators.
Step 6: Produce Gate-Mechanics Record
Combine per-flag findings into structured record. JSONL convenient because each flag becomes one line, easy to merge with sweep-flag-namespace inventory.
{"flag":"acme_widget_v3","variant":"sync_boolean","default":false,"role":"feature_switch","conjunctions":[],"inverted":false,"occurrences":3}
{"flag":"acme_retry_policy","variant":"sync_config_object","default":{"maxRetries":3,"timeoutMs":5000},"role":"config_provider","conjunctions":[],"inverted":false,"occurrences":1}
{"flag":"acme_legacy_path","variant":"sync_boolean","default":false,"role":"kill_switch","conjunctions":[],"inverted":true,"occurrences":2}
{"flag":"acme_beta_feature","variant":"sync_boolean","default":false,"role":"conjunction_member","conjunctions":["acme_beta_program_active"],"inverted":false,"occurrences":1}
Gate-mechanics record feeds probe-feature-flag-state Step 2 (gate-vs-event split): variant + role + conjunction list determines what observations count as evidence of LIVE / DARK / INDETERMINATE state.
Got: one JSONL record per flag (or per flag-occurrence if single flag has multiple distinct mechanics). Record reproducible — running procedure again against same binary makes same record.
If fail: if records vary across runs, upstream step non-deterministic. Most often regex in Step 1 missing or over-matching occurrences. Lock regexes for duration of campaign.
Checks
- Step 1 produces one context window per flag occurrence; windows ~500 chars
- Step 2 tags each occurrence with exactly one reader variant from taxonomy
- Step 3 captures exact default literal (boolean, config-object, or DYNAMIC)
- Step 4 surfaces all conjunctions and kill-switch inversions present in windows
- Step 5 assigns one role per occurrence, drawn from role table
- Step 6 makes JSONL gate-mechanics record that diffs cleanly across re-runs
- All worked examples use synthetic placeholders (
acme_*,gate,fvReader, etc.) — no real flag names, real reader names, or real config-object schemas - Record consumable by
probe-feature-flag-state(same flag identifiers, compatible field names)
Pitfalls
- Reading "default" as "behavior": gate with
default=trueis on by default in this binary, but server-side overrides may flip. Default tells baseline; runtime probe (probe-feature-flag-state) tells state. - Confuse config-object empty default with feature off:
fvReader("flag", {})returns empty object as default — but flag is on (gate evaluates to truthy). Treating{}as "off" misclassifies config-providers as feature switches. - Miss kill switches: leading
!before gate-call inverts meaning. Skipping Step 4 makes record that says "default=false, feature off by default" when truth is "default=false, feature ON by default because of inversion." - Probe one half of conjunction: if
acme_widget_v3 && acme_user_in_cohortis predicate, probing onlyacme_widget_v3and finding it LIVE does not mean feature is live — conjunction may still gate it off via cohort flag. - Trust reader names across versions: minified identifiers can change between major versions. Taxonomy in Step 2 is by signature (call shape, return type, default position), not by name. When binary version changes, re-derive reader names from fresh decode pass.
- Window too narrow: 200/100 split misses config-object defaults that span 300+ chars. Defaults of 300/200 or 400/300 safer; tighten only if bundle huge and window cost matters.
- Leak real reader names: minified reader names sometimes look like nonsense (
a,b,Yc1) and feel safe to paste verbatim. They are still findings — substitute synthetic placeholders before publishing methodology.
See Also
probe-feature-flag-state— uses gate-mechanics record to interpret runtime observationssweep-flag-namespace— makes candidate flag set this skill decodesmonitor-binary-version-baselines— tracks reader-name changes across binary versions; re-derive Step 2 patterns when baselines flipredact-for-public-disclosure— how to publish gate-decoding methodology without exposing real reader names or schemasconduct-empirical-wire-capture— validates gate-mechanics record against runtime behavior
GitHub 저장소
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