Agent Skills: flow-next-tracker-sync — project a spec to a tracker, reconcile two-way

Project a flow-next spec to a tracker issue (Linear, GitHub, GitLab, or Jira) and reconcile body/status/comments two-way — projection, not coordination. The spec stays the source of truth; the tracker is a co-editable mirror. Use to configure the bridge (discovery ceremony), link a spec to an issue (flow-first push or tracker-first "grab issue X and spec it"), push/pull/reconcile, or unlink. Triggers on /flow-next:tracker-sync, "sync to linear", "push this spec to the tracker", "grab issue X and spec it", "link this spec to the issue", "reconcile with the tracker". NOT /flow-next:sync (that is plan-sync, a different skill).

UncategorizedID: gmickel/gmickel-claude-marketplace/flow-next-tracker-sync

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plugins/flow-next/skills/flow-next-tracker-sync/SKILL.md

Skill Metadata

Name
flow-next-tracker-sync
Description
Project a flow-next spec to a tracker issue (Linear, GitHub, GitLab, or Jira) and reconcile body/status/comments two-way — projection, not coordination. The spec stays the source of truth; the tracker is a co-editable mirror. Use to configure the bridge (discovery ceremony), link a spec to an issue (flow-first push or tracker-first "grab issue X and spec it"), push/pull/reconcile, or unlink. Triggers on /flow-next:tracker-sync, "sync to linear", "push this spec to the tracker", "grab issue X and spec it", "link this spec to the issue", "reconcile with the tracker". NOT /flow-next:sync (that is plan-sync, a different skill).

flow-next-tracker-sync — project a spec to a tracker, reconcile two-way

The .flow/specs/<id>.md spec is the source of truth and the quality layer; the tracker (Linear, GitHub, GitLab, or Jira) is a co-editable mirror for teams that must live in it. This skill is projection, not coordination — the tracker mirrors the spec (body, status, comments all sync two-way) but never drives flow state or spawns agents (see the decision record at .flow/memory/.../tracker-sync-is-projection-not-*).

This skill is the spine: the discovery ceremony, the spec↔issue grain, the identity/naming alias, and a transport-blind push/pull/reconcile orchestration skeleton. It does NOT contain transport code or merge logic — those plug in via the interface defined here:

  • Transports (fetchIssue / writeIssue / listComments / postComment / readStatus / setStatus) are implemented by the Linear, GitHub, GitLab, and Jira adapters. This skill calls them through the normalized interface; it never sees a wire shape. The Linear adapter is a detect-best-available transport ladder (MCP → GraphQL → no-op) — see references/linear-ladder.md; the GitHub adapter is the headless-robust gh transport (single rung + no-op, reduced-fidelity status) — see references/github.md; the GitLab adapter is the headless-robust glab transport (glab CLI → raw-REST token fallback → no-op, reduced-fidelity status) — see references/gitlab.md; the Jira adapter is the REST transport (Cloud /rest/api/3 + ADF → DC/Server /rest/api/2 → no-op, workflow-aware status via the transitions API, NO MCP) — see references/jira.md.
  • Reconcile operates only on the normalized payload structs (issue / comment / status) the adapters exchange. The agentic 3-way body merge + format translation + scoped conflict is in references/body-merge.md; the per-field status who-wins is references/status-sync.md and comments/evidence append + dedup is references/comments-sync.md. The interface is defined in references/adapter-interface.md.

Read steps.md for the full phase-by-phase execution. Read references/adapter-interface.md for the transport interface + normalized payload contract, references/body-merge.md for the agentic 3-way body merge / format translation / scoped conflict, references/status-sync.md for the per-field status who-wins + deadlock fallback, references/comments-sync.md for comments/evidence two-way append + dedup, references/identity.md for the hybrid id model (tracker-first canonical vs flow-first alias), references/linear-ladder.md (→ linear-mcp.md, linear-graphql.md) for the Linear transport ladder, references/github.md for the GitHub adapter (gh transport, reduced-fidelity status), references/gitlab.md for the GitLab adapter (glab CLI → raw-REST token fallback, reduced-fidelity status), and references/jira.md for the Jira adapter (REST /rest/api/{3,2} token transport, ADF body translation, workflow-aware status via the transitions API).

Sync engine shape (discovery ceremony, per-item lastSyncedAt, surface-diffs-never-overwrite) adapted from Ray Fernando's running-bug-review-board issue-trackers.md (Apache-2.0) — see CHANGELOG.

Preamble

CRITICAL: flowctl is BUNDLED — NOT installed globally. which flowctl will fail (expected). Define once; subsequent blocks (here and in steps.md) use $FLOWCTL:

FLOWCTL="${DROID_PLUGIN_ROOT:-${CLAUDE_PLUGIN_ROOT}}/scripts/flowctl"
[ -x "$FLOWCTL" ] || FLOWCTL=".flow/bin/flowctl"

Pre-check: Local setup version

Compare .flow/meta.json setup_version to the plugin version; on mismatch, escalate once per plugin version. Fail-open throughout: a missing jq, .flow/meta.json, or plugin manifest silently continues.

SETUP_VER=$(jq -r '.setup_version // empty' .flow/meta.json 2>/dev/null)
PLUGIN_JSON="${DROID_PLUGIN_ROOT:-${CLAUDE_PLUGIN_ROOT}}/.claude-plugin/plugin.json"
PLUGIN_VER=$(jq -r '.version' "$PLUGIN_JSON" 2>/dev/null || echo "unknown")
VERSION_ACK=$(jq -r '.version_ack // empty' .flow/meta.json 2>/dev/null)
if [[ -n "$SETUP_VER" && "$PLUGIN_VER" != "unknown" && "$SETUP_VER" != "$PLUGIN_VER" ]]; then
  if [[ "${FLOW_RALPH:-}" == "1" || -n "${REVIEW_RECEIPT_PATH:-}" \
        || "${FLOW_AUTONOMOUS:-}" == "1" || "${ARGUMENTS:-}" == *mode:autonomous* \
        || "$VERSION_ACK" == "$PLUGIN_VER" ]]; then
    echo "Local setup v${SETUP_VER} differs from plugin v${PLUGIN_VER}. Run /flow-next:setup to refresh local scripts." >&2
  else
    echo "FLOW_SETUP_ASK ${SETUP_VER} ${PLUGIN_VER}"
  fi
fi

If the block printed a FLOW_SETUP_ASK line, before proceeding ask the user with AskUserQuestion (local setup differs from the plugin; refresh now?), offering exactly the options Refresh now, Remind me next version, Skip this run, then continue the skill whichever is chosen:

  • Refresh now: pause and have the user run /flow-next:setup in this session (do not run setup yourself), then continue once it finishes.
  • Remind me next version: record the acknowledgement so this version is not re-asked (only a later plugin version re-arms it), then continue. Run this self-contained write (fail-open: on any error, continue anyway):
    PJ="${DROID_PLUGIN_ROOT:-${CLAUDE_PLUGIN_ROOT}}/.claude-plugin/plugin.json"
    PV=$(jq -r '.version' "$PJ" 2>/dev/null)
    [[ -n "$PV" && "$PV" != "null" ]] && rm -f .flow/meta.json.tmp && jq --arg v "$PV" '.version_ack = $v' .flow/meta.json > .flow/meta.json.tmp && mv .flow/meta.json.tmp .flow/meta.json
    
  • Skip this run: continue without writing anything; the next invocation asks again.

Any other output (the one-line differs notice, or nothing) is non-blocking: continue.

Inline skill (no context: fork)AskUserQuestion must stay reachable across phases. Subagents can't call blocking question tools (Claude Code issues #12890, #34592). The discovery ceremony (Phase 1) and genuine-conflict surfacing (body-merge / comments-sync) both require user choice in interactive mode. (sync-codex.sh rewrites this to a plain-text numbered prompt in the Codex mirror.)

flowctl owns plumbing; the skill owns judgment

The canonical flow-next split. flowctl provides atomic, deterministic helpers; this skill, running on the host agent, does the API calls / reconciliation / asking:

| flowctl owns (deterministic) | the skill owns (host-agent judgment) | |---|---| | sync active — is the bridge active (value-checked)? | discovery ceremony: probe signals, surface, ASK, confirm | | sync list-unsynced / list-stale — enumerate | decide which specs to push/pull this run | | sync set-tracker-id / set-last-synced / set-merge-base — atomic state write | call the transport (fetchIssue / writeIssue / …) | | sync clear — unlink, wipe state atomically | semantic 3-way body merge (body-merge.md), status who-wins + comment dedup (status-sync.md / comments-sync.md) | | sync receipt / sync defer — proof-of-work + queue | translate flow-structured ↔ tracker free-form | | sync check-collisions — flag shared tracker ids | decide create-vs-link on ambiguity; ASK the user | | spec create --tracker-first / config set — id + config write | choose the hybrid id origin (tracker-first vs flow-first) | | sync list-dep-relations — enumerate depends_on_epics edges + resolved tracker links + local dep status | projectDepRelations: drive setIssueRelation / listIssueRelations, warn on unlinked deps, keep completed blockers visible, defer the missing-remotely collision (steps.md § projectDepRelations) | | ready --all — flow-side open specs + eligibility facts | list-open: union in the tracker-only items via listOpenIssues, no-op when readyState unset; list-relations: READ one issue's dep relations via listIssueRelations (dep-ordering edges, never a write); question: author the stable question-valve anchor + post via postComment, detect/import the matched answer (steps.md Phase 7) | | sync set-dep-relation / clear-dep-relation — atomic provenance-ledger write | decide which edges are ours-to-touch (ledger / fenced-block provenance — never clobber a manual relation) |

Never reimplement a flowctl helper inline; never push a merge/judgment decision into flowctl.

Discovery ceremony (R2) — detect / surface / ask / never-assume

The bridge is off until explicitly enabled. The ceremony probes six signals, surfaces present AND absent, ASKS, and writes config only on confirmation — with provenance. No-signal ⇒ nothing written; enabled stays false. Never assume. But once the user confirms, enabling is opt-OUT, not opt-in: the ceremony activates the whole pipeline (every perEvent event) by default — hooking up the bridge means you want it to sync. The user excludes events at ceremony time or turns any off later (flowctl config set tracker.perEvent.<event> off). The get_default_config() schema default stays off, so a bare enabled=true set WITHOUT the ceremony activates no lifecycle-event sync (every perEvent event stays dormant) — only the ceremony's explicit writes activate them. (Two exceptions are unconditional whenever the bridge is active — no per-event gate, by design: (1) make-pr's PR↔issue link and its In Review status push (R2 — an open PR is the In Review rung, riding the same Diffs-powering link path); (2) land.merged (R10 — a real merge is the SOLE event that projects terminal Done, gated on the GitHub MERGED probe; leaving it opt-in would strand boards at In Review post-merge).)

Probe these six signals (detection lives in the skill, not flowctl):

| Signal | Probe | Means | |---|---|---| | Linear MCP registered | the host's MCP/tool list contains a Linear server (e.g. *Linear* tools like save_issue) | interactive Linear transport available (OAuth handled) | | LINEAR_API_KEY | [ -n "$LINEAR_API_KEY" ] | headless Linear GraphQL transport available | | GitHub auth | gh auth status exits 0 | headless GitHub transport available | | GitLab auth / token | glab auth status exits 0, or GITLAB_TOKEN / CI_JOB_TOKEN set | GitLab transport available (glab primary → REST token fallback; self-managed hosts honored — references/gitlab.md) | | Jira REST + token | JIRA_BASE_URL set, plus Cloud JIRA_EMAIL+JIRA_API_TOKEN OR self-hosted DC/Server JIRA_PAT | Jira REST transport available — offered (Cloud /rest/api/3 + API-token, DC/Server /rest/api/2 + PAT; single rung + no-op, NO MCP — references/jira.md). A bare *.atlassian.net host with no credential is surfaced but can't be offered |

Resolution model is env > config > ASK, mirroring cmd_review_backend: if the transport/tracker is already decided by env or config, don't re-ask. Steps in steps.md Phase 1.

On confirmation only, write via flowctl config set (dot-paths are safe — config keys are nested):

$FLOWCTL config set tracker.enabled true
$FLOWCTL config set tracker.type linear            # or github / gitlab / jira
$FLOWCTL config set tracker.provenance "discovery ceremony 2026-06-03; confirmed by <who>; signals: MCP+API_KEY"
# DEFAULT-ON (opt-out): activate the whole pipeline — skip only what the user excluded.
$FLOWCTL config set tracker.perEvent.capture reconcile
$FLOWCTL config set tracker.perEvent.interview reconcile
$FLOWCTL config set tracker.perEvent.plan reconcile
$FLOWCTL config set tracker.perEvent.work.firstClaim push
$FLOWCTL config set tracker.perEvent.work.done comment
$FLOWCTL config set tracker.perEvent.makePr comment
$FLOWCTL config set tracker.perEvent.resolvePr comment
$FLOWCTL config set tracker.perEvent.completionReview comment   # comment-shaped (verdict + R-ID coverage) — NEVER terminal Done; land.merged is the sole Done driver (active-by-default, no perEvent seed needed)
# Jira (tracker.type jira) — write the site + project key, and PERSIST the
# deployment shape the probe detected (auth scheme + api version) so runtime
# never re-infers. Credentials stay in env (read each run), never written here.
$FLOWCTL config set tracker.perTracker.baseUrl "https://acme.atlassian.net"  # Jira: the site base (JIRA_BASE_URL env overrides; the persisted value is the default)
$FLOWCTL config set tracker.perTracker.projectKey "PROJ"                      # Jira: the project key (JQL / listOpenIssues scope)
$FLOWCTL config set tracker.perTracker.authScheme "cloud-basic"               # Jira: cloud-basic (Cloud email:API_TOKEN) | bearer-pat (DC/Server PAT) — detected from the credential/host, persisted
$FLOWCTL config set tracker.perTracker.apiVersion "3"                         # Jira: 3 (Cloud, ADF) | 2 (DC/Server) — the REST endpoint family
$FLOWCTL config set tracker.perTracker.statusMap "$DERIVED_STATUSMAP_JSON"    # Jira: normalized→{id|name}, AUTO-DERIVED from the project workflow — WITHOUT it setStatus defers EVERY status (steps.md / jira.md § Status); write {} + warn the user when no creds
$FLOWCTL sync active --json   # confirm active: true

Auth scheme + api version are detected from the credential/deployment and PERSISTED at the ceremony — a *.atlassian.net baseUrlcloud-basic + apiVersion 3. A custom domain (a Cloud tenant on an Atlassian custom domain, OR self-hosted — neither ends in .atlassian.net) can't be told apart by URL, so infer from the credential: only JIRA_EMAIL+JIRA_API_TOKENcloud-basic + 3; only JIRA_PATbearer-pat + 2. If BOTH JIRA_API_TOKEN and JIRA_PAT are present AND the deployment is genuinely ambiguous, ASK (never silently guess), then persist. Runtime reads only the persisted authScheme — precedence is decided once here, never re-raced per run (mirrors cmd_review_backend).

Confirm the result with flowctl sync active --json (must report active: true once enabled/type are set). Negative path: user declines ⇒ write nothing; sync active stays active: false.

Flexible entry (R2) — no fixed starting point

Two entry flows, both attach sync state on link (never impose where the user must start):

  1. Author-in-flow-then-push (flow-first): a fn-NN spec already exists (capture/interview/plan authored it). Push creates the tracker issue, then sync set-tracker-id attaches the issue UUID + --identifier WOR-17 + --url. Keep the fn-NN id; store the tracker key as a resolvable alias.
  2. Link-existing-issue (tracker-first): "grab issue X and spec it." Fetch the issue via an already-installed transport, create the spec keyed by the tracker key (flowctl spec create --tracker-first --tracker-identifier WOR-17), seed the merge base from the current issue body, first pass is pull-only. Tracker-first needs an alpha-prefixed KEY-N key — Linear WOR-17 AND Jira PROJ-123 (both KEY-N, both tracker-first capable). GitHub #N / GitLab <project>#<iid> are NOT KEY-N, so they go flow-first only (see steps.md Phase 2). See steps.md Phase 2 (link) and references/identity.md.

Grain (R3) — one spec ↔ one issue

  • One flow spec maps to one tracker issue. The tracker UUID is the durable dedupe key (sync set-tracker-id); sync check-collisions flags any UUID shared by two specs.
  • Tasks stay flow-local by default — NEVER auto-created as tracker sub-issues.
  • Optional checklist-in-body render — tasks MAY be rendered as a checklist inside the issue body (not sub-issues). Scoping decision: owned by the body-merge layer (body-merge.md). The scaffold defines the grain (one-to-one, tasks-local); the checklist is a body-format concern. The skeleton exposes a renderTaskChecklist hook on the body-sync path (off by default) so the body-merge layer can opt it in without reshaping the spine.

Identity / naming (R16) — hybrid via flowctl's id layer

The link/create ceremony assigns the canonical id through flowctl's id generator. Never rename an existing spec. Full rules in references/identity.md; the headline:

  • Tracker-first link → canonical spec id wor-17-slug, canonical tasks wor-17-slug.M. The bare forms wor-17 / wor-17.M are aliases, resolved by flowctl's widened resolver (flowctl show wor-17, work wor-17, … all resolve). Branch follows the canonical id. Use flowctl spec create --tracker-first --tracker-identifier WOR-17.
  • Flow-first → keep fn-NN-slug. Store the tracker key in the single tracker.identifier field (R4, display form WOR-17) as a resolvable alias via sync set-tracker-id --identifier WOR-17, and write the back-reference into the issue (flow:<id> label / [<id>] title-prefix).
  • Resolution is flowctl's job, not the scaffold's. The skill just calls flowctl and relies on the widened resolver. Surface identifier in sync listings (see Phase 6 in steps.md).

Orchestration skeleton — transport-blind

Three sync operations across three layers, all transport-blind. The skeleton routes; the named hooks plug in later:

push     flow → tracker   (writeIssue/setStatus/postComment from the normalized spec view)
pull     tracker → flow   (fetchIssue/readStatus/listComments → normalized → fold into spec)
reconcile two-way         (3-way body merge + status who-wins + comment append)
  • Transport interface (the Linear / GitHub / GitLab / Jira adapters implement): fetchIssue, writeIssue, listComments, postComment, readStatus, setStatus, the dependency-projection pair listIssueRelations / setIssueRelation, plus the backlog enumeration method listOpenIssues(filter) → issue[] (the promoted-lane scan backlog mode unions in — Linear, GitHub, GitLab + Jira). Each maps its wire shape to/from the normalized structs. Defined in references/adapter-interface.md.
  • Backlog-mode named ops: list-open (enumerate the promoted lane via listOpenIssues), list-relations <tracker-id> (READ one issue's dependency relations via listIssueRelations for dep-ordering — read-only, never a write), and question <spec-id | tracker-id> (post the async question-valve comment behind a stable anchor) — skill-level + transport-blind, invoked per-tick by /flow-next:pilot backlog mode. Bodies in steps.md Phase 7; all run under the autonomy gate (never AskUserQuestion).
  • Dependency projection: projectDepRelations rides the push + reconcile paths (modelled on projectReadiness) and projects a spec's local depends_on_epics edges as blocked-by tracker relations — transport-blind (R8), additive-only (never deletes a relation flow can't prove it created — R6), completed-blocker-aware (a done dep stays a visible historical blocker but never re-gates ready=true — R5), and conservative on collision (a ledgered relation a tracker user removed is deferred + queued, never silently recreated — R6/R10). On GitHub's fenced fallback and on GitLab (every tier — the durable direction source alongside the native link, and the sole one on the degrade) the <!-- flow:deps --> body block is flow-owned and excluded from body-merge divergence (the trackerBodyForMerge transform — body-merge.md Step 0.5, R10). Full hook body in steps.md § projectDepRelations.
  • Reconcile operates only on the normalized issue / comment / status structs — never a transport detail. The 3-way body merge + format translation + scoped conflict is references/body-merge.md; status who-wins is references/status-sync.md and comments/evidence append + dedup is references/comments-sync.md.
  • Link / unlink ceremony stubs: first-link base-seeding is handled by the body-merge layer (body-merge.md — seed base from current issue body so the first sync isn't a whole-body conflict). Unlink wipes state via sync clear and posts a one-line detached comment to the issue (postComment). Skeleton in steps.md Phase 5.

Every run emits a receipt (sync receipt --status …) and genuine conflicts queue (sync defer …) — never block (R11/R12). The transport choice (mcp / graphql / gh / glab / rest / none) is recorded on the receipt; when no transport is reachable, the run is a noop + receipt note (never a crash). Lifecycle runs are event-tagged: the calling skill passes event: <perEvent-key> in the invocation, and every receipt that run carries --event — the tag flowctl sync check audits at end-of-skill. Manual runs carry no event tag (see steps.md Phase 0).

Boundaries

  • This is the spine, not the transports or the merge. Do not implement Linear/GitHub/GitLab/Jira API calls here (the adapter references) or the 3-way merge / status who-wins (body-merge.md / status-sync.md / comments-sync.md). Define the hooks; leave them as named stubs that delegate.
  • /flow-next:tracker-sync is DISTINCT from /flow-next:sync (= plan-sync, flow-next-sync skill). Never conflate them. The two are documented side-by-side in docs/tracker-sync.md.
  • Projection, not coordination — the tracker never drives flow state or spawns agents. A Symphony-style trigger layer is explicitly out of scope (separable future addition).
  • Dependency projection is strictly additive and flow-authoritative. projectDepRelations NEVER deletes a tracker relation it can't prove it created (ledger / fenced marker — R6), NEVER silently recreates a relation a tracker user removed (collision ⇒ sync defer + queued — R6/R10), NEVER feeds a projected/completed relation back into ready=true gating (R5), and NEVER traverses the dep graph — only direct depends_on_epics edges project, no transitive expansion (R8). Tracker→flow dependency authoring (declaring deps from the tracker side) is out of scope. The hook is transport-blind — no per-tracker (Linear / GitHub / GitLab / Jira) branching in the skill (R8); fidelity differences live in the adapters.
  • Backlog-mode ops are skill-level, never flowctl transport: list-open / question enumerate / post via the agentic adapter ladder — flowctl has no tracker transport and must not grow one. A tracker-only question (no spec) is exempt from the spec-id sync receipt; its parked/answered state lives in the tracker comments.
  • Codex mirror (sync-codex.sh per-skill block + openai.yaml registration): mirror regen is a SEPARATE task. Author these canonical files Claude-native (AskUserQuestion, Task); do NOT regenerate the mirror here.