원클릭으로 Manus에서 모든 스킬 실행

$pwd:

new-entity-requirements

Name: New Entity Requirements
Author: elastic

// Gathers initial requirements for a new Terraform resource or data source by examining API clients (go-elasticsearch, generated kbapi), Elastic API docs (Elastic docs MCP server and/or web), then interviewing the user for gaps. Produces an OpenSpec proposal (change with proposal, design, tasks, and delta specs)—not a hand-written spec under openspec/specs/ alone. Use when designing a new entity, drafting requirements from an API, or before implementing a new resource/data source.

Manus에서 실행

$ git log --oneline --stat

stars:209

forks:142

updated:2026년 3월 21일 06:52

파일 탐색기

2 개 파일

SKILL.md

readonly

name

new-entity-requirements

description

Gathers initial requirements for a new Terraform resource or data source by examining API clients (go-elasticsearch, generated kbapi), Elastic API docs (Elastic docs MCP server and/or web), then interviewing the user for gaps. Produces an OpenSpec proposal (change with proposal, design, tasks, and delta specs)—not a hand-written spec under openspec/specs/ alone. Use when designing a new entity, drafting requirements from an API, or before implementing a new resource/data source.

New Entity Requirements

Gather initial requirements for an entirely new Terraform resource or data source, then materialize them as an OpenSpec proposal: a change under openspec/changes/<name>/ with proposal.md, design.md, tasks.md, and delta capability specs. Sources: repo API client code, Elastic API documentation (via the Elastic docs MCP server when available, otherwise web fetch/search), and user input for decisions the code and docs cannot answer.

For the CLI sequence (create change, resolve artifact order, run openspec instructions, write files), follow openspec-propose. This skill adds what to research and what to put in each artifact for a new Terraform entity.

Input

Entity concept: User specifies the target (e.g. “Elasticsearch API key”, “Kibana SLO”, “Fleet integration”). Optionally: resource vs data source, proposed type name.
API scope: Which backend (Elasticsearch vs Kibana/Fleet) and, if known, API name or doc URL.
Change name (optional): Kebab-case id for openspec new change (e.g. add-elasticsearch-security-api-key-resource). If missing, derive one from the entity and confirm with the user if ambiguous.

Workflow

1. Resolve API surface

Elasticsearch: Wrappers live in internal/clients/elasticsearch/ (e.g. security.go, cluster.go). They call apiClient.GetESClient() and use the go-elasticsearch client (e.g. esClient.Security.PutUser). Shared models: internal/models/. If no wrapper exists yet, search the go-elasticsearch API (dependency github.com/elastic/go-elasticsearch/v8) for the relevant namespace (e.g. Security, Watcher, Transform).
Kibana and Fleet: OpenAPI-generated client: generated/kbapi/kibana.gen.go. Higher-level wrappers: internal/clients/kibanaoapi/ and internal/clients/fleet/ (e.g. alerting_rule.go, connector.go). Use kbapi types and ClientWithResponses methods for the target API.

Identify: create/update (PUT/POST), read (GET), delete (DELETE), request/response shapes, identifiers (name, id, composite id). Note any version or feature flags in the client or API.

2. Examine Elastic API docs

Preferred: Use the Elastic docs MCP server when available. Call its tools to search or fetch Elastic documentation (e.g. by API name, topic, or URL). See reference.md for how to use the MCP server.
Fallback: If the MCP server is not configured or does not return the needed content, fetch docs via web (e.g. mcp_web_fetch for a known URL, or web search for the API name).
URL patterns: See reference.md for elastic.co/guide and elastic.co/docs URL patterns when constructing or citing links.
Extract: Endpoint names, required vs optional fields, validation rules, version requirements, error semantics (e.g. 404 = not found), and whether create/update are the same or separate.
If the user provided a doc URL, use it (via MCP if the server supports fetch-by-URL, or via web fetch); otherwise search by API name (e.g. “Elasticsearch security API create API key”, “Kibana SLO API”).

3. Create the OpenSpec proposal (change + artifacts)

Do not write directly to canonical openspec/specs/<capability>/spec.md as the primary deliverable. Instead:

Create the change
Run openspec new change "<name>" (requires OpenSpec CLI; make setup installs it). This creates openspec/changes/<name>/ with .openspec.yaml.
Build all apply-ready artifacts
Follow openspec-propose steps 3–4: openspec status --change "<name>" --json, then for each artifact in dependency order use openspec instructions <artifact-id> --change "<name>" --json, read dependencies, write to outputPath using template and instruction, re-run status until every id in applyRequires is done.
Entity-specific content
- proposal.md: What & why for this resource/data source; problem, scope, non-goals if useful; link to Elastic docs URLs gathered in step 2.
- design.md: How the provider will map API ↔ Terraform (client package, identity, import id shape, version gates, error handling). Reference client paths from step 1.
- tasks.md: Concrete implementation steps (schema, CRUD, acceptance tests, docs)—aligned with repo conventions in dev-docs/high-level/.
- Delta spec(s) (openspec/changes/<name>/specs/.../spec.md): Normative requirements per dev-docs/high-level/openspec-requirements.md: ## Purpose, optional ## Schema, ## Requirements with ### Requirement: / #### Scenario:; bodies MUST include SHALL or MUST (for openspec validate). Draft HCL-style schema, API/identity/import/connection/compatibility requirements from steps 1–2. Mark unknowns as “TBD” or “(to confirm)”.

Use TodoWrite to track artifact creation, as in openspec-propose.

4. Interview the user

Collect unanswered questions from the draft artifacts (schema ambiguities, id format, import support, lifecycle, version support). Use the question bank in reference.md.
Prefer the AskQuestion tool when available (one question per call, clear options). Otherwise ask conversationally and list options.
Record answers by updating the delta spec and, where relevant, proposal or design—replace TBDs, refine requirements, add Lifecycle, Plan/State, or StateUpgrade if the user specifies them.
If the user defers a decision, leave TBD in the delta spec and add a short “Open point” note.

5. Finalize

Ensure every requirement is either derived from the API/client/docs or from user answers. Remove or rewrite speculative claims.
Add a short “Sources” note in design.md or the delta spec if helpful: API client paths, doc URLs, and whether Elastic docs came from the MCP server or web.
Run openspec status --change "<name>" and confirm the change is apply-ready. Validate per project docs (make check-openspec / openspec validate as appropriate for specs in the change).

Output

Deliverable: A complete OpenSpec change at openspec/changes/<name>/ with all artifacts required for implementation (applyRequires), including delta capability specs—not a standalone file only under openspec/specs/.
Traceability: Requirements in delta specs tied to API docs (links) or user decisions; no invented behavior.

Reference

Proposal workflow (CLI): openspec-propose
Authoring: dev-docs/high-level/openspec-requirements.md
Example canonical spec (style reference): openspec/specs/elasticsearch-security-role/spec.md
Example archived change layout: openspec/changes/archive/ (proposal, design, tasks, specs/…/spec.md)
API client locations, doc URLs, interview question bank: reference.md

related-skills.json

같은 저장소

openspec-implementation-loop.md

from "elastic/terraform-provider-elasticstack"

Orchestrates an end-to-end implementation loop for a single OpenSpec change: select a change, ask commit-only vs PR delivery, triage the change to determine an execution strategy (inline, single-implementor, or per-task) based on change size and complexity, implement tasks using the chosen strategy, run review and validation, feed findings back for fixes, push to origin, then either watch GitHub Actions on the branch (commit mode) or create a PR and delegate PR monitoring to the pr-monitoring-loop skill (PR mode). Use when the user wants to implement an approved OpenSpec proposal/change with iterative review and CI feedback.

2026-05-16209

pr-monitoring-loop.md

from "elastic/terraform-provider-elasticstack"

Monitor GitHub pull requests through a subagent-based loop that watches CI checks, review comments, PR comments, review state, merge conflicts, and branch freshness. Use when a workflow reaches PR monitoring, CI polling, review feedback handling, or asks to keep a PR merge-ready.

2026-05-09209

flaky-test-catcher.md

from "elastic/terraform-provider-elasticstack"

Detects broken and flaky acceptance tests from recent CI failures on main and opens structured GitHub issues for automated remediation. Follow this skill strictly when analyzing CI failures.

2026-05-05209

existing-entity-requirements.md

from "elastic/terraform-provider-elasticstack"

Examines an existing Terraform resource or data source implementation and produces an OpenSpec requirements document under openspec/specs/. Use when the user asks to document requirements for a Terraform entity, capture behavior from code, or write a requirements doc for a resource/data source.

2026-04-21209

sdk-to-pf-migration.md

from "elastic/terraform-provider-elasticstack"

Guides migration of Terraform resources from Plugin SDK to Plugin Framework. Use when migrating SDK resources to PF, planning SDK-to-PF migrations, or when the user asks to migrate a resource to the Plugin Framework.

2026-03-25209

requirements-verification.md

from "elastic/terraform-provider-elasticstack"

Analyzes an OpenSpec requirements spec for internal consistency, implementation compliance, and test opportunities; when a shell is available, run openspec validate first for structural checks. Use when reviewing specs, verifying implementation against requirements, or identifying test gaps.

2026-03-21209

package.json

"author": "elastic"

"repository": "elastic/terraform-provider-elasticstack"

GitHub 저장소 열기 Creator 저장소 보기

$ install --global

$ download --local

Manus에서 실행

$ useful --forSOC

소프트웨어 개발자컴퓨터 및 수학직15-1252L4

name

new-entity-requirements

description

New Entity Requirements

Input

Entity concept: User specifies the target (e.g. “Elasticsearch API key”, “Kibana SLO”, “Fleet integration”). Optionally: resource vs data source, proposed type name.
API scope: Which backend (Elasticsearch vs Kibana/Fleet) and, if known, API name or doc URL.
Change name (optional): Kebab-case id for openspec new change (e.g. add-elasticsearch-security-api-key-resource). If missing, derive one from the entity and confirm with the user if ambiguous.

Workflow

1. Resolve API surface

Elasticsearch: Wrappers live in internal/clients/elasticsearch/ (e.g. security.go, cluster.go). They call apiClient.GetESClient() and use the go-elasticsearch client (e.g. esClient.Security.PutUser). Shared models: internal/models/. If no wrapper exists yet, search the go-elasticsearch API (dependency github.com/elastic/go-elasticsearch/v8) for the relevant namespace (e.g. Security, Watcher, Transform).
Kibana and Fleet: OpenAPI-generated client: generated/kbapi/kibana.gen.go. Higher-level wrappers: internal/clients/kibanaoapi/ and internal/clients/fleet/ (e.g. alerting_rule.go, connector.go). Use kbapi types and ClientWithResponses methods for the target API.

Identify: create/update (PUT/POST), read (GET), delete (DELETE), request/response shapes, identifiers (name, id, composite id). Note any version or feature flags in the client or API.

2. Examine Elastic API docs

Preferred: Use the Elastic docs MCP server when available. Call its tools to search or fetch Elastic documentation (e.g. by API name, topic, or URL). See reference.md for how to use the MCP server.
Fallback: If the MCP server is not configured or does not return the needed content, fetch docs via web (e.g. mcp_web_fetch for a known URL, or web search for the API name).
URL patterns: See reference.md for elastic.co/guide and elastic.co/docs URL patterns when constructing or citing links.
Extract: Endpoint names, required vs optional fields, validation rules, version requirements, error semantics (e.g. 404 = not found), and whether create/update are the same or separate.
If the user provided a doc URL, use it (via MCP if the server supports fetch-by-URL, or via web fetch); otherwise search by API name (e.g. “Elasticsearch security API create API key”, “Kibana SLO API”).

3. Create the OpenSpec proposal (change + artifacts)

Do not write directly to canonical openspec/specs/<capability>/spec.md as the primary deliverable. Instead:

Create the change
Run openspec new change "<name>" (requires OpenSpec CLI; make setup installs it). This creates openspec/changes/<name>/ with .openspec.yaml.
Build all apply-ready artifacts
Follow openspec-propose steps 3–4: openspec status --change "<name>" --json, then for each artifact in dependency order use openspec instructions <artifact-id> --change "<name>" --json, read dependencies, write to outputPath using template and instruction, re-run status until every id in applyRequires is done.
Entity-specific content
- proposal.md: What & why for this resource/data source; problem, scope, non-goals if useful; link to Elastic docs URLs gathered in step 2.
- design.md: How the provider will map API ↔ Terraform (client package, identity, import id shape, version gates, error handling). Reference client paths from step 1.
- tasks.md: Concrete implementation steps (schema, CRUD, acceptance tests, docs)—aligned with repo conventions in dev-docs/high-level/.
- Delta spec(s) (openspec/changes/<name>/specs/.../spec.md): Normative requirements per dev-docs/high-level/openspec-requirements.md: ## Purpose, optional ## Schema, ## Requirements with ### Requirement: / #### Scenario:; bodies MUST include SHALL or MUST (for openspec validate). Draft HCL-style schema, API/identity/import/connection/compatibility requirements from steps 1–2. Mark unknowns as “TBD” or “(to confirm)”.

Use TodoWrite to track artifact creation, as in openspec-propose.

4. Interview the user

Collect unanswered questions from the draft artifacts (schema ambiguities, id format, import support, lifecycle, version support). Use the question bank in reference.md.
Prefer the AskQuestion tool when available (one question per call, clear options). Otherwise ask conversationally and list options.
Record answers by updating the delta spec and, where relevant, proposal or design—replace TBDs, refine requirements, add Lifecycle, Plan/State, or StateUpgrade if the user specifies them.
If the user defers a decision, leave TBD in the delta spec and add a short “Open point” note.

5. Finalize

Ensure every requirement is either derived from the API/client/docs or from user answers. Remove or rewrite speculative claims.
Add a short “Sources” note in design.md or the delta spec if helpful: API client paths, doc URLs, and whether Elastic docs came from the MCP server or web.
Run openspec status --change "<name>" and confirm the change is apply-ready. Validate per project docs (make check-openspec / openspec validate as appropriate for specs in the change).

Output

Deliverable: A complete OpenSpec change at openspec/changes/<name>/ with all artifacts required for implementation (applyRequires), including delta capability specs—not a standalone file only under openspec/specs/.
Traceability: Requirements in delta specs tied to API docs (links) or user decisions; no invented behavior.

Reference

Proposal workflow (CLI): openspec-propose
Authoring: dev-docs/high-level/openspec-requirements.md
Example canonical spec (style reference): openspec/specs/elasticsearch-security-role/spec.md
Example archived change layout: openspec/changes/archive/ (proposal, design, tasks, specs/…/spec.md)
API client locations, doc URLs, interview question bank: reference.md

new-entity-requirements

New Entity Requirements

Input

Workflow

1. Resolve API surface

2. Examine Elastic API docs

3. Create the OpenSpec proposal (change + artifacts)

4. Interview the user

5. Finalize

Output

Reference

이 저장소의 다른 Skills

이 저장소의 다른 Skills

New Entity Requirements

Input

Workflow

1. Resolve API surface

2. Examine Elastic API docs

3. Create the OpenSpec proposal (change + artifacts)

4. Interview the user

5. Finalize

Output

Reference