| name | port-blueprints |
| description | Model a Port context lake data model using blueprints, defining identifiers, titles, icons, properties, relations, and calculation, mirror, or aggregation properties, then author them with the raw Port API. Use when asked to create a Port blueprint, define a Port data model, add a property to a blueprint, relate two blueprints, add a calculation property, add a mirror property, or add an aggregation property. |
| license | MIT |
| compatibility | Claude Code, Cursor, Codex CLI, GitHub Copilot |
| metadata | {"version":"1.0.0","author":"port-labs","repository":"https://github.com/port-labs/port-skills","tags":"port,blueprints,data-model,reference","summary":"Model your context lake with Port blueprints, properties, and relations"} |
Port blueprints
A blueprint is Port's schema primitive. It defines a type of asset in the
context lake (a service, a package, a cluster, anything), the
properties that describe it, and how it relates to other blueprints. Every
entity in Port's context lake is an instance of a blueprint, the same way a
database row is an instance of a table schema.
Use this skill when
Use this skill to design or edit a Port data model: creating a new blueprint,
adding or typing a property, relating two blueprints, or adding a
calculation, mirror, or aggregation property. It is reference-only, built
from the static blueprint JSON schema and the raw Port API, so it works
without a live Port account or Port MCP server connected. Without
credentials it still produces valid blueprint JSON the user can apply later.
Out of scope: workflows (port-workflows),
scorecards (port-scorecards), integration mapping (port-integrations),
the Terraform/Pulumi provider reference (port-terraform, pointed to in
Step 6), and deciding
what to model and how blueprints should relate at the data-model-design
level (port-context-lake owns that; this skill is the JSON mechanics it
points to).
Prerequisites
- Go over the
port-getting-started skill first if this is your first time
working with Port.
- To apply changes without MCP: a
CLIENT_ID/CLIENT_SECRET pair (...
menu > Credentials in the Port app), exchanged for a bearer token at
POST https://api.port.io/v1/auth/access_token.
- If Port's MCP server is connected, this skill can use it to read the
current blueprint (
list_blueprints) and apply the result directly
(upsert_blueprint) instead of you copying JSON in by hand; the raw API
calls below always work as a fallback. Search
search_port_knowledge_sources for anything this skill doesn't cover.
Step 1 - Check whether the blueprint already exists
Precondition: you have a bearer token.
Action: GET /v1/blueprints/<identifier>. 200 means it exists, edit it
instead of duplicating it. 404 means it's safe to create.
Fallback: no credentials yet. Draft the JSON and tell the user to verify
uniqueness before applying it.
Step 2 - Decide the blueprint's identity
Precondition: you know what real-world asset this blueprint represents.
Action: pick an identifier (unique, ≤100 characters, immutable after
creation), a human-readable title, and an icon from Port's
built-in icon set.
Fallback: if the asset isn't precisely named yet, ask, or default to a
camelCase noun (microservice, cloudResource) and flag it as a guess.
Step 3 - Define properties
Precondition: you know what data this asset needs to carry.
Action: for each field, add a typed entry under schema.properties and, if
mandatory, its key to schema.required. See
references/property-types.md for the full
type system: string, number, boolean, array, object, string
formats (url, email, user, team, date-time, timer, yaml,
markdown), enum, and meta-properties.
Fallback: if the data actually belongs to a different asset, use a relation
(Step 4) instead
of duplicating it.
Step 4 - Add relations if this asset connects to others
Precondition: entities of this blueprint need to reference entities of
another blueprint (ownership, dependency, hierarchy).
Action: add a relations entry pointing at the target blueprint's
identifier. See references/relations.md for the
single vs. many distinction and the required/many constraint.
Fallback: if the target blueprint doesn't exist yet, create it first,
relations require an existing target.
Step 5 - Add computed properties if useful
Precondition: a value can be derived from this blueprint's own properties, or
from related entities, instead of being ingested directly.
Action: use a calculation property (JQ over existing properties), a mirror
property (pull a value from a related entity), or an aggregation property
(count/sum/average across related entities). See
references/calculation-properties.md.
Fallback: if the source property doesn't exist yet, add it first.
Step 6 - Create or update the blueprint via the API
Precondition: you have a bearer token and a complete blueprint JSON body.
Action: use the endpoints below. Prefer PATCH for additive changes to avoid
clobbering unrelated fields.
| Operation | Method | Path |
|---|
| Create | POST | /v1/blueprints |
| Fully replace | PUT | /v1/blueprints/{identifier} |
| Update (additive) | PATCH | /v1/blueprints/{identifier} |
| Read | GET | /v1/blueprints/{identifier} |
| Delete | DELETE | /v1/blueprints/{identifier} |
curl -L -X POST 'https://api.port.io/v1/blueprints' \
-H "Authorization: Bearer ${ACCESS_TOKEN}" \
-H 'Content-Type: application/json' \
--data @blueprint.json
Fallback: a 422 usually means required lists a property that isn't in
properties, or a relation target that doesn't exist yet. Fix the JSON and
retry, don't silently drop the failing field.
If the user's Port account is managed with Terraform or Pulumi instead of raw
API calls, use the port-terraform skill, it owns that reference in depth
and the blueprint JSON shape maps directly onto it.
Examples
Ready-to-apply templates:
Common pitfalls
| Symptom | Cause | Fix |
|---|
422 on create/update | required references a missing property, or a relation target doesn't exist | Create the target first; keep required in sync with properties |
| Property type change is rejected or corrupts data | Property types are immutable after creation | Create a new property with the right type, migrate data, delete the old one |
Relation rejected with many and required both true | Port forbids that combination | A required relation must be single (many: false) |
Calculation property returns null | JQ references a missing path, or a relation title (.relations.x.title) under persistent calculation | Test the JQ against a real entity payload; use a mirror property for relation titles |
| New property invisible in the UI table | New properties are hidden by default in table views | Toggle it on with Manage properties; this doesn't affect the API or ingested data |
Quick reference
- Blueprint top-level keys:
identifier, title, description, icon,
schema (properties, required), calculationProperties,
mirrorProperties, relations, ownership.
- Property types:
string, number, boolean, array, object, plus
string formats. Full list: references/property-types.md.
- Relation shape:
{ "title", "target", "required", "many" }. Details:
references/relations.md.
- Derived properties: calculation (JQ), mirror (path into a relation),
aggregation (count/sum/average/min/max/median). Details:
references/calculation-properties.md.
- Auth:
POST /v1/auth/access_token with clientId/clientSecret.