optimizely-opal.opal-tools-sdk 0.1.32.dev0

SDK for creating Opal-compatible tools services

Opal Tools SDK for Python

This SDK simplifies the creation of tools services compatible with the Opal Tools Management Service.

Features

• Easy definition of tool functions with decorators
• Automatic generation of discovery endpoints
• Parameter validation and type checking
• Authentication helpers
• FastAPI integration
• Island components for interactive UI responses

Installation

pip install optimizely-opal.opal-tools-sdk

Note: While the package is installed as optimizely-opal.opal-tools-sdk, you'll still import it in your code as opal_tools_sdk:

# Import using the package name
from opal_tools_sdk import ToolsService, tool, IslandResponse, IslandConfig

Usage

from opal_tools_sdk import ToolsService, tool
from pydantic import BaseModel
from fastapi import FastAPI

app = FastAPI()
tools_service = ToolsService(app)

class WeatherParameters(BaseModel):
    location: str
    units: str = "metric"

@tool("get_weather", "Gets current weather for a location")
async def get_weather(parameters: WeatherParameters):
    # Implementation...
    return {"temperature": 22, "condition": "sunny"}

# Discovery endpoint is automatically created at /discovery

Authentication

The SDK provides two ways to require authentication for your tools:

1. Using the @requires_auth decorator

from opal_tools_sdk import ToolsService, tool, AuthData
from opal_tools_sdk.auth import requires_auth
from pydantic import BaseModel
from fastapi import FastAPI
from typing import Optional

app = FastAPI()
tools_service = ToolsService(app)

class CalendarParameters(BaseModel):
    date: str
    timezone: str = "UTC"

# Single authentication requirement
@requires_auth(provider="google", scope_bundle="calendar", required=True)
@tool("get_calendar_events", "Gets calendar events for a date")
async def get_calendar_events(parameters: CalendarParameters, auth_data: Optional[AuthData] = None):
    # The auth_data parameter contains authentication information
    if auth_data:
        token = auth_data["credentials"]["access_token"]

    # Use the token to make authenticated requests
    # ...

    return {"events": ["Meeting at 10:00", "Lunch at 12:00"]}

# Multiple authentication requirements (tool can work with either provider)
@requires_auth(provider="google", scope_bundle="calendar", required=True)
@requires_auth(provider="microsoft", scope_bundle="outlook", required=True)
@tool("get_calendar_availability", "Check calendar availability")
async def get_calendar_availability(parameters: CalendarParameters, auth_data: Optional[AuthData] = None):
    provider = ""
    token = ""
    
    if auth_data:
        provider = auth_data["provider"]
        token = auth_data["credentials"]["access_token"]

        if provider == "google":
            # Use Google Calendar API
            pass
        elif provider == "microsoft":
            # Use Microsoft Outlook API
            pass

    return {"available": True, "provider_used": provider}

2. Specifying auth requirements in the @tool decorator

@tool(
    "get_email",
    "Gets emails from the user's inbox",
    auth_requirements=[
        {"provider": "google", "scope_bundle": "gmail", "required": True}
    ]
)
async def get_email(parameters: EmailParameters, auth_data: Optional[AuthData] = None):
    # Implementation...
    return {"emails": ["Email 1", "Email 2"]}

Interactions

Interactions are app-only handlers — actions callable from the UI but hidden from the LLM. Use them when a tool surface needs to expose a button, form submit, or other follow-up action that the model should not be able to call. They follow the MCP "app-only tools" pattern (visibility: ["app"]) and are not listed in the /discovery endpoint.

When to use @interaction vs @tool:

• Use @tool when the LLM should be able to call the function on its own.
• Use @interaction when only the UI (action cards, islands) should call it — the model should never see it.

Declaring an interaction

from typing import Optional
from opal_tools_sdk import ToolsService, interaction, InteractionContext
from pydantic import BaseModel, Field
from fastapi import FastAPI

app = FastAPI()
tools_service = ToolsService(app)


class TaskFormInput(BaseModel):
    title: str = Field(description="Task title")
    priority: str = Field(default="medium", description="Task priority")
    assignee: Optional[str] = Field(default=None, description="Assignee email")


@interaction(
    name="submit_task_form",
    description="Handle task form submission",
)
async def handle_task_submission(parameters: TaskFormInput, context: InteractionContext):
    # parameters is validated against TaskFormInput
    # context.auth_data carries credentials when auth is configured
    return {"task_id": "task-123", "message": f"Task '{parameters.title}' created"}

The first parameter is introspected from the Pydantic model the same way @tool does it (typing the parameter as dict skips schema extraction). The second parameter is an InteractionContext.

Handler signature & InteractionContext

InteractionContext carries the auth data resolved by TMS from the parent tool's auth_requirements:

@dataclass
class InteractionContext:
    auth_data: AuthData | None = None

If the parent tool did not declare auth requirements (or no credentials are available), context.auth_data is None.

Generated endpoint

The SDK exposes a single shared endpoint for all interactions:

POST /interactions/execute
Content-Type: application/json

{
  "name": "submit_task_form",
  "parameters": {"title": "Ship docs", "priority": "high"},
  "auth": {"provider": "...", "credentials": {...}}
}

The response is whatever the handler returns, serialized as JSON. Interactions are not listed in /discovery.

Name uniqueness

Interaction names must be unique across both tools and interactions in the same service, since both can be exported as MCP tools. Registering an interaction with a name that conflicts with an existing tool or interaction raises ValueError.

Island Components

The SDK includes Island components for creating interactive UI responses that allow users to input data and trigger actions.

Weather Tool with Interactive Island

from opal_tools_sdk import ToolsService, tool, IslandResponse, IslandConfig
from pydantic import BaseModel
from fastapi import FastAPI

app = FastAPI()
tools_service = ToolsService(app)

class WeatherParameters(BaseModel):
    location: str
    units: str = "metric"

@tool("get_weather", "Gets current weather for a location")
async def get_weather(parameters: WeatherParameters):
    # Get weather data (implementation details omitted)
    weather_data = {"temperature": 22, "condition": "sunny", "humidity": 65}
    
    # Create an interactive island for weather settings
    island = IslandConfig(
        fields=[
            IslandConfig.Field(
                name="location",
                label="Location",
                type="string",
                value=parameters.location
            ),
            IslandConfig.Field(
                name="units",
                label="Temperature Units",
                type="string",
                value=parameters.units,
                options=["metric", "imperial", "kelvin"]
            ),
            IslandConfig.Field(
                name="current_temp",
                label="Current Temperature",
                type="string",
                value=f"{weather_data['temperature']}°{'C' if parameters.units == 'metric' else 'F'}"
            )
        ],
        actions=[
            IslandConfig.Action(
                name="refresh_weather",
                label="Refresh Weather",
                type="button",
                endpoint="/tools/get_weather",
                operation="update"
            )
        ]
    )
    
    return IslandResponse.create([island])

Island Components

IslandConfig.Field

Fields represent data inputs in the UI:

• name: Programmatic field identifier
• label: Human-readable label
• type: Field type ("string", "boolean", "json")
• value: Current field value (optional)
• hidden: Whether to hide from user (optional, default: False)
• options: Available options for selection (optional)

IslandConfig.Action

Actions represent buttons or operations:

• name: Programmatic action identifier
• label: Human-readable button label
• type: UI element type (typically "button")
• endpoint: API endpoint to call
• operation: Operation type (default: "create")

IslandConfig

Contains the complete island configuration:

• fields: List of IslandConfig.Field objects
• actions: List of IslandConfig.Action objects
• type: Island type for UI rendering (optional, default: None)
• icon: Icon to display in the island (optional, default: None)

IslandResponse

The response wrapper for islands:

• Use IslandResponse.create([islands]) to create responses
• Supports multiple islands per response

Resources & Proteus UI

The SDK supports defining MCP resources that serve dynamic UI specifications using the Proteus framework. This enables tools to render rich, interactive interfaces without hardcoded frontend integrations.

For the full Proteus component reference and visual designer, see the Proteus documentation.

Defining a Resource with @resource

Use the @resource decorator to register a function as an MCP resource:

from opal_tools_sdk import UI
from opal_tools_sdk.decorators import resource

@resource(
    uri="ui://my-app/create-form",
    name="create-form",
    description="Form for creating new items",
)
async def get_create_form():
    return UI.Document(
        title="Create Item",
        body=[
            UI.Heading(children="New Item"),
            UI.Field(
                label="Item Name",
                children=UI.Input(name="item_name", placeholder="Enter item name"),
            ),
            UI.Field(
                label="Description",
                children=UI.Textarea(name="description", placeholder="Enter description"),
            ),
        ],
        actions=[
            UI.Action(children="Save", appearance="primary"),
            UI.CancelAction(children="Cancel"),
        ],
    )

Parameters:

• uri (required): Unique URI for the resource (e.g., "ui://my-app/create-form")
• name (required): Name of the resource
• description (optional): Description of the resource
• mime_type (optional): MIME type of the content. Auto-set to "application/vnd.opal.proteus+json" when returning a UI.Document
• title (optional): Human-readable title

The handler function can return either a str (manual JSON serialization) or a UI.Document (automatic serialization with MIME type set automatically).

Linking a Tool to a UI Resource

Use the ui_resource parameter on @tool to associate a tool with a Proteus UI resource. The frontend fetches and renders the resource when the tool is invoked:

from opal_tools_sdk import tool
from pydantic import BaseModel, Field

class CreateItemParams(BaseModel):
    item_name: str = Field(description="Name of the item")
    description: str = Field(description="Item description")

@tool(
    "create_item",
    "Create a new item",
    ui_resource="ui://my-app/create-form",
)
async def create_item(parameters: CreateItemParams):
    return {"id": "item-123", "name": parameters.item_name, "status": "created"}

Building UI with UI.Document

Import the UI namespace from opal_tools_sdk or opal_tools_sdk.ui. It provides type-safe builders for all Proteus components:

from opal_tools_sdk import UI

Available components:

Category	Components
Layout	UI.Document, UI.Group, UI.Card, UI.CardHeader, UI.CardLink, UI.Separator
Typography	UI.Heading, UI.Text, UI.Link
Data Display	UI.Avatar, UI.Badge, UI.DataTable, UI.Chart, UI.IconCalendar, UI.Image, UI.ImageCarousel, UI.Time
Form Controls	UI.Field, UI.Input, UI.Textarea, UI.Select, UI.SelectTrigger, UI.SelectContent, UI.Switch, UI.Range, UI.Question
Actions	UI.Action, UI.CancelAction
Dynamic	UI.Value, UI.Map, UI.MapIndex, UI.Show, UI.Concat, UI.Zip

Data binding with UI.Value resolves paths from the tool response:

@resource(uri="ui://my-app/results", name="results")
async def get_results():
    return UI.Document(
        title=UI.Value(path="/title"),
        body=UI.Map(
            path="/items",
            children=UI.Text(children=UI.Value(path="name")),
        ),
    )

Conditional rendering with UI.Show:

UI.Show(
    when={"!!": UI.Value(path="/error")},
    children=UI.Text(children="An error occurred", color="fg.error"),
)

The MIME type constant is available as UI.MIME_TYPE ("application/vnd.opal.proteus+json").

Type Definitions

The SDK provides several TypedDict and dataclass definitions for better type safety:

Authentication Types

• AuthData: TypedDict containing provider and credentials information
• Credentials: TypedDict with access_token, org_sso_id, customer_id, instance_id, and product_sku
• AuthRequirement: Dataclass for specifying authentication requirements

Execution Environment

• Environment: TypedDict specifying execution mode ("headless" or "interactive")

Parameter Types

• ParameterType: Enum for supported parameter types (string, integer, number, boolean, list, dictionary)
• Parameter: Dataclass for tool parameter definitions
• Function: Dataclass for complete tool function definitions

These types are automatically imported when you import from opal_tools_sdk and provide better IDE support and type checking.

Documentation

See full documentation for more examples and configuration options.