arcade-mcp/libs/tests/arcade_mcp_server/test_mcp_app.py
Eric Gustin 98fd13c4ed
Front-Door Auth (#696)
# Valuable references for the reviewer:
- Docs PR: https://github.com/ArcadeAI/docs/pull/583
- Implements Phase 1 of the following planning doc:
https://linear.app/arcadedev/project/arcade-mcp-supports-mcp-auth-front-door-auth-7cbaa20cb054/overview


https://github.com/user-attachments/assets/79ad43fd-f5e8-4793-a1dd-18b35acefdc3

# PR Description
Adds OAuth 2.1 Resource Server authentication to arcade-mcp-server,
enabling HTTP MCP servers to validate Bearer tokens on every request.
This unlocks tool-level authorization and secrets support for HTTP
servers.

- Multiple authorization server support
- Granular token validation options (verify_exp, verify_iat, verify_iss)
- Environment variable configuration
- OAuth discovery metadata endpoint
(/.well-known/oauth-protected-resource)
- Extracts sub claim from token as context.user_id
- Lifts transport restrictions for tools requiring auth/secrets on HTTP
when protected

```python
from arcade_mcp_server import MCPApp
from arcade_mcp_server.resource_server import ResourceServerAuth, AuthorizationServerEntry

resource_server_auth = ResourceServerAuth(
    canonical_url="http://127.0.0.1:8000/mcp",
    authorization_servers=[
        AuthorizationServerEntry(
            authorization_server_url="https://auth.example.com",
            issuer="https://auth.example.com",
            jwks_uri="https://auth.example.com/jwks",
        )
    ],
)

app = MCPApp(name="my_server", version="1.0.0", auth=resource_server_auth)
```

# Testing
Beyond the comprehensive unit tests, I also manually tested end-to-end
with WorkOS Authkit (DCR) and KeyCloak (non-DCR).

# Future Work
- CIMD support
- An `ArcadeResourceServer` to make adding front-door auth super easy
when using Arcade's Auth Server



<!-- CURSOR_SUMMARY -->
---

> [!NOTE]
> Adds OAuth 2.1 front-door auth (JWKS validation + OAuth discovery) and
propagates user identity to tools, enabling auth/secret-requiring tools
over HTTP.
> 
> - **Authentication (Front-Door OAuth 2.1)**
> - New `resource_server` module with `ResourceServerAuth`
(multi-authorization-server, metadata) and `JWKSTokenValidator`
(JWKS-based JWT validation) plus granular validation options.
> - ASGI `ResourceServerMiddleware` validates Bearer tokens on every
HTTP request and injects `resource_owner`.
> - OAuth discovery endpoint via FastAPI router at
`/.well-known/oauth-protected-resource[/<path>]`.
> - **Integration**
> - `MCPApp`/`worker` accept `auth`/`resource_server_validator`, mount
middleware, expose discovery; logs accepted auth servers.
> - HTTP transport (`http_streamable`) carries `SessionMessage` with
`resource_owner` from request → session.
> - `Context`/`Session`/`Server` plumb `resource_owner`; `Server`
selects `user_id` preferring token `sub`.
> - **Behavior Changes**
> - HTTP transport restriction lifted for tools requiring
`authorization`/`secrets` when request is authenticated; otherwise
blocked with actionable error.
> - **Configuration**
> - Env-var based auth config via `MCP_RESOURCE_SERVER_*` in
`MCPSettings.ResourceServerSettings`; `.env` auto-load.
> - **Telemetry**
>   - Usage tracking records `resource_server_type` on server start.
> - **Examples**
> - New `examples/mcp_servers/authorization` sample server (HTTP auth,
secrets, Reddit tool) with Docker setup.
> - **Tests**
> - Extensive unit tests for validators, middleware, env config,
multi-AS, transport rules, and app integration.
> - **Version**
> - Bump `arcade-mcp-server` to `1.12.0`; minor docstring tweak in
`__init__.py`.
> 
> <sup>Written by [Cursor
Bugbot](https://cursor.com/dashboard?tab=bugbot) for commit
d1116cdcafb0c7cb8f91e66682eb1fbae380da31. This will update automatically
on new commits. Configure
[here](https://cursor.com/dashboard?tab=bugbot).</sup>
<!-- /CURSOR_SUMMARY -->





Resolves TOO-152
2025-12-11 12:51:20 -08:00

627 lines
24 KiB
Python

"""Tests for MCPApp initialization and basic functionality."""
import subprocess
import sys
from typing import Annotated
from unittest.mock import MagicMock, Mock, patch
import pytest
from arcade_core.catalog import MaterializedTool
from arcade_mcp_server import tool
from arcade_mcp_server.mcp_app import MCPApp
from arcade_mcp_server.server import MCPServer
class TestMCPApp:
"""Test MCPApp class."""
@pytest.fixture
def mcp_app(self) -> MCPApp:
"""Create an MCP app."""
app = MCPApp(name="TestMCPApp", version="1.0.0")
# Add a sample tool so the app doesn't exit when run() is called
@app.tool
def sample_tool(message: Annotated[str, "A message"]) -> str:
"""A sample tool for testing."""
return f"Response: {message}"
return app
def test_mcp_app_initialization(self):
"""Test MCPApp initialization creates proper settings."""
app = MCPApp(
name="TestApp",
version="1.5.0",
title="Test Title",
instructions="Test instructions",
)
assert app.name == "TestApp"
assert app.version == "1.5.0"
assert app.title == "Test Title"
assert app.instructions == "Test instructions"
assert app._mcp_settings is not None
assert app._mcp_settings.server.name == "TestApp"
assert app._mcp_settings.server.version == "1.5.0"
assert app._mcp_settings.server.title == "Test Title"
assert app._mcp_settings.server.instructions == "Test instructions"
def test_mcp_app_initialization_defaults(self):
"""Test MCPApp initialization with default values."""
app = MCPApp()
assert app.name == "ArcadeMCP"
assert app.version == "0.1.0"
assert app._mcp_settings.server.name == "ArcadeMCP"
assert app._mcp_settings.server.version == "0.1.0"
def test_mcp_app_initialization_partial_values(self):
"""Test MCPApp initialization with partial values."""
app = MCPApp(name="PartialApp")
assert app.name == "PartialApp"
assert app.version == "0.1.0" # Default value
assert app._mcp_settings.server.name == "PartialApp"
assert app._mcp_settings.server.version == "0.1.0"
def test_add_tool(self, mcp_app: MCPApp):
"""Test adding a tool to the MCP app."""
def undecorated_sample_tool(
text: Annotated[str, "Input text"],
) -> Annotated[str, "Echoed text"]:
"""Echo input text back to the caller."""
return f"Echo: {text}"
@tool
def decorated_sample_tool(
text: Annotated[str, "Input text"],
) -> Annotated[str, "Echoed text"]:
"""Echo input text back to the caller."""
return f"Echo: {text}"
previous_tools = len(mcp_app._catalog)
undecorated_tool = mcp_app.add_tool(undecorated_sample_tool)
decorated_tool = mcp_app.add_tool(decorated_sample_tool)
assert len(mcp_app._catalog) == previous_tools + 2
# Verify tool has the @tool decorator applied
assert hasattr(undecorated_tool, "__tool_name__")
assert undecorated_tool.__tool_name__ == "UndecoratedSampleTool"
assert hasattr(decorated_tool, "__tool_name__")
assert decorated_tool.__tool_name__ == "DecoratedSampleTool"
def test_tool(self, mcp_app: MCPApp):
"""Test the MCPApp tool decorator."""
initial_tool_count = len(mcp_app._catalog)
# Test decorator without parameters
@mcp_app.tool
def simple_tool(message: Annotated[str, "A message"]) -> str:
"""A simple tool."""
return f"Response: {message}"
# Test decorator with parameters
@mcp_app.tool(name="SimpleTool2")
def simple_tool2(message: Annotated[str, "A message"]) -> str:
"""A simple tool."""
return f"Response: {message}"
# Verify both tools were added
assert len(mcp_app._catalog) == initial_tool_count + 2
# Verify decorator attributes
assert hasattr(simple_tool, "__tool_name__")
assert simple_tool.__tool_name__ == "SimpleTool"
assert hasattr(simple_tool2, "__tool_name__")
assert simple_tool2.__tool_name__ == "SimpleTool2"
# Verify tools can still be called
assert simple_tool("test") == "Response: test"
assert simple_tool2("test") == "Response: test"
@pytest.mark.asyncio
async def test_tools_api(
self, mcp_app: MCPApp, mcp_server: MCPServer, materialized_tool: MaterializedTool
):
"""Test the tools API."""
# Test that tools API requires server binding
with pytest.raises(Exception): # noqa: B017
await mcp_app.tools.add(materialized_tool)
# Bind server to app (instead of calling mcp_app.run())
mcp_app.server = mcp_server
# Test removing a tool at runtime
removed_tool = await mcp_app.tools.remove(materialized_tool.definition.fully_qualified_name)
assert (
removed_tool.definition.fully_qualified_name
== materialized_tool.definition.fully_qualified_name
)
num_tools_before_add = len(await mcp_app.tools.list())
# Test adding a tool at runtime
await mcp_app.tools.add(materialized_tool)
# Test listing tools at runtime
tools = await mcp_app.tools.list()
assert len(tools) == num_tools_before_add + 1
# Test updating a tool at runtime
await mcp_app.tools.update(materialized_tool)
@pytest.mark.asyncio
async def test_prompts_api(self, mcp_app: MCPApp, mcp_server):
"""Test the prompts API."""
from arcade_mcp_server.types import Prompt, PromptArgument, PromptMessage
# Test that prompts API requires server binding
sample_prompt = Prompt(
name="test_prompt",
description="A test prompt",
arguments=[PromptArgument(name="input", description="Test input", required=True)],
)
with pytest.raises(Exception) as exc_info:
await mcp_app.prompts.add(sample_prompt)
assert "No server bound to app" in str(exc_info.value)
# Bind server to app
mcp_app.server = mcp_server
# Create a prompt handler
async def test_handler(args: dict[str, str]) -> list[PromptMessage]:
return [
PromptMessage(
role="user",
content={"type": "text", "text": f"Hello {args.get('input', 'world')}"},
)
]
# Test adding a prompt at runtime
await mcp_app.prompts.add(sample_prompt, test_handler)
# Test listing prompts at runtime
prompts = await mcp_app.prompts.list()
assert len(prompts) == 1
assert any(p.name == "test_prompt" for p in prompts)
# Test removing a prompt at runtime
removed_prompt = await mcp_app.prompts.remove("test_prompt")
assert removed_prompt.name == "test_prompt"
@pytest.mark.asyncio
async def test_resources_api(self, mcp_app: MCPApp, mcp_server):
"""Test the resources API."""
from arcade_mcp_server.types import Resource
# Test that resources API requires server binding
sample_resource = Resource(
uri="file:///test.txt",
name="test.txt",
description="A test text file",
mimeType="text/plain",
)
with pytest.raises(Exception) as exc_info:
await mcp_app.resources.add(sample_resource)
assert "No server bound to app" in str(exc_info.value)
# Bind server to app
mcp_app.server = mcp_server
# Create a resource handler
def test_handler(uri: str):
return {"content": f"Content for {uri}", "mimeType": "text/plain"}
# Test adding a resource at runtime
await mcp_app.resources.add(sample_resource, test_handler)
# Test listing resources at runtime
resources = await mcp_app.resources.list()
assert len(resources) >= 1
assert any(r.uri == "file:///test.txt" for r in resources)
# Test removing a resource at runtime
removed_resource = await mcp_app.resources.remove("file:///test.txt")
assert removed_resource.uri == "file:///test.txt"
def test_get_configuration_overrides(self, monkeypatch):
"""Test configuration overrides from environment variables."""
# Ensure environment variables are clear at the start
monkeypatch.delenv("ARCADE_SERVER_TRANSPORT", raising=False)
monkeypatch.delenv("ARCADE_SERVER_HOST", raising=False)
monkeypatch.delenv("ARCADE_SERVER_PORT", raising=False)
monkeypatch.delenv("ARCADE_SERVER_RELOAD", raising=False)
# Test default values (no environment variables)
host, port, transport, reload = MCPApp._get_configuration_overrides(
"127.0.0.1", 8000, "http", False
)
assert host == "127.0.0.1"
assert port == 8000
assert transport == "http"
assert not reload
# Test transport override
monkeypatch.setenv("ARCADE_SERVER_TRANSPORT", "stdio")
host, port, transport, reload = MCPApp._get_configuration_overrides(
"127.0.0.1", 8000, "http", False
)
assert transport == "stdio"
monkeypatch.delenv("ARCADE_SERVER_TRANSPORT")
# Test host override (only works with HTTP transport)
monkeypatch.setenv("ARCADE_SERVER_TRANSPORT", "http")
monkeypatch.setenv("ARCADE_SERVER_HOST", "192.168.1.1")
host, port, transport, reload = MCPApp._get_configuration_overrides(
"127.0.0.1", 8000, "http", False
)
assert host == "192.168.1.1"
assert transport == "http"
monkeypatch.delenv("ARCADE_SERVER_HOST")
monkeypatch.delenv("ARCADE_SERVER_TRANSPORT")
# Test port override (only works with HTTP transport)
monkeypatch.setenv("ARCADE_SERVER_PORT", "9000")
host, port, transport, reload = MCPApp._get_configuration_overrides(
"127.0.0.1", 8000, "http", False
)
assert port == 9000
monkeypatch.delenv("ARCADE_SERVER_PORT")
# Test invalid port value
monkeypatch.setenv("ARCADE_SERVER_TRANSPORT", "http")
monkeypatch.setenv("ARCADE_SERVER_PORT", "invalid_port")
host, port, transport, reload = MCPApp._get_configuration_overrides(
"127.0.0.1", 8000, "http", False
)
assert port == 8000 # Should keep the default value
monkeypatch.delenv("ARCADE_SERVER_PORT")
monkeypatch.delenv("ARCADE_SERVER_TRANSPORT")
# Test valid reload value
monkeypatch.setenv("ARCADE_SERVER_TRANSPORT", "http")
monkeypatch.setenv("ARCADE_SERVER_RELOAD", "1")
host, port, transport, reload = MCPApp._get_configuration_overrides(
"127.0.0.1", 8000, "http", False
)
assert reload
monkeypatch.delenv("ARCADE_SERVER_RELOAD")
monkeypatch.delenv("ARCADE_SERVER_TRANSPORT")
# Test invalid reload value
monkeypatch.setenv("ARCADE_SERVER_TRANSPORT", "http")
monkeypatch.setenv("ARCADE_SERVER_RELOAD", "invalid_reload")
host, port, transport, reload = MCPApp._get_configuration_overrides(
"127.0.0.1", 8000, "http", False
)
assert not reload # Should keep the default value
monkeypatch.delenv("ARCADE_SERVER_RELOAD")
monkeypatch.delenv("ARCADE_SERVER_TRANSPORT")
# Test host/port/reload with stdio transport
monkeypatch.setenv("ARCADE_SERVER_TRANSPORT", "stdio")
monkeypatch.setenv("ARCADE_SERVER_HOST", "192.168.1.1")
monkeypatch.setenv("ARCADE_SERVER_PORT", "9000")
monkeypatch.setenv("ARCADE_SERVER_RELOAD", "true")
host, port, transport, reload = MCPApp._get_configuration_overrides(
"127.0.0.1", 8000, "http", False
)
# For stdio, host, port, and reload are still returned but not used by the server
assert host == "127.0.0.1" # Host should remain unchanged for stdio transport
assert port == 8000 # Port should remain unchanged for stdio transport
assert transport == "stdio"
assert not reload
monkeypatch.delenv("ARCADE_SERVER_RELOAD")
monkeypatch.delenv("ARCADE_SERVER_HOST")
monkeypatch.delenv("ARCADE_SERVER_PORT")
monkeypatch.delenv("ARCADE_SERVER_TRANSPORT")
def test_create_and_run_server(self, mcp_app: MCPApp):
"""Test _create_and_run_server method with mocked dependencies."""
with (
patch("arcade_mcp_server.mcp_app.create_arcade_mcp") as mock_create,
patch("arcade_mcp_server.mcp_app.serve_with_force_quit") as mock_serve,
):
mock_fastapi_app = Mock()
mock_create.return_value = mock_fastapi_app
# Test with INFO log level
mcp_app.log_level = "INFO"
mcp_app._create_and_run_server("127.0.0.1", 8000)
mock_create.assert_called_once_with(
catalog=mcp_app._catalog,
mcp_settings=mcp_app._mcp_settings,
debug=False,
resource_server_validator=mcp_app.resource_server_validator,
)
mock_serve.assert_called_once_with(
app=mock_fastapi_app,
host="127.0.0.1",
port=8000,
log_level="info",
)
# Test with DEBUG log level
with (
patch("arcade_mcp_server.mcp_app.create_arcade_mcp") as mock_create,
patch("arcade_mcp_server.mcp_app.serve_with_force_quit") as mock_serve,
):
mock_fastapi_app = Mock()
mock_create.return_value = mock_fastapi_app
mcp_app.log_level = "DEBUG"
mcp_app._create_and_run_server("192.168.1.1", 9000)
mock_create.assert_called_once_with(
catalog=mcp_app._catalog,
mcp_settings=mcp_app._mcp_settings,
debug=True,
resource_server_validator=mcp_app.resource_server_validator,
)
mock_serve.assert_called_once_with(
app=mock_fastapi_app,
host="192.168.1.1",
port=9000,
log_level="debug",
)
def test_run_with_reload_spawns_child_process(self, mcp_app: MCPApp):
"""Test _run_with_reload spawns child process with correct environment."""
mock_process = Mock()
mock_process.terminate = Mock()
mock_process.wait = Mock()
with (
patch("arcade_mcp_server.mcp_app.subprocess.Popen") as mock_popen,
patch("arcade_mcp_server.mcp_app.watch") as mock_watch,
):
mock_popen.return_value = mock_process
# Return empty iterator to exit immediately
mock_watch.return_value = iter([])
mcp_app._run_with_reload("127.0.0.1", 8000)
# Verify Popen was called with correct args
mock_popen.assert_called_once()
call_args = mock_popen.call_args
assert call_args[0][0] == [sys.executable, *sys.argv]
assert call_args[1]["env"]["ARCADE_MCP_CHILD_PROCESS"] == "1"
def test_run_with_reload_restarts_on_changes(self, mcp_app: MCPApp):
"""Test _run_with_reload restarts server when file changes detected."""
mock_process1 = Mock()
mock_process2 = Mock()
with (
patch("arcade_mcp_server.mcp_app.subprocess.Popen") as mock_popen,
patch("arcade_mcp_server.mcp_app.watch") as mock_watch,
):
mock_popen.side_effect = [mock_process1, mock_process2]
# Yield one set of changes then stop
mock_watch.return_value = iter([{("change", "test.py")}])
mcp_app._run_with_reload("127.0.0.1", 8000)
# Verify both processes were created
assert mock_popen.call_count == 2
# Verify first process was terminated
mock_process1.terminate.assert_called_once()
mock_process1.wait.assert_called()
def test_run_with_reload_graceful_shutdown(self, mcp_app: MCPApp):
"""Test _run_with_reload gracefully shuts down process."""
mock_process = Mock()
mock_process.wait = Mock() # Succeeds without timeout
with (
patch("arcade_mcp_server.mcp_app.subprocess.Popen") as mock_popen,
patch("arcade_mcp_server.mcp_app.watch") as mock_watch,
):
mock_popen.return_value = mock_process
mock_watch.return_value = iter([{("change", "test.py")}])
mcp_app._run_with_reload("127.0.0.1", 8000)
# Verify graceful shutdown
mock_process.terminate.assert_called()
mock_process.wait.assert_called()
mock_process.kill.assert_not_called()
def test_run_with_reload_force_kill_on_timeout(self, mcp_app: MCPApp):
"""Test _run_with_reload force kills process on timeout."""
mock_process = Mock()
# First wait times out, second succeeds
mock_process.wait = Mock(side_effect=[subprocess.TimeoutExpired("cmd", 5), None])
with (
patch("arcade_mcp_server.mcp_app.subprocess.Popen") as mock_popen,
patch("arcade_mcp_server.mcp_app.watch") as mock_watch,
):
mock_popen.return_value = mock_process
mock_watch.return_value = iter([{("change", "test.py")}])
mcp_app._run_with_reload("127.0.0.1", 8000)
# Verify terminate -> wait -> kill -> wait sequence
mock_process.terminate.assert_called()
assert mock_process.wait.call_count == 2
mock_process.kill.assert_called_once()
def test_run_with_reload_keyboard_interrupt(self, mcp_app: MCPApp):
"""Test _run_with_reload handles KeyboardInterrupt gracefully."""
mock_process = Mock()
with (
patch("arcade_mcp_server.mcp_app.subprocess.Popen") as mock_popen,
patch("arcade_mcp_server.mcp_app.watch") as mock_watch,
):
mock_popen.return_value = mock_process
mock_watch.side_effect = KeyboardInterrupt()
# Should not raise exception
mcp_app._run_with_reload("127.0.0.1", 8000)
# Verify process was shut down
mock_process.terminate.assert_called_once()
def test_run_routes_to_reload_method(self, mcp_app: MCPApp):
"""Test run() routes to _run_with_reload when reload=True."""
with (
patch.object(mcp_app, "_run_with_reload") as mock_reload,
patch.object(mcp_app, "_create_and_run_server") as mock_direct,
):
mcp_app.run(reload=True, transport="http", host="127.0.0.1", port=8000)
mock_reload.assert_called_once_with("127.0.0.1", 8000)
mock_direct.assert_not_called()
def test_run_routes_to_direct_method(self, mcp_app: MCPApp):
"""Test run() routes to _create_and_run_server when reload=False."""
with (
patch.object(mcp_app, "_run_with_reload") as mock_reload,
patch.object(mcp_app, "_create_and_run_server") as mock_direct,
):
mcp_app.run(reload=False, transport="http", host="127.0.0.1", port=8000)
mock_direct.assert_called_once_with("127.0.0.1", 8000)
mock_reload.assert_not_called()
def test_run_child_process_disables_reload(self, mcp_app: MCPApp, monkeypatch):
"""Test run() disables reload when ARCADE_MCP_CHILD_PROCESS is set."""
monkeypatch.setenv("ARCADE_MCP_CHILD_PROCESS", "1")
with (
patch.object(mcp_app, "_run_with_reload") as mock_reload,
patch.object(mcp_app, "_create_and_run_server") as mock_direct,
):
mcp_app.run(reload=True, transport="http", host="127.0.0.1", port=8000)
# Should route to direct method even though reload=True
mock_direct.assert_called_once_with("127.0.0.1", 8000)
mock_reload.assert_not_called()
def test_run_stdio_unaffected_by_reload(self, mcp_app: MCPApp):
"""Test run() with stdio transport is unaffected by reload flag."""
with patch("arcade_mcp_server.__main__.run_stdio_server") as mock_stdio:
# Test with reload=True
mcp_app.run(reload=True, transport="stdio")
mock_stdio.assert_called_once()
mock_stdio.reset_mock()
# Test with reload=False
mcp_app.run(reload=False, transport="stdio")
mock_stdio.assert_called_once()
@pytest.mark.parametrize(
"name,expected_result",
[
# Valid names
("ValidName", "ValidName"),
("valid_name", "valid_name"),
("ValidName123", "ValidName123"),
("valid_name_123", "valid_name_123"),
("a", "a"),
("A", "A"),
("1", "1"),
("name1", "name1"),
("Name1", "Name1"),
("validName", "validName"),
("Valid_Name", "Valid_Name"),
("valid_name_test", "valid_name_test"),
("Test123Name", "Test123Name"),
("a1b2c3", "a1b2c3"),
("A1B2C3", "A1B2C3"),
],
)
def test_validate_name_valid_names(self, name: str, expected_result: str):
"""Test _validate_name with valid names."""
app = MCPApp()
result = app._validate_name(name)
assert result == expected_result
@pytest.mark.parametrize(
"name,expected_error",
[
# Empty name
("", ValueError),
# Non-string types
(None, TypeError),
(123, TypeError),
([], TypeError),
({}, TypeError),
# Names starting with underscore
("_invalid", ValueError),
("_name", ValueError),
("_123", ValueError),
("_", ValueError),
# Names with consecutive underscores
("name__test", ValueError),
("test__name", ValueError),
("__name", ValueError),
("name__", ValueError),
("__", ValueError),
# Names ending with underscore
("name_", ValueError),
("test_", ValueError),
("_", ValueError),
# Names with invalid characters
("name-test", ValueError),
("name.test", ValueError),
("name test", ValueError),
("name@test", ValueError),
("name#test", ValueError),
("name$test", ValueError),
("name%test", ValueError),
("name^test", ValueError),
("name&test", ValueError),
("name*test", ValueError),
("name+test", ValueError),
("name=test", ValueError),
("name[test", ValueError),
("name]test", ValueError),
("name{test", ValueError),
("name}test", ValueError),
("name|test", ValueError),
("name\\test", ValueError),
("name:test", ValueError),
("name;test", ValueError),
("name'test", ValueError),
('name"test', ValueError),
("name<test", ValueError),
("name>test", ValueError),
("name,test", ValueError),
("name.test", ValueError),
("name?test", ValueError),
("name/test", ValueError),
("name!test", ValueError),
("name~test", ValueError),
("name`test", ValueError),
# Names with spaces
("name test", ValueError),
(" name", ValueError),
("name ", ValueError),
(" name ", ValueError),
# Names with special unicode characters
("nameñ", ValueError),
("nameé", ValueError),
("name中", ValueError),
("name🚀", ValueError),
],
)
def test_validate_name_invalid_names(self, name, expected_error):
"""Test _validate_name with invalid names."""
app = MCPApp()
with pytest.raises(expected_error):
app._validate_name(name)