Version: 0.33.0
Documentation — Installation, deployment, usage across the MCP, API, and agent interfaces, and guidance for provisioning the Wger Workout Manager platform are maintained in the official documentation.
Wger Agent is a production-grade Agent and Model Context Protocol (MCP) server designed to interface directly with Wger Workout Manager — exercise database, workout routines, nutrition plans, body measurements, and progress tracking..
- Consolidated Action-Routed MCP Tools: Minimizes token overhead and eliminates tool bloat in LLM contexts by grouping methods into optimized, togglable tool modules.
- Enterprise-Grade Security: Comprehensive support for Eunomia policies, OIDC token delegation, and granular execution context tracking.
- Integrated Graph Agent: Built-in Pydantic AI agent supporting the Agent Control Protocol (ACP) and standard Web interfaces (AG-UI).
- Native Telemetry & Tracing: Out-of-the-box OpenTelemetry exports and native Langfuse tracing.
This agent wraps the Wger Workout Manager — exercise database, workout routines, nutrition plans, body measurements, and progress tracking. API. You can interact with it programmatically or via its integrated execution entrypoints.
Detailed instructions on how to use the underlying API wrappers, extended schema bindings, and developer SDK references are maintained in docs/index.md.
This server utilizes dynamic Action-Routed tools to optimize token overhead and maximize IDE compatibility.
| Tool Module | Toggle Env Var | Enabled by Default | Description & Nested Methods |
|---|---|---|---|
| Routine | ROUTINETOOL |
True |
Manage wger routine operations. Action-routed methods: create_day, create_routine, create_slot, create_slot_entry, delete_day, delete_routine, get_days, get_public_templates, get_routine, get_routines, get_slots, get_templates. |
| Routineconfig | ROUTINECONFIGTOOL |
True |
Manage wger routineconfig operations. Action-routed methods: create_repetitions_config, create_rest_config, create_rir_config, create_sets_config, create_weight_config, get_repetitions_configs, get_weight_configs. |
| Exercise | EXERCISETOOL |
True |
Manage wger exercise operations. Action-routed methods: get_equipment, get_exercise_categories, get_exercise_images, get_exercise_info, get_exercises, get_muscles, get_variations, search_exercises. |
| Workout | WORKOUTTOOL |
True |
Manage wger workout operations. Action-routed methods: create_workout_log, create_workout_session, delete_workout_log, delete_workout_session, get_workout_logs, get_workout_session, get_workout_sessions. |
| Nutrition | NUTRITIONTOOL |
True |
Manage wger nutrition operations. Action-routed methods: create_meal, create_meal_item, create_nutrition_plan, delete_nutrition_plan, get_ingredient_info, get_ingredients, get_nutrition_diary, get_nutrition_plan_info, get_nutrition_plans, log_nutrition. |
| Body | BODYTOOL |
True |
Manage wger body operations. Action-routed methods: create_measurement_category, delete_weight_entry, get_gallery, get_measurement_categories, get_measurements, get_weight_entries, log_body_weight, log_measurement. |
| User | USERTOOL |
True |
Manage wger user operations. Action-routed methods: get_languages, get_repetition_units, get_user_profile, get_user_statistics, get_user_trophies, get_weight_unit_settings. |
Detailed tool schemas, parameter shapes, and validation constraints are preserved in docs/mcp.md.
This MCP server supports dynamic toolset selection and visibility filtering at runtime. This allows you to restrict the set of exposed tools in order to prevent blowing up the LLM's context window.
You can configure tool filtering via multiple input channels:
- CLI Arguments: Pass
--toolsor--toolsets(or their disabled counterparts--disabled-toolsand--disabled-toolsets) during startup. - Environment Variables: Define standard environment variables:
MCP_ENABLED_TOOLS/MCP_DISABLED_TOOLSMCP_ENABLED_TAGS/MCP_DISABLED_TAGS
- HTTP SSE Request Headers: Pass custom headers during transport initialization:
x-mcp-enabled-tools/x-mcp-disabled-toolsx-mcp-enabled-tags/x-mcp-disabled-tags
- HTTP SSE Request Query Parameters: Append query parameters directly to your transport connection URL:
?tools=tool1,tool2?tags=tag1
When query strings or parameters are supplied, an LLM-free Knowledge Graph resolution layer (using DynamicToolOrchestrator) matches query intents against known tool tags, names, or descriptions, with safe fallback and automated 24-hour background cache refreshing.
Configure your IDE's mcp.json to launch the MCP server via uvx:
{
"mcpServers": {
"wger-agent": {
"command": "uvx",
"args": [
"--from",
"wger-agent",
"wger-mcp"
],
"env": {
"WGER_URL": "your_wger_url_here",
"WGER_API_KEY": "your_wger_api_key_here",
"WGER_DEFAULT_EMAIL": "your_wger_default_email_here",
"WGER_DEFAULT_PASSWORD": "your_wger_default_password_here"
}
}
}
}Configure your client's mcp.json to launch the Streamable-HTTP server via uvx with explicit host and port definition:
{
"mcpServers": {
"wger-agent": {
"command": "uvx",
"args": [
"--from",
"wger-agent",
"wger-mcp"
],
"env": {
"TRANSPORT": "streamable-http",
"HOST": "0.0.0.0",
"PORT": "8000",
"WGER_URL": "your_wger_url_here",
"WGER_API_KEY": "your_wger_api_key_here",
"WGER_DEFAULT_EMAIL": "your_wger_default_email_here",
"WGER_DEFAULT_PASSWORD": "your_wger_default_password_here"
}
}
}
}Alternatively, connect to a pre-deployed remote or local Streamable-HTTP instance:
{
"mcpServers": {
"wger-agent": {
"url": "http://localhost:8000/wger-agent/mcp"
}
}
}Deploying the Streamable-HTTP server via Docker:
docker run -d \
--name wger-agent-mcp \
-p 8000:8000 \
-e TRANSPORT=streamable-http \
-e PORT=8000 \
-e WGER_URL="your_value" \
-e WGER_API_KEY="your_value" \
-e WGER_DEFAULT_EMAIL="your_value" \
-e WGER_DEFAULT_PASSWORD="your_value" \
knucklessg1/wger-agent:latestwger-agent can also run as a local container (Docker / Podman / uv) or be
consumed from a remote deployment. The
Deployment guide has full, copy-paste
mcp_config.json for all four transports — stdio, streamable-http,
local container / uv, and remote URL:
- Local container / uv — launch the server from
mcp_config.jsonviauvx,docker run, orpodman run, or point at a local streamable-http container byurl. - Remote URL — connect to a server deployed behind Caddy at
http://wger-mcp.arpa/mcpusing the"url"key.
This repository features a fully integrated Pydantic AI Graph Agent. It communicates over the Agent Control Protocol (ACP) and interacts seamlessly with the Agent Web UI (AG-UI) and Terminal interface.
To start the interactive command-line agent:
# Set credentials
export WGER_URL="your_value"
export WGER_API_KEY="your_value"
export WGER_DEFAULT_EMAIL="your_value"
export WGER_DEFAULT_PASSWORD="your_value"
# Run the agent server
wger-agent --provider openai --model-id gpt-4oThe following docker/agent.compose.yml configures the Agent, Web UI, and Terminal Interface together:
version: '3.8'
services:
wger-agent-mcp:
image: knucklessg1/wger-agent:latest
container_name: wger-agent-mcp
hostname: wger-agent-mcp
restart: always
env_file:
- ../.env
environment:
- PYTHONUNBUFFERED=1
- HOST=0.0.0.0
- PORT=8000
- TRANSPORT=streamable-http
ports:
- "8000:8000"
healthcheck:
test: ["CMD", "python3", "-c", "import urllib.request; urllib.request.urlopen('http://localhost:8000/health')"]
interval: 30s
timeout: 10s
retries: 3
start_period: 10s
logging:
driver: json-file
options:
max-size: "10m"
max-file: "3"
wger-agent-agent:
image: knucklessg1/wger-agent:latest
container_name: wger-agent-agent
hostname: wger-agent-agent
restart: always
depends_on:
- wger-agent-mcp
env_file:
- ../.env
command: [ "wger-agent" ]
environment:
- PYTHONUNBUFFERED=1
- HOST=0.0.0.0
- PORT=9004
- MCP_URL=http://wger-agent-mcp:8000/mcp
- PROVIDER=${PROVIDER:-openai}
- MODEL_ID=${MODEL_ID:-gpt-4o}
- ENABLE_WEB_UI=True
- ENABLE_OTEL=True
ports:
- "9004:9004"
healthcheck:
test: ["CMD", "python3", "-c", "import urllib.request; urllib.request.urlopen('http://localhost:9004/health')"]
interval: 30s
timeout: 10s
retries: 3
start_period: 10s
logging:
driver: json-file
options:
max-size: "10m"
max-file: "3"
Detailed graph node architecture explanations, custom skill configurations, and agentic trace guides are available in docs/agent.md.
Built directly upon the enterprise-ready agent-utilities core, standard security parameters are fully supported:
- Eunomia Policies: Fine-grained, policy-driven tool authorization. Supports
none, localembedded(mcp_policies.json), or centralizedremotemodes. - OIDC Token Delegation: Compliant with RFC 8693 token exchange for flowing authenticating user credentials from Web UI / ACP → Agent → MCP.
- Scoped Credentials: Execution context runs restricted to the specific caller identity.
| Feature | Functionality | Enablement |
|---|---|---|
| Tool Guard | Sensitivity inspection with human-in-the-loop validation | Enabled by default |
| Prompt Injection Defense | Input scanning, repetition monitoring, and recursive loop blocks | Enabled by default |
| Context Safety Guard | Stuck-loop detectors and contextual overflow preemptive alerts | Enabled by default |
Install the Python package locally:
# Using uv (highly recommended)
uv pip install wger-agent[all]
# Using standard pip
python -m pip install wger-agent[all]The complete documentation is published as the official documentation site and is the recommended reference for installation, deployment, and day-to-day operation.
| Page | Contents |
|---|---|
| Installation | pip, source, extras, prebuilt Docker image |
| Deployment | run the MCP and agent servers, Compose, Caddy + Technitium, env config |
| Usage | the MCP tools, the WgerApi client, the agent CLI |
| Backing Platform | deploy the Wger Workout Manager with Docker |
| Overview | the standardized agent-package pattern |
| Concepts | concept registry (CONCEPT:WGER-*) |
Contributions are welcome! Please ensure code quality by executing local checks before submitting pull requests:
- Format code using
ruff format . - Lint code using
ruff check . - Validate type-safety with
mypy . - Execute test suites using
pytest