06466cb73a
Co-authored-by: autofix-ci[bot] <114827586+autofix-ci[bot]@users.noreply.github.com> |
||
|---|---|---|
| .. | ||
| entities | ||
| graph | ||
| graph_engine | ||
| graph_events | ||
| node_events | ||
| nodes | ||
| repositories | ||
| runtime | ||
| utils | ||
| README.md | ||
| __init__.py | ||
| constants.py | ||
| conversation_variable_updater.py | ||
| enums.py | ||
| errors.py | ||
| system_variable.py | ||
| variable_loader.py | ||
| workflow_entry.py | ||
| workflow_type_encoder.py | ||
README.md
Workflow
Project Overview
This is the workflow graph engine module of Dify, implementing a queue-based distributed workflow execution system. The engine handles agentic AI workflows with support for parallel execution, node iteration, conditional logic, and external command control.
Architecture
Core Components
The graph engine follows a layered architecture with strict dependency rules:
-
Graph Engine (
graph_engine/) - Orchestrates workflow execution- Manager - External control interface for stop/pause/resume commands
- Worker - Node execution runtime
- Command Processing - Handles control commands (abort, pause, resume)
- Event Management - Event propagation and layer notifications
- Graph Traversal - Edge processing and skip propagation
- Response Coordinator - Path tracking and session management
- Layers - Pluggable middleware (debug logging, execution limits)
- Command Channels - Communication channels (InMemory, Redis)
-
Graph (
graph/) - Graph structure and runtime state- Graph Template - Workflow definition
- Edge - Node connections with conditions
- Runtime State Protocol - State management interface
-
Nodes (
nodes/) - Node implementations- Base - Abstract node classes and variable parsing
- Specific Nodes - LLM, Agent, Code, HTTP Request, Iteration, Loop, etc.
-
Events (
node_events/) - Event system- Base - Event protocols
- Node Events - Node lifecycle events
-
Entities (
entities/) - Domain models- Variable Pool - Variable storage
- Graph Init Params - Initialization configuration
Key Design Patterns
Command Channel Pattern
External workflow control via Redis or in-memory channels:
# Send stop command to running workflow
channel = RedisChannel(redis_client, f"workflow:{task_id}:commands")
channel.send_command(AbortCommand(reason="User requested"))
Layer System
Extensible middleware for cross-cutting concerns:
engine = GraphEngine(graph)
engine.layer(DebugLoggingLayer(level="INFO"))
engine.layer(ExecutionLimitsLayer(max_nodes=100))
Event-Driven Architecture
All node executions emit events for monitoring and integration:
NodeRunStartedEvent- Node execution beginsNodeRunSucceededEvent- Node completes successfullyNodeRunFailedEvent- Node encounters errorGraphRunStartedEvent/GraphRunCompletedEvent- Workflow lifecycle
Variable Pool
Centralized variable storage with namespace isolation:
# Variables scoped by node_id
pool.add(["node1", "output"], value)
result = pool.get(["node1", "output"])
Import Architecture Rules
The codebase enforces strict layering via import-linter:
-
Workflow Layers (top to bottom):
- graph_engine → graph_events → graph → nodes → node_events → entities
-
Graph Engine Internal Layers:
- orchestration → command_processing → event_management → graph_traversal → domain
-
Domain Isolation:
- Domain models cannot import from infrastructure layers
-
Command Channel Independence:
- InMemory and Redis channels must remain independent
Common Tasks
Adding a New Node Type
- Create node class in
nodes/<node_type>/ - Inherit from
BaseNodeor appropriate base class - Implement
_run()method - Register in
nodes/node_mapping.py - Add tests in
tests/unit_tests/core/workflow/nodes/
Implementing a Custom Layer
- Create class inheriting from
Layerbase - Override lifecycle methods:
on_graph_start(),on_event(),on_graph_end() - Add to engine via
engine.layer()
Debugging Workflow Execution
Enable debug logging layer:
debug_layer = DebugLoggingLayer(
level="DEBUG",
include_inputs=True,
include_outputs=True
)