furyhawk/deer-flow
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity

Compare commits

merge into: furyhawk/deer-flow:fix/explicit-app-config-client-provider
Branches Tags
furyhawk/deer-flow:main furyhawk/deer-flow:fix-2804 furyhawk/deer-flow:rayhpeng/storage-package-base furyhawk/deer-flow:fix-2965 furyhawk/deer-flow:fix-2859 furyhawk/deer-flow:fix-2788 furyhawk/deer-flow:fix/explicit-app-config-client-provider furyhawk/deer-flow:refactor/config-on-release-2.0-rc furyhawk/deer-flow:refactor/config-deerflow-context furyhawk/deer-flow:fix-2522 furyhawk/deer-flow:rayhpeng/runs-storage-alignment furyhawk/deer-flow:fix/journal-tests furyhawk/deer-flow:copilot/refactor-channel-binding-logic furyhawk/deer-flow:worktree-refact_config furyhawk/deer-flow:rayhpeng/fix-persistence-new furyhawk/deer-flow:copilot/update-documentation-structure furyhawk/deer-flow:rebase/main furyhawk/deer-flow:release/2.0-rc-1 furyhawk/deer-flow:fix/release-2.0-merge-main furyhawk/deer-flow:feat/auth-on-2.0-rc furyhawk/deer-flow:feat/rfc-001-auth-module furyhawk/deer-flow:rayhpeng/persistence-scaffold furyhawk/deer-flow:rayhpeng/fix-gateway-api-configuration furyhawk/deer-flow:feat/actor-framework furyhawk/deer-flow:main-1.x furyhawk/deer-flow:copilot/sub-pr-983 furyhawk/deer-flow:main-1.x-container furyhawk/deer-flow:chore/demo furyhawk/deer-flow:fix/deep-think furyhawk/deer-flow:feat/deep-think furyhawk/deer-flow:docs/volcengine furyhawk/deer-flow:refactor/use-conditional-edge furyhawk/deer-flow:fix/unittest furyhawk/deer-flow:test/nodes_unit_test furyhawk/deer-flow:feat/max-search-results furyhawk/deer-flow:xing.liu/ut_check furyhawk/deer-flow:feat/python-execution-result furyhawk/deer-flow:xing.liu/langgraph_dev
furyhawk/deer-flow:v2.0-m1-rc1 furyhawk/deer-flow:v2.0-m1-rc0 furyhawk/deer-flow:v2.0-m0
..
pull from: furyhawk/deer-flow:rayhpeng/fix-gateway-api-configuration
Branches Tags
furyhawk/deer-flow:main furyhawk/deer-flow:fix-2804 furyhawk/deer-flow:rayhpeng/storage-package-base furyhawk/deer-flow:fix-2965 furyhawk/deer-flow:fix-2859 furyhawk/deer-flow:fix-2788 furyhawk/deer-flow:fix/explicit-app-config-client-provider furyhawk/deer-flow:refactor/config-on-release-2.0-rc furyhawk/deer-flow:refactor/config-deerflow-context furyhawk/deer-flow:fix-2522 furyhawk/deer-flow:rayhpeng/runs-storage-alignment furyhawk/deer-flow:fix/journal-tests furyhawk/deer-flow:copilot/refactor-channel-binding-logic furyhawk/deer-flow:worktree-refact_config furyhawk/deer-flow:rayhpeng/fix-persistence-new furyhawk/deer-flow:copilot/update-documentation-structure furyhawk/deer-flow:rebase/main furyhawk/deer-flow:release/2.0-rc-1 furyhawk/deer-flow:fix/release-2.0-merge-main furyhawk/deer-flow:feat/auth-on-2.0-rc furyhawk/deer-flow:feat/rfc-001-auth-module furyhawk/deer-flow:rayhpeng/persistence-scaffold furyhawk/deer-flow:rayhpeng/fix-gateway-api-configuration furyhawk/deer-flow:feat/actor-framework furyhawk/deer-flow:main-1.x furyhawk/deer-flow:copilot/sub-pr-983 furyhawk/deer-flow:main-1.x-container furyhawk/deer-flow:chore/demo furyhawk/deer-flow:fix/deep-think furyhawk/deer-flow:feat/deep-think furyhawk/deer-flow:docs/volcengine furyhawk/deer-flow:refactor/use-conditional-edge furyhawk/deer-flow:fix/unittest furyhawk/deer-flow:test/nodes_unit_test furyhawk/deer-flow:feat/max-search-results furyhawk/deer-flow:xing.liu/ut_check furyhawk/deer-flow:feat/python-execution-result furyhawk/deer-flow:xing.liu/langgraph_dev
furyhawk/deer-flow:v2.0-m1-rc1 furyhawk/deer-flow:v2.0-m1-rc0 furyhawk/deer-flow:v2.0-m0

1 Commits
fix/explicit-app-config-client-provider .. rayhpeng/fix-gateway-api-configuration

Author SHA1 Message Date
rayhpeng 4383d96583 fix(gateway): merge context field into configurable for langgraph-compat runs (#1699) 
The langgraph-compat layer dropped the DeerFlow-specific `context` field
from run requests, causing agent config (subagent_enabled, is_plan_mode,
thinking_enabled, etc.) to fall back to defaults. Add `context` to
RunCreateRequest and merge allowlisted keys into config.configurable in
start_run, with existing configurable values taking precedence.

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
 2026-04-01 17:01:01 +08:00
618 changed files with 5929 additions and 77145 deletions
Expand all files Collapse all files
.agent/skills/smoke-test/SKILL.md
-181
View File
@@ -1,181 +0,0 @@
---
name: smoke-test
description: End-to-end smoke test skill for DeerFlow. Guides through: 1) Pulling latest code, 2) Docker OR Local installation and deployment (user preference, default to Local if Docker network issues), 3) Service availability verification, 4) Health check, 5) Final test report. Use when the user says "run smoke test", "smoke test deployment", "verify installation", "test service availability", "end-to-end test", or similar.
---
# DeerFlow Smoke Test Skill
This skill guides the Agent through DeerFlow's full end-to-end smoke test workflow, including code updates, deployment (supporting both Docker and local installation modes), service availability verification, and health checks.
## Deployment Mode Selection
This skill supports two deployment modes:
- **Local installation mode** (recommended, especially when network issues occur) - Run all services directly on the local machine
- **Docker mode** - Run all services inside Docker containers
**Selection strategy**:
- If the user explicitly asks for Docker mode, use Docker
- If network issues occur (such as slow image pulls), automatically switch to local mode
- Default to local mode whenever possible
## Structure
```
smoke-test/
├── SKILL.md ← You are here - core workflow and logic
├── scripts/
│ ├── check_docker.sh ← Check the Docker environment
│ ├── check_local_env.sh ← Check local environment dependencies
│ ├── frontend_check.sh ← Frontend page smoke check
│ ├── pull_code.sh ← Pull the latest code
│ ├── deploy_docker.sh ← Docker deployment
│ ├── deploy_local.sh ← Local deployment
│ └── health_check.sh ← Service health check
├── references/
│ ├── SOP.md ← Standard operating procedure
│ └── troubleshooting.md ← Troubleshooting guide
└── templates/
├── report.local.template.md ← Local mode smoke test report template
└── report.docker.template.md ← Docker mode smoke test report template
```
## Standard Operating Procedure (SOP)
### Phase 1: Code Update Check
1. **Confirm current directory** - Verify that the current working directory is the DeerFlow project root
2. **Check Git status** - See whether there are uncommitted changes
3. **Pull the latest code** - Use `git pull origin main` to get the latest updates
4. **Confirm code update** - Verify that the latest code was pulled successfully
### Phase 2: Deployment Mode Selection and Environment Check
**Choose deployment mode**:
- Ask for user preference, or choose automatically based on network conditions
- Default to local installation mode
**Local mode environment check**:
1. **Check Node.js version** - Requires 22+
2. **Check pnpm** - Package manager
3. **Check uv** - Python package manager
4. **Check nginx** - Reverse proxy
5. **Check required ports** - Confirm that ports 2026, 3000, 8001, and 2024 are not occupied
**Docker mode environment check** (if Docker is selected):
1. **Check whether Docker is installed** - Run `docker --version`
2. **Check Docker daemon status** - Run `docker info`
3. **Check Docker Compose availability** - Run `docker compose version`
4. **Check required ports** - Confirm that port 2026 is not occupied
### Phase 3: Configuration Preparation
1. **Check whether config.yaml exists**
- If it does not exist, run `make config` to generate it
- If it already exists, check whether it needs an upgrade with `make config-upgrade`
2. **Check the .env file**
- Verify that required environment variables are configured
- Especially model API keys such as `OPENAI_API_KEY`
### Phase 4: Deployment Execution
**Local mode deployment**:
1. **Check dependencies** - Run `make check`
2. **Install dependencies** - Run `make install`
3. **(Optional) Pre-pull the sandbox image** - If needed, run `make setup-sandbox`
4. **Start services** - Run `make dev-daemon` (background mode, recommended) or `make dev` (foreground mode)
5. **Wait for startup** - Give all services enough time to start completely (90-120 seconds recommended)
**Docker mode deployment** (if Docker is selected):
1. **Initialize Docker environment** - Run `make docker-init`
2. **Start Docker services** - Run `make docker-start`
3. **Wait for startup** - Give all containers enough time to start completely (60 seconds recommended)
### Phase 5: Service Health Check
**Local mode health check**:
1. **Check process status** - Confirm that LangGraph, Gateway, Frontend, and Nginx processes are all running
2. **Check frontend service** - Visit `http://localhost:2026` and verify that the page loads
3. **Check API Gateway** - Verify the `http://localhost:2026/health` endpoint
4. **Check LangGraph service** - Verify the availability of relevant endpoints
5. **Frontend route smoke check** - Run `bash .agent/skills/smoke-test/scripts/frontend_check.sh` to verify key routes under `/workspace`
**Docker mode health check** (when using Docker):
1. **Check container status** - Run `docker ps` and confirm that all containers are running
2. **Check frontend service** - Visit `http://localhost:2026` and verify that the page loads
3. **Check API Gateway** - Verify the `http://localhost:2026/health` endpoint
4. **Check LangGraph service** - Verify the availability of relevant endpoints
5. **Frontend route smoke check** - Run `bash .agent/skills/smoke-test/scripts/frontend_check.sh` to verify key routes under `/workspace`
### Optional Functional Verification
1. **List available models** - Verify that model configuration loads correctly
2. **List available skills** - Verify that the skill directory is mounted correctly
3. **Simple chat test** - Send a simple message to verify the end-to-end flow
### Phase 6: Generate Test Report
1. **Collect all test results** - Summarize execution status for each phase
2. **Record encountered issues** - If anything fails, record the error details
3. **Generate the final report** - Use the template that matches the selected deployment mode to create the complete test report, including overall conclusion, detailed key test cases, and explicit frontend page / route results
4. **Provide follow-up recommendations** - Offer suggestions based on the test results
## Execution Rules
- **Follow the sequence** - Execute strictly in the order described above
- **Idempotency** - Every step should be safe to repeat
- **Error handling** - If a step fails, stop and report the issue, then provide troubleshooting suggestions
- **Detailed logging** - Record the execution result and status of each step
- **User confirmation** - Ask for confirmation before potentially risky operations such as overwriting config
- **Mode preference** - Prefer local mode to avoid network-related issues
- **Template requirement** - The final report must use the matching template under `templates/`; do not output a free-form summary instead of the template-based report
- **Report clarity** - The execution summary must include the overall pass/fail conclusion plus per-case result explanations, and frontend smoke check results must be listed explicitly in the report
- **Optional phase handling** - If functional verification is not executed, do not present it as a separate skipped phase in the final report
## Known Acceptable Warnings
The following warnings can appear during smoke testing and do not block a successful result:
- Feishu/Lark SSL errors in Gateway logs (certificate verification failure) can be ignored if that channel is not enabled
- Warnings in LangGraph logs about missing methods in the custom checkpointer, such as `adelete_for_runs` or `aprune`, do not affect the core functionality
## Key Tools
Use the following tools during execution:
1. **bash** - Run shell commands
2. **present_file** - Show generated reports and important files
3. **task_tool** - Organize complex steps with subtasks when needed
## Success Criteria
Smoke test pass criteria (local mode):
- [x] Latest code is pulled successfully
- [x] Local environment check passes (Node.js 22+, pnpm, uv, nginx)
- [x] Configuration files are set up correctly
- [x] `make check` passes
- [x] `make install` completes successfully
- [x] `make dev` starts successfully
- [x] All service processes run normally
- [x] Frontend page is accessible
- [x] Frontend route smoke check passes (`/workspace` key routes)
- [x] API Gateway health check passes
- [x] Test report is generated completely
Smoke test pass criteria (Docker mode):
- [x] Latest code is pulled successfully
- [x] Docker environment check passes
- [x] Configuration files are set up correctly
- [x] `make docker-init` completes successfully
- [x] `make docker-start` completes successfully
- [x] All Docker containers run normally
- [x] Frontend page is accessible
- [x] Frontend route smoke check passes (`/workspace` key routes)
- [x] API Gateway health check passes
- [x] Test report is generated completely
## Read Reference Files
Before starting execution, read the following reference files:
1. `references/SOP.md` - Detailed step-by-step operating instructions
2. `references/troubleshooting.md` - Common issues and solutions
3. `templates/report.local.template.md` - Local mode test report template
4. `templates/report.docker.template.md` - Docker mode test report template
.agent/skills/smoke-test/references/SOP.md
-452
View File
@@ -1,452 +0,0 @@
# DeerFlow Smoke Test Standard Operating Procedure (SOP)
This document describes the detailed operating steps for each phase of the DeerFlow smoke test.
## Phase 1: Code Update Check
### 1.1 Confirm Current Directory
**Objective**: Verify that the current working directory is the DeerFlow project root.
**Steps**:
1. Run `pwd` to view the current working directory
2. Check whether the directory contains the following files/directories:
- `Makefile`
- `backend/`
- `frontend/`
- `config.example.yaml`
**Success Criteria**: The current directory contains all of the files/directories listed above.
---
### 1.2 Check Git Status
**Objective**: Check whether there are uncommitted changes.
**Steps**:
1. Run `git status`
2. Check whether the output includes "Changes not staged for commit" or "Untracked files"
**Notes**:
- If there are uncommitted changes, recommend that the user commit or stash them first to avoid conflicts while pulling
- If the user confirms that they want to continue, this step can be skipped
---
### 1.3 Pull the Latest Code
**Objective**: Fetch the latest code updates.
**Steps**:
1. Run `git fetch origin main`
2. Run `git pull origin main`
**Success Criteria**:
- The commands succeed without errors
- The output shows "Already up to date" or indicates that new commits were pulled successfully
---
### 1.4 Confirm Code Update
**Objective**: Verify that the latest code was pulled successfully.
**Steps**:
1. Run `git log -1 --oneline` to view the latest commit
2. Record the commit hash and message
---
## Phase 2: Deployment Mode Selection and Environment Check
### 2.1 Choose Deployment Mode
**Objective**: Decide whether to use local mode or Docker mode.
**Decision Flow**:
1. Prefer local mode first to avoid network-related issues
2. If the user explicitly requests Docker, use Docker
3. If Docker network issues occur, switch to local mode automatically
---
### 2.2 Local Mode Environment Check
**Objective**: Verify that local development environment dependencies are satisfied.
#### 2.2.1 Check Node.js Version
**Steps**:
1. If nvm is used, run `nvm use 22` to switch to Node 22+
2. Run `node --version`
**Success Criteria**: Version >= 22.x
**Failure Handling**:
- If the version is too low, ask the user to install/switch Node.js with nvm:
```bash
nvm install 22
nvm use 22
```
- Or install it from the official website: https://nodejs.org/
---
#### 2.2.2 Check pnpm
**Steps**:
1. Run `pnpm --version`
**Success Criteria**: The command returns pnpm version information.
**Failure Handling**:
- If pnpm is not installed, ask the user to install it with `npm install -g pnpm`
---
#### 2.2.3 Check uv
**Steps**:
1. Run `uv --version`
**Success Criteria**: The command returns uv version information.
**Failure Handling**:
- If uv is not installed, ask the user to install uv
---
#### 2.2.4 Check nginx
**Steps**:
1. Run `nginx -v`
**Success Criteria**: The command returns nginx version information.
**Failure Handling**:
- macOS: install with Homebrew using `brew install nginx`
- Linux: install using the system package manager
---
#### 2.2.5 Check Required Ports
**Steps**:
1. Run the following commands to check ports:
```bash
lsof -i :2026 # Main port
lsof -i :3000 # Frontend
lsof -i :8001 # Gateway
lsof -i :2024 # LangGraph
```
**Success Criteria**: All ports are free, or they are occupied only by DeerFlow-related processes.
**Failure Handling**:
- If a port is occupied, ask the user to stop the related process
---
### 2.3 Docker Mode Environment Check (If Docker Is Selected)
#### 2.3.1 Check Whether Docker Is Installed
**Steps**:
1. Run `docker --version`
**Success Criteria**: The command returns Docker version information, such as "Docker version 24.x.x".
---
#### 2.3.2 Check Docker Daemon Status
**Steps**:
1. Run `docker info`
**Success Criteria**: The command runs successfully and shows Docker system information.
**Failure Handling**:
- If it fails, ask the user to start Docker Desktop or the Docker service
---
#### 2.3.3 Check Docker Compose Availability
**Steps**:
1. Run `docker compose version`
**Success Criteria**: The command returns Docker Compose version information.
---
#### 2.3.4 Check Required Ports
**Steps**:
1. Run `lsof -i :2026` (macOS/Linux) or `netstat -ano | findstr :2026` (Windows)
**Success Criteria**: Port 2026 is free, or it is occupied only by a DeerFlow-related process.
**Failure Handling**:
- If the port is occupied by another process, ask the user to stop that process or change the configuration
---
## Phase 3: Configuration Preparation
### 3.1 Check config.yaml
**Steps**:
1. Check whether `config.yaml` exists
2. If it does not exist, run `make config`
3. If it already exists, consider running `make config-upgrade` to merge new fields
**Validation**:
- Check whether at least one model is configured in config.yaml
- Check whether the model configuration references the correct environment variables
---
### 3.2 Check the .env File
**Steps**:
1. Check whether the `.env` file exists
2. If it does not exist, copy it from `.env.example`
3. Check whether the following environment variables are configured:
- `OPENAI_API_KEY` (or other model API keys)
- Other required settings
---
## Phase 4: Deployment Execution
### 4.1 Local Mode Deployment
#### 4.1.1 Check Dependencies
**Steps**:
1. Run `make check`
**Description**: This command validates all required tools (Node.js 22+, pnpm, uv, nginx).
---
#### 4.1.2 Install Dependencies
**Steps**:
1. Run `make install`
**Description**: This command installs both backend and frontend dependencies.
**Notes**:
- This step may take some time
- If network issues cause failures, try using a closer or mirrored package registry
---
#### 4.1.3 (Optional) Pre-pull the Sandbox Image
**Steps**:
1. If Docker / Container sandbox is used, run `make setup-sandbox`
**Description**: This step is optional and not needed for local sandbox mode.
---
#### 4.1.4 Start Services
**Steps**:
1. Run `make dev-daemon` (background mode)
**Description**: This command starts all services (LangGraph, Gateway, Frontend, Nginx).
**Notes**:
- `make dev` runs in the foreground and stops with Ctrl+C
- `make dev-daemon` runs in the background
- Use `make stop` to stop services
---
#### 4.1.5 Wait for Services to Start
**Steps**:
1. Wait 90-120 seconds for all services to start completely
2. You can monitor startup progress by checking these log files:
- `logs/langgraph.log`
- `logs/gateway.log`
- `logs/frontend.log`
- `logs/nginx.log`
---
### 4.2 Docker Mode Deployment (If Docker Is Selected)
#### 4.2.1 Initialize the Docker Environment
**Steps**:
1. Run `make docker-init`
**Description**: This command pulls the sandbox image if needed.
---
#### 4.2.2 Start Docker Services
**Steps**:
1. Run `make docker-start`
**Description**: This command builds and starts all required Docker containers.
---
#### 4.2.3 Wait for Services to Start
**Steps**:
1. Wait 60-90 seconds for all services to start completely
2. You can run `make docker-logs` to monitor startup progress
---
## Phase 5: Service Health Check
### 5.1 Local Mode Health Check
#### 5.1.1 Check Process Status
**Steps**:
1. Run the following command to check processes:
```bash
ps aux | grep -E "(langgraph|uvicorn|next|nginx)" | grep -v grep
```
**Success Criteria**: Confirm that the following processes are running:
- LangGraph (`langgraph dev`)
- Gateway (`uvicorn app.gateway.app:app`)
- Frontend (`next dev` or `next start`)
- Nginx (`nginx`)
---
#### 5.1.2 Check Frontend Service
**Steps**:
1. Use curl or a browser to visit `http://localhost:2026`
2. Verify that the page loads normally
**Example curl command**:
```bash
curl -I http://localhost:2026
```
**Success Criteria**: Returns an HTTP 200 status code.
---
#### 5.1.3 Check API Gateway
**Steps**:
1. Visit `http://localhost:2026/health`
**Example curl command**:
```bash
curl http://localhost:2026/health
```
**Success Criteria**: Returns health status JSON.
---
#### 5.1.4 Check LangGraph Service
**Steps**:
1. Visit relevant LangGraph endpoints to verify availability
---
### 5.2 Docker Mode Health Check (When Using Docker)
#### 5.2.1 Check Container Status
**Steps**:
1. Run `docker ps`
2. Confirm that the following containers are running:
- `deer-flow-nginx`
- `deer-flow-frontend`
- `deer-flow-gateway`
- `deer-flow-langgraph` (if not in gateway mode)
---
#### 5.2.2 Check Frontend Service
**Steps**:
1. Use curl or a browser to visit `http://localhost:2026`
2. Verify that the page loads normally
**Example curl command**:
```bash
curl -I http://localhost:2026
```
**Success Criteria**: Returns an HTTP 200 status code.
---
#### 5.2.3 Check API Gateway
**Steps**:
1. Visit `http://localhost:2026/health`
**Example curl command**:
```bash
curl http://localhost:2026/health
```
**Success Criteria**: Returns health status JSON.
---
#### 5.2.4 Check LangGraph Service
**Steps**:
1. Visit relevant LangGraph endpoints to verify availability
---
## Optional Functional Verification
### 6.1 List Available Models
**Steps**: Verify the model list through the API or UI.
---
### 6.2 List Available Skills
**Steps**: Verify the skill list through the API or UI.
---
### 6.3 Simple Chat Test
**Steps**: Send a simple message to test the complete workflow.
---
## Phase 6: Generate the Test Report
### 6.1 Collect Test Results
Summarize the execution status of each phase and record successful and failed items.
### 6.2 Record Issues
If anything fails, record detailed error information.
### 6.3 Generate the Report
Use the template to create a complete test report.
### 6.4 Provide Recommendations
Provide follow-up recommendations based on the test results.
.agent/skills/smoke-test/references/troubleshooting.md
-612
View File
@@ -1,612 +0,0 @@
# Troubleshooting Guide
This document lists common issues encountered during DeerFlow smoke testing and how to resolve them.
## Code Update Issues
### Issue: `git pull` Fails with a Merge Conflict Warning
**Symptoms**:
```
error: Your local changes to the following files would be overwritten by merge
```
**Solutions**:
1. Option A: Commit local changes first
```bash
git add .
git commit -m "Save local changes"
git pull origin main
```
2. Option B: Stash local changes
```bash
git stash
git pull origin main
git stash pop # Restore changes later if needed
```
3. Option C: Discard local changes (use with caution)
```bash
git reset --hard HEAD
git pull origin main
```
---
## Local Mode Environment Issues
### Issue: Node.js Version Is Too Old
**Symptoms**:
```
Node.js version is too old. Requires 22+, got x.x.x
```
**Solutions**:
1. Install or upgrade Node.js with nvm:
```bash
nvm install 22
nvm use 22
```
2. Or download and install it from the official website: https://nodejs.org/
3. Verify the version:
```bash
node --version
```
---
### Issue: pnpm Is Not Installed
**Symptoms**:
```
command not found: pnpm
```
**Solutions**:
1. Install pnpm with npm:
```bash
npm install -g pnpm
```
2. Or use the official installation script:
```bash
curl -fsSL https://get.pnpm.io/install.sh | sh -
```
3. Verify the installation:
```bash
pnpm --version
```
---
### Issue: uv Is Not Installed
**Symptoms**:
```
command not found: uv
```
**Solutions**:
1. Use the official installation script:
```bash
curl -LsSf https://astral.sh/uv/install.sh | sh
```
2. macOS users can also install it with Homebrew:
```bash
brew install uv
```
3. Verify the installation:
```bash
uv --version
```
---
### Issue: nginx Is Not Installed
**Symptoms**:
```
command not found: nginx
```
**Solutions**:
1. macOS (Homebrew):
```bash
brew install nginx
```
2. Ubuntu/Debian:
```bash
sudo apt update
sudo apt install nginx
```
3. CentOS/RHEL:
```bash
sudo yum install nginx
```
4. Verify the installation:
```bash
nginx -v
```
---
### Issue: Port Is Already in Use
**Symptoms**:
```
Error: listen EADDRINUSE: address already in use :::2026
```
**Solutions**:
1. Find the process using the port:
```bash
lsof -i :2026 # macOS/Linux
netstat -ano | findstr :2026 # Windows
```
2. Stop that process:
```bash
kill -9 <PID> # macOS/Linux
taskkill /PID <PID> /F # Windows
```
3. Or stop DeerFlow services first:
```bash
make stop
```
---
## Local Mode Dependency Installation Issues
### Issue: `make install` Fails Due to Network Timeout
**Symptoms**:
Network timeouts or connection failures occur during dependency installation.
**Solutions**:
1. Configure pnpm to use a mirror registry:
```bash
pnpm config set registry https://registry.npmmirror.com
```
2. Configure uv to use a mirror registry:
```bash
uv pip config set global.index-url https://pypi.tuna.tsinghua.edu.cn/simple
```
3. Retry the installation:
```bash
make install
```
---
### Issue: Python Dependency Installation Fails
**Symptoms**:
Errors occur during `uv sync`.
**Solutions**:
1. Clean the uv cache:
```bash
cd backend
uv cache clean
```
2. Resync dependencies:
```bash
cd backend
uv sync
```
3. View detailed error logs:
```bash
cd backend
uv sync --verbose
```
---
### Issue: Frontend Dependency Installation Fails
**Symptoms**:
Errors occur during `pnpm install`.
**Solutions**:
1. Clean the pnpm cache:
```bash
cd frontend
pnpm store prune
```
2. Remove node_modules and the lock file:
```bash
cd frontend
rm -rf node_modules pnpm-lock.yaml
```
3. Reinstall:
```bash
cd frontend
pnpm install
```
---
## Local Mode Service Startup Issues
### Issue: Services Exit Immediately After Startup
**Symptoms**:
Processes exit quickly after running `make dev-daemon`.
**Solutions**:
1. Check log files:
```bash
tail -f logs/langgraph.log
tail -f logs/gateway.log
tail -f logs/frontend.log
tail -f logs/nginx.log
```
2. Check whether config.yaml is configured correctly
3. Check environment variables in the .env file
4. Confirm that required ports are not occupied
5. Stop all services and restart:
```bash
make stop
make dev-daemon
```
---
### Issue: Nginx Fails to Start Because Temp Directories Do Not Exist
**Symptoms**:
```
nginx: [emerg] mkdir() "/opt/homebrew/var/run/nginx/client_body_temp" failed (2: No such file or directory)
```
**Solutions**:
Add local temp directory configuration to `docker/nginx/nginx.local.conf` so nginx uses the repository's temp directory.
Add the following at the beginning of the `http` block:
```nginx
client_body_temp_path temp/client_body_temp;
proxy_temp_path temp/proxy_temp;
fastcgi_temp_path temp/fastcgi_temp;
uwsgi_temp_path temp/uwsgi_temp;
scgi_temp_path temp/scgi_temp;
```
Note: The `temp/` directory under the repository root is created automatically by `make dev` or `make dev-daemon`.
---
### Issue: Nginx Fails to Start (General)
**Symptoms**:
The nginx process fails to start or reports an error.
**Solutions**:
1. Check the nginx configuration:
```bash
nginx -t -c docker/nginx/nginx.local.conf -p .
```
2. Check nginx logs:
```bash
tail -f logs/nginx.log
```
3. Ensure no other nginx process is running:
```bash
ps aux | grep nginx
```
4. If needed, stop existing nginx processes:
```bash
pkill -9 nginx
```
---
### Issue: Frontend Compilation Fails
**Symptoms**:
Compilation errors appear in `frontend.log`.
**Solutions**:
1. Check frontend logs:
```bash
tail -f logs/frontend.log
```
2. Check whether Node.js version is 22+
3. Reinstall frontend dependencies:
```bash
cd frontend
rm -rf node_modules .next
pnpm install
```
4. Restart services:
```bash
make stop
make dev-daemon
```
---
### Issue: Gateway Fails to Start
**Symptoms**:
Errors appear in `gateway.log`.
**Solutions**:
1. Check gateway logs:
```bash
tail -f logs/gateway.log
```
2. Check whether config.yaml exists and has valid formatting
3. Check whether Python dependencies are complete:
```bash
cd backend
uv sync
```
4. Confirm that the LangGraph service is running normally (if not in gateway mode)
---
### Issue: LangGraph Fails to Start
**Symptoms**:
Errors appear in `langgraph.log`.
**Solutions**:
1. Check LangGraph logs:
```bash
tail -f logs/langgraph.log
```
2. Check config.yaml
3. Check whether Python dependencies are complete
4. Confirm that port 2024 is not occupied
---
## Docker-Related Issues
### Issue: Docker Commands Cannot Run
**Symptoms**:
```
Cannot connect to the Docker daemon
```
**Solutions**:
1. Confirm that Docker Desktop is running
2. macOS: check whether the Docker icon appears in the top menu bar
3. Linux: run `sudo systemctl start docker`
4. Run `docker info` again to verify
---
### Issue: `make docker-init` Fails to Pull the Image
**Symptoms**:
```
Error pulling image: connection refused
```
**Solutions**:
1. Check network connectivity
2. Configure a Docker image mirror if needed
3. Check whether a proxy is required
4. Switch to local installation mode if necessary (recommended)
---
## Configuration File Issues
### Issue: config.yaml Is Missing or Invalid
**Symptoms**:
```
Error: could not read config.yaml
```
**Solutions**:
1. Regenerate the configuration file:
```bash
make config
```
2. Check YAML syntax:
- Make sure indentation is correct (use 2 spaces)
- Make sure there are no tab characters
- Check that there is a space after each colon
3. Use a YAML validation tool to check the format
---
### Issue: Model API Key Is Not Configured
**Symptoms**:
After services start, API requests fail with authentication errors.
**Solutions**:
1. Edit the .env file and add the API key:
```bash
OPENAI_API_KEY=your-actual-api-key-here
```
2. Restart services (local mode):
```bash
make stop
make dev-daemon
```
3. Restart services (Docker mode):
```bash
make docker-stop
make docker-start
```
4. Confirm that the model configuration in config.yaml references the environment variable correctly
---
## Service Health Check Issues
### Issue: Frontend Page Is Not Accessible
**Symptoms**:
The browser shows a connection failure when visiting http://localhost:2026.
**Solutions** (local mode):
1. Confirm that the nginx process is running:
```bash
ps aux | grep nginx
```
2. Check nginx logs:
```bash
tail -f logs/nginx.log
```
3. Check firewall settings
**Solutions** (Docker mode):
1. Confirm that the nginx container is running:
```bash
docker ps | grep nginx
```
2. Check nginx logs:
```bash
cd docker && docker compose -p deer-flow-dev -f docker-compose-dev.yaml logs nginx
```
3. Check firewall settings
---
### Issue: API Gateway Health Check Fails
**Symptoms**:
Accessing `/health` returns an error or times out.
**Solutions** (local mode):
1. Check gateway logs:
```bash
tail -f logs/gateway.log
```
2. Confirm that config.yaml exists and has valid formatting
3. Check whether Python dependencies are complete
4. Confirm that the LangGraph service is running normally
**Solutions** (Docker mode):
1. Check gateway container logs:
```bash
make docker-logs-gateway
```
2. Confirm that config.yaml is mounted correctly
3. Check whether Python dependencies are complete
4. Confirm that the LangGraph service is running normally
---
## Common Diagnostic Commands
### Local Mode Diagnostics
#### View All Service Processes
```bash
ps aux | grep -E "(langgraph|uvicorn|next|nginx)" | grep -v grep
```
#### View Service Logs
```bash
# View all logs
tail -f logs/*.log
# View specific service logs
tail -f logs/langgraph.log
tail -f logs/gateway.log
tail -f logs/frontend.log
tail -f logs/nginx.log
```
#### Stop All Services
```bash
make stop
```
#### Fully Reset the Local Environment
```bash
make stop
make clean
make config
make install
make dev-daemon
```
---
### Docker Mode Diagnostics
#### View All Container Status
```bash
docker ps -a
```
#### View Container Resource Usage
```bash
docker stats
```
#### Enter a Container for Debugging
```bash
docker exec -it deer-flow-gateway sh
```
#### Clean Up All DeerFlow-Related Containers and Images
```bash
make docker-stop
cd docker && docker compose -p deer-flow-dev -f docker-compose-dev.yaml down -v
```
#### Fully Reset the Docker Environment
```bash
make docker-stop
make clean
make config
make docker-init
make docker-start
```
---
## Get More Help
If the solutions above do not resolve the issue:
1. Check the GitHub issues for the project: https://github.com/bytedance/deer-flow/issues
2. Review the project documentation: README.md and the `backend/docs/` directory
3. Open a new issue and include detailed error logs
.agent/skills/smoke-test/scripts/check_docker.sh
-80
View File
@@ -1,80 +0,0 @@
#!/usr/bin/env bash
set -e
echo "=========================================="
echo " Checking Docker Environment"
echo "=========================================="
echo ""
# Check whether Docker is installed
if command -v docker >/dev/null 2>&1; then
echo "✓ Docker is installed"
docker --version
else
echo "✗ Docker is not installed"
exit 1
fi
echo ""
# Check the Docker daemon
if docker info >/dev/null 2>&1; then
echo "✓ Docker daemon is running normally"
else
echo "✗ Docker daemon is not running"
echo " Please start Docker Desktop or the Docker service"
exit 1
fi
echo ""
# Check Docker Compose
if docker compose version >/dev/null 2>&1; then
echo "✓ Docker Compose is available"
docker compose version
else
echo "✗ Docker Compose is not available"
exit 1
fi
echo ""
# Check port 2026
if ! command -v lsof >/dev/null 2>&1; then
echo "✗ lsof is required to check whether port 2026 is available"
exit 1
fi
port_2026_usage="$(lsof -nP -iTCP:2026 -sTCP:LISTEN 2>/dev/null || true)"
if [ -n "$port_2026_usage" ]; then
echo "⚠ Port 2026 is already in use"
echo " Occupying process:"
echo "$port_2026_usage"
deerflow_process_found=0
while IFS= read -r pid; do
if [ -z "$pid" ]; then
continue
fi
process_command="$(ps -p "$pid" -o command= 2>/dev/null || true)"
case "$process_command" in
*[Dd]eer[Ff]low*|*[Dd]eerflow*|*[Nn]ginx*deerflow*|*deerflow/*[Nn]ginx*)
deerflow_process_found=1
;;
esac
done <<EOF
$(printf '%s\n' "$port_2026_usage" | awk 'NR > 1 {print $2}')
EOF
if [ "$deerflow_process_found" -eq 1 ]; then
echo "✓ Port 2026 is occupied by DeerFlow"
else
echo "✗ Port 2026 must be free before starting DeerFlow"
exit 1
fi
else
echo "✓ Port 2026 is available"
fi
echo ""
echo "=========================================="
echo " Docker Environment Check Complete"
echo "=========================================="
.agent/skills/smoke-test/scripts/check_local_env.sh
-93
View File
@@ -1,93 +0,0 @@
#!/usr/bin/env bash
set -e
echo "=========================================="
echo " Checking Local Development Environment"
echo "=========================================="
echo ""
all_passed=true
# Check Node.js
echo "1. Checking Node.js..."
if command -v node >/dev/null 2>&1; then
NODE_VERSION=$(node --version | sed 's/v//')
NODE_MAJOR=$(echo "$NODE_VERSION" | cut -d. -f1)
if [ "$NODE_MAJOR" -ge 22 ]; then
echo "✓ Node.js is installed (version: $NODE_VERSION)"
else
echo "✗ Node.js version is too old (current: $NODE_VERSION, required: 22+)"
all_passed=false
fi
else
echo "✗ Node.js is not installed"
all_passed=false
fi
echo ""
# Check pnpm
echo "2. Checking pnpm..."
if command -v pnpm >/dev/null 2>&1; then
echo "✓ pnpm is installed (version: $(pnpm --version))"
else
echo "✗ pnpm is not installed"
echo " Install command: npm install -g pnpm"
all_passed=false
fi
echo ""
# Check uv
echo "3. Checking uv..."
if command -v uv >/dev/null 2>&1; then
echo "✓ uv is installed (version: $(uv --version))"
else
echo "✗ uv is not installed"
all_passed=false
fi
echo ""
# Check nginx
echo "4. Checking nginx..."
if command -v nginx >/dev/null 2>&1; then
echo "✓ nginx is installed (version: $(nginx -v 2>&1))"
else
echo "✗ nginx is not installed"
echo " macOS: brew install nginx"
echo " Linux: install it with the system package manager"
all_passed=false
fi
echo ""
# Check ports
echo "5. Checking ports..."
if ! command -v lsof >/dev/null 2>&1; then
echo "✗ lsof is not installed, so port availability cannot be verified"
echo " Install lsof and rerun this check"
all_passed=false
else
for port in 2026 3000 8001 2024; do
if lsof -i :$port >/dev/null 2>&1; then
echo "⚠ Port $port is already in use:"
lsof -i :$port | head -2
all_passed=false
else
echo "✓ Port $port is available"
fi
done
fi
echo ""
# Summary
echo "=========================================="
echo " Environment Check Summary"
echo "=========================================="
echo ""
if [ "$all_passed" = true ]; then
echo "✅ All environment checks passed!"
echo ""
echo "Next step: run make install to install dependencies"
exit 0
else
echo "❌ Some checks failed. Please fix the issues above first"
exit 1
fi
.agent/skills/smoke-test/scripts/deploy_docker.sh
-65
View File
@@ -1,65 +0,0 @@
#!/usr/bin/env bash
set -e
echo "=========================================="
echo " Docker Deployment"
echo "=========================================="
echo ""
# Check config.yaml
if [ ! -f "config.yaml" ]; then
echo "config.yaml does not exist. Generating it..."
make config
echo ""
echo "⚠ Please edit config.yaml to configure your models and API keys"
echo " Then run this script again"
exit 1
else
echo "✓ config.yaml exists"
fi
echo ""
# Check the .env file
if [ ! -f ".env" ]; then
echo ".env does not exist. Copying it from the example..."
if [ -f ".env.example" ]; then
cp .env.example .env
echo "✓ Created the .env file"
else
echo "⚠ .env.example does not exist. Please create the .env file manually"
fi
else
echo "✓ .env file exists"
fi
echo ""
# Check the frontend .env file
if [ ! -f "frontend/.env" ]; then
echo "frontend/.env does not exist. Copying it from the example..."
if [ -f "frontend/.env.example" ]; then
cp frontend/.env.example frontend/.env
echo "✓ Created the frontend/.env file"
else
echo "⚠ frontend/.env.example does not exist. Please create frontend/.env manually"
fi
else
echo "✓ frontend/.env file exists"
fi
echo ""
# Initialize the Docker environment
echo "Initializing the Docker environment..."
make docker-init
echo ""
# Start Docker services
echo "Starting Docker services..."
make docker-start
echo ""
echo "=========================================="
echo " Deployment Complete"
echo "=========================================="
echo ""
echo "🌐 Access URL: http://localhost:2026"
echo "📋 View logs: make docker-logs"
echo "🛑 Stop services: make docker-stop"
.agent/skills/smoke-test/scripts/deploy_local.sh
-63
View File
@@ -1,63 +0,0 @@
#!/usr/bin/env bash
set -e
echo "=========================================="
echo " Local Mode Deployment"
echo "=========================================="
echo ""
# Check config.yaml
if [ ! -f "config.yaml" ]; then
echo "config.yaml does not exist. Generating it..."
make config
echo ""
echo "⚠ Please edit config.yaml to configure your models and API keys"
echo " Then run this script again"
exit 1
else
echo "✓ config.yaml exists"
fi
echo ""
# Check the .env file
if [ ! -f ".env" ]; then
echo ".env does not exist. Copying it from the example..."
if [ -f ".env.example" ]; then
cp .env.example .env
echo "✓ Created the .env file"
else
echo "⚠ .env.example does not exist. Please create the .env file manually"
fi
else
echo "✓ .env file exists"
fi
echo ""
# Check dependencies
echo "Checking dependencies..."
make check
echo ""
# Install dependencies
echo "Installing dependencies..."
make install
echo ""
# Start services
echo "Starting services (background mode)..."
make dev-daemon
echo ""
echo "=========================================="
echo " Deployment Complete"
echo "=========================================="
echo ""
echo "🌐 Access URL: http://localhost:2026"
echo "📋 View logs:"
echo " - logs/langgraph.log"
echo " - logs/gateway.log"
echo " - logs/frontend.log"
echo " - logs/nginx.log"
echo "🛑 Stop services: make stop"
echo ""
echo "Please wait 90-120 seconds for all services to start completely, then run the health check"
.agent/skills/smoke-test/scripts/frontend_check.sh
-70
View File
@@ -1,70 +0,0 @@
#!/usr/bin/env bash
set +e
echo "=========================================="
echo " Frontend Page Smoke Check"
echo "=========================================="
echo ""
BASE_URL="${BASE_URL:-http://localhost:2026}"
DOC_PATH="${DOC_PATH:-/en/docs}"
all_passed=true
check_status() {
local name="$1"
local url="$2"
local expected_re="$3"
local status
status="$(curl -s -o /dev/null -w "%{http_code}" -L "$url")"
if echo "$status" | grep -Eq "$expected_re"; then
echo "$name ($url) -> $status"
else
echo "$name ($url) -> $status (expected: $expected_re)"
all_passed=false
fi
}
check_final_url() {
local name="$1"
local url="$2"
local expected_path_re="$3"
local effective
effective="$(curl -s -o /dev/null -w "%{url_effective}" -L "$url")"
if echo "$effective" | grep -Eq "$expected_path_re"; then
echo "$name redirect target -> $effective"
else
echo "$name redirect target -> $effective (expected path: $expected_path_re)"
all_passed=false
fi
}
echo "1. Checking entry pages..."
check_status "Landing page" "${BASE_URL}/" "200"
check_status "Workspace redirect" "${BASE_URL}/workspace" "200|301|302|307|308"
check_final_url "Workspace redirect" "${BASE_URL}/workspace" "/workspace/chats/"
echo ""
echo "2. Checking key workspace routes..."
check_status "New chat page" "${BASE_URL}/workspace/chats/new" "200"
check_status "Chats list page" "${BASE_URL}/workspace/chats" "200"
check_status "Agents gallery page" "${BASE_URL}/workspace/agents" "200"
echo ""
echo "3. Checking docs route (optional)..."
check_status "Docs page" "${BASE_URL}${DOC_PATH}" "200|404"
echo ""
echo "=========================================="
echo " Frontend Smoke Check Summary"
echo "=========================================="
echo ""
if [ "$all_passed" = true ]; then
echo "✅ Frontend smoke checks passed!"
exit 0
else
echo "❌ Frontend smoke checks failed"
exit 1
fi
.agent/skills/smoke-test/scripts/health_check.sh
-125
View File
@@ -1,125 +0,0 @@
#!/usr/bin/env bash
set +e
echo "=========================================="
echo " Service Health Check"
echo "=========================================="
echo ""
all_passed=true
mode="${SMOKE_TEST_MODE:-auto}"
summary_hint="make logs"
print_step() {
echo "$1"
}
check_http_status() {
local name="$1"
local url="$2"
local expected_re="$3"
local status
status="$(curl -s -o /dev/null -w "%{http_code}" "$url" 2>/dev/null)"
if echo "$status" | grep -Eq "$expected_re"; then
echo "$name is accessible ($url -> $status)"
else
echo "$name is not accessible ($url -> ${status:-000})"
all_passed=false
fi
}
check_listen_port() {
local name="$1"
local port="$2"
if lsof -nP -iTCP:"$port" -sTCP:LISTEN >/dev/null 2>&1; then
echo "$name is listening on port $port"
else
echo "$name is not listening on port $port"
all_passed=false
fi
}
docker_available() {
command -v docker >/dev/null 2>&1 && docker info >/dev/null 2>&1
}
detect_mode() {
case "$mode" in
local|docker)
echo "$mode"
return
;;
esac
if docker_available && docker ps --format "{{.Names}}" | grep -q "deer-flow"; then
echo "docker"
else
echo "local"
fi
}
mode="$(detect_mode)"
echo "Deployment mode: $mode"
echo ""
if [ "$mode" = "docker" ]; then
summary_hint="make docker-logs"
print_step "1. Checking container status..."
if docker ps --format "{{.Names}}" | grep -q "deer-flow"; then
echo "✓ Containers are running:"
docker ps --format " - {{.Names}} ({{.Status}})"
else
echo "✗ No DeerFlow-related containers are running"
all_passed=false
fi
else
summary_hint="logs/{langgraph,gateway,frontend,nginx}.log"
print_step "1. Checking local service ports..."
check_listen_port "Nginx" 2026
check_listen_port "Frontend" 3000
check_listen_port "Gateway" 8001
check_listen_port "LangGraph" 2024
fi
echo ""
echo "2. Waiting for services to fully start (30 seconds)..."
sleep 30
echo ""
echo "3. Checking frontend service..."
check_http_status "Frontend service" "http://localhost:2026" "200|301|302|307|308"
echo ""
echo "4. Checking API Gateway..."
health_response=$(curl -s http://localhost:2026/health 2>/dev/null)
if [ $? -eq 0 ] && [ -n "$health_response" ]; then
echo "✓ API Gateway health check passed"
echo " Response: $health_response"
else
echo "✗ API Gateway health check failed"
all_passed=false
fi
echo ""
echo "5. Checking LangGraph service..."
check_http_status "LangGraph service" "http://localhost:2024/" "200|301|302|307|308|404"
echo ""
echo "=========================================="
echo " Health Check Summary"
echo "=========================================="
echo ""
if [ "$all_passed" = true ]; then
echo "✅ All checks passed!"
echo ""
echo "🌐 Application URL: http://localhost:2026"
exit 0
else
echo "❌ Some checks failed"
echo ""
echo "Please review: $summary_hint"
exit 1
fi
.agent/skills/smoke-test/scripts/pull_code.sh
-49
View File
@@ -1,49 +0,0 @@
#!/usr/bin/env bash
set -e
echo "=========================================="
echo " Pulling the Latest Code"
echo "=========================================="
echo ""
# Check whether the current directory is a Git repository
if [ ! -d ".git" ]; then
echo "✗ The current directory is not a Git repository"
exit 1
fi
# Check Git status
echo "Checking Git status..."
if git status --porcelain | grep -q .; then
echo "⚠ Uncommitted changes detected:"
git status --short
echo ""
echo "Please commit or stash your changes before continuing"
echo "Options:"
echo " 1. git add . && git commit -m 'Save changes'"
echo " 2. git stash (stash changes and restore them later)"
echo " 3. git reset --hard HEAD (discard local changes - use with caution)"
exit 1
else
echo "✓ Working tree is clean"
fi
echo ""
# Fetch remote updates
echo "Fetching remote updates..."
git fetch origin main
echo ""
# Pull the latest code
echo "Pulling the latest code..."
git pull origin main
echo ""
# Show the latest commit
echo "Latest commit:"
git log -1 --oneline
echo ""
echo "=========================================="
echo " Code Update Complete"
echo "=========================================="
.agent/skills/smoke-test/templates/report.docker.template.md
-180
View File
@@ -1,180 +0,0 @@
# DeerFlow Smoke Test Report
**Test Date**: {{test_date}}
**Test Environment**: {{test_environment}}
**Deployment Mode**: Docker
**Test Version**: {{git_commit}}
---
## Execution Summary
| Metric | Status |
|------|------|
| Total Test Phases | 6 |
| Passed Phases | {{passed_stages}} |
| Failed Phases | {{failed_stages}} |
| Overall Conclusion | **{{overall_status}}** |
### Key Test Cases
| Case | Result | Details |
|------|--------|---------|
| Code update check | {{case_code_update}} | {{case_code_update_details}} |
| Environment check | {{case_env_check}} | {{case_env_check_details}} |
| Configuration preparation | {{case_config_prep}} | {{case_config_prep_details}} |
| Deployment | {{case_deploy}} | {{case_deploy_details}} |
| Health check | {{case_health_check}} | {{case_health_check_details}} |
| Frontend routes | {{case_frontend_routes_overall}} | {{case_frontend_routes_details}} |
---
## Detailed Test Results
### Phase 1: Code Update Check
- [x] Confirm current directory - {{status_dir_check}}
- [x] Check Git status - {{status_git_status}}
- [x] Pull latest code - {{status_git_pull}}
- [x] Confirm code update - {{status_git_verify}}
**Phase Status**: {{stage1_status}}
---
### Phase 2: Docker Environment Check
- [x] Docker version - {{status_docker_version}}
- [x] Docker daemon - {{status_docker_daemon}}
- [x] Docker Compose - {{status_docker_compose}}
- [x] Port check - {{status_port_check}}
**Phase Status**: {{stage2_status}}
---
### Phase 3: Configuration Preparation
- [x] config.yaml - {{status_config_yaml}}
- [x] .env file - {{status_env_file}}
- [x] Model configuration - {{status_model_config}}
**Phase Status**: {{stage3_status}}
---
### Phase 4: Docker Deployment
- [x] docker-init - {{status_docker_init}}
- [x] docker-start - {{status_docker_start}}
- [x] Service startup wait - {{status_wait_startup}}
**Phase Status**: {{stage4_status}}
---
### Phase 5: Service Health Check
- [x] Container status - {{status_containers}}
- [x] Frontend service - {{status_frontend}}
- [x] API Gateway - {{status_api_gateway}}
- [x] LangGraph service - {{status_langgraph}}
**Phase Status**: {{stage5_status}}
---
### Frontend Routes Smoke Results
| Route | Status | Details |
|-------|--------|---------|
| Landing `/` | {{landing_status}} | {{landing_details}} |
| Workspace redirect `/workspace` | {{workspace_redirect_status}} | target {{workspace_redirect_target}} |
| New chat `/workspace/chats/new` | {{new_chat_status}} | {{new_chat_details}} |
| Chats list `/workspace/chats` | {{chats_list_status}} | {{chats_list_details}} |
| Agents gallery `/workspace/agents` | {{agents_gallery_status}} | {{agents_gallery_details}} |
| Docs `{{docs_path}}` | {{docs_status}} | {{docs_details}} |
**Summary**: {{frontend_routes_summary}}
---
### Phase 6: Test Report Generation
- [x] Result summary - {{status_summary}}
- [x] Issue log - {{status_issues}}
- [x] Report generation - {{status_report}}
**Phase Status**: {{stage6_status}}
---
## Issue Log
### Issue 1
**Description**: {{issue1_description}}
**Severity**: {{issue1_severity}}
**Solution**: {{issue1_solution}}
---
## Environment Information
### Docker Version
```text
{{docker_version_output}}
```
### Git Information
```text
Repository: {{git_repo}}
Branch: {{git_branch}}
Commit: {{git_commit}}
Commit Message: {{git_commit_message}}
```
### Configuration Summary
- config.yaml exists: {{config_exists}}
- .env file exists: {{env_exists}}
- Number of configured models: {{model_count}}
---
## Container Status
| Container Name | Status | Uptime |
|----------|------|----------|
| deer-flow-nginx | {{nginx_status}} | {{nginx_uptime}} |
| deer-flow-frontend | {{frontend_status}} | {{frontend_uptime}} |
| deer-flow-gateway | {{gateway_status}} | {{gateway_uptime}} |
| deer-flow-langgraph | {{langgraph_status}} | {{langgraph_uptime}} |
---
## Recommendations and Next Steps
### If the Test Passes
1. [ ] Visit http://localhost:2026 to start using DeerFlow
2. [ ] Configure your preferred model if it is not configured yet
3. [ ] Explore available skills
4. [ ] Refer to the documentation to learn more features
### If the Test Fails
1. [ ] Review references/troubleshooting.md for common solutions
2. [ ] Check Docker logs: `make docker-logs`
3. [ ] Verify configuration file format and content
4. [ ] If needed, fully reset the environment: `make clean && make config && make docker-init && make docker-start`
---
## Appendix
### Full Logs
{{full_logs}}
### Tester
{{tester_name}}
---
*Report generated at: {{report_time}}*
.agent/skills/smoke-test/templates/report.local.template.md
-185
View File
@@ -1,185 +0,0 @@
# DeerFlow Smoke Test Report
**Test Date**: {{test_date}}
**Test Environment**: {{test_environment}}
**Deployment Mode**: Local
**Test Version**: {{git_commit}}
---
## Execution Summary
| Metric | Status |
|------|------|
| Total Test Phases | 6 |
| Passed Phases | {{passed_stages}} |
| Failed Phases | {{failed_stages}} |
| Overall Conclusion | **{{overall_status}}** |
### Key Test Cases
| Case | Result | Details |
|------|--------|---------|
| Code update check | {{case_code_update}} | {{case_code_update_details}} |
| Environment check | {{case_env_check}} | {{case_env_check_details}} |
| Configuration preparation | {{case_config_prep}} | {{case_config_prep_details}} |
| Deployment | {{case_deploy}} | {{case_deploy_details}} |
| Health check | {{case_health_check}} | {{case_health_check_details}} |
| Frontend routes | {{case_frontend_routes_overall}} | {{case_frontend_routes_details}} |
---
## Detailed Test Results
### Phase 1: Code Update Check
- [x] Confirm current directory - {{status_dir_check}}
- [x] Check Git status - {{status_git_status}}
- [x] Pull latest code - {{status_git_pull}}
- [x] Confirm code update - {{status_git_verify}}
**Phase Status**: {{stage1_status}}
---
### Phase 2: Local Environment Check
- [x] Node.js version - {{status_node_version}}
- [x] pnpm - {{status_pnpm}}
- [x] uv - {{status_uv}}
- [x] nginx - {{status_nginx}}
- [x] Port check - {{status_port_check}}
**Phase Status**: {{stage2_status}}
---
### Phase 3: Configuration Preparation
- [x] config.yaml - {{status_config_yaml}}
- [x] .env file - {{status_env_file}}
- [x] Model configuration - {{status_model_config}}
**Phase Status**: {{stage3_status}}
---
### Phase 4: Local Deployment
- [x] make check - {{status_make_check}}
- [x] make install - {{status_make_install}}
- [x] make dev-daemon / make dev - {{status_local_start}}
- [x] Service startup wait - {{status_wait_startup}}
**Phase Status**: {{stage4_status}}
---
### Phase 5: Service Health Check
- [x] Process status - {{status_processes}}
- [x] Frontend service - {{status_frontend}}
- [x] API Gateway - {{status_api_gateway}}
- [x] LangGraph service - {{status_langgraph}}
**Phase Status**: {{stage5_status}}
---
### Frontend Routes Smoke Results
| Route | Status | Details |
|-------|--------|---------|
| Landing `/` | {{landing_status}} | {{landing_details}} |
| Workspace redirect `/workspace` | {{workspace_redirect_status}} | target {{workspace_redirect_target}} |
| New chat `/workspace/chats/new` | {{new_chat_status}} | {{new_chat_details}} |
| Chats list `/workspace/chats` | {{chats_list_status}} | {{chats_list_details}} |
| Agents gallery `/workspace/agents` | {{agents_gallery_status}} | {{agents_gallery_details}} |
| Docs `{{docs_path}}` | {{docs_status}} | {{docs_details}} |
**Summary**: {{frontend_routes_summary}}
---
### Phase 6: Test Report Generation
- [x] Result summary - {{status_summary}}
- [x] Issue log - {{status_issues}}
- [x] Report generation - {{status_report}}
**Phase Status**: {{stage6_status}}
---
## Issue Log
### Issue 1
**Description**: {{issue1_description}}
**Severity**: {{issue1_severity}}
**Solution**: {{issue1_solution}}
---
## Environment Information
### Local Dependency Versions
```text
Node.js: {{node_version_output}}
pnpm: {{pnpm_version_output}}
uv: {{uv_version_output}}
nginx: {{nginx_version_output}}
```
### Git Information
```text
Repository: {{git_repo}}
Branch: {{git_branch}}
Commit: {{git_commit}}
Commit Message: {{git_commit_message}}
```
### Configuration Summary
- config.yaml exists: {{config_exists}}
- .env file exists: {{env_exists}}
- Number of configured models: {{model_count}}
---
## Local Service Status
| Service | Status | Endpoint |
|---------|--------|----------|
| Nginx | {{nginx_status}} | {{nginx_endpoint}} |
| Frontend | {{frontend_status}} | {{frontend_endpoint}} |
| Gateway | {{gateway_status}} | {{gateway_endpoint}} |
| LangGraph | {{langgraph_status}} | {{langgraph_endpoint}} |
---
## Recommendations and Next Steps
### If the Test Passes
1. [ ] Visit http://localhost:2026 to start using DeerFlow
2. [ ] Configure your preferred model if it is not configured yet
3. [ ] Explore available skills
4. [ ] Refer to the documentation to learn more features
### If the Test Fails
1. [ ] Review references/troubleshooting.md for common solutions
2. [ ] Check local logs: `logs/{langgraph,gateway,frontend,nginx}.log`
3. [ ] Verify configuration file format and content
4. [ ] If needed, fully reset the environment: `make stop && make clean && make install && make dev-daemon`
---
## Appendix
### Full Logs
{{full_logs}}
### Tester
{{tester_name}}
---
*Report generated at: {{report_time}}*
.env.example
-13
View File
@@ -17,14 +17,12 @@ INFOQUEST_API_KEY=your-infoquest-api-key
# DEEPSEEK_API_KEY=your-deepseek-api-key
# NOVITA_API_KEY=your-novita-api-key # OpenAI-compatible, see https://novita.ai
# MINIMAX_API_KEY=your-minimax-api-key # OpenAI-compatible, see https://platform.minimax.io
# VLLM_API_KEY=your-vllm-api-key # OpenAI-compatible
# FEISHU_APP_ID=your-feishu-app-id
# FEISHU_APP_SECRET=your-feishu-app-secret
# SLACK_BOT_TOKEN=your-slack-bot-token
# SLACK_APP_TOKEN=your-slack-app-token
# TELEGRAM_BOT_TOKEN=your-telegram-bot-token
# DISCORD_BOT_TOKEN=your-discord-bot-token
# Enable LangSmith to monitor and debug your LLM calls, agent runs, and tool executions.
# LANGSMITH_TRACING=true
@@ -34,14 +32,3 @@ INFOQUEST_API_KEY=your-infoquest-api-key
# GitHub API Token
# GITHUB_TOKEN=your-github-token
# Database (only needed when config.yaml has database.backend: postgres)
# DATABASE_URL=postgresql://deerflow:password@localhost:5432/deerflow
#
# WECOM_BOT_ID=your-wecom-bot-id
# WECOM_BOT_SECRET=your-wecom-bot-secret
# DINGTALK_CLIENT_ID=your-dingtalk-client-id
# DINGTALK_CLIENT_SECRET=your-dingtalk-client-secret
# Set to "false" to disable Swagger UI, ReDoc, and OpenAPI schema in production
# GATEWAY_ENABLE_DOCS=false
.github/workflows/e2e-tests.yml
-63
View File
@@ -1,63 +0,0 @@
name: E2E Tests
on:
push:
branches: [ 'main' ]
paths:
- 'frontend/**'
- '.github/workflows/e2e-tests.yml'
pull_request:
types: [opened, synchronize, reopened, ready_for_review]
paths:
- 'frontend/**'
- '.github/workflows/e2e-tests.yml'
concurrency:
group: e2e-tests-${{ github.event.pull_request.number || github.ref }}
cancel-in-progress: true
permissions:
contents: read
jobs:
e2e-tests:
if: ${{ github.event_name != 'pull_request' || github.event.pull_request.draft == false }}
runs-on: ubuntu-latest
timeout-minutes: 15
steps:
- name: Checkout
uses: actions/checkout@v6
- name: Setup Node.js
uses: actions/setup-node@v4
with:
node-version: '22'
- name: Enable Corepack
run: corepack enable
- name: Use pinned pnpm version
run: corepack prepare pnpm@10.26.2 --activate
- name: Install frontend dependencies
working-directory: frontend
run: pnpm install --frozen-lockfile
- name: Install Playwright Chromium
working-directory: frontend
run: npx playwright install chromium --with-deps
- name: Run E2E tests
working-directory: frontend
run: pnpm exec playwright test
env:
SKIP_ENV_VALIDATION: '1'
- name: Upload Playwright report
uses: actions/upload-artifact@v4
if: ${{ !cancelled() }}
with:
name: playwright-report
path: frontend/playwright-report/
retention-days: 7
.github/workflows/frontend-unit-tests.yml
-43
View File
@@ -1,43 +0,0 @@
name: Frontend Unit Tests
on:
push:
branches: [ 'main' ]
pull_request:
types: [opened, synchronize, reopened, ready_for_review]
concurrency:
group: frontend-unit-tests-${{ github.event.pull_request.number || github.ref }}
cancel-in-progress: true
permissions:
contents: read
jobs:
frontend-unit-tests:
if: github.event.pull_request.draft == false
runs-on: ubuntu-latest
timeout-minutes: 15
steps:
- name: Checkout
uses: actions/checkout@v6
- name: Setup Node.js
uses: actions/setup-node@v4
with:
node-version: '22'
- name: Enable Corepack
run: corepack enable
- name: Use pinned pnpm version
run: corepack prepare pnpm@10.26.2 --activate
- name: Install frontend dependencies
working-directory: frontend
run: pnpm install --frozen-lockfile
- name: Run unit tests of frontend
working-directory: frontend
run: make test
.gitignore
-6
View File
@@ -40,7 +40,6 @@ coverage/
skills/custom/*
logs/
log/
debug.log
# Local git hooks (keep only on this machine, do not push)
.githooks/
@@ -55,8 +54,3 @@ web/
# Deployment artifacts
backend/Dockerfile.langgraph
config.yaml.bak
.playwright-mcp
/frontend/test-results/
/frontend/playwright-report/
.gstack/
.worktrees
.pre-commit-config.yaml
-33
View File
@@ -1,33 +0,0 @@
repos:
# Backend: ruff lint + format via uv (uses the same ruff version as backend deps)
- repo: local
hooks:
- id: ruff
name: ruff lint
entry: bash -c 'cd backend && uv run ruff check --fix "${@/#backend\//}"' --
language: system
types_or: [python]
files: ^backend/
- id: ruff-format
name: ruff format
entry: bash -c 'cd backend && uv run ruff format "${@/#backend\//}"' --
language: system
types_or: [python]
files: ^backend/
# Frontend: eslint + prettier (must run from frontend/ for node_modules resolution)
- repo: local
hooks:
- id: frontend-eslint
name: eslint (frontend)
entry: bash -c 'cd frontend && npx eslint --fix "${@/#frontend\//}"' --
language: system
types_or: [javascript, tsx, ts]
files: ^frontend/
- id: frontend-prettier
name: prettier (frontend)
entry: bash -c 'cd frontend && npx prettier --write "${@/#frontend\//}"' --
language: system
files: ^frontend/
types_or: [javascript, tsx, ts, json, css]
CODE_OF_CONDUCT.md
-128
View File
@@ -1,128 +0,0 @@
# Contributor Covenant Code of Conduct
## Our Pledge
We as members, contributors, and leaders pledge to make participation in our
community a harassment-free experience for everyone, regardless of age, body
size, visible or invisible disability, ethnicity, sex characteristics, gender
identity and expression, level of experience, education, socio-economic status,
nationality, personal appearance, race, religion, or sexual identity
and orientation.
We pledge to act and interact in ways that contribute to an open, welcoming,
diverse, inclusive, and healthy community.
## Our Standards
Examples of behavior that contributes to a positive environment for our
community include:
* Demonstrating empathy and kindness toward other people
* Being respectful of differing opinions, viewpoints, and experiences
* Giving and gracefully accepting constructive feedback
* Accepting responsibility and apologizing to those affected by our mistakes,
and learning from the experience
* Focusing on what is best not just for us as individuals, but for the
overall community
Examples of unacceptable behavior include:
* The use of sexualized language or imagery, and sexual attention or
advances of any kind
* Trolling, insulting or derogatory comments, and personal or political attacks
* Public or private harassment
* Publishing others' private information, such as a physical or email
address, without their explicit permission
* Other conduct which could reasonably be considered inappropriate in a
professional setting
## Enforcement Responsibilities
Community leaders are responsible for clarifying and enforcing our standards of
acceptable behavior and will take appropriate and fair corrective action in
response to any behavior that they deem inappropriate, threatening, offensive,
or harmful.
Community leaders have the right and responsibility to remove, edit, or reject
comments, commits, code, wiki edits, issues, and other contributions that are
not aligned to this Code of Conduct, and will communicate reasons for moderation
decisions when appropriate.
## Scope
This Code of Conduct applies within all community spaces, and also applies when
an individual is officially representing the community in public spaces.
Examples of representing our community include using an official e-mail address,
posting via an official social media account, or acting as an appointed
representative at an online or offline event.
## Enforcement
Instances of abusive, harassing, or otherwise unacceptable behavior may be
reported to the community leaders responsible for enforcement at
willem.jiang@gmail.com.
All complaints will be reviewed and investigated promptly and fairly.
All community leaders are obligated to respect the privacy and security of the
reporter of any incident.
## Enforcement Guidelines
Community leaders will follow these Community Impact Guidelines in determining
the consequences for any action they deem in violation of this Code of Conduct:
### 1. Correction
**Community Impact**: Use of inappropriate language or other behavior deemed
unprofessional or unwelcome in the community.
**Consequence**: A private, written warning from community leaders, providing
clarity around the nature of the violation and an explanation of why the
behavior was inappropriate. A public apology may be requested.
### 2. Warning
**Community Impact**: A violation through a single incident or series
of actions.
**Consequence**: A warning with consequences for continued behavior. No
interaction with the people involved, including unsolicited interaction with
those enforcing the Code of Conduct, for a specified period of time. This
includes avoiding interactions in community spaces as well as external channels
like social media. Violating these terms may lead to a temporary or
permanent ban.
### 3. Temporary Ban
**Community Impact**: A serious violation of community standards, including
sustained inappropriate behavior.
**Consequence**: A temporary ban from any sort of interaction or public
communication with the community for a specified period of time. No public or
private interaction with the people involved, including unsolicited interaction
with those enforcing the Code of Conduct, is allowed during this period.
Violating these terms may lead to a permanent ban.
### 4. Permanent Ban
**Community Impact**: Demonstrating a pattern of violation of community
standards, including sustained inappropriate behavior, harassment of an
individual, or aggression toward or disparagement of classes of individuals.
**Consequence**: A permanent ban from any sort of public interaction within
the community.
## Attribution
This Code of Conduct is adapted from the [Contributor Covenant][homepage],
version 2.0, available at
https://www.contributor-covenant.org/version/2/0/code_of_conduct.html.
Community Impact Guidelines were inspired by [Mozilla's code of conduct
enforcement ladder](https://github.com/mozilla/diversity).
[homepage]: https://www.contributor-covenant.org
For answers to common questions about this code of conduct, see the FAQ at
https://www.contributor-covenant.org/faq. Translations are available at
https://www.contributor-covenant.org/translations.
CONTRIBUTING.md
+8 -25
View File
@@ -77,18 +77,6 @@ export UV_INDEX_URL=https://pypi.org/simple
export NPM_REGISTRY=https://registry.npmjs.org
```
#### Recommended host resources
Use these as practical starting points for development and review environments:
| Scenario | Starting point | Recommended | Notes |
|---------|-----------|------------|-------|
| `make dev` on one machine | 4 vCPU, 8 GB RAM | 8 vCPU, 16 GB RAM | Best when DeerFlow uses hosted model APIs. |
| `make docker-start` review environment | 4 vCPU, 8 GB RAM | 8 vCPU, 16 GB RAM | Docker image builds and sandbox containers need extra headroom. |
| Shared Linux test server | 8 vCPU, 16 GB RAM | 16 vCPU, 32 GB RAM | Prefer this for heavier multi-agent runs or multiple reviewers. |
`2 vCPU / 4 GB` environments often fail to start reliably or become unresponsive under normal DeerFlow workloads.
#### Linux: Docker daemon permission denied
If `make docker-init`, `make docker-start`, or `make docker-stop` fails on Linux with an error like below, your current user likely does not have permission to access the Docker daemon socket:
@@ -166,7 +154,7 @@ Required tools:
1. **Configure the application** (same as Docker setup above)
2. **Install dependencies** (this also sets up pre-commit hooks):
2. **Install dependencies**:
```bash
make install
```
@@ -298,24 +286,19 @@ Nginx (port 2026) ← Unified entry point
```bash
# Backend tests
cd backend
make test
uv run pytest
# Frontend unit tests
# Frontend checks
cd frontend
make test
# Frontend E2E tests (requires Chromium; builds and auto-starts the Next.js production server)
cd frontend
make test-e2e
pnpm check
```
### PR Regression Checks
Every pull request triggers the following CI workflows:
Every pull request runs the backend regression workflow at [.github/workflows/backend-unit-tests.yml](.github/workflows/backend-unit-tests.yml), including:
- **Backend unit tests** — [.github/workflows/backend-unit-tests.yml](.github/workflows/backend-unit-tests.yml)
- **Frontend unit tests** — [.github/workflows/frontend-unit-tests.yml](.github/workflows/frontend-unit-tests.yml)
- **Frontend E2E tests** — [.github/workflows/e2e-tests.yml](.github/workflows/e2e-tests.yml) (triggered only when `frontend/` files change)
- `tests/test_provisioner_kubeconfig.py`
- `tests/test_docker_sandbox_mode_detection.py`
## Code Style
@@ -327,7 +310,7 @@ Every pull request triggers the following CI workflows:
- [Configuration Guide](backend/docs/CONFIGURATION.md) - Setup and configuration
- [Architecture Overview](backend/CLAUDE.md) - Technical architecture
- [MCP Setup Guide](backend/docs/MCP_SERVER.md) - Model Context Protocol configuration
- [MCP Setup Guide](MCP_SETUP.md) - Model Context Protocol configuration
## Need Help?
Makefile
+38 -44
View File
@@ -1,34 +1,25 @@
# DeerFlow - Unified Development Environment
.PHONY: help config config-upgrade check install setup doctor dev dev-daemon start start-daemon stop up down clean docker-init docker-start docker-stop docker-logs docker-logs-frontend docker-logs-gateway
.PHONY: help config config-upgrade check install dev dev-daemon start stop up down clean docker-init docker-start docker-stop docker-logs docker-logs-frontend docker-logs-gateway
PYTHON ?= python
BASH ?= bash
BACKEND_UV_RUN = cd backend && uv run
# Detect OS for Windows compatibility
ifeq ($(OS),Windows_NT)
SHELL := cmd.exe
PYTHON ?= python
# Run repo shell scripts through Git Bash when Make is launched from cmd.exe / PowerShell.
RUN_WITH_GIT_BASH = call scripts\run-with-git-bash.cmd
else
PYTHON ?= python3
RUN_WITH_GIT_BASH =
endif
help:
@echo "DeerFlow Development Commands:"
@echo " make setup - Interactive setup wizard (recommended for new users)"
@echo " make doctor - Check configuration and system requirements"
@echo " make config - Generate local config files (aborts if config already exists)"
@echo " make config-upgrade - Merge new fields from config.example.yaml into config.yaml"
@echo " make check - Check if all required tools are installed"
@echo " make install - Install all dependencies (frontend + backend + pre-commit hooks)"
@echo " make install - Install all dependencies (frontend + backend)"
@echo " make setup-sandbox - Pre-pull sandbox container image (recommended)"
@echo " make dev - Start all services in development mode (with hot-reloading)"
@echo " make dev-daemon - Start dev services in background (daemon mode)"
@echo " make dev-daemon - Start all services in background (daemon mode)"
@echo " make start - Start all services in production mode (optimized, no hot-reloading)"
@echo " make start-daemon - Start prod services in background (daemon mode)"
@echo " make stop - Stop all running services"
@echo " make clean - Clean up processes and temporary files"
@echo ""
@@ -44,18 +35,11 @@ help:
@echo " make docker-logs-frontend - View Docker frontend logs"
@echo " make docker-logs-gateway - View Docker gateway logs"
## Setup & Diagnosis
setup:
@$(BACKEND_UV_RUN) python ../scripts/setup_wizard.py
doctor:
@$(BACKEND_UV_RUN) python ../scripts/doctor.py
config:
@$(PYTHON) ./scripts/configure.py
config-upgrade:
@$(RUN_WITH_GIT_BASH) ./scripts/config-upgrade.sh
@./scripts/config-upgrade.sh
# Check required tools
check:
@@ -67,8 +51,6 @@ install:
@cd backend && uv sync
@echo "Installing frontend dependencies..."
@cd frontend && pnpm install
@echo "Installing pre-commit hooks..."
@$(BACKEND_UV_RUN) --with pre-commit pre-commit install
@echo "✓ All dependencies installed"
@echo ""
@echo "=========================================="
@@ -95,7 +77,7 @@ setup-sandbox:
echo ""; \
if command -v container >/dev/null 2>&1 && [ "$$(uname)" = "Darwin" ]; then \
echo "Detected Apple Container on macOS, pulling image..."; \
container image pull "$$IMAGE" || echo "⚠ Apple Container pull failed, will try Docker"; \
container pull "$$IMAGE" || echo "⚠ Apple Container pull failed, will try Docker"; \
fi; \
if command -v docker >/dev/null 2>&1; then \
echo "Pulling image using Docker..."; \
@@ -114,27 +96,39 @@ setup-sandbox:
# Start all services in development mode (with hot-reloading)
dev:
@$(PYTHON) ./scripts/check.py
@$(RUN_WITH_GIT_BASH) ./scripts/serve.sh --dev
ifeq ($(OS),Windows_NT)
@call scripts\run-with-git-bash.cmd ./scripts/serve.sh --dev
else
@./scripts/serve.sh --dev
endif
# Start all services in production mode (with optimizations)
start:
@$(PYTHON) ./scripts/check.py
@$(RUN_WITH_GIT_BASH) ./scripts/serve.sh --prod
ifeq ($(OS),Windows_NT)
@call scripts\run-with-git-bash.cmd ./scripts/serve.sh --prod
else
@./scripts/serve.sh --prod
endif
# Start all services in daemon mode (background)
dev-daemon:
@$(PYTHON) ./scripts/check.py
@$(RUN_WITH_GIT_BASH) ./scripts/serve.sh --dev --daemon
# Start prod services in daemon mode (background)
start-daemon:
@$(PYTHON) ./scripts/check.py
@$(RUN_WITH_GIT_BASH) ./scripts/serve.sh --prod --daemon
@./scripts/start-daemon.sh
# Stop all services
stop:
@$(RUN_WITH_GIT_BASH) ./scripts/serve.sh --stop
@echo "Stopping all services..."
@-pkill -f "langgraph dev" 2>/dev/null || true
@-pkill -f "uvicorn app.gateway.app:app" 2>/dev/null || true
@-pkill -f "next dev" 2>/dev/null || true
@-pkill -f "next start" 2>/dev/null || true
@-pkill -f "next-server" 2>/dev/null || true
@-pkill -f "next-server" 2>/dev/null || true
@-nginx -c $(PWD)/docker/nginx/nginx.local.conf -p $(PWD) -s quit 2>/dev/null || true
@sleep 1
@-pkill -9 nginx 2>/dev/null || true
@echo "Cleaning up sandbox containers..."
@-./scripts/cleanup-containers.sh deer-flow-sandbox 2>/dev/null || true
@echo "✓ All services stopped"
# Clean up
clean: stop
@@ -150,25 +144,25 @@ clean: stop
# Initialize Docker containers and install dependencies
docker-init:
@$(RUN_WITH_GIT_BASH) ./scripts/docker.sh init
@./scripts/docker.sh init
# Start Docker development environment
docker-start:
@$(RUN_WITH_GIT_BASH) ./scripts/docker.sh start
@./scripts/docker.sh start
# Stop Docker development environment
docker-stop:
@$(RUN_WITH_GIT_BASH) ./scripts/docker.sh stop
@./scripts/docker.sh stop
# View Docker development logs
docker-logs:
@$(RUN_WITH_GIT_BASH) ./scripts/docker.sh logs
@./scripts/docker.sh logs
# View Docker development logs
docker-logs-frontend:
@$(RUN_WITH_GIT_BASH) ./scripts/docker.sh logs --frontend
@./scripts/docker.sh logs --frontend
docker-logs-gateway:
@$(RUN_WITH_GIT_BASH) ./scripts/docker.sh logs --gateway
@./scripts/docker.sh logs --gateway
# ==========================================
# Production Docker Commands
@@ -176,8 +170,8 @@ docker-logs-gateway:
# Build and start production services
up:
@$(RUN_WITH_GIT_BASH) ./scripts/deploy.sh
@./scripts/deploy.sh
# Stop and remove production containers
down:
@$(RUN_WITH_GIT_BASH) ./scripts/deploy.sh down
@./scripts/deploy.sh down
README.md
+52 -182
View File
@@ -46,14 +46,12 @@ DeerFlow has newly integrated the intelligent search and crawling toolset indepe
- [🦌 DeerFlow - 2.0](#-deerflow---20)
- [Official Website](#official-website)
- [Coding Plan from ByteDance Volcengine](#coding-plan-from-bytedance-volcengine)
- [InfoQuest](#infoquest)
- [Table of Contents](#table-of-contents)
- [One-Line Agent Setup](#one-line-agent-setup)
- [Quick Start](#quick-start)
- [Configuration](#configuration)
- [Running the Application](#running-the-application)
- [Deployment Sizing](#deployment-sizing)
- [Option 1: Docker (Recommended)](#option-1-docker-recommended)
- [Option 2: Local Development](#option-2-local-development)
- [Advanced](#advanced)
@@ -61,8 +59,6 @@ DeerFlow has newly integrated the intelligent search and crawling toolset indepe
- [MCP Server](#mcp-server)
- [IM Channels](#im-channels)
- [LangSmith Tracing](#langsmith-tracing)
- [Langfuse Tracing](#langfuse-tracing)
- [Using Both Providers](#using-both-providers)
- [From Deep Research to Super Agent Harness](#from-deep-research-to-super-agent-harness)
- [Core Features](#core-features)
- [Skills \& Tools](#skills--tools)
@@ -75,8 +71,6 @@ DeerFlow has newly integrated the intelligent search and crawling toolset indepe
- [Embedded Python Client](#embedded-python-client)
- [Documentation](#documentation)
- [⚠️ Security Notice](#-security-notice)
- [Improper Deployment May Introduce Security Risks](#improper-deployment-may-introduce-security-risks)
- [Security Recommendations](#security-recommendations)
- [Contributing](#contributing)
- [License](#license)
- [Acknowledgments](#acknowledgments)
@@ -104,38 +98,35 @@ That prompt is intended for coding agents. It tells the agent to clone the repo
cd deer-flow
```
2. **Run the setup wizard**
2. **Generate local configuration files**
From the project root directory (`deer-flow/`), run:
```bash
make setup
make config
```
This launches an interactive wizard that guides you through choosing an LLM provider, optional web search, and execution/safety preferences such as sandbox mode, bash access, and file-write tools. It generates a minimal `config.yaml` and writes your keys to `.env`. Takes about 2 minutes.
This command creates local configuration files based on the provided example templates.
The wizard also lets you configure an optional web search provider, or skip it for now.
3. **Configure your preferred model(s)**
Run `make doctor` at any time to verify your setup and get actionable fix hints.
> **Advanced / manual configuration**: If you prefer to edit `config.yaml` directly, run `make config` instead to copy the full template. See `config.example.yaml` for the complete reference including CLI-backed providers (Codex CLI, Claude Code OAuth), OpenRouter, Responses API, and more.
<details>
<summary>Manual model configuration examples</summary>
Edit `config.yaml` and define at least one model:
```yaml
models:
- name: gpt-4o
display_name: GPT-4o
use: langchain_openai:ChatOpenAI
model: gpt-4o
api_key: $OPENAI_API_KEY
- name: gpt-4 # Internal identifier
display_name: GPT-4 # Human-readable name
use: langchain_openai:ChatOpenAI # LangChain class path
model: gpt-4 # Model identifier for API
api_key: $OPENAI_API_KEY # API key (recommended: use env var)
max_tokens: 4096 # Maximum tokens per request
temperature: 0.7 # Sampling temperature
- name: openrouter-gemini-2.5-flash
display_name: Gemini 2.5 Flash (OpenRouter)
use: langchain_openai:ChatOpenAI
model: google/gemini-2.5-flash-preview
api_key: $OPENROUTER_API_KEY
api_key: $OPENAI_API_KEY # OpenRouter still uses the OpenAI-compatible field name here
base_url: https://openrouter.ai/api/v1
- name: gpt-5-responses
@@ -145,26 +136,12 @@ That prompt is intended for coding agents. It tells the agent to clone the repo
api_key: $OPENAI_API_KEY
use_responses_api: true
output_version: responses/v1
- name: qwen3-32b-vllm
display_name: Qwen3 32B (vLLM)
use: deerflow.models.vllm_provider:VllmChatModel
model: Qwen/Qwen3-32B
api_key: $VLLM_API_KEY
base_url: http://localhost:8000/v1
supports_thinking: true
when_thinking_enabled:
extra_body:
chat_template_kwargs:
enable_thinking: true
```
OpenRouter and similar OpenAI-compatible gateways should be configured with `langchain_openai:ChatOpenAI` plus `base_url`. If you prefer a provider-specific environment variable name, point `api_key` at that variable explicitly (for example `api_key: $OPENROUTER_API_KEY`).
To route OpenAI models through `/v1/responses`, keep using `langchain_openai:ChatOpenAI` and set `use_responses_api: true` with `output_version: responses/v1`.
For vLLM 0.19.0, use `deerflow.models.vllm_provider:VllmChatModel`. For Qwen-style reasoning models, DeerFlow toggles reasoning with `extra_body.chat_template_kwargs.enable_thinking` and preserves vLLM's non-standard `reasoning` field across multi-turn tool-call conversations. Legacy `thinking` configs are normalized automatically for backward compatibility. Reasoning models may also require the server to be started with `--reasoning-parser ...`. If your local vLLM deployment accepts any non-empty API key, you can still set `VLLM_API_KEY` to a placeholder value.
CLI-backed provider examples:
```yaml
@@ -185,39 +162,50 @@ That prompt is intended for coding agents. It tells the agent to clone the repo
```
- Codex CLI reads `~/.codex/auth.json`
- Claude Code accepts `CLAUDE_CODE_OAUTH_TOKEN`, `ANTHROPIC_AUTH_TOKEN`, `CLAUDE_CODE_CREDENTIALS_PATH`, or `~/.claude/.credentials.json`
- ACP agent entries are separate from model providers — if you configure `acp_agents.codex`, point it at a Codex ACP adapter such as `npx -y @zed-industries/codex-acp`
- On macOS, export Claude Code auth explicitly if needed:
- The Codex Responses endpoint currently rejects `max_tokens` and `max_output_tokens`, so `CodexChatModel` does not expose a request-level token cap
- Claude Code accepts `CLAUDE_CODE_OAUTH_TOKEN`, `ANTHROPIC_AUTH_TOKEN`, `CLAUDE_CODE_OAUTH_TOKEN_FILE_DESCRIPTOR`, `CLAUDE_CODE_CREDENTIALS_PATH`, or plaintext `~/.claude/.credentials.json`
- ACP agent entries are separate from model providers. If you configure `acp_agents.codex`, point it at a Codex ACP adapter such as `npx -y @zed-industries/codex-acp`; the standard `codex` CLI binary is not ACP-compatible by itself
- On macOS, DeerFlow does not probe Keychain automatically. Export Claude Code auth explicitly if needed:
```bash
eval "$(python3 scripts/export_claude_code_oauth.py --print-export)"
```
4. **Set API keys for your configured model(s)**
Choose one of the following methods:
- Option A: Edit the `.env` file in the project root (Recommended)
API keys can also be set manually in `.env` (recommended) or exported in your shell:
```bash
OPENAI_API_KEY=your-openai-api-key
TAVILY_API_KEY=your-tavily-api-key
OPENAI_API_KEY=your-openai-api-key
# OpenRouter also uses OPENAI_API_KEY when your config uses langchain_openai:ChatOpenAI + base_url.
# Add other provider keys as needed
INFOQUEST_API_KEY=your-infoquest-api-key
```
</details>
- Option B: Export environment variables in your shell
```bash
export OPENAI_API_KEY=your-openai-api-key
```
For CLI-backed providers:
- Codex CLI: `~/.codex/auth.json`
- Claude Code OAuth: explicit env/file handoff or `~/.claude/.credentials.json`
- Option C: Edit `config.yaml` directly (Not recommended for production)
```yaml
models:
- name: gpt-4
api_key: your-actual-api-key-here # Replace placeholder
```
### Running the Application
#### Deployment Sizing
Use the table below as a practical starting point when choosing how to run DeerFlow:
| Deployment target | Starting point | Recommended | Notes |
|---------|-----------|------------|-------|
| Local evaluation / `make dev` | 4 vCPU, 8 GB RAM, 20 GB free SSD | 8 vCPU, 16 GB RAM | Good for one developer or one light session with hosted model APIs. `2 vCPU / 4 GB` is usually not enough. |
| Docker development / `make docker-start` | 4 vCPU, 8 GB RAM, 25 GB free SSD | 8 vCPU, 16 GB RAM | Image builds, bind mounts, and sandbox containers need more headroom than pure local dev. |
| Long-running server / `make up` | 8 vCPU, 16 GB RAM, 40 GB free SSD | 16 vCPU, 32 GB RAM | Preferred for shared use, multi-agent runs, report generation, or heavier sandbox workloads. |
- These numbers cover DeerFlow itself. If you also host a local LLM, size that service separately.
- Linux plus Docker is the recommended deployment target for a persistent server. macOS and Windows are best treated as development or evaluation environments.
- If CPU or memory usage stays pinned, reduce concurrent runs first, then move to the next sizing tier.
#### Option 1: Docker (Recommended)
**Development** (hot-reload, source mounts):
@@ -243,6 +231,9 @@ make up # Build images and start all production services
make down # Stop and remove containers
```
> [!NOTE]
> The LangGraph agent server currently runs via `langgraph dev` (the open-source CLI server).
Access: http://localhost:2026
See [CONTRIBUTING.md](CONTRIBUTING.md) for detailed Docker development guide.
@@ -251,8 +242,7 @@ See [CONTRIBUTING.md](CONTRIBUTING.md) for detailed Docker development guide.
If you prefer running services locally:
Prerequisite: complete the "Configuration" steps above first (`make setup`). `make dev` requires a valid `config.yaml` in the project root. Set `DEER_FLOW_PROJECT_ROOT` to define that root explicitly, or `DEER_FLOW_CONFIG_PATH` to point at a specific config file. Runtime state defaults to `.deer-flow` under the project root and can be moved with `DEER_FLOW_HOME`; skills default to `skills/` under the project root and can be moved with `DEER_FLOW_SKILLS_PATH`. Run `make doctor` to verify your setup before starting.
On Windows, run the local development flow from Git Bash. Native `cmd.exe` and PowerShell shells are not supported for the bash-based service scripts, and WSL is not guaranteed because some scripts rely on Git for Windows utilities such as `cygpath`.
Prerequisite: complete the "Configuration" steps above first (`make config` and model API keys). `make dev` requires a valid configuration file (defaults to `config.yaml` in the project root; can be overridden via `DEER_FLOW_CONFIG_PATH`).
1. **Check prerequisites**:
```bash
@@ -261,7 +251,7 @@ On Windows, run the local development flow from Git Bash. Native `cmd.exe` and P
2. **Install dependencies**:
```bash
make install # Install backend + frontend dependencies + pre-commit hooks
make install # Install backend + frontend dependencies
```
3. **(Optional) Pre-pull sandbox image**:
@@ -284,38 +274,6 @@ On Windows, run the local development flow from Git Bash. Native `cmd.exe` and P
6. **Access**: http://localhost:2026
#### Startup Modes
DeerFlow runs the agent runtime inside the Gateway API. Development mode enables hot-reload; production mode uses a pre-built frontend.
| | **Local Foreground** | **Local Daemon** | **Docker Dev** | **Docker Prod** |
|---|---|---|---|---|
| **Dev** | `./scripts/serve.sh --dev`<br/>`make dev` | `./scripts/serve.sh --dev --daemon`<br/>`make dev-daemon` | `./scripts/docker.sh start`<br/>`make docker-start` | — |
| **Prod** | `./scripts/serve.sh --prod`<br/>`make start` | `./scripts/serve.sh --prod --daemon`<br/>`make start-daemon` | — | `./scripts/deploy.sh`<br/>`make up` |
| Action | Local | Docker Dev | Docker Prod |
|---|---|---|---|
| **Stop** | `./scripts/serve.sh --stop`<br/>`make stop` | `./scripts/docker.sh stop`<br/>`make docker-stop` | `./scripts/deploy.sh down`<br/>`make down` |
| **Restart** | `./scripts/serve.sh --restart [flags]` | `./scripts/docker.sh restart` | — |
Gateway owns `/api/langgraph/*` and translates those public LangGraph-compatible paths to its native `/api/*` routers behind nginx.
#### Docker Production Deployment
`deploy.sh` supports building and starting separately:
```bash
# One-step (build + start)
deploy.sh
# Two-step (build once, start later)
deploy.sh build # build all images
deploy.sh start # start pre-built images
# Stop
deploy.sh down
```
### Advanced
#### Sandbox Mode
@@ -343,16 +301,13 @@ DeerFlow supports receiving tasks from messaging apps. Channels auto-start when
| Telegram | Bot API (long-polling) | Easy |
| Slack | Socket Mode | Moderate |
| Feishu / Lark | WebSocket | Moderate |
| WeChat | Tencent iLink (long-polling) | Moderate |
| WeCom | WebSocket | Moderate |
| DingTalk | Stream Push (WebSocket) | Moderate |
**Configuration in `config.yaml`:**
```yaml
channels:
# LangGraph-compatible Gateway API base URL (default: http://localhost:8001/api)
langgraph_url: http://localhost:8001/api
# LangGraph Server URL (default: http://localhost:2024)
langgraph_url: http://localhost:2024
# Gateway API URL (default: http://localhost:8001)
gateway_url: http://localhost:8001
@@ -373,11 +328,6 @@ channels:
# domain: https://open.feishu.cn # China (default)
# domain: https://open.larksuite.com # International
wecom:
enabled: true
bot_id: $WECOM_BOT_ID
bot_secret: $WECOM_BOT_SECRET
slack:
enabled: true
bot_token: $SLACK_BOT_TOKEN # xoxb-...
@@ -389,19 +339,6 @@ channels:
bot_token: $TELEGRAM_BOT_TOKEN
allowed_users: [] # empty = allow all
wechat:
enabled: false
bot_token: $WECHAT_BOT_TOKEN
ilink_bot_id: $WECHAT_ILINK_BOT_ID
qrcode_login_enabled: true # optional: allow first-time QR bootstrap when bot_token is absent
allowed_users: [] # empty = allow all
polling_timeout: 35
state_dir: ./.deer-flow/wechat/state
max_inbound_image_bytes: 20971520
max_outbound_image_bytes: 20971520
max_inbound_file_bytes: 52428800
max_outbound_file_bytes: 52428800
# Optional: per-channel / per-user session settings
session:
assistant_id: mobile-agent # custom agent names are also supported here
@@ -415,19 +352,11 @@ channels:
context:
thinking_enabled: true
subagent_enabled: true
dingtalk:
enabled: true
client_id: $DINGTALK_CLIENT_ID # Client ID of your DingTalk application
client_secret: $DINGTALK_CLIENT_SECRET # Client Secret of your DingTalk application
allowed_users: [] # empty = allow all
card_template_id: "" # Optional: AI Card template ID for streaming typewriter effect
```
Notes:
- `assistant_id: lead_agent` calls the default LangGraph assistant directly.
- If `assistant_id` is set to a custom agent name, DeerFlow still routes through `lead_agent` and injects that value as `agent_name`, so the custom agent's SOUL/config takes effect for IM channels.
- IM channel workers call Gateway's LangGraph-compatible API internally and automatically attach process-local internal auth plus the CSRF cookie/header pair required for thread and run creation.
Set the corresponding API keys in your `.env` file:
@@ -442,18 +371,6 @@ SLACK_APP_TOKEN=xapp-...
# Feishu / Lark
FEISHU_APP_ID=cli_xxxx
FEISHU_APP_SECRET=your_app_secret
# WeChat iLink
WECHAT_BOT_TOKEN=your_ilink_bot_token
WECHAT_ILINK_BOT_ID=your_ilink_bot_id
# WeCom
WECOM_BOT_ID=your_bot_id
WECOM_BOT_SECRET=your_bot_secret
# DingTalk
DINGTALK_CLIENT_ID=your_client_id
DINGTALK_CLIENT_SECRET=your_client_secret
```
**Telegram Setup**
@@ -476,31 +393,7 @@ DINGTALK_CLIENT_SECRET=your_client_secret
3. Under **Events**, subscribe to `im.message.receive_v1` and select **Long Connection** mode.
4. Copy the App ID and App Secret. Set `FEISHU_APP_ID` and `FEISHU_APP_SECRET` in `.env` and enable the channel in `config.yaml`.
**WeChat Setup**
1. Enable the `wechat` channel in `config.yaml`.
2. Either set `WECHAT_BOT_TOKEN` in `.env`, or set `qrcode_login_enabled: true` for first-time QR bootstrap.
3. When `bot_token` is absent and QR bootstrap is enabled, watch backend logs for the QR content returned by iLink and complete the binding flow.
4. After the QR flow succeeds, DeerFlow persists the acquired token under `state_dir` for later restarts.
5. For Docker Compose deployments, keep `state_dir` on a persistent volume so the `get_updates_buf` cursor and saved auth state survive restarts.
**WeCom Setup**
1. Create a bot on the WeCom AI Bot platform and obtain the `bot_id` and `bot_secret`.
2. Enable `channels.wecom` in `config.yaml` and fill in `bot_id` / `bot_secret`.
3. Set `WECOM_BOT_ID` and `WECOM_BOT_SECRET` in `.env`.
4. Make sure backend dependencies include `wecom-aibot-python-sdk`. The channel uses a WebSocket long connection and does not require a public callback URL.
5. The current integration supports inbound text, image, and file messages. Final images/files generated by the agent are also sent back to the WeCom conversation.
**DingTalk Setup**
1. Create a DingTalk application in the [DingTalk Developer Console](https://open.dingtalk.com/) and enable **Robot** capability.
2. Set the message receiving mode to **Stream Mode** in the robot configuration page.
3. Copy the `Client ID` and `Client Secret`, set `DINGTALK_CLIENT_ID` and `DINGTALK_CLIENT_SECRET` in `.env`, and enable the channel in `config.yaml`.
4. *(Optional)* To enable streaming AI Card replies (typewriter effect), create an **AI Card** template on the [DingTalk Card Platform](https://open.dingtalk.com/document/dingstart/typewriter-effect-streaming-ai-card), then set `card_template_id` in `config.yaml` to the template ID. You also need to apply for the `Card.Streaming.Write` and `Card.Instance.Write` permissions.
When DeerFlow runs in Docker Compose, IM channels execute inside the `gateway` container. In that case, do not point `channels.langgraph_url` or `channels.gateway_url` at `localhost`; use container service names such as `http://gateway:8001/api` and `http://gateway:8001`, or set `DEER_FLOW_CHANNELS_LANGGRAPH_URL` and `DEER_FLOW_CHANNELS_GATEWAY_URL`.
When DeerFlow runs in Docker Compose, IM channels execute inside the `gateway` container. In that case, do not point `channels.langgraph_url` or `channels.gateway_url` at `localhost`; use container service names such as `http://langgraph:2024` and `http://gateway:8001`, or set `DEER_FLOW_CHANNELS_LANGGRAPH_URL` and `DEER_FLOW_CHANNELS_GATEWAY_URL`.
**Commands**
@@ -529,27 +422,6 @@ LANGSMITH_API_KEY=lsv2_pt_xxxxxxxxxxxxxxxx
LANGSMITH_PROJECT=xxx
```
#### Langfuse Tracing
DeerFlow also supports [Langfuse](https://langfuse.com) observability for LangChain-compatible runs.
Add the following to your `.env` file:
```bash
LANGFUSE_TRACING=true
LANGFUSE_PUBLIC_KEY=pk-lf-xxxxxxxxxxxxxxxx
LANGFUSE_SECRET_KEY=sk-lf-xxxxxxxxxxxxxxxx
LANGFUSE_BASE_URL=https://cloud.langfuse.com
```
If you are using a self-hosted Langfuse instance, set `LANGFUSE_BASE_URL` to your deployment URL.
#### Using Both Providers
If both LangSmith and Langfuse are enabled, DeerFlow attaches both tracing callbacks and reports the same model activity to both systems.
If a provider is explicitly enabled but missing required credentials, or if its callback fails to initialize, DeerFlow fails fast when tracing is initialized during model creation and the error message names the provider that caused the failure.
For Docker deployments, tracing is disabled by default. Set `LANGSMITH_TRACING=true` and `LANGSMITH_API_KEY` in your `.env` to enable it.
## From Deep Research to Super Agent Harness
@@ -654,8 +526,6 @@ This is the difference between a chatbot with tool access and an agent with an a
**Summarization**: Within a session, DeerFlow manages context aggressively — summarizing completed sub-tasks, offloading intermediate results to the filesystem, compressing what's no longer immediately relevant. This lets it stay sharp across long, multi-step tasks without blowing the context window.
**Strict Tool-Call Recovery**: When a provider or middleware interrupts a tool-call loop, DeerFlow now strips provider-level raw tool-call metadata on forced-stop assistant messages and injects placeholder tool results for dangling calls before the next model invocation. This keeps OpenAI-compatible reasoning models that strictly validate `tool_call_id` sequences from failing with malformed history errors.
### Long-Term Memory
Most agents forget everything the moment a conversation ends. DeerFlow remembers.
README_fr.md
-19
View File
@@ -290,7 +290,6 @@ DeerFlow peut recevoir des tâches depuis des applications de messagerie. Les ca
| Telegram | Bot API (long-polling) | Facile |
| Slack | Socket Mode | Modérée |
| Feishu / Lark | WebSocket | Modérée |
| DingTalk | Stream Push (WebSocket) | Modérée |
**Configuration dans `config.yaml` :**
@@ -342,13 +341,6 @@ channels:
context:
thinking_enabled: true
subagent_enabled: true
dingtalk:
enabled: true
client_id: $DINGTALK_CLIENT_ID # ClientId depuis DingTalk Open Platform
client_secret: $DINGTALK_CLIENT_SECRET # ClientSecret depuis DingTalk Open Platform
allowed_users: [] # vide = tout le monde autorisé
card_template_id: "" # Optionnel : ID de modèle AI Card pour l'effet machine à écrire en streaming
```
Définissez les clés API correspondantes dans votre fichier `.env` :
@@ -364,10 +356,6 @@ SLACK_APP_TOKEN=xapp-...
# Feishu / Lark
FEISHU_APP_ID=cli_xxxx
FEISHU_APP_SECRET=your_app_secret
# DingTalk
DINGTALK_CLIENT_ID=your_client_id
DINGTALK_CLIENT_SECRET=your_client_secret
```
**Configuration Telegram**
@@ -390,13 +378,6 @@ DINGTALK_CLIENT_SECRET=your_client_secret
3. Dans **Events**, abonnez-vous à `im.message.receive_v1` et sélectionnez le mode **Long Connection**.
4. Copiez l'App ID et l'App Secret. Définissez `FEISHU_APP_ID` et `FEISHU_APP_SECRET` dans `.env` et activez le canal dans `config.yaml`.
**Configuration DingTalk**
1. Créez une application sur [DingTalk Open Platform](https://open.dingtalk.com/) et activez la capacité **Robot**.
2. Dans la page de configuration du robot, définissez le mode de réception des messages sur **Stream**.
3. Copiez le `Client ID` et le `Client Secret`. Définissez `DINGTALK_CLIENT_ID` et `DINGTALK_CLIENT_SECRET` dans `.env` et activez le canal dans `config.yaml`.
4. *(Optionnel)* Pour activer les réponses en streaming AI Card (effet machine à écrire), créez un modèle **AI Card** sur la [plateforme de cartes DingTalk](https://open.dingtalk.com/document/dingstart/typewriter-effect-streaming-ai-card), puis définissez `card_template_id` dans `config.yaml` avec l'ID du modèle. Vous devez également demander les permissions `Card.Streaming.Write` et `Card.Instance.Write`.
**Commandes**
Une fois un canal connecté, vous pouvez interagir avec DeerFlow directement depuis le chat :
README_ja.md
-19
View File
@@ -243,7 +243,6 @@ DeerFlowはメッセージングアプリからのタスク受信をサポート
| Telegram | Bot API(ロングポーリング) | 簡単 |
| Slack | Socket Mode | 中程度 |
| Feishu / Lark | WebSocket | 中程度 |
| DingTalk | Stream PushWebSocket | 中程度 |
**`config.yaml`での設定:**
@@ -295,13 +294,6 @@ channels:
context:
thinking_enabled: true
subagent_enabled: true
dingtalk:
enabled: true
client_id: $DINGTALK_CLIENT_ID # DingTalk Open PlatformのClientId
client_secret: $DINGTALK_CLIENT_SECRET # DingTalk Open PlatformのClientSecret
allowed_users: [] # 空 = 全員許可
card_template_id: "" # オプション:ストリーミングタイプライター効果用のAIカードテンプレートID
```
対応するAPIキーを`.env`ファイルに設定します:
@@ -317,10 +309,6 @@ SLACK_APP_TOKEN=xapp-...
# Feishu / Lark
FEISHU_APP_ID=cli_xxxx
FEISHU_APP_SECRET=your_app_secret
# DingTalk
DINGTALK_CLIENT_ID=your_client_id
DINGTALK_CLIENT_SECRET=your_client_secret
```
**Telegramのセットアップ**
@@ -343,13 +331,6 @@ DINGTALK_CLIENT_SECRET=your_client_secret
3. **イベント**で`im.message.receive_v1`を購読し、**ロングコネクション**モードを選択。
4. App IDとApp Secretをコピー。`.env`に`FEISHU_APP_ID`と`FEISHU_APP_SECRET`を設定し、`config.yaml`でチャネルを有効にします。
**DingTalkのセットアップ**
1. [DingTalk Open Platform](https://open.dingtalk.com/)でアプリを作成し、**ロボット**機能を有効化します。
2. ロボット設定ページでメッセージ受信モードを**Streamモード**に設定します。
3. `Client ID`と`Client Secret`をコピー。`.env`に`DINGTALK_CLIENT_ID`と`DINGTALK_CLIENT_SECRET`を設定し、`config.yaml`でチャネルを有効にします。
4. *(オプション)* ストリーミングAIカード返信(タイプライター効果)を有効にするには、[DingTalkカードプラットフォーム](https://open.dingtalk.com/document/dingstart/typewriter-effect-streaming-ai-card)で**AIカード**テンプレートを作成し、`config.yaml`の`card_template_id`にテンプレートIDを設定します。`Card.Streaming.Write` および `Card.Instance.Write` 権限の申請も必要です。
**コマンド**
チャネル接続後、チャットから直接DeerFlowと対話できます:
README_ru.md
-15
View File
@@ -256,7 +256,6 @@ DeerFlow принимает задачи прямо из мессенджеро
| Telegram | Bot API (long-polling) | Просто |
| Slack | Socket Mode | Средне |
| Feishu / Lark | WebSocket | Средне |
| DingTalk | Stream Push (WebSocket) | Средне |
**Конфигурация в `config.yaml`:**
@@ -279,13 +278,6 @@ channels:
enabled: true
bot_token: $TELEGRAM_BOT_TOKEN
allowed_users: []
dingtalk:
enabled: true
client_id: $DINGTALK_CLIENT_ID # ClientId с DingTalk Open Platform
client_secret: $DINGTALK_CLIENT_SECRET # ClientSecret с DingTalk Open Platform
allowed_users: [] # пусто = разрешить всем
card_template_id: "" # Опционально: ID шаблона AI Card для потокового эффекта печатной машинки
```
**Настройка Telegram**
@@ -293,13 +285,6 @@ channels:
1. Напишите [@BotFather](https://t.me/BotFather), отправьте `/newbot` и скопируйте HTTP API-токен.
2. Укажите `TELEGRAM_BOT_TOKEN` в `.env` и включите канал в `config.yaml`.
**Настройка DingTalk**
1. Создайте приложение на [DingTalk Open Platform](https://open.dingtalk.com/) и включите возможность **Робот**.
2. На странице настроек робота установите режим приёма сообщений на **Stream**.
3. Скопируйте `Client ID` и `Client Secret`. Укажите `DINGTALK_CLIENT_ID` и `DINGTALK_CLIENT_SECRET` в `.env` и включите канал в `config.yaml`.
4. *(Опционально)* Для включения потоковых ответов AI Card (эффект печатной машинки) создайте шаблон **AI Card** на [платформе карточек DingTalk](https://open.dingtalk.com/document/dingstart/typewriter-effect-streaming-ai-card), затем укажите `card_template_id` в `config.yaml` с ID шаблона. Также необходимо запросить разрешения `Card.Streaming.Write` и `Card.Instance.Write`.
**Доступные команды**
| Команда | Описание |
README_zh.md
+1 -54
View File
@@ -40,7 +40,6 @@ https://github.com/user-attachments/assets/a8bcadc4-e040-4cf2-8fda-dd768b999c18
- [快速开始](#快速开始)
- [配置](#配置)
- [运行应用](#运行应用)
- [部署建议与资源规划](#部署建议与资源规划)
- [方式一:Docker(推荐)](#方式一docker推荐)
- [方式二:本地开发](#方式二本地开发)
- [进阶配置](#进阶配置)
@@ -151,20 +150,6 @@ https://github.com/user-attachments/assets/a8bcadc4-e040-4cf2-8fda-dd768b999c18
### 运行应用
#### 部署建议与资源规划
可以先按下面的资源档位来选择 DeerFlow 的运行方式:
| 部署场景 | 起步配置 | 推荐配置 | 说明 |
|---------|-----------|------------|-------|
| 本地体验 / `make dev` | 4 vCPU、8 GB 内存、20 GB SSD 可用空间 | 8 vCPU、16 GB 内存 | 适合单个开发者或单个轻量会话,且模型走外部 API。`2 核 / 4 GB` 通常跑不稳。 |
| Docker 开发 / `make docker-start` | 4 vCPU、8 GB 内存、25 GB SSD 可用空间 | 8 vCPU、16 GB 内存 | 镜像构建、源码挂载和 sandbox 容器都会比纯本地模式更吃资源。 |
| 长期运行服务 / `make up` | 8 vCPU、16 GB 内存、40 GB SSD 可用空间 | 16 vCPU、32 GB 内存 | 更适合共享环境、多 agent 任务、报告生成或更重的 sandbox 负载。 |
- 上面的配置只覆盖 DeerFlow 本身;如果你还要本机部署本地大模型,请单独为模型服务预留资源。
- 持续运行的服务更推荐使用 Linux + Docker。macOS 和 Windows 更适合作为开发机或体验环境。
- 如果 CPU 或内存长期打满,先降低并发会话或重任务数量,再考虑升级到更高一档配置。
#### 方式一:Docker(推荐)
**开发模式**(支持热更新,挂载源码):
@@ -194,8 +179,7 @@ make down # 停止并移除容器
如果你更希望直接在本地启动各个服务:
前提:先完成上面的“配置”步骤(`make config` 和模型 API key 配置)。`make dev` 需要有效配置文件,默认读取项目根目录下的 `config.yaml`。可以用 `DEER_FLOW_PROJECT_ROOT` 显式指定项目根目录,也可以 `DEER_FLOW_CONFIG_PATH` 指向某个具体配置文件。运行期状态默认写到项目根目录下的 `.deer-flow`,可用 `DEER_FLOW_HOME` 覆盖;skills 默认读取项目根目录下的 `skills/`,可用 `DEER_FLOW_SKILLS_PATH` 覆盖。
在 Windows 上,请使用 Git Bash 运行本地开发流程。基于 bash 的服务脚本不支持直接在原生 `cmd.exe` 或 PowerShell 中执行,且 WSL 也不保证可用,因为部分脚本依赖 Git for Windows 的 `cygpath` 等工具。
前提:先完成上面的“配置”步骤(`make config` 和模型 API key 配置)。`make dev` 需要有效配置文件,默认读取项目根目录下的 `config.yaml`,也可以通过 `DEER_FLOW_CONFIG_PATH` 覆盖。
1. **检查依赖环境**
```bash
@@ -247,8 +231,6 @@ DeerFlow 支持从即时通讯应用接收任务。只要配置完成,对应
| Telegram | Bot APIlong-polling | 简单 |
| Slack | Socket Mode | 中等 |
| Feishu / Lark | WebSocket | 中等 |
| 企业微信智能机器人 | WebSocket | 中等 |
| 钉钉 | Stream PushWebSocket | 中等 |
**`config.yaml` 中的配置示例:**
@@ -276,11 +258,6 @@ channels:
# domain: https://open.feishu.cn # 国内版(默认)
# domain: https://open.larksuite.com # 国际版
wecom:
enabled: true
bot_id: $WECOM_BOT_ID
bot_secret: $WECOM_BOT_SECRET
slack:
enabled: true
bot_token: $SLACK_BOT_TOKEN # xoxb-...
@@ -305,13 +282,6 @@ channels:
context:
thinking_enabled: true
subagent_enabled: true
dingtalk:
enabled: true
client_id: $DINGTALK_CLIENT_ID # 钉钉开放平台 ClientId
client_secret: $DINGTALK_CLIENT_SECRET # 钉钉开放平台 ClientSecret
allowed_users: [] # 留空表示允许所有人
card_template_id: "" # 可选:AI 卡片模板 ID,用于流式打字机效果
```
说明:
@@ -331,14 +301,6 @@ SLACK_APP_TOKEN=xapp-...
# Feishu / Lark
FEISHU_APP_ID=cli_xxxx
FEISHU_APP_SECRET=your_app_secret
# 企业微信智能机器人
WECOM_BOT_ID=your_bot_id
WECOM_BOT_SECRET=your_bot_secret
# 钉钉
DINGTALK_CLIENT_ID=your_client_id
DINGTALK_CLIENT_SECRET=your_client_secret
```
**Telegram 配置**
@@ -361,21 +323,6 @@ DINGTALK_CLIENT_SECRET=your_client_secret
3. 在 **事件订阅** 中订阅 `im.message.receive_v1`,连接方式选择 **长连接**。
4. 复制 App ID 和 App Secret,在 `.env` 中设置 `FEISHU_APP_ID` 和 `FEISHU_APP_SECRET`,并在 `config.yaml` 中启用该渠道。
**企业微信智能机器人配置**
1. 在企业微信智能机器人平台创建机器人,获取 `bot_id` 和 `bot_secret`。
2. 在 `config.yaml` 中启用 `channels.wecom`,并填入 `bot_id` / `bot_secret`。
3. 在 `.env` 中设置 `WECOM_BOT_ID` 和 `WECOM_BOT_SECRET`。
4. 安装后端依赖时确保包含 `wecom-aibot-python-sdk`,渠道会通过 WebSocket 长连接接收消息,无需公网回调地址。
5. 当前支持文本、图片和文件入站消息;agent 生成的最终图片/文件也会回传到企业微信会话中。
**钉钉配置**
1. 在 [钉钉开放平台](https://open.dingtalk.com/) 创建应用,并启用 **机器人** 能力。
2. 在机器人配置页面设置消息接收模式为 **Stream模式**。
3. 复制 `Client ID` 和 `Client Secret`,在 `.env` 中设置 `DINGTALK_CLIENT_ID` 和 `DINGTALK_CLIENT_SECRET`,并在 `config.yaml` 中启用该渠道。
4. *(可选)* 如需开启流式 AI 卡片回复(打字机效果),请在[钉钉卡片平台](https://open.dingtalk.com/document/dingstart/typewriter-effect-streaming-ai-card)创建 **AI 卡片**模板,然后在 `config.yaml` 中将 `card_template_id` 设为该模板 ID。同时需要申请 `Card.Streaming.Write` 和 `Card.Instance.Write` 权限。
**命令**
渠道连接完成后,你可以直接在聊天窗口里和 DeerFlow 交互:
backend/CLAUDE.md
+48 -90
View File
@@ -7,14 +7,12 @@ This file provides guidance to Claude Code (claude.ai/code) when working with co
DeerFlow is a LangGraph-based AI super agent system with a full-stack architecture. The backend provides a "super agent" with sandbox execution, persistent memory, subagent delegation, and extensible tool integration - all operating in per-thread isolated environments.
**Architecture**:
- **Gateway API** (port 8001): REST API plus embedded LangGraph-compatible agent runtime
- **LangGraph Server** (port 2024): Agent runtime and workflow execution
- **Gateway API** (port 8001): REST API for models, MCP, skills, memory, artifacts, uploads, and local thread cleanup
- **Frontend** (port 3000): Next.js web interface
- **Nginx** (port 2026): Unified reverse proxy entry point
- **Provisioner** (port 8002, optional in Docker dev): Started only when sandbox is configured for provisioner/Kubernetes mode
**Runtime**:
- `make dev`, Docker dev, and production all run the agent runtime in Gateway via `RunManager` + `run_agent()` + `StreamBridge` (`packages/harness/deerflow/runtime/`). Nginx exposes that runtime at `/api/langgraph/*` and rewrites it to Gateway's native `/api/*` routers.
**Project Structure**:
```
deer-flow/
@@ -23,7 +21,7 @@ deer-flow/
├── extensions_config.json # MCP servers and skills configuration
├── backend/ # Backend application (this directory)
│ ├── Makefile # Backend-only commands (dev, gateway, lint)
│ ├── langgraph.json # LangGraph Studio graph configuration
│ ├── langgraph.json # LangGraph server configuration
│ ├── packages/
│ │ └── harness/ # deerflow-harness package (import: deerflow.*)
│ │ ├── pyproject.toml
@@ -81,15 +79,14 @@ When making code changes, you MUST update the relevant documentation:
```bash
make check # Check system requirements
make install # Install all dependencies (frontend + backend)
make dev # Start all services (Gateway + Frontend + Nginx), with config.yaml preflight
make start # Start production services locally
make dev # Start all services (LangGraph + Gateway + Frontend + Nginx), with config.yaml preflight
make stop # Stop all services
```
**Backend directory** (for backend development only):
```bash
make install # Install backend dependencies
make dev # Run Gateway API with reload (port 8001)
make dev # Run LangGraph server only (port 2024)
make gateway # Run Gateway API only (port 8001)
make test # Run all backend tests
make lint # Lint with ruff
@@ -112,7 +109,7 @@ CI runs these regression tests for every pull request via [.github/workflows/bac
The backend is split into two layers with a strict dependency direction:
- **Harness** (`packages/harness/deerflow/`): Publishable agent framework package (`deerflow-harness`). Import prefix: `deerflow.*`. Contains agent orchestration, tools, sandbox, models, MCP, skills, config — everything needed to build and run agents.
- **App** (`app/`): Unpublished application code. Import prefix: `app.*`. Contains the FastAPI Gateway API and IM channel integrations (Feishu, Slack, Telegram, DingTalk).
- **App** (`app/`): Unpublished application code. Import prefix: `app.*`. Contains the FastAPI Gateway API and IM channel integrations (Feishu, Slack, Telegram).
**Dependency rule**: App imports deerflow, but deerflow never imports app. This boundary is enforced by `tests/test_harness_boundary.py` which runs in CI.
@@ -153,26 +150,20 @@ from deerflow.config import get_app_config
### Middleware Chain
Lead-agent middlewares are assembled in strict append order across `packages/harness/deerflow/agents/middlewares/tool_error_handling_middleware.py` (`build_lead_runtime_middlewares`) and `packages/harness/deerflow/agents/lead_agent/agent.py` (`_build_middlewares`):
Middlewares execute in strict order in `packages/harness/deerflow/agents/lead_agent/agent.py`:
1. **ThreadDataMiddleware** - Creates per-thread directories under the user's isolation scope (`backend/.deer-flow/users/{user_id}/threads/{thread_id}/user-data/{workspace,uploads,outputs}`); resolves `user_id` via `get_effective_user_id()` (falls back to `"default"` in no-auth mode); Web UI thread deletion now follows LangGraph thread removal with Gateway cleanup of the local thread directory
1. **ThreadDataMiddleware** - Creates per-thread directories (`backend/.deer-flow/threads/{thread_id}/user-data/{workspace,uploads,outputs}`); Web UI thread deletion now follows LangGraph thread removal with Gateway cleanup of the local `.deer-flow/threads/{thread_id}` directory
2. **UploadsMiddleware** - Tracks and injects newly uploaded files into conversation
3. **SandboxMiddleware** - Acquires sandbox, stores `sandbox_id` in state
4. **DanglingToolCallMiddleware** - Injects placeholder ToolMessages for AIMessage tool_calls that lack responses (e.g., due to user interruption), including raw provider tool-call payloads preserved only in `additional_kwargs["tool_calls"]`
5. **LLMErrorHandlingMiddleware** - Normalizes provider/model invocation failures into recoverable assistant-facing errors before later middleware/tool stages run
6. **GuardrailMiddleware** - Pre-tool-call authorization via pluggable `GuardrailProvider` protocol (optional, if `guardrails.enabled` in config). Evaluates each tool call and returns error ToolMessage on deny. Three provider options: built-in `AllowlistProvider` (zero deps), OAP policy providers (e.g. `aport-agent-guardrails`), or custom providers. See [docs/GUARDRAILS.md](docs/GUARDRAILS.md) for setup, usage, and how to implement a provider.
7. **SandboxAuditMiddleware** - Audits sandboxed shell/file operations for security logging before tool execution continues
8. **ToolErrorHandlingMiddleware** - Converts tool exceptions into error `ToolMessage`s so the run can continue instead of aborting
9. **SummarizationMiddleware** - Context reduction when approaching token limits (optional, if enabled)
10. **TodoListMiddleware** - Task tracking with `write_todos` tool (optional, if plan_mode)
11. **TokenUsageMiddleware** - Records token usage metrics when token tracking is enabled (optional)
12. **TitleMiddleware** - Auto-generates thread title after first complete exchange and normalizes structured message content before prompting the title model
13. **MemoryMiddleware** - Queues conversations for async memory update (filters to user + final AI responses)
14. **ViewImageMiddleware** - Injects base64 image data before LLM call (conditional on vision support)
15. **DeferredToolFilterMiddleware** - Hides deferred tool schemas from the bound model until tool search is enabled (optional)
16. **SubagentLimitMiddleware** - Truncates excess `task` tool calls from model response to enforce `MAX_CONCURRENT_SUBAGENTS` limit (optional, if `subagent_enabled`)
17. **LoopDetectionMiddleware** - Detects repeated tool-call loops; hard-stop responses clear both structured `tool_calls` and raw provider tool-call metadata before forcing a final text answer
18. **ClarificationMiddleware** - Intercepts `ask_clarification` tool calls, interrupts via `Command(goto=END)` (must be last)
4. **DanglingToolCallMiddleware** - Injects placeholder ToolMessages for AIMessage tool_calls that lack responses (e.g., due to user interruption)
5. **GuardrailMiddleware** - Pre-tool-call authorization via pluggable `GuardrailProvider` protocol (optional, if `guardrails.enabled` in config). Evaluates each tool call and returns error ToolMessage on deny. Three provider options: built-in `AllowlistProvider` (zero deps), OAP policy providers (e.g. `aport-agent-guardrails`), or custom providers. See [docs/GUARDRAILS.md](docs/GUARDRAILS.md) for setup, usage, and how to implement a provider.
6. **SummarizationMiddleware** - Context reduction when approaching token limits (optional, if enabled)
7. **TodoListMiddleware** - Task tracking with `write_todos` tool (optional, if plan_mode)
8. **TitleMiddleware** - Auto-generates thread title after first complete exchange and normalizes structured message content before prompting the title model
9. **MemoryMiddleware** - Queues conversations for async memory update (filters to user + final AI responses)
10. **ViewImageMiddleware** - Injects base64 image data before LLM call (conditional on vision support)
11. **SubagentLimitMiddleware** - Truncates excess `task` tool calls from model response to enforce `MAX_CONCURRENT_SUBAGENTS` limit (optional, if subagent_enabled)
12. **ClarificationMiddleware** - Intercepts `ask_clarification` tool calls, interrupts via `Command(goto=END)` (must be last)
### Configuration System
@@ -205,7 +196,7 @@ Configuration priority:
### Gateway API (`app/gateway/`)
FastAPI application on port 8001 with health check at `GET /health`. Set `GATEWAY_ENABLE_DOCS=false` to disable `/docs`, `/redoc`, and `/openapi.json` in production (default: enabled).
FastAPI application on port 8001 with health check at `GET /health`.
**Routers**:
@@ -219,9 +210,6 @@ FastAPI application on port 8001 with health check at `GET /health`. Set `GATEWA
| **Threads** (`/api/threads/{id}`) | `DELETE /` - remove DeerFlow-managed local thread data after LangGraph thread deletion; unexpected failures are logged server-side and return a generic 500 detail |
| **Artifacts** (`/api/threads/{id}/artifacts`) | `GET /{path}` - serve artifacts; active content types (`text/html`, `application/xhtml+xml`, `image/svg+xml`) are always forced as download attachments to reduce XSS risk; `?download=true` still forces download for other file types |
| **Suggestions** (`/api/threads/{id}/suggestions`) | `POST /` - generate follow-up questions; rich list/block model content is normalized before JSON parsing |
| **Thread Runs** (`/api/threads/{id}/runs`) | `POST /` - create background run; `POST /stream` - create + SSE stream; `POST /wait` - create + block; `GET /` - list runs; `GET /{rid}` - run details; `POST /{rid}/cancel` - cancel; `GET /{rid}/join` - join SSE; `GET /{rid}/messages` - paginated messages `{data, has_more}`; `GET /{rid}/events` - full event stream; `GET /../messages` - thread messages with feedback; `GET /../token-usage` - aggregate tokens |
| **Feedback** (`/api/threads/{id}/runs/{rid}/feedback`) | `PUT /` - upsert feedback; `DELETE /` - delete user feedback; `POST /` - create feedback; `GET /` - list feedback; `GET /stats` - aggregate stats; `DELETE /{fid}` - delete specific |
| **Runs** (`/api/runs`) | `POST /stream` - stateless run + SSE; `POST /wait` - stateless run + block; `GET /{rid}/messages` - paginated messages by run_id `{data, has_more}` (cursor: `after_seq`/`before_seq`); `GET /{rid}/feedback` - list feedback by run_id |
Proxied through nginx: `/api/langgraph/*` → LangGraph, all other `/api/*` → Gateway.
@@ -235,7 +223,7 @@ Proxied through nginx: `/api/langgraph/*` → LangGraph, all other `/api/*` →
**Virtual Path System**:
- Agent sees: `/mnt/user-data/{workspace,uploads,outputs}`, `/mnt/skills`
- Physical: `backend/.deer-flow/users/{user_id}/threads/{thread_id}/user-data/...`, `deer-flow/skills/`
- Physical: `backend/.deer-flow/threads/{thread_id}/user-data/...`, `deer-flow/skills/`
- Translation: `replace_virtual_path()` / `replace_virtual_paths_in_command()`
- Detection: `is_local_sandbox()` checks `sandbox_id == "local"`
@@ -244,7 +232,7 @@ Proxied through nginx: `/api/langgraph/*` → LangGraph, all other `/api/*` →
- `ls` - Directory listing (tree format, max 2 levels)
- `read_file` - Read file contents with optional line range
- `write_file` - Write/append to files, creates directories
- `str_replace` - Substring replacement (single or all occurrences); same-path serialization is scoped to `(sandbox.id, path)` so isolated sandboxes do not contend on identical virtual paths inside one process
- `str_replace` - Substring replacement (single or all occurrences)
### Subagent System (`packages/harness/deerflow/subagents/`)
@@ -275,7 +263,7 @@ Proxied through nginx: `/api/langgraph/*` → LangGraph, all other `/api/*` →
- `invoke_acp_agent` - Invokes external ACP-compatible agents from `config.yaml`
- ACP launchers must be real ACP adapters. The standard `codex` CLI is not ACP-compatible by itself; configure a wrapper such as `npx -y @zed-industries/codex-acp` or an installed `codex-acp` binary
- Missing ACP executables now return an actionable error message instead of a raw `[Errno 2]`
- Each ACP agent uses a per-thread workspace at `{base_dir}/users/{user_id}/threads/{thread_id}/acp-workspace/`. The workspace is accessible to the lead agent via the virtual path `/mnt/acp-workspace/` (read-only). In docker sandbox mode, the directory is volume-mounted into the container at `/mnt/acp-workspace` (read-only); in local sandbox mode, path translation is handled by `tools.py`
- Each ACP agent uses a per-thread workspace at `{base_dir}/threads/{thread_id}/acp-workspace/`. The workspace is accessible to the lead agent via the virtual path `/mnt/acp-workspace/` (read-only). In docker sandbox mode, the directory is volume-mounted into the container at `/mnt/acp-workspace` (read-only); in local sandbox mode, path translation is handled by `tools.py`
- `image_search/` - Image search via DuckDuckGo
### MCP System (`packages/harness/deerflow/mcp/`)
@@ -299,23 +287,15 @@ Proxied through nginx: `/api/langgraph/*` → LangGraph, all other `/api/*` →
- `create_chat_model(name, thinking_enabled)` instantiates LLM from config via reflection
- Supports `thinking_enabled` flag with per-model `when_thinking_enabled` overrides
- Supports vLLM-style thinking toggles via `when_thinking_enabled.extra_body.chat_template_kwargs.enable_thinking` for Qwen reasoning models, while normalizing legacy `thinking` configs for backward compatibility
- Supports `supports_vision` flag for image understanding models
- Config values starting with `$` resolved as environment variables
- Missing provider modules surface actionable install hints from reflection resolvers (for example `uv add langchain-google-genai`)
### vLLM Provider (`packages/harness/deerflow/models/vllm_provider.py`)
- `VllmChatModel` subclasses `langchain_openai:ChatOpenAI` for vLLM 0.19.0 OpenAI-compatible endpoints
- Preserves vLLM's non-standard assistant `reasoning` field on full responses, streaming deltas, and follow-up tool-call turns
- Designed for configs that enable thinking through `extra_body.chat_template_kwargs.enable_thinking` on vLLM 0.19.0 Qwen reasoning models, while accepting the older `thinking` alias
### IM Channels System (`app/channels/`)
Bridges external messaging platforms (Feishu, Slack, Telegram, DingTalk) to the DeerFlow agent via the LangGraph Server.
Bridges external messaging platforms (Feishu, Slack, Telegram) to the DeerFlow agent via the LangGraph Server.
**Architecture**: Channels communicate with Gateway through the `langgraph-sdk` HTTP client (same as the frontend), ensuring threads are created and managed server-side. The internal SDK client injects process-local internal auth plus a matching CSRF cookie/header pair so Gateway accepts state-changing thread/run requests from channel workers without relying on browser session cookies.
**Architecture**: Channels communicate with the LangGraph Server through `langgraph-sdk` HTTP client (same as the frontend), ensuring threads are created and managed server-side.
**Components**:
- `message_bus.py` - Async pub/sub hub (`InboundMessage` → queue → dispatcher; `OutboundMessage` → callbacks → channels)
@@ -323,51 +303,40 @@ Bridges external messaging platforms (Feishu, Slack, Telegram, DingTalk) to the
- `manager.py` - Core dispatcher: creates threads via `client.threads.create()`, routes commands, keeps Slack/Telegram on `client.runs.wait()`, and uses `client.runs.stream(["messages-tuple", "values"])` for Feishu incremental outbound updates
- `base.py` - Abstract `Channel` base class (start/stop/send lifecycle)
- `service.py` - Manages lifecycle of all configured channels from `config.yaml`
- `slack.py` / `feishu.py` / `telegram.py` / `dingtalk.py` - Platform-specific implementations (`feishu.py` tracks the running card `message_id` in memory and patches the same card in place; `dingtalk.py` optionally uses AI Card streaming for in-place updates when `card_template_id` is configured)
- `slack.py` / `feishu.py` / `telegram.py` - Platform-specific implementations (`feishu.py` tracks the running card `message_id` in memory and patches the same card in place)
**Message Flow**:
1. External platform -> Channel impl -> `MessageBus.publish_inbound()`
2. `ChannelManager._dispatch_loop()` consumes from queue
3. For chat: look up/create thread through Gateway's LangGraph-compatible API
3. For chat: look up/create thread on LangGraph Server
4. Feishu chat: `runs.stream()` → accumulate AI text → publish multiple outbound updates (`is_final=False`) → publish final outbound (`is_final=True`)
5. Slack/Telegram chat: `runs.wait()` → extract final response → publish outbound
6. Feishu channel sends one running reply card up front, then patches the same card for each outbound update (card JSON sets `config.update_multi=true` for Feishu's patch API requirement)
7. DingTalk AI Card mode (when `card_template_id` configured): `runs.stream()` → create card with initial text → stream updates via `PUT /v1.0/card/streaming` → finalize on `is_final=True`. Falls back to `sampleMarkdown` if card creation or streaming fails
8. For commands (`/new`, `/status`, `/models`, `/memory`, `/help`): handle locally or query Gateway API
9. Outbound → channel callbacks → platform reply
7. For commands (`/new`, `/status`, `/models`, `/memory`, `/help`): handle locally or query Gateway API
8. Outbound → channel callbacks → platform reply
**Configuration** (`config.yaml` -> `channels`):
- `langgraph_url` - LangGraph-compatible Gateway API base URL (default: `http://localhost:8001/api`)
- `langgraph_url` - LangGraph Server URL (default: `http://localhost:2024`)
- `gateway_url` - Gateway API URL for auxiliary commands (default: `http://localhost:8001`)
- In Docker Compose, IM channels run inside the `gateway` container, so `localhost` points back to that container. Use `http://gateway:8001/api` for `langgraph_url` and `http://gateway:8001` for `gateway_url`, or set `DEER_FLOW_CHANNELS_LANGGRAPH_URL` / `DEER_FLOW_CHANNELS_GATEWAY_URL`.
- Per-channel configs: `feishu` (app_id, app_secret), `slack` (bot_token, app_token), `telegram` (bot_token), `dingtalk` (client_id, client_secret, optional `card_template_id` for AI Card streaming)
- In Docker Compose, IM channels run inside the `gateway` container, so `localhost` points back to that container. Use `http://langgraph:2024` / `http://gateway:8001`, or set `DEER_FLOW_CHANNELS_LANGGRAPH_URL` / `DEER_FLOW_CHANNELS_GATEWAY_URL`.
- Per-channel configs: `feishu` (app_id, app_secret), `slack` (bot_token, app_token), `telegram` (bot_token)
### Memory System (`packages/harness/deerflow/agents/memory/`)
**Components**:
- `updater.py` - LLM-based memory updates with fact extraction, whitespace-normalized fact deduplication (trims leading/trailing whitespace before comparing), and atomic file I/O
- `queue.py` - Debounced update queue (per-thread deduplication, configurable wait time); captures `user_id` at enqueue time so it survives the `threading.Timer` boundary
- `queue.py` - Debounced update queue (per-thread deduplication, configurable wait time)
- `prompt.py` - Prompt templates for memory updates
- `storage.py` - File-based storage with per-user isolation; cache keyed by `(user_id, agent_name)` tuple
**Per-User Isolation**:
- Memory is stored per-user at `{base_dir}/users/{user_id}/memory.json`
- Per-agent per-user memory at `{base_dir}/users/{user_id}/agents/{agent_name}/memory.json`
- `user_id` is resolved via `get_effective_user_id()` from `deerflow.runtime.user_context`
- In no-auth mode, `user_id` defaults to `"default"` (constant `DEFAULT_USER_ID`)
- Absolute `storage_path` in config opts out of per-user isolation
- **Migration**: Run `PYTHONPATH=. python scripts/migrate_user_isolation.py` to move legacy `memory.json` and `threads/` into per-user layout; supports `--dry-run`
**Data Structure** (stored in `{base_dir}/users/{user_id}/memory.json`):
**Data Structure** (stored in `backend/.deer-flow/memory.json`):
- **User Context**: `workContext`, `personalContext`, `topOfMind` (1-3 sentence summaries)
- **History**: `recentMonths`, `earlierContext`, `longTermBackground`
- **Facts**: Discrete facts with `id`, `content`, `category` (preference/knowledge/context/behavior/goal), `confidence` (0-1), `createdAt`, `source`
**Workflow**:
1. `MemoryMiddleware` filters messages (user inputs + final AI responses), captures `user_id` via `get_effective_user_id()`, and queues conversation with the captured `user_id`
1. `MemoryMiddleware` filters messages (user inputs + final AI responses) and queues conversation
2. Queue debounces (30s default), batches updates, deduplicates per-thread
3. Background thread invokes LLM to extract context updates and facts, using the stored `user_id` (not the contextvar, which is unavailable on timer threads)
3. Background thread invokes LLM to extract context updates and facts
4. Applies updates atomically (temp file + rename) with cache invalidation, skipping duplicate fact content before append
5. Next interaction injects top 15 facts + context into `<memory>` tags in system prompt
@@ -375,7 +344,7 @@ Focused regression coverage for the updater lives in `backend/tests/test_memory_
**Configuration** (`config.yaml``memory`):
- `enabled` / `injection_enabled` - Master switches
- `storage_path` - Path to memory.json (absolute path opts out of per-user isolation)
- `storage_path` - Path to memory.json
- `debounce_seconds` - Wait time before processing (default: 30)
- `model_name` - LLM for updates (null = default model)
- `max_facts` / `fact_confidence_threshold` - Fact storage limits (100 / 0.7)
@@ -390,7 +359,6 @@ Focused regression coverage for the updater lives in `backend/tests/test_memory_
**`config.yaml`** key sections:
- `models[]` - LLM configs with `use` class path, `supports_thinking`, `supports_vision`, provider-specific fields
- vLLM reasoning models should use `deerflow.models.vllm_provider:VllmChatModel`; for Qwen-style parsers prefer `when_thinking_enabled.extra_body.chat_template_kwargs.enable_thinking`, and DeerFlow will also normalize the older `thinking` alias
- `tools[]` - Tool configs with `use` variable path and `group`
- `tool_groups[]` - Logical groupings for tools
- `sandbox.use` - Sandbox provider class path
@@ -410,19 +378,17 @@ Both can be modified at runtime via Gateway API endpoints or `DeerFlowClient` me
`DeerFlowClient` provides direct in-process access to all DeerFlow capabilities without HTTP services. All return types align with the Gateway API response schemas, so consumer code works identically in HTTP and embedded modes.
**Architecture**: Imports the same `deerflow` modules that Gateway API uses. Shares the same config files and data directories. No FastAPI dependency.
**Architecture**: Imports the same `deerflow` modules that LangGraph Server and Gateway API use. Shares the same config files and data directories. No FastAPI dependency.
**Agent Conversation**:
- `chat(message, thread_id)` — synchronous, accumulates streaming deltas per message-id and returns the final AI text
- `stream(message, thread_id)`subscribes to LangGraph `stream_mode=["values", "messages", "custom"]` and yields `StreamEvent`:
- `"values"` — full state snapshot (title, messages, artifacts); AI text already delivered via `messages` mode is **not** re-synthesized here to avoid duplicate deliveries
- `"messages-tuple"` — per-chunk update: for AI text this is a **delta** (concat per `id` to rebuild the full message); tool calls and tool results are emitted once each
- `"custom"` — forwarded from `StreamWriter`
- `"end"` — stream finished (carries cumulative `usage` counted once per message id)
**Agent Conversation** (replaces LangGraph Server):
- `chat(message, thread_id)` — synchronous, returns final text
- `stream(message, thread_id)`yields `StreamEvent` aligned with LangGraph SSE protocol:
- `"values"` — full state snapshot (title, messages, artifacts)
- `"messages-tuple"` — per-message update (AI text, tool calls, tool results)
- `"end"` — stream finished
- Agent created lazily via `create_agent()` + `_build_middlewares()`, same as `make_lead_agent`
- Supports `checkpointer` parameter for state persistence across turns
- `reset_agent()` forces agent recreation (e.g. after memory or skill changes)
- See [docs/STREAMING.md](docs/STREAMING.md) for the full design: why Gateway and DeerFlowClient are parallel paths, LangGraph's `stream_mode` semantics, the per-id dedup invariants, and regression testing strategy
**Gateway Equivalent Methods** (replaces Gateway API):
@@ -470,20 +436,8 @@ make dev
This starts all services and makes the application available at `http://localhost:2026`.
**All startup modes:**
| | **Local Foreground** | **Local Daemon** | **Docker Dev** | **Docker Prod** |
|---|---|---|---|---|
| **Dev** | `./scripts/serve.sh --dev`<br/>`make dev` | `./scripts/serve.sh --dev --daemon`<br/>`make dev-daemon` | `./scripts/docker.sh start`<br/>`make docker-start` | — |
| **Prod** | `./scripts/serve.sh --prod`<br/>`make start` | `./scripts/serve.sh --prod --daemon`<br/>`make start-daemon` | — | `./scripts/deploy.sh`<br/>`make up` |
| Action | Local | Docker Dev | Docker Prod |
|---|---|---|---|
| **Stop** | `./scripts/serve.sh --stop`<br/>`make stop` | `./scripts/docker.sh stop`<br/>`make docker-stop` | `./scripts/deploy.sh down`<br/>`make down` |
| **Restart** | `./scripts/serve.sh --restart [flags]` | `./scripts/docker.sh restart` | — |
**Nginx routing**:
- `/api/langgraph/*`Gateway embedded runtime (8001), rewritten to `/api/*`
- `/api/langgraph/*`LangGraph Server (2024)
- `/api/*` (other) → Gateway API (8001)
- `/` (non-API) → Frontend (3000)
@@ -492,11 +446,15 @@ This starts all services and makes the application available at `http://localhos
From the **backend** directory:
```bash
# Gateway API
# Terminal 1: LangGraph server
make dev
# Terminal 2: Gateway API
make gateway
```
Direct access (without nginx):
- LangGraph: `http://localhost:2024`
- Gateway: `http://localhost:8001`
### Frontend Configuration
backend/Dockerfile
+9 -48
View File
@@ -1,21 +1,14 @@
# Backend Dockerfile — multi-stage build
# Stage 1 (builder): compiles native Python extensions with build-essential
# Stage 2 (dev): retains toolchain for dev containers (uv sync at startup)
# Stage 3 (runtime): clean image without compiler toolchain for production
# Backend Development Dockerfile
# UV source image (override for restricted networks that cannot reach ghcr.io)
ARG UV_IMAGE=ghcr.io/astral-sh/uv:0.7.20
FROM ${UV_IMAGE} AS uv-source
# ── Stage 1: Builder ──────────────────────────────────────────────────────────
FROM python:3.12-slim-bookworm AS builder
FROM python:3.12-slim-bookworm
ARG NODE_MAJOR=22
ARG APT_MIRROR
ARG UV_INDEX_URL
# Optional extras to install (e.g. "postgres" for PostgreSQL support)
# Usage: docker build --build-arg UV_EXTRAS=postgres ...
ARG UV_EXTRAS
# Optionally override apt mirror for restricted networks (e.g. APT_MIRROR=mirrors.aliyun.com)
RUN if [ -n "${APT_MIRROR}" ]; then \
@@ -23,7 +16,7 @@ RUN if [ -n "${APT_MIRROR}" ]; then \
sed -i "s|deb.debian.org|${APT_MIRROR}|g" /etc/apt/sources.list 2>/dev/null || true; \
fi
# Install build tools + Node.js (build-essential needed for native Python extensions)
# Install system dependencies + Node.js (provides npx for MCP servers)
RUN apt-get update && apt-get install -y \
curl \
build-essential \
@@ -36,56 +29,24 @@ RUN apt-get update && apt-get install -y \
&& apt-get install -y nodejs \
&& rm -rf /var/lib/apt/lists/*
# Install Docker CLI (for DooD: allows starting sandbox containers via host Docker socket)
COPY --from=docker:cli /usr/local/bin/docker /usr/local/bin/docker
# Install uv (source image overridable via UV_IMAGE build arg)
COPY --from=uv-source /uv /uvx /usr/local/bin/
# Set working directory
WORKDIR /app
# Copy backend source code
# Copy frontend source code
COPY backend ./backend
# Install dependencies with cache mount
# When UV_EXTRAS is set (e.g. "postgres"), installs optional dependencies.
RUN --mount=type=cache,target=/root/.cache/uv \
sh -c "cd backend && UV_INDEX_URL=${UV_INDEX_URL:-https://pypi.org/simple} uv sync ${UV_EXTRAS:+--extra $UV_EXTRAS}"
# ── Stage 2: Dev ──────────────────────────────────────────────────────────────
# Retains compiler toolchain from builder so startup-time `uv sync` can build
# source distributions in development containers.
FROM builder AS dev
# Install Docker CLI (for DooD: allows starting sandbox containers via host Docker socket)
COPY --from=docker:cli /usr/local/bin/docker /usr/local/bin/docker
EXPOSE 8001 2024
CMD ["sh", "-c", "cd backend && PYTHONPATH=. uv run uvicorn app.gateway.app:app --host 0.0.0.0 --port 8001"]
# ── Stage 3: Runtime ──────────────────────────────────────────────────────────
# Clean image without build-essential — reduces size (~200 MB) and attack surface.
FROM python:3.12-slim-bookworm
# Copy Node.js runtime from builder (provides npx for MCP servers)
COPY --from=builder /usr/bin/node /usr/bin/node
COPY --from=builder /usr/lib/node_modules /usr/lib/node_modules
RUN ln -s ../lib/node_modules/npm/bin/npm-cli.js /usr/bin/npm \
&& ln -s ../lib/node_modules/npm/bin/npx-cli.js /usr/bin/npx
# Install Docker CLI (for DooD: allows starting sandbox containers via host Docker socket)
COPY --from=docker:cli /usr/local/bin/docker /usr/local/bin/docker
# Install uv (source image overridable via UV_IMAGE build arg)
COPY --from=uv-source /uv /uvx /usr/local/bin/
# Set working directory
WORKDIR /app
# Copy backend with pre-built virtualenv from builder
COPY --from=builder /app/backend ./backend
sh -c "cd backend && UV_INDEX_URL=${UV_INDEX_URL:-https://pypi.org/simple} uv sync"
# Expose ports (gateway: 8001, langgraph: 2024)
EXPOSE 8001 2024
# Default command (can be overridden in docker-compose)
CMD ["sh", "-c", "cd backend && PYTHONPATH=. uv run --no-sync uvicorn app.gateway.app:app --host 0.0.0.0 --port 8001"]
CMD ["sh", "-c", "cd backend && PYTHONPATH=. uv run uvicorn app.gateway.app:app --host 0.0.0.0 --port 8001"]
backend/Makefile
+1 -1
View File
@@ -2,7 +2,7 @@ install:
uv sync
dev:
PYTHONPATH=. uv run uvicorn app.gateway.app:app --host 0.0.0.0 --port 8001 --reload
uv run langgraph dev --no-browser --allow-blocking --no-reload
gateway:
PYTHONPATH=. uv run uvicorn app.gateway.app:app --host 0.0.0.0 --port 8001
backend/README.md
+1 -23
View File
@@ -78,7 +78,6 @@ Per-thread isolated execution with virtual path translation:
- **Virtual paths**: `/mnt/user-data/{workspace,uploads,outputs}` → thread-specific physical directories
- **Skills path**: `/mnt/skills``deer-flow/skills/` directory
- **Skills loading**: Recursively discovers nested `SKILL.md` files under `skills/{public,custom}` and preserves nested container paths
- **File-write safety**: `str_replace` serializes read-modify-write per `(sandbox.id, path)` so isolated sandboxes keep concurrency even when virtual paths match
- **Tools**: `bash`, `ls`, `read_file`, `write_file`, `str_replace` (`bash` is disabled by default when using `LocalSandboxProvider`; use `AioSandboxProvider` for isolated shell access)
### Subagent System
@@ -331,28 +330,7 @@ LANGSMITH_PROJECT=xxx
**Legacy variables:** The `LANGCHAIN_TRACING_V2`, `LANGCHAIN_API_KEY`, `LANGCHAIN_PROJECT`, and `LANGCHAIN_ENDPOINT` variables are also supported for backward compatibility. `LANGSMITH_*` variables take precedence when both are set.
### Langfuse Tracing
DeerFlow also supports [Langfuse](https://langfuse.com) observability for LangChain-compatible runs.
Add the following to your `.env` file:
```bash
LANGFUSE_TRACING=true
LANGFUSE_PUBLIC_KEY=pk-lf-xxxxxxxxxxxxxxxx
LANGFUSE_SECRET_KEY=sk-lf-xxxxxxxxxxxxxxxx
LANGFUSE_BASE_URL=https://cloud.langfuse.com
```
If you are using a self-hosted Langfuse deployment, set `LANGFUSE_BASE_URL` to your Langfuse host.
### Dual Provider Behavior
If both LangSmith and Langfuse are enabled, DeerFlow initializes and attaches both callbacks so the same run data is reported to both systems.
If a provider is explicitly enabled but required credentials are missing, or the provider callback cannot be initialized, DeerFlow raises an error when tracing is initialized during model creation instead of silently disabling tracing.
**Docker:** In `docker-compose.yaml`, tracing is disabled by default (`LANGSMITH_TRACING=false`). Set `LANGSMITH_TRACING=true` and/or `LANGFUSE_TRACING=true` in your `.env`, together with the required credentials, to enable tracing in containerized deployments.
**Docker:** In `docker-compose.yaml`, tracing is disabled by default (`LANGSMITH_TRACING=false`). Set `LANGSMITH_TRACING=true` and provide `LANGSMITH_API_KEY` in your `.env` to enable it in containerized deployments.
---
backend/app/channels/__init__.py
+1 -1
View File
@@ -2,7 +2,7 @@
Provides a pluggable channel system that connects external messaging platforms
(Feishu/Lark, Slack, Telegram) to the DeerFlow agent via the ChannelManager,
which uses ``langgraph-sdk`` to communicate with Gateway's LangGraph-compatible API.
which uses ``langgraph-sdk`` to communicate with the underlying LangGraph Server.
"""
from app.channels.base import Channel
backend/app/channels/base.py
-22
View File
@@ -31,10 +31,6 @@ class Channel(ABC):
def is_running(self) -> bool:
return self._running
@property
def supports_streaming(self) -> bool:
return False
# -- lifecycle ---------------------------------------------------------
@abstractmethod
@@ -110,21 +106,3 @@ class Channel(ABC):
logger.warning("[%s] file upload skipped for %s", self.name, attachment.filename)
except Exception:
logger.exception("[%s] failed to upload file %s", self.name, attachment.filename)
async def receive_file(self, msg: InboundMessage, thread_id: str) -> InboundMessage:
"""
Optionally process and materialize inbound file attachments for this channel.
By default, this method does nothing and simply returns the original message.
Subclasses (e.g. FeishuChannel) may override this to download files (images, documents, etc)
referenced in msg.files, save them to the sandbox, and update msg.text to include
the sandbox file paths for downstream model consumption.
Args:
msg: The inbound message, possibly containing file metadata in msg.files.
thread_id: The resolved DeerFlow thread ID for sandbox path context.
Returns:
The (possibly modified) InboundMessage, with text and/or files updated as needed.
"""
return msg
backend/app/channels/commands.py
-20
View File
@@ -1,20 +0,0 @@
"""Shared command definitions used by all channel implementations.
Keeping the authoritative command set in one place ensures that channel
parsers (e.g. Feishu) and the ChannelManager dispatcher stay in sync
automatically — adding or removing a command here is the single edit
required.
"""
from __future__ import annotations
KNOWN_CHANNEL_COMMANDS: frozenset[str] = frozenset(
{
"/bootstrap",
"/new",
"/status",
"/models",
"/memory",
"/help",
}
)
backend/app/channels/dingtalk.py
-740
View File
@@ -1,740 +0,0 @@
"""DingTalk channel implementation."""
from __future__ import annotations
import asyncio
import json
import logging
import re
import threading
import time
from pathlib import Path
from typing import Any
import httpx
from app.channels.base import Channel
from app.channels.commands import KNOWN_CHANNEL_COMMANDS
from app.channels.message_bus import InboundMessage, InboundMessageType, MessageBus, OutboundMessage, ResolvedAttachment
logger = logging.getLogger(__name__)
DINGTALK_API_BASE = "https://api.dingtalk.com"
_TOKEN_REFRESH_MARGIN_SECONDS = 300
_CONVERSATION_TYPE_P2P = "1"
_CONVERSATION_TYPE_GROUP = "2"
_MAX_UPLOAD_SIZE_BYTES = 20 * 1024 * 1024
def _normalize_conversation_type(raw: Any) -> str:
"""Normalize ``conversationType`` to ``"1"`` (P2P) or ``"2"`` (group).
Stream payloads may send int or string values.
"""
if raw is None:
return _CONVERSATION_TYPE_P2P
s = str(raw).strip()
if s == _CONVERSATION_TYPE_GROUP:
return _CONVERSATION_TYPE_GROUP
return _CONVERSATION_TYPE_P2P
def _normalize_allowed_users(allowed_users: Any) -> set[str]:
if allowed_users is None:
return set()
if isinstance(allowed_users, str):
values = [allowed_users]
elif isinstance(allowed_users, (list, tuple, set)):
values = allowed_users
else:
logger.warning(
"DingTalk allowed_users should be a list of user IDs; treating %s as one string value",
type(allowed_users).__name__,
)
values = [allowed_users]
return {str(uid) for uid in values if str(uid)}
def _is_dingtalk_command(text: str) -> bool:
if not text.startswith("/"):
return False
return text.split(maxsplit=1)[0].lower() in KNOWN_CHANNEL_COMMANDS
def _extract_text_from_rich_text(rich_text_list: list) -> str:
parts: list[str] = []
for item in rich_text_list:
if isinstance(item, dict) and "text" in item:
parts.append(item["text"])
return " ".join(parts)
_FENCED_CODE_BLOCK_RE = re.compile(r"```(\w*)\n(.*?)```", re.DOTALL)
_INLINE_CODE_RE = re.compile(r"`([^`\n]+)`")
_HORIZONTAL_RULE_RE = re.compile(r"^-{3,}$", re.MULTILINE)
_TABLE_SEPARATOR_RE = re.compile(r"^\|[-:| ]+\|$", re.MULTILINE)
def _convert_markdown_table(text: str) -> str:
# DingTalk sampleMarkdown does not render pipe-delimited tables.
lines = text.split("\n")
result: list[str] = []
i = 0
while i < len(lines):
line = lines[i]
# Detect table: header row followed by separator row
if i + 1 < len(lines) and line.strip().startswith("|") and _TABLE_SEPARATOR_RE.match(lines[i + 1].strip()):
headers = [h.strip() for h in line.strip().strip("|").split("|")]
i += 2 # skip header + separator
while i < len(lines) and lines[i].strip().startswith("|"):
cells = [c.strip() for c in lines[i].strip().strip("|").split("|")]
for h, c in zip(headers, cells):
result.append(f"> **{h}**: {c}")
result.append("")
i += 1
else:
result.append(line)
i += 1
return "\n".join(result)
def _adapt_markdown_for_dingtalk(text: str) -> str:
"""Adapt markdown for DingTalk's limited sampleMarkdown renderer."""
def _code_block_to_quote(match: re.Match) -> str:
lang = match.group(1)
code = match.group(2).rstrip("\n")
prefix = f"> **{lang}**\n" if lang else ""
quoted_lines = "\n".join(f"> {line}" for line in code.split("\n"))
return f"{prefix}{quoted_lines}\n"
text = _FENCED_CODE_BLOCK_RE.sub(_code_block_to_quote, text)
text = _INLINE_CODE_RE.sub(r"**\1**", text)
text = _convert_markdown_table(text)
text = _HORIZONTAL_RULE_RE.sub("───────────", text)
return text
class DingTalkChannel(Channel):
"""DingTalk IM channel using Stream Push (WebSocket, no public IP needed)."""
def __init__(self, bus: MessageBus, config: dict[str, Any]) -> None:
super().__init__(name="dingtalk", bus=bus, config=config)
self._thread: threading.Thread | None = None
self._main_loop: asyncio.AbstractEventLoop | None = None
self._client_id: str = ""
self._client_secret: str = ""
self._allowed_users: set[str] = _normalize_allowed_users(config.get("allowed_users"))
self._cached_token: str = ""
self._token_expires_at: float = 0.0
self._token_lock = asyncio.Lock()
self._card_template_id: str = config.get("card_template_id", "")
self._card_track_ids: dict[str, str] = {}
self._dingtalk_client: Any = None
self._stream_client: Any = None
self._incoming_messages: dict[str, Any] = {}
self._incoming_messages_lock = threading.Lock()
self._card_repliers: dict[str, Any] = {}
@property
def supports_streaming(self) -> bool:
return bool(self._card_template_id)
async def start(self) -> None:
if self._running:
return
try:
import dingtalk_stream # noqa: F401
except ImportError:
logger.error("dingtalk-stream is not installed. Install it with: uv add dingtalk-stream")
return
client_id = self.config.get("client_id", "")
client_secret = self.config.get("client_secret", "")
if not client_id or not client_secret:
logger.error("DingTalk channel requires client_id and client_secret")
return
self._client_id = client_id
self._client_secret = client_secret
self._main_loop = asyncio.get_running_loop()
if self._card_template_id:
logger.info("[DingTalk] AI Card mode enabled (template=%s)", self._card_template_id)
self._running = True
self.bus.subscribe_outbound(self._on_outbound)
self._thread = threading.Thread(
target=self._run_stream,
args=(client_id, client_secret),
daemon=True,
)
self._thread.start()
logger.info("DingTalk channel started")
async def stop(self) -> None:
self._running = False
self.bus.unsubscribe_outbound(self._on_outbound)
stream_client = self._stream_client
if stream_client is not None:
try:
if hasattr(stream_client, "disconnect"):
stream_client.disconnect()
except Exception:
logger.debug("[DingTalk] error disconnecting stream client", exc_info=True)
self._dingtalk_client = None
self._stream_client = None
with self._incoming_messages_lock:
self._incoming_messages.clear()
self._card_repliers.clear()
self._card_track_ids.clear()
if self._thread:
self._thread.join(timeout=5)
self._thread = None
logger.info("DingTalk channel stopped")
def _resolve_routing(self, msg: OutboundMessage) -> tuple[str, str, str]:
"""Return (conversation_type, sender_staff_id, conversation_id).
Uses msg.chat_id as the primary routing key; metadata as fallback.
"""
conversation_type = _normalize_conversation_type(msg.metadata.get("conversation_type"))
sender_staff_id = msg.metadata.get("sender_staff_id", "")
conversation_id = msg.metadata.get("conversation_id", "")
if conversation_type == _CONVERSATION_TYPE_GROUP:
conversation_id = msg.chat_id or conversation_id
else:
sender_staff_id = msg.chat_id or sender_staff_id
return conversation_type, sender_staff_id, conversation_id
async def send(self, msg: OutboundMessage, *, _max_retries: int = 3) -> None:
conversation_type, sender_staff_id, conversation_id = self._resolve_routing(msg)
robot_code = self._client_id
# Card mode: stream update to existing AI card
source_key = self._make_card_source_key_from_outbound(msg)
out_track_id = self._card_track_ids.get(source_key)
# ``card_template_id`` enables ``runs.stream`` (non-final + final outbounds).
# If card creation failed, skip non-final chunks to avoid duplicate messages.
if self._card_template_id and not out_track_id and not msg.is_final:
return
if out_track_id:
try:
await self._stream_update_card(
out_track_id,
msg.text,
is_finalize=msg.is_final,
)
except Exception:
logger.warning("[DingTalk] card stream failed, falling back to sampleMarkdown")
if msg.is_final:
self._card_track_ids.pop(source_key, None)
self._card_repliers.pop(out_track_id, None)
await self._send_markdown_fallback(robot_code, conversation_type, sender_staff_id, conversation_id, msg.text)
return
if msg.is_final:
self._card_track_ids.pop(source_key, None)
self._card_repliers.pop(out_track_id, None)
return
# Non-card mode: send sampleMarkdown with retry
last_exc: Exception | None = None
for attempt in range(_max_retries):
try:
if conversation_type == _CONVERSATION_TYPE_GROUP:
await self._send_group_message(robot_code, conversation_id, msg.text, at_user_ids=[sender_staff_id] if sender_staff_id else None)
else:
await self._send_p2p_message(robot_code, sender_staff_id, msg.text)
return
except Exception as exc:
last_exc = exc
if attempt < _max_retries - 1:
delay = 2**attempt
logger.warning(
"[DingTalk] send failed (attempt %d/%d), retrying in %ds: %s",
attempt + 1,
_max_retries,
delay,
exc,
)
await asyncio.sleep(delay)
logger.error("[DingTalk] send failed after %d attempts: %s", _max_retries, last_exc)
if last_exc is None:
raise RuntimeError("DingTalk send failed without an exception from any attempt")
raise last_exc
async def _send_markdown_fallback(
self,
robot_code: str,
conversation_type: str,
sender_staff_id: str,
conversation_id: str,
text: str,
) -> None:
try:
if conversation_type == _CONVERSATION_TYPE_GROUP:
await self._send_group_message(robot_code, conversation_id, text)
else:
await self._send_p2p_message(robot_code, sender_staff_id, text)
except Exception:
logger.exception("[DingTalk] markdown fallback also failed")
raise
async def send_file(self, msg: OutboundMessage, attachment: ResolvedAttachment) -> bool:
if attachment.size > _MAX_UPLOAD_SIZE_BYTES:
logger.warning("[DingTalk] file too large (%d bytes), skipping: %s", attachment.size, attachment.filename)
return False
conversation_type, sender_staff_id, conversation_id = self._resolve_routing(msg)
robot_code = self._client_id
try:
media_id = await self._upload_media(attachment.actual_path, "image" if attachment.is_image else "file")
if not media_id:
return False
if attachment.is_image:
msg_key = "sampleImageMsg"
msg_param = json.dumps({"photoURL": media_id})
else:
msg_key = "sampleFile"
msg_param = json.dumps(
{
"fileUrl": media_id,
"fileName": attachment.filename,
"fileSize": str(attachment.size),
}
)
token = await self._get_access_token()
async with httpx.AsyncClient(timeout=httpx.Timeout(30.0)) as client:
if conversation_type == _CONVERSATION_TYPE_GROUP:
response = await client.post(
f"{DINGTALK_API_BASE}/v1.0/robot/groupMessages/send",
headers=self._api_headers(token),
json={
"msgKey": msg_key,
"msgParam": msg_param,
"robotCode": robot_code,
"openConversationId": conversation_id,
},
)
else:
response = await client.post(
f"{DINGTALK_API_BASE}/v1.0/robot/oToMessages/batchSend",
headers=self._api_headers(token),
json={
"msgKey": msg_key,
"msgParam": msg_param,
"robotCode": robot_code,
"userIds": [sender_staff_id],
},
)
response.raise_for_status()
logger.info("[DingTalk] file sent: %s", attachment.filename)
return True
except (httpx.HTTPError, OSError, ValueError, TypeError, AttributeError):
logger.exception("[DingTalk] failed to send file: %s", attachment.filename)
return False
# -- stream client (runs in dedicated thread) --------------------------
def _run_stream(self, client_id: str, client_secret: str) -> None:
try:
import dingtalk_stream
credential = dingtalk_stream.Credential(client_id, client_secret)
client = dingtalk_stream.DingTalkStreamClient(credential)
self._stream_client = client
client.register_callback_handler(
dingtalk_stream.chatbot.ChatbotMessage.TOPIC,
_DingTalkMessageHandler(self),
)
client.start_forever()
except Exception:
if self._running:
logger.exception("DingTalk Stream Push error")
finally:
self._stream_client = None
def _on_chatbot_message(self, message: Any) -> None:
if not self._running:
return
try:
sender_staff_id = message.sender_staff_id or ""
conversation_type = _normalize_conversation_type(message.conversation_type)
conversation_id = message.conversation_id or ""
msg_id = message.message_id or ""
sender_nick = message.sender_nick or ""
if self._allowed_users and sender_staff_id not in self._allowed_users:
logger.debug("[DingTalk] ignoring message from non-allowed user: %s", sender_staff_id)
return
text = self._extract_text(message)
if not text:
logger.info("[DingTalk] empty text, ignoring message")
return
logger.info(
"[DingTalk] parsed message: conv_type=%s, msg_id=%s, sender=%s(%s), text=%r",
conversation_type,
msg_id,
sender_staff_id,
sender_nick,
text[:100],
)
if _is_dingtalk_command(text):
msg_type = InboundMessageType.COMMAND
else:
msg_type = InboundMessageType.CHAT
# P2P: topic_id=None (single thread per user, like Telegram private chat)
# Group: topic_id=msg_id (each new message starts a new topic, like Feishu)
topic_id: str | None = msg_id if conversation_type == _CONVERSATION_TYPE_GROUP else None
# chat_id uses conversation_id for groups, sender_staff_id for P2P
chat_id = conversation_id if conversation_type == _CONVERSATION_TYPE_GROUP else sender_staff_id
inbound = self._make_inbound(
chat_id=chat_id,
user_id=sender_staff_id,
text=text,
msg_type=msg_type,
thread_ts=msg_id,
metadata={
"conversation_type": conversation_type,
"conversation_id": conversation_id,
"sender_staff_id": sender_staff_id,
"sender_nick": sender_nick,
"message_id": msg_id,
},
)
inbound.topic_id = topic_id
if self._card_template_id:
source_key = self._make_card_source_key(inbound)
with self._incoming_messages_lock:
self._incoming_messages[source_key] = message
if self._main_loop and self._main_loop.is_running():
logger.info("[DingTalk] publishing inbound message to bus (type=%s, msg_id=%s)", msg_type.value, msg_id)
fut = asyncio.run_coroutine_threadsafe(
self._prepare_inbound(chat_id, inbound),
self._main_loop,
)
fut.add_done_callback(lambda f, mid=msg_id: self._log_future_error(f, "prepare_inbound", mid))
else:
logger.warning("[DingTalk] main loop not running, cannot publish inbound message")
except Exception:
logger.exception("[DingTalk] error processing chatbot message")
@staticmethod
def _extract_text(message: Any) -> str:
msg_type = message.message_type
if msg_type == "text" and message.text:
return message.text.content.strip()
if msg_type == "richText" and message.rich_text_content:
return _extract_text_from_rich_text(message.rich_text_content.rich_text_list).strip()
return ""
async def _prepare_inbound(self, chat_id: str, inbound: InboundMessage) -> None:
# Running reply must finish before publish_inbound so AI card tracks are
# registered before the manager emits streaming outbounds.
await self._send_running_reply(chat_id, inbound)
await self.bus.publish_inbound(inbound)
async def _send_running_reply(self, chat_id: str, inbound: InboundMessage) -> None:
conversation_type = inbound.metadata.get("conversation_type", _CONVERSATION_TYPE_P2P)
sender_staff_id = inbound.metadata.get("sender_staff_id", "")
conversation_id = inbound.metadata.get("conversation_id", "")
text = "\u23f3 Working on it..."
try:
if self._card_template_id:
source_key = self._make_card_source_key(inbound)
with self._incoming_messages_lock:
chatbot_message = self._incoming_messages.pop(source_key, None)
out_track_id = await self._create_and_deliver_card(
text,
chatbot_message=chatbot_message,
)
if out_track_id:
self._card_track_ids[source_key] = out_track_id
logger.info("[DingTalk] AI card running reply sent for chat=%s", chat_id)
return
robot_code = self._client_id
if conversation_type == _CONVERSATION_TYPE_GROUP:
await self._send_text_message_to_group(robot_code, conversation_id, text)
else:
await self._send_text_message_to_user(robot_code, sender_staff_id, text)
logger.info("[DingTalk] 'Working on it...' reply sent for chat=%s", chat_id)
except Exception:
logger.exception("[DingTalk] failed to send running reply for chat=%s", chat_id)
# -- DingTalk API helpers ----------------------------------------------
async def _get_access_token(self) -> str:
if self._cached_token and time.monotonic() < self._token_expires_at:
return self._cached_token
async with self._token_lock:
if self._cached_token and time.monotonic() < self._token_expires_at:
return self._cached_token
async with httpx.AsyncClient(timeout=httpx.Timeout(10.0)) as client:
response = await client.post(
f"{DINGTALK_API_BASE}/v1.0/oauth2/accessToken",
json={"appKey": self._client_id, "appSecret": self._client_secret}, # DingTalk API field names
)
response.raise_for_status()
data = response.json()
if not isinstance(data, dict):
raise ValueError(f"DingTalk access token response must be a JSON object, got {type(data).__name__}")
access_token = data.get("accessToken")
if not isinstance(access_token, str) or not access_token.strip():
raise ValueError("DingTalk access token response did not contain a usable accessToken")
raw_expires_in = data.get("expireIn", 7200)
try:
expires_in = int(raw_expires_in)
except (TypeError, ValueError):
logger.warning("[DingTalk] invalid expireIn value %r, using default 7200s", raw_expires_in)
expires_in = 7200
self._cached_token = access_token.strip()
self._token_expires_at = time.monotonic() + expires_in - _TOKEN_REFRESH_MARGIN_SECONDS
return self._cached_token
@staticmethod
def _api_headers(token: str) -> dict[str, str]:
return {
"x-acs-dingtalk-access-token": token,
"Content-Type": "application/json",
}
async def _send_text_message_to_user(self, robot_code: str, user_id: str, text: str) -> None:
token = await self._get_access_token()
async with httpx.AsyncClient(timeout=httpx.Timeout(30.0)) as client:
response = await client.post(
f"{DINGTALK_API_BASE}/v1.0/robot/oToMessages/batchSend",
headers=self._api_headers(token),
json={
"msgKey": "sampleText",
"msgParam": json.dumps({"content": text}),
"robotCode": robot_code,
"userIds": [user_id],
},
)
response.raise_for_status()
async def _send_text_message_to_group(self, robot_code: str, conversation_id: str, text: str) -> None:
token = await self._get_access_token()
async with httpx.AsyncClient(timeout=httpx.Timeout(30.0)) as client:
response = await client.post(
f"{DINGTALK_API_BASE}/v1.0/robot/groupMessages/send",
headers=self._api_headers(token),
json={
"msgKey": "sampleText",
"msgParam": json.dumps({"content": text}),
"robotCode": robot_code,
"openConversationId": conversation_id,
},
)
response.raise_for_status()
async def _send_p2p_message(self, robot_code: str, user_id: str, text: str) -> None:
text = _adapt_markdown_for_dingtalk(text)
token = await self._get_access_token()
async with httpx.AsyncClient(timeout=httpx.Timeout(30.0)) as client:
response = await client.post(
f"{DINGTALK_API_BASE}/v1.0/robot/oToMessages/batchSend",
headers=self._api_headers(token),
json={
"msgKey": "sampleMarkdown",
"msgParam": json.dumps({"title": "DeerFlow", "text": text}),
"robotCode": robot_code,
"userIds": [user_id],
},
)
response.raise_for_status()
data = response.json()
if data.get("processQueryKey"):
logger.info("[DingTalk] P2P message sent to user=%s", user_id)
else:
logger.warning("[DingTalk] P2P send response: %s", data)
async def _send_group_message(
self,
robot_code: str,
conversation_id: str,
text: str,
*,
at_user_ids: list[str] | None = None, # noqa: ARG002
) -> None:
# at_user_ids accepted for call-site compatibility but not passed to the API
# (sampleMarkdown does not support @mentions).
text = _adapt_markdown_for_dingtalk(text)
token = await self._get_access_token()
async with httpx.AsyncClient(timeout=httpx.Timeout(30.0)) as client:
response = await client.post(
f"{DINGTALK_API_BASE}/v1.0/robot/groupMessages/send",
headers=self._api_headers(token),
json={
"msgKey": "sampleMarkdown",
"msgParam": json.dumps({"title": "DeerFlow", "text": text}),
"robotCode": robot_code,
"openConversationId": conversation_id,
},
)
response.raise_for_status()
data = response.json()
if data.get("processQueryKey"):
logger.info("[DingTalk] group message sent to conversation=%s", conversation_id)
else:
logger.warning("[DingTalk] group send response: %s", data)
# -- AI Card streaming helpers -------------------------------------------
def _make_card_source_key(self, inbound: InboundMessage) -> str:
m = inbound.metadata
return f"{m.get('conversation_type', '')}:{m.get('sender_staff_id', '')}:{m.get('conversation_id', '')}:{m.get('message_id', '')}"
def _make_card_source_key_from_outbound(self, msg: OutboundMessage) -> str:
m = msg.metadata
correlation_id = m.get("message_id") or msg.thread_ts or ""
return f"{m.get('conversation_type', '')}:{m.get('sender_staff_id', '')}:{m.get('conversation_id', '')}:{correlation_id}"
async def _create_and_deliver_card(
self,
initial_text: str,
*,
chatbot_message: Any = None,
) -> str | None:
if self._dingtalk_client is None or chatbot_message is None:
logger.warning("[DingTalk] SDK client or chatbot_message unavailable, skipping AI card")
return None
try:
from dingtalk_stream.card_replier import AICardReplier
except ImportError:
logger.warning("[DingTalk] dingtalk-stream card_replier not available")
return None
try:
replier = AICardReplier(self._dingtalk_client, chatbot_message)
card_instance_id = await replier.async_create_and_deliver_card(
card_template_id=self._card_template_id,
card_data={"content": initial_text},
)
if not card_instance_id:
return None
self._card_repliers[card_instance_id] = replier
logger.info("[DingTalk] AI card created: outTrackId=%s", card_instance_id)
return card_instance_id
except Exception:
logger.exception("[DingTalk] failed to create AI card")
return None
async def _stream_update_card(
self,
out_track_id: str,
content: str,
*,
is_finalize: bool = False,
is_error: bool = False,
) -> None:
replier = self._card_repliers.get(out_track_id)
if not replier:
raise RuntimeError(f"No AICardReplier found for track ID {out_track_id}")
await replier.async_streaming(
card_instance_id=out_track_id,
content_key="content",
content_value=content,
append=False,
finished=is_finalize,
failed=is_error,
)
# -- media upload --------------------------------------------------------
async def _upload_media(self, file_path: str | Path, media_type: str) -> str | None:
try:
file_bytes = await asyncio.to_thread(Path(file_path).read_bytes)
token = await self._get_access_token()
async with httpx.AsyncClient(timeout=httpx.Timeout(60.0)) as client:
response = await client.post(
f"{DINGTALK_API_BASE}/v1.0/files/upload",
headers={"x-acs-dingtalk-access-token": token},
files={"file": ("upload", file_bytes)},
data={"type": media_type},
)
response.raise_for_status()
try:
payload = response.json()
except json.JSONDecodeError:
logger.exception("[DingTalk] failed to decode upload response JSON: %s", file_path)
return None
if not isinstance(payload, dict):
logger.warning("[DingTalk] unexpected upload response type %s for %s", type(payload).__name__, file_path)
return None
return payload.get("mediaId")
except (httpx.HTTPError, OSError):
logger.exception("[DingTalk] failed to upload media: %s", file_path)
return None
@staticmethod
def _log_future_error(fut: Any, name: str, msg_id: str) -> None:
try:
exc = fut.exception()
if exc:
logger.error("[DingTalk] %s failed for msg_id=%s: %s", name, msg_id, exc)
except (asyncio.CancelledError, asyncio.InvalidStateError):
pass
class _DingTalkMessageHandler:
"""Callback handler registered with dingtalk-stream."""
def __init__(self, channel: DingTalkChannel) -> None:
self._channel = channel
def pre_start(self) -> None:
if hasattr(self, "dingtalk_client") and self.dingtalk_client is not None:
self._channel._dingtalk_client = self.dingtalk_client
async def raw_process(self, callback_message: Any) -> Any:
import dingtalk_stream
from dingtalk_stream.frames import Headers
code, message = await self.process(callback_message)
ack_message = dingtalk_stream.AckMessage()
ack_message.code = code
ack_message.headers.message_id = callback_message.headers.message_id
ack_message.headers.content_type = Headers.CONTENT_TYPE_APPLICATION_JSON
ack_message.data = {"response": message}
return ack_message
async def process(self, callback: Any) -> tuple[int, str]:
import dingtalk_stream
incoming_message = dingtalk_stream.ChatbotMessage.from_dict(callback.data)
self._channel._on_chatbot_message(incoming_message)
return dingtalk_stream.AckMessage.STATUS_OK, "OK"
backend/app/channels/discord.py
-273
View File
@@ -1,273 +0,0 @@
"""Discord channel integration using discord.py."""
from __future__ import annotations
import asyncio
import logging
import threading
from typing import Any
from app.channels.base import Channel
from app.channels.message_bus import InboundMessageType, MessageBus, OutboundMessage, ResolvedAttachment
logger = logging.getLogger(__name__)
_DISCORD_MAX_MESSAGE_LEN = 2000
class DiscordChannel(Channel):
"""Discord bot channel.
Configuration keys (in ``config.yaml`` under ``channels.discord``):
- ``bot_token``: Discord Bot token.
- ``allowed_guilds``: (optional) List of allowed Discord guild IDs. Empty = allow all.
"""
def __init__(self, bus: MessageBus, config: dict[str, Any]) -> None:
super().__init__(name="discord", bus=bus, config=config)
self._bot_token = str(config.get("bot_token", "")).strip()
self._allowed_guilds: set[int] = set()
for guild_id in config.get("allowed_guilds", []):
try:
self._allowed_guilds.add(int(guild_id))
except (TypeError, ValueError):
continue
self._client = None
self._thread: threading.Thread | None = None
self._discord_loop: asyncio.AbstractEventLoop | None = None
self._main_loop: asyncio.AbstractEventLoop | None = None
self._discord_module = None
async def start(self) -> None:
if self._running:
return
try:
import discord
except ImportError:
logger.error("discord.py is not installed. Install it with: uv add discord.py")
return
if not self._bot_token:
logger.error("Discord channel requires bot_token")
return
intents = discord.Intents.default()
intents.messages = True
intents.guilds = True
intents.message_content = True
client = discord.Client(
intents=intents,
allowed_mentions=discord.AllowedMentions.none(),
)
self._client = client
self._discord_module = discord
self._main_loop = asyncio.get_event_loop()
@client.event
async def on_message(message) -> None:
await self._on_message(message)
self._running = True
self.bus.subscribe_outbound(self._on_outbound)
self._thread = threading.Thread(target=self._run_client, daemon=True)
self._thread.start()
logger.info("Discord channel started")
async def stop(self) -> None:
self._running = False
self.bus.unsubscribe_outbound(self._on_outbound)
if self._client and self._discord_loop and self._discord_loop.is_running():
close_future = asyncio.run_coroutine_threadsafe(self._client.close(), self._discord_loop)
try:
await asyncio.wait_for(asyncio.wrap_future(close_future), timeout=10)
except TimeoutError:
logger.warning("[Discord] client close timed out after 10s")
except Exception:
logger.exception("[Discord] error while closing client")
if self._thread:
self._thread.join(timeout=10)
self._thread = None
self._client = None
self._discord_loop = None
self._discord_module = None
logger.info("Discord channel stopped")
async def send(self, msg: OutboundMessage) -> None:
target = await self._resolve_target(msg)
if target is None:
logger.error("[Discord] target not found for chat_id=%s thread_ts=%s", msg.chat_id, msg.thread_ts)
return
text = msg.text or ""
for chunk in self._split_text(text):
send_future = asyncio.run_coroutine_threadsafe(target.send(chunk), self._discord_loop)
await asyncio.wrap_future(send_future)
async def send_file(self, msg: OutboundMessage, attachment: ResolvedAttachment) -> bool:
target = await self._resolve_target(msg)
if target is None:
logger.error("[Discord] target not found for file upload chat_id=%s thread_ts=%s", msg.chat_id, msg.thread_ts)
return False
if self._discord_module is None:
return False
try:
fp = open(str(attachment.actual_path), "rb") # noqa: SIM115
file = self._discord_module.File(fp, filename=attachment.filename)
send_future = asyncio.run_coroutine_threadsafe(target.send(file=file), self._discord_loop)
await asyncio.wrap_future(send_future)
logger.info("[Discord] file uploaded: %s", attachment.filename)
return True
except Exception:
logger.exception("[Discord] failed to upload file: %s", attachment.filename)
return False
async def _on_message(self, message) -> None:
if not self._running or not self._client:
return
if message.author.bot:
return
if self._client.user and message.author.id == self._client.user.id:
return
guild = message.guild
if self._allowed_guilds:
if guild is None or guild.id not in self._allowed_guilds:
return
text = (message.content or "").strip()
if not text:
return
if self._discord_module is None:
return
if isinstance(message.channel, self._discord_module.Thread):
chat_id = str(message.channel.parent_id or message.channel.id)
thread_id = str(message.channel.id)
else:
thread = await self._create_thread(message)
if thread is None:
return
chat_id = str(message.channel.id)
thread_id = str(thread.id)
msg_type = InboundMessageType.COMMAND if text.startswith("/") else InboundMessageType.CHAT
inbound = self._make_inbound(
chat_id=chat_id,
user_id=str(message.author.id),
text=text,
msg_type=msg_type,
thread_ts=thread_id,
metadata={
"guild_id": str(guild.id) if guild else None,
"channel_id": str(message.channel.id),
"message_id": str(message.id),
},
)
inbound.topic_id = thread_id
if self._main_loop and self._main_loop.is_running():
future = asyncio.run_coroutine_threadsafe(self.bus.publish_inbound(inbound), self._main_loop)
future.add_done_callback(lambda f: logger.exception("[Discord] publish_inbound failed", exc_info=f.exception()) if f.exception() else None)
def _run_client(self) -> None:
self._discord_loop = asyncio.new_event_loop()
asyncio.set_event_loop(self._discord_loop)
try:
self._discord_loop.run_until_complete(self._client.start(self._bot_token))
except Exception:
if self._running:
logger.exception("Discord client error")
finally:
try:
if self._client and not self._client.is_closed():
self._discord_loop.run_until_complete(self._client.close())
except Exception:
logger.exception("Error during Discord shutdown")
async def _create_thread(self, message):
try:
thread_name = f"deerflow-{message.author.display_name}-{message.id}"[:100]
return await message.create_thread(name=thread_name)
except Exception:
logger.exception("[Discord] failed to create thread for message=%s (threads may be disabled or missing permissions)", message.id)
try:
await message.channel.send("Could not create a thread for your message. Please check that threads are enabled in this channel.")
except Exception:
pass
return None
async def _resolve_target(self, msg: OutboundMessage):
if not self._client or not self._discord_loop:
return None
target_ids: list[str] = []
if msg.thread_ts:
target_ids.append(msg.thread_ts)
if msg.chat_id and msg.chat_id not in target_ids:
target_ids.append(msg.chat_id)
for raw_id in target_ids:
target = await self._get_channel_or_thread(raw_id)
if target is not None:
return target
return None
async def _get_channel_or_thread(self, raw_id: str):
if not self._client or not self._discord_loop:
return None
try:
target_id = int(raw_id)
except (TypeError, ValueError):
return None
get_future = asyncio.run_coroutine_threadsafe(self._fetch_channel(target_id), self._discord_loop)
try:
return await asyncio.wrap_future(get_future)
except Exception:
logger.exception("[Discord] failed to resolve target id=%s", raw_id)
return None
async def _fetch_channel(self, target_id: int):
if not self._client:
return None
channel = self._client.get_channel(target_id)
if channel is not None:
return channel
try:
return await self._client.fetch_channel(target_id)
except Exception:
return None
@staticmethod
def _split_text(text: str) -> list[str]:
if not text:
return [""]
chunks: list[str] = []
remaining = text
while len(remaining) > _DISCORD_MAX_MESSAGE_LEN:
split_at = remaining.rfind("\n", 0, _DISCORD_MAX_MESSAGE_LEN)
if split_at <= 0:
split_at = _DISCORD_MAX_MESSAGE_LEN
chunks.append(remaining[:split_at])
remaining = remaining[split_at:].lstrip("\n")
if remaining:
chunks.append(remaining)
return chunks
backend/app/channels/feishu.py
+6 -165
View File
@@ -5,26 +5,15 @@ from __future__ import annotations
import asyncio
import json
import logging
import re
import threading
from typing import Any, Literal
from typing import Any
from app.channels.base import Channel
from app.channels.commands import KNOWN_CHANNEL_COMMANDS
from app.channels.message_bus import InboundMessage, InboundMessageType, MessageBus, OutboundMessage, ResolvedAttachment
from deerflow.config.paths import VIRTUAL_PATH_PREFIX, get_paths
from deerflow.runtime.user_context import get_effective_user_id
from deerflow.sandbox.sandbox_provider import get_sandbox_provider
from app.channels.message_bus import InboundMessageType, MessageBus, OutboundMessage, ResolvedAttachment
logger = logging.getLogger(__name__)
def _is_feishu_command(text: str) -> bool:
if not text.startswith("/"):
return False
return text.split(maxsplit=1)[0].lower() in KNOWN_CHANNEL_COMMANDS
class FeishuChannel(Channel):
"""Feishu/Lark IM channel using the ``lark-oapi`` WebSocket client.
@@ -60,12 +49,6 @@ class FeishuChannel(Channel):
self._CreateFileRequestBody = None
self._CreateImageRequest = None
self._CreateImageRequestBody = None
self._GetMessageResourceRequest = None
self._thread_lock = threading.Lock()
@property
def supports_streaming(self) -> bool:
return True
async def start(self) -> None:
if self._running:
@@ -83,7 +66,6 @@ class FeishuChannel(Channel):
CreateMessageRequest,
CreateMessageRequestBody,
Emoji,
GetMessageResourceRequest,
PatchMessageRequest,
PatchMessageRequestBody,
ReplyMessageRequest,
@@ -107,7 +89,6 @@ class FeishuChannel(Channel):
self._CreateFileRequestBody = CreateFileRequestBody
self._CreateImageRequest = CreateImageRequest
self._CreateImageRequestBody = CreateImageRequestBody
self._GetMessageResourceRequest = GetMessageResourceRequest
app_id = self.config.get("app_id", "")
app_secret = self.config.get("app_secret", "")
@@ -218,9 +199,7 @@ class FeishuChannel(Channel):
await asyncio.sleep(delay)
logger.error("[Feishu] send failed after %d attempts: %s", _max_retries, last_exc)
if last_exc is None:
raise RuntimeError("Feishu send failed without an exception from any attempt")
raise last_exc
raise last_exc # type: ignore[misc]
async def send_file(self, msg: OutboundMessage, attachment: ResolvedAttachment) -> bool:
if not self._api_client:
@@ -287,113 +266,6 @@ class FeishuChannel(Channel):
raise RuntimeError(f"Feishu file upload failed: code={response.code}, msg={response.msg}")
return response.data.file_key
async def receive_file(self, msg: InboundMessage, thread_id: str) -> InboundMessage:
"""Download a Feishu file into the thread uploads directory.
Returns the sandbox virtual path when the image is persisted successfully.
"""
if not msg.thread_ts:
logger.warning("[Feishu] received file message without thread_ts, cannot associate with conversation: %s", msg)
return msg
files = msg.files
if not files:
logger.warning("[Feishu] received message with no files: %s", msg)
return msg
text = msg.text
for file in files:
if file.get("image_key"):
virtual_path = await self._receive_single_file(msg.thread_ts, file["image_key"], "image", thread_id)
text = text.replace("[image]", virtual_path, 1)
elif file.get("file_key"):
virtual_path = await self._receive_single_file(msg.thread_ts, file["file_key"], "file", thread_id)
text = text.replace("[file]", virtual_path, 1)
msg.text = text
return msg
async def _receive_single_file(self, message_id: str, file_key: str, type: Literal["image", "file"], thread_id: str) -> str:
request = self._GetMessageResourceRequest.builder().message_id(message_id).file_key(file_key).type(type).build()
def inner():
return self._api_client.im.v1.message_resource.get(request)
try:
response = await asyncio.to_thread(inner)
except Exception:
logger.exception("[Feishu] resource get request failed for resource_key=%s type=%s", file_key, type)
return f"Failed to obtain the [{type}]"
if not response.success():
logger.warning(
"[Feishu] resource get failed: resource_key=%s, type=%s, code=%s, msg=%s, log_id=%s ",
file_key,
type,
response.code,
response.msg,
response.get_log_id(),
)
return f"Failed to obtain the [{type}]"
image_stream = getattr(response, "file", None)
if image_stream is None:
logger.warning("[Feishu] resource get returned no file stream: resource_key=%s, type=%s", file_key, type)
return f"Failed to obtain the [{type}]"
try:
content: bytes = await asyncio.to_thread(image_stream.read)
except Exception:
logger.exception("[Feishu] failed to read resource stream: resource_key=%s, type=%s", file_key, type)
return f"Failed to obtain the [{type}]"
if not content:
logger.warning("[Feishu] empty resource content: resource_key=%s, type=%s", file_key, type)
return f"Failed to obtain the [{type}]"
paths = get_paths()
user_id = get_effective_user_id()
paths.ensure_thread_dirs(thread_id, user_id=user_id)
uploads_dir = paths.sandbox_uploads_dir(thread_id, user_id=user_id).resolve()
ext = "png" if type == "image" else "bin"
raw_filename = getattr(response, "file_name", "") or f"feishu_{file_key[-12:]}.{ext}"
# Sanitize filename: preserve extension, replace path chars in name part
if "." in raw_filename:
name_part, ext = raw_filename.rsplit(".", 1)
name_part = re.sub(r"[./\\]", "_", name_part)
filename = f"{name_part}.{ext}"
else:
filename = re.sub(r"[./\\]", "_", raw_filename)
resolved_target = uploads_dir / filename
def down_load():
# use thread_lock to avoid filename conflicts when writing
with self._thread_lock:
resolved_target.write_bytes(content)
try:
await asyncio.to_thread(down_load)
except Exception:
logger.exception("[Feishu] failed to persist downloaded resource: %s, type=%s", resolved_target, type)
return f"Failed to obtain the [{type}]"
virtual_path = f"{VIRTUAL_PATH_PREFIX}/uploads/{resolved_target.name}"
try:
sandbox_provider = get_sandbox_provider()
sandbox_id = sandbox_provider.acquire(thread_id)
if sandbox_id != "local":
sandbox = sandbox_provider.get(sandbox_id)
if sandbox is None:
logger.warning("[Feishu] sandbox not found for thread_id=%s", thread_id)
return f"Failed to obtain the [{type}]"
sandbox.update_file(virtual_path, content)
except Exception:
logger.exception("[Feishu] failed to sync resource into non-local sandbox: %s", virtual_path)
return f"Failed to obtain the [{type}]"
logger.info("[Feishu] downloaded resource mapped: file_key=%s -> %s", file_key, virtual_path)
return virtual_path
# -- message formatting ------------------------------------------------
@staticmethod
@@ -598,28 +470,9 @@ class FeishuChannel(Channel):
# Parse message content
content = json.loads(message.content)
# files_list store the any-file-key in feishu messages, which can be used to download the file content later
# In Feishu channel, image_keys are independent of file_keys.
# The file_key includes files, videos, and audio, but does not include stickers.
files_list = []
if "text" in content:
# Handle plain text messages
text = content["text"]
elif "file_key" in content:
file_key = content.get("file_key")
if isinstance(file_key, str) and file_key:
files_list.append({"file_key": file_key})
text = "[file]"
else:
text = ""
elif "image_key" in content:
image_key = content.get("image_key")
if isinstance(image_key, str) and image_key:
files_list.append({"image_key": image_key})
text = "[image]"
else:
text = ""
elif "content" in content and isinstance(content["content"], list):
# Handle rich-text messages with a top-level "content" list (e.g., topic groups/posts)
text_paragraphs: list[str] = []
@@ -633,16 +486,6 @@ class FeishuChannel(Channel):
text_value = element.get("text", "")
if text_value:
paragraph_text_parts.append(text_value)
elif element.get("tag") == "img":
image_key = element.get("image_key")
if isinstance(image_key, str) and image_key:
files_list.append({"image_key": image_key})
paragraph_text_parts.append("[image]")
elif element.get("tag") in ("file", "media"):
file_key = element.get("file_key")
if isinstance(file_key, str) and file_key:
files_list.append({"file_key": file_key})
paragraph_text_parts.append("[file]")
if paragraph_text_parts:
# Join text segments within a paragraph with spaces to avoid "helloworld"
text_paragraphs.append(" ".join(paragraph_text_parts))
@@ -662,13 +505,12 @@ class FeishuChannel(Channel):
text[:100] if text else "",
)
if not (text or files_list):
if not text:
logger.info("[Feishu] empty text, ignoring message")
return
# Only treat known slash commands as commands; absolute paths and
# other slash-prefixed text should be handled as normal chat.
if _is_feishu_command(text):
# Check if it's a command
if text.startswith("/"):
msg_type = InboundMessageType.COMMAND
else:
msg_type = InboundMessageType.CHAT
@@ -682,7 +524,6 @@ class FeishuChannel(Channel):
text=text,
msg_type=msg_type,
thread_ts=msg_id,
files=files_list,
metadata={"message_id": msg_id, "root_id": root_id},
)
inbound.topic_id = topic_id
backend/app/channels/manager.py
+11 -223
View File
@@ -1,4 +1,4 @@
"""ChannelManager — consumes inbound messages and dispatches them to the DeerFlow agent via Gateway."""
"""ChannelManager — consumes inbound messages and dispatches them to the DeerFlow agent via LangGraph Server."""
from __future__ import annotations
@@ -7,23 +7,17 @@ import logging
import mimetypes
import re
import time
from collections.abc import Awaitable, Callable, Mapping
from pathlib import Path
from collections.abc import Mapping
from typing import Any
import httpx
from langgraph_sdk.errors import ConflictError
from app.channels.commands import KNOWN_CHANNEL_COMMANDS
from app.channels.message_bus import InboundMessage, InboundMessageType, MessageBus, OutboundMessage, ResolvedAttachment
from app.channels.store import ChannelStore
from app.gateway.csrf_middleware import CSRF_COOKIE_NAME, CSRF_HEADER_NAME, generate_csrf_token
from app.gateway.internal_auth import create_internal_auth_headers
from deerflow.runtime.user_context import get_effective_user_id
logger = logging.getLogger(__name__)
DEFAULT_LANGGRAPH_URL = "http://localhost:8001/api"
DEFAULT_LANGGRAPH_URL = "http://localhost:2024"
DEFAULT_GATEWAY_URL = "http://localhost:8001"
DEFAULT_ASSISTANT_ID = "lead_agent"
CUSTOM_AGENT_NAME_PATTERN = re.compile(r"^[A-Za-z0-9-]+$")
@@ -38,79 +32,11 @@ STREAM_UPDATE_MIN_INTERVAL_SECONDS = 0.35
THREAD_BUSY_MESSAGE = "This conversation is already processing another request. Please wait for it to finish and try again."
CHANNEL_CAPABILITIES = {
"dingtalk": {"supports_streaming": False},
"discord": {"supports_streaming": False},
"feishu": {"supports_streaming": True},
"slack": {"supports_streaming": False},
"telegram": {"supports_streaming": False},
"wechat": {"supports_streaming": False},
"wecom": {"supports_streaming": True},
}
InboundFileReader = Callable[[dict[str, Any], httpx.AsyncClient], Awaitable[bytes | None]]
_METADATA_DROP_KEYS = frozenset({"raw_message", "ref_msg"})
def _slim_metadata(meta: dict[str, Any]) -> dict[str, Any]:
"""Return a shallow copy of *meta* with known-large keys removed."""
return {k: v for k, v in meta.items() if k not in _METADATA_DROP_KEYS}
INBOUND_FILE_READERS: dict[str, InboundFileReader] = {}
def register_inbound_file_reader(channel_name: str, reader: InboundFileReader) -> None:
INBOUND_FILE_READERS[channel_name] = reader
async def _read_http_inbound_file(file_info: dict[str, Any], client: httpx.AsyncClient) -> bytes | None:
url = file_info.get("url")
if not isinstance(url, str) or not url:
return None
resp = await client.get(url)
resp.raise_for_status()
return resp.content
async def _read_wecom_inbound_file(file_info: dict[str, Any], client: httpx.AsyncClient) -> bytes | None:
data = await _read_http_inbound_file(file_info, client)
if data is None:
return None
aeskey = file_info.get("aeskey") if isinstance(file_info.get("aeskey"), str) else None
if not aeskey:
return data
try:
from aibot.crypto_utils import decrypt_file
except Exception:
logger.exception("[Manager] failed to import WeCom decrypt_file")
return None
return decrypt_file(data, aeskey)
async def _read_wechat_inbound_file(file_info: dict[str, Any], client: httpx.AsyncClient) -> bytes | None:
raw_path = file_info.get("path")
if isinstance(raw_path, str) and raw_path.strip():
try:
return await asyncio.to_thread(Path(raw_path).read_bytes)
except OSError:
logger.exception("[Manager] failed to read WeChat inbound file from local path: %s", raw_path)
return None
full_url = file_info.get("full_url")
if isinstance(full_url, str) and full_url.strip():
return await _read_http_inbound_file({"url": full_url}, client)
return None
register_inbound_file_reader("wecom", _read_wecom_inbound_file)
register_inbound_file_reader("wechat", _read_wechat_inbound_file)
class InvalidChannelSessionConfigError(ValueError):
"""Raised when IM channel session overrides contain invalid agent config."""
@@ -353,15 +279,14 @@ def _resolve_attachments(thread_id: str, artifacts: list[str]) -> list[ResolvedA
attachments: list[ResolvedAttachment] = []
paths = get_paths()
user_id = get_effective_user_id()
outputs_dir = paths.sandbox_outputs_dir(thread_id, user_id=user_id).resolve()
outputs_dir = paths.sandbox_outputs_dir(thread_id).resolve()
for virtual_path in artifacts:
# Security: only allow files from the agent outputs directory
if not virtual_path.startswith(_OUTPUTS_VIRTUAL_PREFIX):
logger.warning("[Manager] rejected non-outputs artifact path: %s", virtual_path)
continue
try:
actual = paths.resolve_virtual_path(thread_id, virtual_path, user_id=user_id)
actual = paths.resolve_virtual_path(thread_id, virtual_path)
# Verify the resolved path is actually under the outputs directory
# (guards against path-traversal even after prefix check)
try:
@@ -416,110 +341,11 @@ def _prepare_artifact_delivery(
return response_text, attachments
async def _ingest_inbound_files(thread_id: str, msg: InboundMessage) -> list[dict[str, Any]]:
if not msg.files:
return []
from deerflow.uploads.manager import claim_unique_filename, ensure_uploads_dir, normalize_filename
uploads_dir = ensure_uploads_dir(thread_id)
seen_names = {entry.name for entry in uploads_dir.iterdir() if entry.is_file()}
created: list[dict[str, Any]] = []
file_reader = INBOUND_FILE_READERS.get(msg.channel_name, _read_http_inbound_file)
async with httpx.AsyncClient(timeout=httpx.Timeout(20.0)) as client:
for idx, f in enumerate(msg.files):
if not isinstance(f, dict):
continue
ftype = f.get("type") if isinstance(f.get("type"), str) else "file"
filename = f.get("filename") if isinstance(f.get("filename"), str) else ""
try:
data = await file_reader(f, client)
except Exception:
logger.exception(
"[Manager] failed to read inbound file: channel=%s, file=%s",
msg.channel_name,
f.get("url") or filename or idx,
)
continue
if data is None:
logger.warning(
"[Manager] inbound file reader returned no data: channel=%s, file=%s",
msg.channel_name,
f.get("url") or filename or idx,
)
continue
if not filename:
ext = ".bin"
if ftype == "image":
ext = ".png"
filename = f"{msg.thread_ts or 'msg'}_{idx}{ext}"
try:
safe_name = claim_unique_filename(normalize_filename(filename), seen_names)
except ValueError:
logger.warning(
"[Manager] skipping inbound file with unsafe filename: channel=%s, file=%r",
msg.channel_name,
filename,
)
continue
dest = uploads_dir / safe_name
try:
dest.write_bytes(data)
except Exception:
logger.exception("[Manager] failed to write inbound file: %s", dest)
continue
created.append(
{
"filename": safe_name,
"size": len(data),
"path": f"/mnt/user-data/uploads/{safe_name}",
"is_image": ftype == "image",
}
)
return created
def _format_uploaded_files_block(files: list[dict[str, Any]]) -> str:
lines = [
"<uploaded_files>",
"The following files were uploaded in this message:",
"",
]
if not files:
lines.append("(empty)")
else:
for f in files:
filename = f.get("filename", "")
size = int(f.get("size") or 0)
size_kb = size / 1024 if size else 0
size_str = f"{size_kb:.1f} KB" if size_kb < 1024 else f"{size_kb / 1024:.1f} MB"
path = f.get("path", "")
is_image = bool(f.get("is_image"))
file_kind = "image" if is_image else "file"
lines.append(f"- {filename} ({size_str})")
lines.append(f" Type: {file_kind}")
lines.append(f" Path: {path}")
lines.append("")
lines.append("Use `read_file` for text-based files and documents.")
lines.append("Use `view_image` for image files (jpg, jpeg, png, webp) so the model can inspect the image content.")
lines.append("</uploaded_files>")
return "\n".join(lines)
class ChannelManager:
"""Core dispatcher that bridges IM channels to the DeerFlow agent.
It reads from the MessageBus inbound queue, creates/reuses threads on
Gateway's LangGraph-compatible API, sends messages via ``runs.wait``, and publishes
the LangGraph Server, sends messages via ``runs.wait``, and publishes
outbound responses back through the bus.
"""
@@ -544,20 +370,12 @@ class ChannelManager:
self._default_session = _as_dict(default_session)
self._channel_sessions = dict(channel_sessions or {})
self._client = None # lazy init — langgraph_sdk async client
self._csrf_token = generate_csrf_token()
self._semaphore: asyncio.Semaphore | None = None
self._running = False
self._task: asyncio.Task | None = None
@staticmethod
def _channel_supports_streaming(channel_name: str) -> bool:
from .service import get_channel_service
service = get_channel_service()
if service:
channel = service.get_channel(channel_name)
if channel is not None:
return channel.supports_streaming
return CHANNEL_CAPABILITIES.get(channel_name, {}).get("supports_streaming", False)
def _resolve_session_layer(self, msg: InboundMessage) -> tuple[dict[str, Any], dict[str, Any]]:
@@ -604,14 +422,7 @@ class ChannelManager:
if self._client is None:
from langgraph_sdk import get_client
self._client = get_client(
url=self._langgraph_url,
headers={
**create_internal_auth_headers(),
CSRF_HEADER_NAME: self._csrf_token,
"Cookie": f"{CSRF_COOKIE_NAME}={self._csrf_token}",
},
)
self._client = get_client(url=self._langgraph_url)
return self._client
# -- lifecycle ---------------------------------------------------------
@@ -694,7 +505,7 @@ class ChannelManager:
# -- chat handling -----------------------------------------------------
async def _create_thread(self, client, msg: InboundMessage) -> str:
"""Create a new thread through Gateway and store the mapping."""
"""Create a new thread on the LangGraph Server and store the mapping."""
thread = await client.threads.create()
thread_id = thread["thread_id"]
self.store.set_thread_id(
@@ -704,7 +515,7 @@ class ChannelManager:
topic_id=msg.topic_id,
user_id=msg.user_id,
)
logger.info("[Manager] new thread created through Gateway: thread_id=%s for chat_id=%s topic_id=%s", thread_id, msg.chat_id, msg.topic_id)
logger.info("[Manager] new thread created on LangGraph Server: thread_id=%s for chat_id=%s topic_id=%s", thread_id, msg.chat_id, msg.topic_id)
return thread_id
async def _handle_chat(self, msg: InboundMessage, extra_context: dict[str, Any] | None = None) -> None:
@@ -722,25 +533,8 @@ class ChannelManager:
thread_id = await self._create_thread(client, msg)
assistant_id, run_config, run_context = self._resolve_run_params(msg, thread_id)
# If the inbound message contains file attachments, let the channel
# materialize (download) them and update msg.text to include sandbox file paths.
# This enables downstream models to access user-uploaded files by path.
# Channels that do not support file download will simply return the original message.
if msg.files:
from .service import get_channel_service
service = get_channel_service()
channel = service.get_channel(msg.channel_name) if service else None
logger.info("[Manager] preparing receive file context for %d attachments", len(msg.files))
msg = await channel.receive_file(msg, thread_id) if channel else msg
if extra_context:
run_context.update(extra_context)
uploaded = await _ingest_inbound_files(thread_id, msg)
if uploaded:
msg.text = f"{_format_uploaded_files_block(uploaded)}\n\n{msg.text}".strip()
if self._channel_supports_streaming(msg.channel_name):
await self._handle_streaming_chat(
client,
@@ -787,7 +581,6 @@ class ChannelManager:
artifacts=artifacts,
attachments=attachments,
thread_ts=msg.thread_ts,
metadata=_slim_metadata(msg.metadata),
)
logger.info("[Manager] publishing outbound message to bus: channel=%s, chat_id=%s", msg.channel_name, msg.chat_id)
await self.bus.publish_outbound(outbound)
@@ -849,7 +642,6 @@ class ChannelManager:
text=latest_text,
is_final=False,
thread_ts=msg.thread_ts,
metadata=_slim_metadata(msg.metadata),
)
)
last_published_text = latest_text
@@ -894,7 +686,6 @@ class ChannelManager:
attachments=attachments,
is_final=True,
thread_ts=msg.thread_ts,
metadata=_slim_metadata(msg.metadata),
)
)
@@ -914,7 +705,7 @@ class ChannelManager:
return
if command == "new":
# Create a new thread through Gateway
# Create a new thread on the LangGraph Server
client = self._get_client()
thread = await client.threads.create()
new_thread_id = thread["thread_id"]
@@ -944,8 +735,7 @@ class ChannelManager:
"/help — Show this help"
)
else:
available = " | ".join(sorted(KNOWN_CHANNEL_COMMANDS))
reply = f"Unknown command: /{command}. Available commands: {available}"
reply = f"Unknown command: /{command}. Type /help for available commands."
outbound = OutboundMessage(
channel_name=msg.channel_name,
@@ -953,7 +743,6 @@ class ChannelManager:
thread_id=self.store.get_thread_id(msg.channel_name, msg.chat_id) or "",
text=reply,
thread_ts=msg.thread_ts,
metadata=_slim_metadata(msg.metadata),
)
await self.bus.publish_outbound(outbound)
@@ -987,6 +776,5 @@ class ChannelManager:
thread_id=self.store.get_thread_id(msg.channel_name, msg.chat_id) or "",
text=error_text,
thread_ts=msg.thread_ts,
metadata=_slim_metadata(msg.metadata),
)
await self.bus.publish_outbound(outbound)
backend/app/channels/service.py
+9 -47
View File
@@ -4,38 +4,19 @@ from __future__ import annotations
import logging
import os
from typing import TYPE_CHECKING, Any
from typing import Any
from app.channels.base import Channel
from app.channels.manager import DEFAULT_GATEWAY_URL, DEFAULT_LANGGRAPH_URL, ChannelManager
from app.channels.message_bus import MessageBus
from app.channels.store import ChannelStore
logger = logging.getLogger(__name__)
if TYPE_CHECKING:
from deerflow.config.app_config import AppConfig
# Channel name → import path for lazy loading
_CHANNEL_REGISTRY: dict[str, str] = {
"dingtalk": "app.channels.dingtalk:DingTalkChannel",
"discord": "app.channels.discord:DiscordChannel",
"feishu": "app.channels.feishu:FeishuChannel",
"slack": "app.channels.slack:SlackChannel",
"telegram": "app.channels.telegram:TelegramChannel",
"wechat": "app.channels.wechat:WechatChannel",
"wecom": "app.channels.wecom:WeComChannel",
}
# Keys that indicate a user has configured credentials for a channel.
_CHANNEL_CREDENTIAL_KEYS: dict[str, list[str]] = {
"dingtalk": ["client_id", "client_secret"],
"discord": ["bot_token"],
"feishu": ["app_id", "app_secret"],
"slack": ["bot_token", "app_token"],
"telegram": ["bot_token"],
"wecom": ["bot_id", "bot_secret"],
"wechat": ["bot_token"],
}
_CHANNELS_LANGGRAPH_URL_ENV = "DEER_FLOW_CHANNELS_LANGGRAPH_URL"
@@ -80,15 +61,14 @@ class ChannelService:
self._running = False
@classmethod
def from_app_config(cls, app_config: AppConfig | None = None) -> ChannelService:
def from_app_config(cls) -> ChannelService:
"""Create a ChannelService from the application config."""
if app_config is None:
from deerflow.config.app_config import get_app_config
from deerflow.config.app_config import get_app_config
app_config = get_app_config()
config = get_app_config()
channels_config = {}
# extra fields are allowed by AppConfig (extra="allow")
extra = app_config.model_extra or {}
extra = config.model_extra or {}
if "channels" in extra:
channels_config = extra["channels"]
return cls(channels_config=channels_config)
@@ -104,16 +84,7 @@ class ChannelService:
if not isinstance(channel_config, dict):
continue
if not channel_config.get("enabled", False):
cred_keys = _CHANNEL_CREDENTIAL_KEYS.get(name, [])
has_creds = any(not isinstance(channel_config.get(k), bool) and channel_config.get(k) is not None and str(channel_config[k]).strip() for k in cred_keys)
if has_creds:
logger.warning(
"Channel '%s' has credentials configured but is disabled. Set enabled: true under channels.%s in config.yaml to activate it.",
name,
name,
)
else:
logger.info("Channel %s is disabled, skipping", name)
logger.info("Channel %s is disabled, skipping", name)
continue
await self._start_channel(name, channel_config)
@@ -168,16 +139,11 @@ class ChannelService:
try:
channel = channel_cls(bus=self.bus, config=config)
self._channels[name] = channel
await channel.start()
if not channel.is_running:
self._channels.pop(name, None)
logger.error("Channel %s did not enter a running state after start()", name)
return False
self._channels[name] = channel
logger.info("Channel %s started", name)
return True
except Exception:
self._channels.pop(name, None)
logger.exception("Failed to start channel %s", name)
return False
@@ -197,10 +163,6 @@ class ChannelService:
"channels": channels_status,
}
def get_channel(self, name: str) -> Channel | None:
"""Return a running channel instance by name when available."""
return self._channels.get(name)
# -- singleton access -------------------------------------------------------
@@ -212,12 +174,12 @@ def get_channel_service() -> ChannelService | None:
return _channel_service
async def start_channel_service(app_config: AppConfig | None = None) -> ChannelService:
async def start_channel_service() -> ChannelService:
"""Create and start the global ChannelService from app config."""
global _channel_service
if _channel_service is not None:
return _channel_service
_channel_service = ChannelService.from_app_config(app_config)
_channel_service = ChannelService.from_app_config()
await _channel_service.start()
return _channel_service
backend/app/channels/slack.py
+3 -23
View File
@@ -16,31 +16,13 @@ logger = logging.getLogger(__name__)
_slack_md_converter = SlackMarkdownConverter()
def _normalize_allowed_users(allowed_users: Any) -> set[str]:
if allowed_users is None:
return set()
if isinstance(allowed_users, str):
values = [allowed_users]
elif isinstance(allowed_users, list | tuple | set):
values = allowed_users
else:
logger.warning(
"Slack allowed_users should be a list of Slack user IDs or a single Slack user ID string; treating %s as one string value",
type(allowed_users).__name__,
)
values = [allowed_users]
return {str(user_id) for user_id in values if str(user_id)}
class SlackChannel(Channel):
"""Slack IM channel using Socket Mode (WebSocket, no public IP).
Configuration keys (in ``config.yaml`` under ``channels.slack``):
- ``bot_token``: Slack Bot User OAuth Token (xoxb-...).
- ``app_token``: Slack App-Level Token (xapp-...) for Socket Mode.
- ``allowed_users``: (optional) List of allowed Slack user IDs, or a
single Slack user ID string as shorthand. Empty = allow all. Other
scalar values are treated as a single string with a warning.
- ``allowed_users``: (optional) List of allowed Slack user IDs. Empty = allow all.
"""
def __init__(self, bus: MessageBus, config: dict[str, Any]) -> None:
@@ -48,7 +30,7 @@ class SlackChannel(Channel):
self._socket_client = None
self._web_client = None
self._loop: asyncio.AbstractEventLoop | None = None
self._allowed_users = _normalize_allowed_users(config.get("allowed_users", []))
self._allowed_users: set[str] = set(config.get("allowed_users", []))
async def start(self) -> None:
if self._running:
@@ -144,9 +126,7 @@ class SlackChannel(Channel):
)
except Exception:
pass
if last_exc is None:
raise RuntimeError("Slack send failed without an exception from any attempt")
raise last_exc
raise last_exc # type: ignore[misc]
async def send_file(self, msg: OutboundMessage, attachment: ResolvedAttachment) -> bool:
if not self._web_client:
backend/app/channels/telegram.py
+1 -3
View File
@@ -125,9 +125,7 @@ class TelegramChannel(Channel):
await asyncio.sleep(delay)
logger.error("[Telegram] send failed after %d attempts: %s", _max_retries, last_exc)
if last_exc is None:
raise RuntimeError("Telegram send failed without an exception from any attempt")
raise last_exc
raise last_exc # type: ignore[misc]
async def send_file(self, msg: OutboundMessage, attachment: ResolvedAttachment) -> bool:
if not self._application:
backend/app/channels/wechat.py
-1370
View File
File diff suppressed because it is too large Load Diff
backend/app/channels/wecom.py
-398
View File
@@ -1,398 +0,0 @@
from __future__ import annotations
import asyncio
import base64
import hashlib
import logging
from collections.abc import Awaitable, Callable
from typing import Any, cast
from app.channels.base import Channel
from app.channels.message_bus import (
InboundMessageType,
MessageBus,
OutboundMessage,
ResolvedAttachment,
)
logger = logging.getLogger(__name__)
class WeComChannel(Channel):
def __init__(self, bus: MessageBus, config: dict[str, Any]) -> None:
super().__init__(name="wecom", bus=bus, config=config)
self._bot_id: str | None = None
self._bot_secret: str | None = None
self._ws_client = None
self._ws_task: asyncio.Task | None = None
self._ws_frames: dict[str, dict[str, Any]] = {}
self._ws_stream_ids: dict[str, str] = {}
self._working_message = "Working on it..."
@property
def supports_streaming(self) -> bool:
return True
def _clear_ws_context(self, thread_ts: str | None) -> None:
if not thread_ts:
return
self._ws_frames.pop(thread_ts, None)
self._ws_stream_ids.pop(thread_ts, None)
async def _send_ws_upload_command(self, req_id: str, body: dict[str, Any], cmd: str) -> dict[str, Any]:
if not self._ws_client:
raise RuntimeError("WeCom WebSocket client is not available")
ws_manager = getattr(self._ws_client, "_ws_manager", None)
send_reply = getattr(ws_manager, "send_reply", None)
if not callable(send_reply):
raise RuntimeError("Installed wecom-aibot-python-sdk does not expose the WebSocket media upload API expected by DeerFlow. Use wecom-aibot-python-sdk==0.1.6 or update the adapter.")
send_reply_async = cast(Callable[[str, dict[str, Any], str], Awaitable[dict[str, Any]]], send_reply)
return await send_reply_async(req_id, body, cmd)
async def start(self) -> None:
if self._running:
return
bot_id = self.config.get("bot_id")
bot_secret = self.config.get("bot_secret")
working_message = self.config.get("working_message")
self._bot_id = bot_id if isinstance(bot_id, str) and bot_id else None
self._bot_secret = bot_secret if isinstance(bot_secret, str) and bot_secret else None
self._working_message = working_message if isinstance(working_message, str) and working_message else "Working on it..."
if not self._bot_id or not self._bot_secret:
logger.error("WeCom channel requires bot_id and bot_secret")
return
try:
from aibot import WSClient, WSClientOptions
except ImportError:
logger.error("wecom-aibot-python-sdk is not installed. Install it with: uv add wecom-aibot-python-sdk")
return
else:
self._ws_client = WSClient(WSClientOptions(bot_id=self._bot_id, secret=self._bot_secret, logger=logger))
self._ws_client.on("message.text", self._on_ws_text)
self._ws_client.on("message.mixed", self._on_ws_mixed)
self._ws_client.on("message.image", self._on_ws_image)
self._ws_client.on("message.file", self._on_ws_file)
self._ws_task = asyncio.create_task(self._ws_client.connect())
self._running = True
self.bus.subscribe_outbound(self._on_outbound)
logger.info("WeCom channel started")
async def stop(self) -> None:
self._running = False
self.bus.unsubscribe_outbound(self._on_outbound)
if self._ws_task:
try:
self._ws_task.cancel()
except Exception:
pass
self._ws_task = None
if self._ws_client:
try:
self._ws_client.disconnect()
except Exception:
pass
self._ws_client = None
self._ws_frames.clear()
self._ws_stream_ids.clear()
logger.info("WeCom channel stopped")
async def send(self, msg: OutboundMessage, *, _max_retries: int = 3) -> None:
if self._ws_client:
await self._send_ws(msg, _max_retries=_max_retries)
return
logger.warning("[WeCom] send called but WebSocket client is not available")
async def _on_outbound(self, msg: OutboundMessage) -> None:
if msg.channel_name != self.name:
return
try:
await self.send(msg)
except Exception:
logger.exception("Failed to send outbound message on channel %s", self.name)
if msg.is_final:
self._clear_ws_context(msg.thread_ts)
return
for attachment in msg.attachments:
try:
success = await self.send_file(msg, attachment)
if not success:
logger.warning("[%s] file upload skipped for %s", self.name, attachment.filename)
except Exception:
logger.exception("[%s] failed to upload file %s", self.name, attachment.filename)
if msg.is_final:
self._clear_ws_context(msg.thread_ts)
async def send_file(self, msg: OutboundMessage, attachment: ResolvedAttachment) -> bool:
if not msg.is_final:
return True
if not self._ws_client:
return False
if not msg.thread_ts:
return False
frame = self._ws_frames.get(msg.thread_ts)
if not frame:
return False
media_type = "image" if attachment.is_image else "file"
size_limit = 2 * 1024 * 1024 if attachment.is_image else 20 * 1024 * 1024
if attachment.size > size_limit:
logger.warning(
"[WeCom] %s too large (%d bytes), skipping: %s",
media_type,
attachment.size,
attachment.filename,
)
return False
try:
media_id = await self._upload_media_ws(
media_type=media_type,
filename=attachment.filename,
path=str(attachment.actual_path),
size=attachment.size,
)
if not media_id:
return False
body = {media_type: {"media_id": media_id}, "msgtype": media_type}
await self._ws_client.reply(frame, body)
logger.debug("[WeCom] %s sent via ws: %s", media_type, attachment.filename)
return True
except Exception:
logger.exception("[WeCom] failed to upload/send file via ws: %s", attachment.filename)
return False
async def _on_ws_text(self, frame: dict[str, Any]) -> None:
body = frame.get("body", {}) or {}
text = ((body.get("text") or {}).get("content") or "").strip()
quote = body.get("quote", {}).get("text", {}).get("content", "").strip()
if not text and not quote:
return
await self._publish_ws_inbound(frame, text + (f"\nQuote message: {quote}" if quote else ""))
async def _on_ws_mixed(self, frame: dict[str, Any]) -> None:
body = frame.get("body", {}) or {}
mixed = body.get("mixed") or {}
items = mixed.get("msg_item") or []
parts: list[str] = []
files: list[dict[str, Any]] = []
for item in items:
item_type = (item or {}).get("msgtype")
if item_type == "text":
content = (((item or {}).get("text") or {}).get("content") or "").strip()
if content:
parts.append(content)
elif item_type in ("image", "file"):
payload = (item or {}).get(item_type) or {}
url = payload.get("url")
aeskey = payload.get("aeskey")
if isinstance(url, str) and url:
files.append(
{
"type": item_type,
"url": url,
"aeskey": (aeskey if isinstance(aeskey, str) and aeskey else None),
}
)
text = "\n\n".join(parts).strip()
if not text and not files:
return
if not text:
text = "receive image/file"
await self._publish_ws_inbound(frame, text, files=files)
async def _on_ws_image(self, frame: dict[str, Any]) -> None:
body = frame.get("body", {}) or {}
image = body.get("image") or {}
url = image.get("url")
aeskey = image.get("aeskey")
if not isinstance(url, str) or not url:
return
await self._publish_ws_inbound(
frame,
"receive image ",
files=[
{
"type": "image",
"url": url,
"aeskey": aeskey if isinstance(aeskey, str) and aeskey else None,
}
],
)
async def _on_ws_file(self, frame: dict[str, Any]) -> None:
body = frame.get("body", {}) or {}
file_obj = body.get("file") or {}
url = file_obj.get("url")
aeskey = file_obj.get("aeskey")
if not isinstance(url, str) or not url:
return
await self._publish_ws_inbound(
frame,
"receive file",
files=[
{
"type": "file",
"url": url,
"aeskey": aeskey if isinstance(aeskey, str) and aeskey else None,
}
],
)
async def _publish_ws_inbound(
self,
frame: dict[str, Any],
text: str,
*,
files: list[dict[str, Any]] | None = None,
) -> None:
if not self._ws_client:
return
try:
from aibot import generate_req_id
except Exception:
return
body = frame.get("body", {}) or {}
msg_id = body.get("msgid")
if not msg_id:
return
user_id = (body.get("from") or {}).get("userid")
inbound_type = InboundMessageType.COMMAND if text.startswith("/") else InboundMessageType.CHAT
inbound = self._make_inbound(
chat_id=user_id, # keep user's conversation in memory
user_id=user_id,
text=text,
msg_type=inbound_type,
thread_ts=msg_id,
files=files or [],
metadata={"aibotid": body.get("aibotid"), "chattype": body.get("chattype")},
)
inbound.topic_id = user_id # keep the same thread
stream_id = generate_req_id("stream")
self._ws_frames[msg_id] = frame
self._ws_stream_ids[msg_id] = stream_id
try:
await self._ws_client.reply_stream(frame, stream_id, self._working_message, False)
except Exception:
pass
await self.bus.publish_inbound(inbound)
async def _send_ws(self, msg: OutboundMessage, *, _max_retries: int = 3) -> None:
if not self._ws_client:
return
try:
from aibot import generate_req_id
except Exception:
generate_req_id = None
if msg.thread_ts and msg.thread_ts in self._ws_frames:
frame = self._ws_frames[msg.thread_ts]
stream_id = self._ws_stream_ids.get(msg.thread_ts)
if not stream_id and generate_req_id:
stream_id = generate_req_id("stream")
self._ws_stream_ids[msg.thread_ts] = stream_id
if not stream_id:
return
last_exc: Exception | None = None
for attempt in range(_max_retries):
try:
await self._ws_client.reply_stream(frame, stream_id, msg.text, bool(msg.is_final))
return
except Exception as exc:
last_exc = exc
if attempt < _max_retries - 1:
await asyncio.sleep(2**attempt)
if last_exc:
raise last_exc
body = {"msgtype": "markdown", "markdown": {"content": msg.text}}
last_exc = None
for attempt in range(_max_retries):
try:
await self._ws_client.send_message(msg.chat_id, body)
return
except Exception as exc:
last_exc = exc
if attempt < _max_retries - 1:
await asyncio.sleep(2**attempt)
if last_exc:
raise last_exc
async def _upload_media_ws(
self,
*,
media_type: str,
filename: str,
path: str,
size: int,
) -> str | None:
if not self._ws_client:
return None
try:
from aibot import generate_req_id
except Exception:
return None
chunk_size = 512 * 1024
total_chunks = (size + chunk_size - 1) // chunk_size
if total_chunks < 1 or total_chunks > 100:
logger.warning("[WeCom] invalid total_chunks=%d for %s", total_chunks, filename)
return None
md5_hasher = hashlib.md5()
with open(path, "rb") as f:
for chunk in iter(lambda: f.read(1024 * 1024), b""):
md5_hasher.update(chunk)
md5 = md5_hasher.hexdigest()
init_req_id = generate_req_id("aibot_upload_media_init")
init_body = {
"type": media_type,
"filename": filename,
"total_size": int(size),
"total_chunks": int(total_chunks),
"md5": md5,
}
init_ack = await self._send_ws_upload_command(init_req_id, init_body, "aibot_upload_media_init")
upload_id = (init_ack.get("body") or {}).get("upload_id")
if not upload_id:
logger.warning("[WeCom] upload init returned no upload_id: %s", init_ack)
return None
with open(path, "rb") as f:
for idx in range(total_chunks):
data = f.read(chunk_size)
if not data:
break
chunk_req_id = generate_req_id("aibot_upload_media_chunk")
chunk_body = {
"upload_id": upload_id,
"chunk_index": int(idx),
"base64_data": base64.b64encode(data).decode("utf-8"),
}
await self._send_ws_upload_command(chunk_req_id, chunk_body, "aibot_upload_media_chunk")
finish_req_id = generate_req_id("aibot_upload_media_finish")
finish_ack = await self._send_ws_upload_command(finish_req_id, {"upload_id": upload_id}, "aibot_upload_media_finish")
media_id = (finish_ack.get("body") or {}).get("media_id")
if not media_id:
logger.warning("[WeCom] upload finish returned no media_id: %s", finish_ack)
return None
return media_id
backend/app/gateway/app.py
+10 -178
View File
@@ -1,23 +1,16 @@
import asyncio
import logging
import os
from collections.abc import AsyncGenerator
from contextlib import asynccontextmanager
from fastapi import FastAPI
from fastapi.middleware.cors import CORSMiddleware
from app.gateway.auth_middleware import AuthMiddleware
from app.gateway.config import get_gateway_config
from app.gateway.csrf_middleware import CSRFMiddleware
from app.gateway.deps import langgraph_runtime
from app.gateway.routers import (
agents,
artifacts,
assistants_compat,
auth,
channels,
feedback,
mcp,
memory,
models,
@@ -28,13 +21,9 @@ from app.gateway.routers import (
threads,
uploads,
)
from deerflow.config import app_config as deerflow_app_config
from deerflow.config.app_config import apply_logging_level
from deerflow.config.app_config import get_app_config
AppConfig = deerflow_app_config.AppConfig
get_app_config = deerflow_app_config.get_app_config
# Default logging; lifespan overrides from config.yaml log_level.
# Configure logging
logging.basicConfig(
level=logging.INFO,
format="%(asctime)s - %(name)s - %(levelname)s - %(message)s",
@@ -43,120 +32,6 @@ logging.basicConfig(
logger = logging.getLogger(__name__)
# Upper bound (seconds) each lifespan shutdown hook is allowed to run.
# Bounds worker exit time so uvicorn's reload supervisor does not keep
# firing signals into a worker that is stuck waiting for shutdown cleanup.
_SHUTDOWN_HOOK_TIMEOUT_SECONDS = 5.0
async def _ensure_admin_user(app: FastAPI) -> None:
"""Startup hook: handle first boot and migrate orphan threads otherwise.
After admin creation, migrate orphan threads from the LangGraph
store (metadata.user_id unset) to the admin account. This is the
"no-auth → with-auth" upgrade path: users who ran DeerFlow without
authentication have existing LangGraph thread data that needs an
owner assigned.
First boot (no admin exists):
- Does NOT create any user accounts automatically.
- The operator must visit ``/setup`` to create the first admin.
Subsequent boots (admin already exists):
- Runs the one-time "no-auth → with-auth" orphan thread migration for
existing LangGraph thread metadata that has no owner_id.
No SQL persistence migration is needed: the four user_id columns
(threads_meta, runs, run_events, feedback) only come into existence
alongside the auth module via create_all, so freshly created tables
never contain NULL-owner rows.
"""
from sqlalchemy import select
from app.gateway.deps import get_local_provider
from deerflow.persistence.engine import get_session_factory
from deerflow.persistence.user.model import UserRow
try:
provider = get_local_provider()
except RuntimeError:
# Auth persistence may not be initialized in some test/boot paths.
# Skip admin migration work rather than failing gateway startup.
logger.warning("Auth persistence not ready; skipping admin bootstrap check")
return
sf = get_session_factory()
if sf is None:
return
admin_count = await provider.count_admin_users()
if admin_count == 0:
logger.info("=" * 60)
logger.info(" First boot detected — no admin account exists.")
logger.info(" Visit /setup to complete admin account creation.")
logger.info("=" * 60)
return
# Admin already exists — run orphan thread migration for any
# LangGraph thread metadata that pre-dates the auth module.
async with sf() as session:
stmt = select(UserRow).where(UserRow.system_role == "admin").limit(1)
row = (await session.execute(stmt)).scalar_one_or_none()
if row is None:
return # Should not happen (admin_count > 0 above), but be safe.
admin_id = str(row.id)
# LangGraph store orphan migration — non-fatal.
# This covers the "no-auth → with-auth" upgrade path for users
# whose existing LangGraph thread metadata has no user_id set.
store = getattr(app.state, "store", None)
if store is not None:
try:
migrated = await _migrate_orphaned_threads(store, admin_id)
if migrated:
logger.info("Migrated %d orphan LangGraph thread(s) to admin", migrated)
except Exception:
logger.exception("LangGraph thread migration failed (non-fatal)")
async def _iter_store_items(store, namespace, *, page_size: int = 500):
"""Paginated async iterator over a LangGraph store namespace.
Replaces the old hardcoded ``limit=1000`` call with a cursor-style
loop so that environments with more than one page of orphans do
not silently lose data. Terminates when a page is empty OR when a
short page arrives (indicating the last page).
"""
offset = 0
while True:
batch = await store.asearch(namespace, limit=page_size, offset=offset)
if not batch:
return
for item in batch:
yield item
if len(batch) < page_size:
return
offset += page_size
async def _migrate_orphaned_threads(store, admin_user_id: str) -> int:
"""Migrate LangGraph store threads with no user_id to the given admin.
Uses cursor pagination so all orphans are migrated regardless of
count. Returns the number of rows migrated.
"""
migrated = 0
async for item in _iter_store_items(store, ("threads",)):
metadata = item.value.get("metadata", {})
if not metadata.get("user_id"):
metadata["user_id"] = admin_user_id
item.value["metadata"] = metadata
await store.aput(("threads",), item.key, item.value)
migrated += 1
return migrated
@asynccontextmanager
async def lifespan(app: FastAPI) -> AsyncGenerator[None, None]:
@@ -164,8 +39,7 @@ async def lifespan(app: FastAPI) -> AsyncGenerator[None, None]:
# Load config and check necessary environment variables at startup
try:
app.state.config = get_app_config()
apply_logging_level(app.state.config.log_level)
get_app_config()
logger.info("Configuration loaded successfully")
except Exception as e:
error_msg = f"Failed to load configuration during gateway startup: {e}"
@@ -178,34 +52,22 @@ async def lifespan(app: FastAPI) -> AsyncGenerator[None, None]:
async with langgraph_runtime(app):
logger.info("LangGraph runtime initialised")
# Ensure admin user exists (auto-create on first boot)
# Must run AFTER langgraph_runtime so app.state.store is available for thread migration
await _ensure_admin_user(app)
# Start IM channel service if any channels are configured
try:
from app.channels.service import start_channel_service
channel_service = await start_channel_service(app.state.config)
channel_service = await start_channel_service()
logger.info("Channel service started: %s", channel_service.get_status())
except Exception:
logger.exception("No IM channels configured or channel service failed to start")
yield
# Stop channel service on shutdown (bounded to prevent worker hang)
# Stop channel service on shutdown
try:
from app.channels.service import stop_channel_service
await asyncio.wait_for(
stop_channel_service(),
timeout=_SHUTDOWN_HOOK_TIMEOUT_SECONDS,
)
except TimeoutError:
logger.warning(
"Channel service shutdown exceeded %.1fs; proceeding with worker exit.",
_SHUTDOWN_HOOK_TIMEOUT_SECONDS,
)
await stop_channel_service()
except Exception:
logger.exception("Failed to stop channel service")
@@ -218,8 +80,6 @@ def create_app() -> FastAPI:
Returns:
Configured FastAPI application instance.
"""
config = get_gateway_config()
docs_kwargs = {"docs_url": "/docs", "redoc_url": "/redoc", "openapi_url": "/openapi.json"} if config.enable_docs else {"docs_url": None, "redoc_url": None, "openapi_url": None}
app = FastAPI(
title="DeerFlow API Gateway",
@@ -244,7 +104,9 @@ This gateway provides custom endpoints for models, MCP configuration, skills, an
""",
version="0.1.0",
lifespan=lifespan,
**docs_kwargs,
docs_url="/docs",
redoc_url="/redoc",
openapi_url="/openapi.json",
openapi_tags=[
{
"name": "models",
@@ -301,31 +163,7 @@ This gateway provides custom endpoints for models, MCP configuration, skills, an
],
)
# Auth: reject unauthenticated requests to non-public paths (fail-closed safety net)
app.add_middleware(AuthMiddleware)
# CSRF: Double Submit Cookie pattern for state-changing requests
app.add_middleware(CSRFMiddleware)
# CORS: when GATEWAY_CORS_ORIGINS is set (dev without nginx), add CORS middleware.
# In production, nginx handles CORS and no middleware is needed.
cors_origins_env = os.environ.get("GATEWAY_CORS_ORIGINS", "")
if cors_origins_env:
cors_origins = [o.strip() for o in cors_origins_env.split(",") if o.strip()]
# Validate: wildcard origin with credentials is a security misconfiguration
for origin in cors_origins:
if origin == "*":
logger.error("GATEWAY_CORS_ORIGINS contains wildcard '*' with allow_credentials=True. This is a security misconfiguration — browsers will reject the response. Use explicit scheme://host:port origins instead.")
cors_origins = [o for o in cors_origins if o != "*"]
break
if cors_origins:
app.add_middleware(
CORSMiddleware,
allow_origins=cors_origins,
allow_credentials=True,
allow_methods=["*"],
allow_headers=["*"],
)
# CORS is handled by nginx - no need for FastAPI middleware
# Include routers
# Models API is mounted at /api/models
@@ -361,12 +199,6 @@ This gateway provides custom endpoints for models, MCP configuration, skills, an
# Assistants compatibility API (LangGraph Platform stub)
app.include_router(assistants_compat.router)
# Auth API is mounted at /api/v1/auth
app.include_router(auth.router)
# Feedback API is mounted at /api/threads/{thread_id}/runs/{run_id}/feedback
app.include_router(feedback.router)
# Thread Runs API (LangGraph Platform-compatible runs lifecycle)
app.include_router(thread_runs.router)
backend/app/gateway/auth/__init__.py
-42
View File
@@ -1,42 +0,0 @@
"""Authentication module for DeerFlow.
This module provides:
- JWT-based authentication
- Provider Factory pattern for extensible auth methods
- UserRepository interface for storage backends (SQLite)
"""
from app.gateway.auth.config import AuthConfig, get_auth_config, set_auth_config
from app.gateway.auth.errors import AuthErrorCode, AuthErrorResponse, TokenError
from app.gateway.auth.jwt import TokenPayload, create_access_token, decode_token
from app.gateway.auth.local_provider import LocalAuthProvider
from app.gateway.auth.models import User, UserResponse
from app.gateway.auth.password import hash_password, verify_password
from app.gateway.auth.providers import AuthProvider
from app.gateway.auth.repositories.base import UserRepository
__all__ = [
# Config
"AuthConfig",
"get_auth_config",
"set_auth_config",
# Errors
"AuthErrorCode",
"AuthErrorResponse",
"TokenError",
# JWT
"TokenPayload",
"create_access_token",
"decode_token",
# Password
"hash_password",
"verify_password",
# Models
"User",
"UserResponse",
# Providers
"AuthProvider",
"LocalAuthProvider",
# Repository
"UserRepository",
]
backend/app/gateway/auth/config.py
-57
View File
@@ -1,57 +0,0 @@
"""Authentication configuration for DeerFlow."""
import logging
import os
import secrets
from pydantic import BaseModel, Field
logger = logging.getLogger(__name__)
class AuthConfig(BaseModel):
"""JWT and auth-related configuration. Parsed once at startup.
Note: the ``users`` table now lives in the shared persistence
database managed by ``deerflow.persistence.engine``. The old
``users_db_path`` config key has been removed — user storage is
configured through ``config.database`` like every other table.
"""
jwt_secret: str = Field(
...,
description="Secret key for JWT signing. MUST be set via AUTH_JWT_SECRET.",
)
token_expiry_days: int = Field(default=7, ge=1, le=30)
oauth_github_client_id: str | None = Field(default=None)
oauth_github_client_secret: str | None = Field(default=None)
_auth_config: AuthConfig | None = None
def get_auth_config() -> AuthConfig:
"""Get the global AuthConfig instance. Parses from env on first call."""
global _auth_config
if _auth_config is None:
from dotenv import load_dotenv
load_dotenv()
jwt_secret = os.environ.get("AUTH_JWT_SECRET")
if not jwt_secret:
jwt_secret = secrets.token_urlsafe(32)
os.environ["AUTH_JWT_SECRET"] = jwt_secret
logger.warning(
"⚠ AUTH_JWT_SECRET is not set — using an auto-generated ephemeral secret. "
"Sessions will be invalidated on restart. "
"For production, add AUTH_JWT_SECRET to your .env file: "
'python -c "import secrets; print(secrets.token_urlsafe(32))"'
)
_auth_config = AuthConfig(jwt_secret=jwt_secret)
return _auth_config
def set_auth_config(config: AuthConfig) -> None:
"""Set the global AuthConfig instance (for testing)."""
global _auth_config
_auth_config = config
backend/app/gateway/auth/credential_file.py
-48
View File
@@ -1,48 +0,0 @@
"""Write initial admin credentials to a restricted file instead of logs.
Logging secrets to stdout/stderr is a well-known CodeQL finding
(py/clear-text-logging-sensitive-data) — in production those logs
get collected into ELK/Splunk/etc and become a secret sprawl
source. This helper writes the credential to a 0600 file that only
the process user can read, and returns the path so the caller can
log **the path** (not the password) for the operator to pick up.
"""
from __future__ import annotations
import os
from pathlib import Path
from deerflow.config.paths import get_paths
_CREDENTIAL_FILENAME = "admin_initial_credentials.txt"
def write_initial_credentials(email: str, password: str, *, label: str = "initial") -> Path:
"""Write the admin email + password to ``{base_dir}/admin_initial_credentials.txt``.
The file is created **atomically** with mode 0600 via ``os.open``
so the password is never world-readable, even for the single syscall
window between ``write_text`` and ``chmod``.
``label`` distinguishes "initial" (fresh creation) from "reset"
(password reset) in the file header so an operator picking up the
file after a restart can tell which event produced it.
Returns the absolute :class:`Path` to the file.
"""
target = get_paths().base_dir / _CREDENTIAL_FILENAME
target.parent.mkdir(parents=True, exist_ok=True)
content = (
f"# DeerFlow admin {label} credentials\n# This file is generated on first boot or password reset.\n# Change the password after login via Settings -> Account,\n# then delete this file.\n#\nemail: {email}\npassword: {password}\n"
)
# Atomic 0600 create-or-truncate. O_TRUNC (not O_EXCL) so the
# reset-password path can rewrite an existing file without a
# separate unlink-then-create dance.
fd = os.open(target, os.O_WRONLY | os.O_CREAT | os.O_TRUNC, 0o600)
with os.fdopen(fd, "w", encoding="utf-8") as fh:
fh.write(content)
return target.resolve()
backend/app/gateway/auth/errors.py
-45
View File
@@ -1,45 +0,0 @@
"""Typed error definitions for auth module.
AuthErrorCode: exhaustive enum of all auth failure conditions.
TokenError: exhaustive enum of JWT decode failures.
AuthErrorResponse: structured error payload for HTTP responses.
"""
from enum import StrEnum
from pydantic import BaseModel
class AuthErrorCode(StrEnum):
"""Exhaustive list of auth error conditions."""
INVALID_CREDENTIALS = "invalid_credentials"
TOKEN_EXPIRED = "token_expired"
TOKEN_INVALID = "token_invalid"
USER_NOT_FOUND = "user_not_found"
EMAIL_ALREADY_EXISTS = "email_already_exists"
PROVIDER_NOT_FOUND = "provider_not_found"
NOT_AUTHENTICATED = "not_authenticated"
SYSTEM_ALREADY_INITIALIZED = "system_already_initialized"
class TokenError(StrEnum):
"""Exhaustive list of JWT decode failure reasons."""
EXPIRED = "expired"
INVALID_SIGNATURE = "invalid_signature"
MALFORMED = "malformed"
class AuthErrorResponse(BaseModel):
"""Structured error response — replaces bare `detail` strings."""
code: AuthErrorCode
message: str
def token_error_to_code(err: TokenError) -> AuthErrorCode:
"""Map TokenError to AuthErrorCode — single source of truth."""
if err == TokenError.EXPIRED:
return AuthErrorCode.TOKEN_EXPIRED
return AuthErrorCode.TOKEN_INVALID
backend/app/gateway/auth/jwt.py
-55
View File
@@ -1,55 +0,0 @@
"""JWT token creation and verification."""
from datetime import UTC, datetime, timedelta
import jwt
from pydantic import BaseModel
from app.gateway.auth.config import get_auth_config
from app.gateway.auth.errors import TokenError
class TokenPayload(BaseModel):
"""JWT token payload."""
sub: str # user_id
exp: datetime
iat: datetime | None = None
ver: int = 0 # token_version — must match User.token_version
def create_access_token(user_id: str, expires_delta: timedelta | None = None, token_version: int = 0) -> str:
"""Create a JWT access token.
Args:
user_id: The user's UUID as string
expires_delta: Optional custom expiry, defaults to 7 days
token_version: User's current token_version for invalidation
Returns:
Encoded JWT string
"""
config = get_auth_config()
expiry = expires_delta or timedelta(days=config.token_expiry_days)
now = datetime.now(UTC)
payload = {"sub": user_id, "exp": now + expiry, "iat": now, "ver": token_version}
return jwt.encode(payload, config.jwt_secret, algorithm="HS256")
def decode_token(token: str) -> TokenPayload | TokenError:
"""Decode and validate a JWT token.
Returns:
TokenPayload if valid, or a specific TokenError variant.
"""
config = get_auth_config()
try:
payload = jwt.decode(token, config.jwt_secret, algorithms=["HS256"])
return TokenPayload(**payload)
except jwt.ExpiredSignatureError:
return TokenError.EXPIRED
except jwt.InvalidSignatureError:
return TokenError.INVALID_SIGNATURE
except jwt.PyJWTError:
return TokenError.MALFORMED
backend/app/gateway/auth/local_provider.py
-104
View File
@@ -1,104 +0,0 @@
"""Local email/password authentication provider."""
import logging
from app.gateway.auth.models import User
from app.gateway.auth.password import hash_password_async, needs_rehash, verify_password_async
from app.gateway.auth.providers import AuthProvider
from app.gateway.auth.repositories.base import UserRepository
logger = logging.getLogger(__name__)
class LocalAuthProvider(AuthProvider):
"""Email/password authentication provider using local database."""
def __init__(self, repository: UserRepository):
"""Initialize with a UserRepository.
Args:
repository: UserRepository implementation (SQLite)
"""
self._repo = repository
async def authenticate(self, credentials: dict) -> User | None:
"""Authenticate with email and password.
Args:
credentials: dict with 'email' and 'password' keys
Returns:
User if authentication succeeds, None otherwise
"""
email = credentials.get("email")
password = credentials.get("password")
if not email or not password:
return None
user = await self._repo.get_user_by_email(email)
if user is None:
return None
if user.password_hash is None:
# OAuth user without local password
return None
if not await verify_password_async(password, user.password_hash):
return None
if needs_rehash(user.password_hash):
try:
user.password_hash = await hash_password_async(password)
await self._repo.update_user(user)
except Exception:
# Rehash is an opportunistic upgrade; a transient DB error must not
# prevent an otherwise-valid login from succeeding.
logger.warning("Failed to rehash password for user %s; login will still succeed", user.email, exc_info=True)
return user
async def get_user(self, user_id: str) -> User | None:
"""Get user by ID."""
return await self._repo.get_user_by_id(user_id)
async def create_user(self, email: str, password: str | None = None, system_role: str = "user", needs_setup: bool = False) -> User:
"""Create a new local user.
Args:
email: User email address
password: Plain text password (will be hashed)
system_role: Role to assign ("admin" or "user")
needs_setup: If True, user must complete setup on first login
Returns:
Created User instance
"""
password_hash = await hash_password_async(password) if password else None
user = User(
email=email,
password_hash=password_hash,
system_role=system_role,
needs_setup=needs_setup,
)
return await self._repo.create_user(user)
async def get_user_by_oauth(self, provider: str, oauth_id: str) -> User | None:
"""Get user by OAuth provider and ID."""
return await self._repo.get_user_by_oauth(provider, oauth_id)
async def count_users(self) -> int:
"""Return total number of registered users."""
return await self._repo.count_users()
async def count_admin_users(self) -> int:
"""Return number of admin users."""
return await self._repo.count_admin_users()
async def update_user(self, user: User) -> User:
"""Update an existing user."""
return await self._repo.update_user(user)
async def get_user_by_email(self, email: str) -> User | None:
"""Get user by email."""
return await self._repo.get_user_by_email(email)
backend/app/gateway/auth/models.py
-41
View File
@@ -1,41 +0,0 @@
"""User Pydantic models for authentication."""
from datetime import UTC, datetime
from typing import Literal
from uuid import UUID, uuid4
from pydantic import BaseModel, ConfigDict, EmailStr, Field
def _utc_now() -> datetime:
"""Return current UTC time (timezone-aware)."""
return datetime.now(UTC)
class User(BaseModel):
"""Internal user representation."""
model_config = ConfigDict(from_attributes=True)
id: UUID = Field(default_factory=uuid4, description="Primary key")
email: EmailStr = Field(..., description="Unique email address")
password_hash: str | None = Field(None, description="bcrypt hash, nullable for OAuth users")
system_role: Literal["admin", "user"] = Field(default="user")
created_at: datetime = Field(default_factory=_utc_now)
# OAuth linkage (optional)
oauth_provider: str | None = Field(None, description="e.g. 'github', 'google'")
oauth_id: str | None = Field(None, description="User ID from OAuth provider")
# Auth lifecycle
needs_setup: bool = Field(default=False, description="True for auto-created admin until setup completes")
token_version: int = Field(default=0, description="Incremented on password change to invalidate old JWTs")
class UserResponse(BaseModel):
"""Response model for user info endpoint."""
id: str
email: str
system_role: Literal["admin", "user"]
needs_setup: bool = False
backend/app/gateway/auth/password.py
-81
View File
@@ -1,81 +0,0 @@
"""Password hashing utilities with versioned hash format.
Hash format: ``$dfv<N>$<bcrypt_hash>`` where ``<N>`` is the version.
- **v1** (legacy): ``bcrypt(password)`` — plain bcrypt, susceptible to
72-byte silent truncation.
- **v2** (current): ``bcrypt(b64(sha256(password)))`` — SHA-256 pre-hash
avoids the 72-byte truncation limit so the full password contributes
to the hash.
Verification auto-detects the version and falls back to v1 for hashes
without a prefix, so existing deployments upgrade transparently on next
login.
"""
import asyncio
import base64
import hashlib
import bcrypt
_CURRENT_VERSION = 2
_PREFIX_V2 = "$dfv2$"
_PREFIX_V1 = "$dfv1$"
def _pre_hash_v2(password: str) -> bytes:
"""SHA-256 pre-hash to bypass bcrypt's 72-byte limit."""
return base64.b64encode(hashlib.sha256(password.encode("utf-8")).digest())
def hash_password(password: str) -> str:
"""Hash a password (current version: v2 — SHA-256 + bcrypt)."""
raw = bcrypt.hashpw(_pre_hash_v2(password), bcrypt.gensalt()).decode("utf-8")
return f"{_PREFIX_V2}{raw}"
def verify_password(plain_password: str, hashed_password: str) -> bool:
"""Verify a password, auto-detecting the hash version.
Accepts v2 (``$dfv2$…``), v1 (``$dfv1$…``), and bare bcrypt hashes
(treated as v1 for backward compatibility with pre-versioning data).
"""
try:
if hashed_password.startswith(_PREFIX_V2):
bcrypt_hash = hashed_password[len(_PREFIX_V2) :]
return bcrypt.checkpw(_pre_hash_v2(plain_password), bcrypt_hash.encode("utf-8"))
if hashed_password.startswith(_PREFIX_V1):
bcrypt_hash = hashed_password[len(_PREFIX_V1) :]
else:
bcrypt_hash = hashed_password
return bcrypt.checkpw(plain_password.encode("utf-8"), bcrypt_hash.encode("utf-8"))
except ValueError:
# bcrypt raises ValueError for malformed or corrupt hashes (e.g., invalid salt).
# Fail closed rather than crashing the request.
return False
def needs_rehash(hashed_password: str) -> bool:
"""Return True if the hash uses an older version and should be rehashed."""
return not hashed_password.startswith(_PREFIX_V2)
async def hash_password_async(password: str) -> str:
"""Hash a password using bcrypt (non-blocking).
Wraps the blocking bcrypt operation in a thread pool to avoid
blocking the event loop during password hashing.
"""
return await asyncio.to_thread(hash_password, password)
async def verify_password_async(plain_password: str, hashed_password: str) -> bool:
"""Verify a password against its hash (non-blocking).
Wraps the blocking bcrypt operation in a thread pool to avoid
blocking the event loop during password verification.
"""
return await asyncio.to_thread(verify_password, plain_password, hashed_password)
backend/app/gateway/auth/providers.py
-24
View File
@@ -1,24 +0,0 @@
"""Auth provider abstraction."""
from abc import ABC, abstractmethod
class AuthProvider(ABC):
"""Abstract base class for authentication providers."""
@abstractmethod
async def authenticate(self, credentials: dict) -> "User | None":
"""Authenticate user with given credentials.
Returns User if authentication succeeds, None otherwise.
"""
raise NotImplementedError
@abstractmethod
async def get_user(self, user_id: str) -> "User | None":
"""Retrieve user by ID."""
raise NotImplementedError
# Import User at runtime to avoid circular imports
from app.gateway.auth.models import User # noqa: E402
backend/app/gateway/auth/repositories/__init__.py
View File
backend/app/gateway/auth/repositories/base.py
-102
View File
@@ -1,102 +0,0 @@
"""User repository interface for abstracting database operations."""
from abc import ABC, abstractmethod
from app.gateway.auth.models import User
class UserNotFoundError(LookupError):
"""Raised when a user repository operation targets a non-existent row.
Subclass of :class:`LookupError` so callers that already catch
``LookupError`` for "missing entity" can keep working unchanged,
while specific call sites can pin to this class to distinguish
"concurrent delete during update" from other lookups.
"""
class UserRepository(ABC):
"""Abstract interface for user data storage.
Implement this interface to support different storage backends
(SQLite)
"""
@abstractmethod
async def create_user(self, user: User) -> User:
"""Create a new user.
Args:
user: User object to create
Returns:
Created User with ID assigned
Raises:
ValueError: If email already exists
"""
raise NotImplementedError
@abstractmethod
async def get_user_by_id(self, user_id: str) -> User | None:
"""Get user by ID.
Args:
user_id: User UUID as string
Returns:
User if found, None otherwise
"""
raise NotImplementedError
@abstractmethod
async def get_user_by_email(self, email: str) -> User | None:
"""Get user by email.
Args:
email: User email address
Returns:
User if found, None otherwise
"""
raise NotImplementedError
@abstractmethod
async def update_user(self, user: User) -> User:
"""Update an existing user.
Args:
user: User object with updated fields
Returns:
Updated User
Raises:
UserNotFoundError: If no row exists for ``user.id``. This is
a hard failure (not a no-op) so callers cannot mistake a
concurrent-delete race for a successful update.
"""
raise NotImplementedError
@abstractmethod
async def count_users(self) -> int:
"""Return total number of registered users."""
raise NotImplementedError
@abstractmethod
async def count_admin_users(self) -> int:
"""Return number of users with system_role == 'admin'."""
raise NotImplementedError
@abstractmethod
async def get_user_by_oauth(self, provider: str, oauth_id: str) -> User | None:
"""Get user by OAuth provider and ID.
Args:
provider: OAuth provider name (e.g. 'github', 'google')
oauth_id: User ID from the OAuth provider
Returns:
User if found, None otherwise
"""
raise NotImplementedError
backend/app/gateway/auth/repositories/sqlite.py
-127
View File
@@ -1,127 +0,0 @@
"""SQLAlchemy-backed UserRepository implementation.
Uses the shared async session factory from
``deerflow.persistence.engine`` — the ``users`` table lives in the
same database as ``threads_meta``, ``runs``, ``run_events``, and
``feedback``.
Constructor takes the session factory directly (same pattern as the
other four repositories in ``deerflow.persistence.*``). Callers
construct this after ``init_engine_from_config()`` has run.
"""
from __future__ import annotations
from datetime import UTC
from uuid import UUID
from sqlalchemy import func, select
from sqlalchemy.exc import IntegrityError
from sqlalchemy.ext.asyncio import AsyncSession, async_sessionmaker
from app.gateway.auth.models import User
from app.gateway.auth.repositories.base import UserNotFoundError, UserRepository
from deerflow.persistence.user.model import UserRow
class SQLiteUserRepository(UserRepository):
"""Async user repository backed by the shared SQLAlchemy engine."""
def __init__(self, session_factory: async_sessionmaker[AsyncSession]) -> None:
self._sf = session_factory
# ── Converters ────────────────────────────────────────────────────
@staticmethod
def _row_to_user(row: UserRow) -> User:
return User(
id=UUID(row.id),
email=row.email,
password_hash=row.password_hash,
system_role=row.system_role, # type: ignore[arg-type]
# SQLite loses tzinfo on read; reattach UTC so downstream
# code can compare timestamps reliably.
created_at=row.created_at if row.created_at.tzinfo else row.created_at.replace(tzinfo=UTC),
oauth_provider=row.oauth_provider,
oauth_id=row.oauth_id,
needs_setup=row.needs_setup,
token_version=row.token_version,
)
@staticmethod
def _user_to_row(user: User) -> UserRow:
return UserRow(
id=str(user.id),
email=user.email,
password_hash=user.password_hash,
system_role=user.system_role,
created_at=user.created_at,
oauth_provider=user.oauth_provider,
oauth_id=user.oauth_id,
needs_setup=user.needs_setup,
token_version=user.token_version,
)
# ── CRUD ──────────────────────────────────────────────────────────
async def create_user(self, user: User) -> User:
"""Insert a new user. Raises ``ValueError`` on duplicate email."""
row = self._user_to_row(user)
async with self._sf() as session:
session.add(row)
try:
await session.commit()
except IntegrityError as exc:
await session.rollback()
raise ValueError(f"Email already registered: {user.email}") from exc
return user
async def get_user_by_id(self, user_id: str) -> User | None:
async with self._sf() as session:
row = await session.get(UserRow, user_id)
return self._row_to_user(row) if row is not None else None
async def get_user_by_email(self, email: str) -> User | None:
stmt = select(UserRow).where(UserRow.email == email)
async with self._sf() as session:
result = await session.execute(stmt)
row = result.scalar_one_or_none()
return self._row_to_user(row) if row is not None else None
async def update_user(self, user: User) -> User:
async with self._sf() as session:
row = await session.get(UserRow, str(user.id))
if row is None:
# Hard fail on concurrent delete: callers (reset_admin,
# password change handlers, _ensure_admin_user) all
# fetched the user just before this call, so a missing
# row here means the row vanished underneath us. Silent
# success would let the caller log "password reset" for
# a row that no longer exists.
raise UserNotFoundError(f"User {user.id} no longer exists")
row.email = user.email
row.password_hash = user.password_hash
row.system_role = user.system_role
row.oauth_provider = user.oauth_provider
row.oauth_id = user.oauth_id
row.needs_setup = user.needs_setup
row.token_version = user.token_version
await session.commit()
return user
async def count_users(self) -> int:
stmt = select(func.count()).select_from(UserRow)
async with self._sf() as session:
return await session.scalar(stmt) or 0
async def count_admin_users(self) -> int:
stmt = select(func.count()).select_from(UserRow).where(UserRow.system_role == "admin")
async with self._sf() as session:
return await session.scalar(stmt) or 0
async def get_user_by_oauth(self, provider: str, oauth_id: str) -> User | None:
stmt = select(UserRow).where(UserRow.oauth_provider == provider, UserRow.oauth_id == oauth_id)
async with self._sf() as session:
result = await session.execute(stmt)
row = result.scalar_one_or_none()
return self._row_to_user(row) if row is not None else None
backend/app/gateway/auth/reset_admin.py
-91
View File
@@ -1,91 +0,0 @@
"""CLI tool to reset an admin password.
Usage:
python -m app.gateway.auth.reset_admin
python -m app.gateway.auth.reset_admin --email admin@example.com
Writes the new password to ``.deer-flow/admin_initial_credentials.txt``
(mode 0600) instead of printing it, so CI / log aggregators never see
the cleartext secret.
"""
from __future__ import annotations
import argparse
import asyncio
import secrets
import sys
from sqlalchemy import select
from app.gateway.auth.credential_file import write_initial_credentials
from app.gateway.auth.password import hash_password
from app.gateway.auth.repositories.sqlite import SQLiteUserRepository
from deerflow.persistence.user.model import UserRow
async def _run(email: str | None) -> int:
from deerflow.config import get_app_config
from deerflow.persistence.engine import (
close_engine,
get_session_factory,
init_engine_from_config,
)
config = get_app_config()
await init_engine_from_config(config.database)
try:
sf = get_session_factory()
if sf is None:
print("Error: persistence engine not available (check config.database).", file=sys.stderr)
return 1
repo = SQLiteUserRepository(sf)
if email:
user = await repo.get_user_by_email(email)
else:
# Find first admin via direct SELECT — repository does not
# expose a "first admin" helper and we do not want to add
# one just for this CLI.
async with sf() as session:
stmt = select(UserRow).where(UserRow.system_role == "admin").limit(1)
row = (await session.execute(stmt)).scalar_one_or_none()
if row is None:
user = None
else:
user = await repo.get_user_by_id(row.id)
if user is None:
if email:
print(f"Error: user '{email}' not found.", file=sys.stderr)
else:
print("Error: no admin user found.", file=sys.stderr)
return 1
new_password = secrets.token_urlsafe(16)
user.password_hash = hash_password(new_password)
user.token_version += 1
user.needs_setup = True
await repo.update_user(user)
cred_path = write_initial_credentials(user.email, new_password, label="reset")
print(f"Password reset for: {user.email}")
print(f"Credentials written to: {cred_path} (mode 0600)")
print("Next login will require setup (new email + password).")
return 0
finally:
await close_engine()
def main() -> None:
parser = argparse.ArgumentParser(description="Reset admin password")
parser.add_argument("--email", help="Admin email (default: first admin found)")
args = parser.parse_args()
exit_code = asyncio.run(_run(args.email))
sys.exit(exit_code)
if __name__ == "__main__":
main()
backend/app/gateway/auth_middleware.py
-126
View File
@@ -1,126 +0,0 @@
"""Global authentication middleware — fail-closed safety net.
Rejects unauthenticated requests to non-public paths with 401. When a
request passes the cookie check, resolves the JWT payload to a real
``User`` object and stamps it into both ``request.state.user`` and the
``deerflow.runtime.user_context`` contextvar so that repository-layer
owner filtering works automatically via the sentinel pattern.
Fine-grained permission checks remain in authz.py decorators.
"""
from collections.abc import Callable
from fastapi import HTTPException, Request, Response
from starlette.middleware.base import BaseHTTPMiddleware
from starlette.responses import JSONResponse
from starlette.types import ASGIApp
from app.gateway.auth.errors import AuthErrorCode, AuthErrorResponse
from app.gateway.authz import _ALL_PERMISSIONS, AuthContext
from app.gateway.internal_auth import INTERNAL_AUTH_HEADER_NAME, get_internal_user, is_valid_internal_auth_token
from deerflow.runtime.user_context import reset_current_user, set_current_user
# Paths that never require authentication.
_PUBLIC_PATH_PREFIXES: tuple[str, ...] = (
"/health",
"/docs",
"/redoc",
"/openapi.json",
)
# Exact auth paths that are public (login/register/status check).
# /api/v1/auth/me, /api/v1/auth/change-password etc. are NOT public.
_PUBLIC_EXACT_PATHS: frozenset[str] = frozenset(
{
"/api/v1/auth/login/local",
"/api/v1/auth/register",
"/api/v1/auth/logout",
"/api/v1/auth/setup-status",
"/api/v1/auth/initialize",
}
)
def _is_public(path: str) -> bool:
stripped = path.rstrip("/")
if stripped in _PUBLIC_EXACT_PATHS:
return True
return any(path.startswith(prefix) for prefix in _PUBLIC_PATH_PREFIXES)
class AuthMiddleware(BaseHTTPMiddleware):
"""Strict auth gate: reject requests without a valid session.
Two-stage check for non-public paths:
1. Cookie presence — return 401 NOT_AUTHENTICATED if missing
2. JWT validation via ``get_optional_user_from_request`` — return 401
TOKEN_INVALID if the token is absent, malformed, expired, or the
signed user does not exist / is stale
On success, stamps ``request.state.user`` and the
``deerflow.runtime.user_context`` contextvar so that repository-layer
owner filters work downstream without every route needing a
``@require_auth`` decorator. Routes that need per-resource
authorization (e.g. "user A cannot read user B's thread by guessing
the URL") should additionally use ``@require_permission(...,
owner_check=True)`` for explicit enforcement — but authentication
itself is fully handled here.
"""
def __init__(self, app: ASGIApp) -> None:
super().__init__(app)
async def dispatch(self, request: Request, call_next: Callable) -> Response:
if _is_public(request.url.path):
return await call_next(request)
internal_user = None
if is_valid_internal_auth_token(request.headers.get(INTERNAL_AUTH_HEADER_NAME)):
internal_user = get_internal_user()
# Non-public path: require session cookie
if internal_user is None and not request.cookies.get("access_token"):
return JSONResponse(
status_code=401,
content={
"detail": AuthErrorResponse(
code=AuthErrorCode.NOT_AUTHENTICATED,
message="Authentication required",
).model_dump()
},
)
# Strict JWT validation: reject junk/expired tokens with 401
# right here instead of silently passing through. This closes
# the "junk cookie bypass" gap (AUTH_TEST_PLAN test 7.5.8):
# without this, non-isolation routes like /api/models would
# accept any cookie-shaped string as authentication.
#
# We call the *strict* resolver so that fine-grained error
# codes (token_expired, token_invalid, user_not_found, …)
# propagate from AuthErrorCode, not get flattened into one
# generic code. BaseHTTPMiddleware doesn't let HTTPException
# bubble up, so we catch and render it as JSONResponse here.
from app.gateway.deps import get_current_user_from_request
if internal_user is not None:
user = internal_user
else:
try:
user = await get_current_user_from_request(request)
except HTTPException as exc:
return JSONResponse(status_code=exc.status_code, content={"detail": exc.detail})
# Stamp both request.state.user (for the contextvar pattern)
# and request.state.auth (so @require_permission's "auth is
# None" branch short-circuits instead of running the entire
# JWT-decode + DB-lookup pipeline a second time per request).
request.state.user = user
request.state.auth = AuthContext(user=user, permissions=_ALL_PERMISSIONS)
token = set_current_user(user)
try:
return await call_next(request)
finally:
reset_current_user(token)
backend/app/gateway/authz.py
-301
View File
@@ -1,301 +0,0 @@
"""Authorization decorators and context for DeerFlow.
Inspired by LangGraph Auth system: https://github.com/langchain-ai/langgraph/blob/main/libs/sdk-py/langgraph_sdk/auth/__init__.py
**Usage:**
1. Use ``@require_auth`` on routes that need authentication
2. Use ``@require_permission("resource", "action", filter_key=...)`` for permission checks
3. The decorator chain processes from bottom to top
**Example:**
@router.get("/{thread_id}")
@require_auth
@require_permission("threads", "read", owner_check=True)
async def get_thread(thread_id: str, request: Request):
# User is authenticated and has threads:read permission
...
**Permission Model:**
- threads:read - View thread
- threads:write - Create/update thread
- threads:delete - Delete thread
- runs:create - Run agent
- runs:read - View run
- runs:cancel - Cancel run
"""
from __future__ import annotations
import functools
import inspect
from collections.abc import Callable
from types import SimpleNamespace
from typing import TYPE_CHECKING, Any, ParamSpec, TypeVar
from fastapi import HTTPException, Request
if TYPE_CHECKING:
from app.gateway.auth.models import User
P = ParamSpec("P")
T = TypeVar("T")
# Permission constants
class Permissions:
"""Permission constants for resource:action format."""
# Threads
THREADS_READ = "threads:read"
THREADS_WRITE = "threads:write"
THREADS_DELETE = "threads:delete"
# Runs
RUNS_CREATE = "runs:create"
RUNS_READ = "runs:read"
RUNS_CANCEL = "runs:cancel"
class AuthContext:
"""Authentication context for the current request.
Stored in request.state.auth after require_auth decoration.
Attributes:
user: The authenticated user, or None if anonymous
permissions: List of permission strings (e.g., "threads:read")
"""
__slots__ = ("user", "permissions")
def __init__(self, user: User | None = None, permissions: list[str] | None = None):
self.user = user
self.permissions = permissions or []
@property
def is_authenticated(self) -> bool:
"""Check if user is authenticated."""
return self.user is not None
def has_permission(self, resource: str, action: str) -> bool:
"""Check if context has permission for resource:action.
Args:
resource: Resource name (e.g., "threads")
action: Action name (e.g., "read")
Returns:
True if user has permission
"""
permission = f"{resource}:{action}"
return permission in self.permissions
def require_user(self) -> User:
"""Get user or raise 401.
Raises:
HTTPException 401 if not authenticated
"""
if not self.user:
raise HTTPException(status_code=401, detail="Authentication required")
return self.user
def get_auth_context(request: Request) -> AuthContext | None:
"""Get AuthContext from request state."""
return getattr(request.state, "auth", None)
_ALL_PERMISSIONS: list[str] = [
Permissions.THREADS_READ,
Permissions.THREADS_WRITE,
Permissions.THREADS_DELETE,
Permissions.RUNS_CREATE,
Permissions.RUNS_READ,
Permissions.RUNS_CANCEL,
]
def _make_test_request_stub() -> Any:
"""Create a minimal request-like object for direct unit calls.
Used when decorated route handlers are invoked without FastAPI's
request injection. Includes fields accessed by auth helpers.
"""
return SimpleNamespace(state=SimpleNamespace(), cookies={}, _deerflow_test_bypass_auth=True)
async def _authenticate(request: Request) -> AuthContext:
"""Authenticate request and return AuthContext.
Delegates to deps.get_optional_user_from_request() for the JWT→User pipeline.
Returns AuthContext with user=None for anonymous requests.
"""
from app.gateway.deps import get_optional_user_from_request
user = await get_optional_user_from_request(request)
if user is None:
return AuthContext(user=None, permissions=[])
# In future, permissions could be stored in user record
return AuthContext(user=user, permissions=_ALL_PERMISSIONS)
def require_auth[**P, T](func: Callable[P, T]) -> Callable[P, T]:
"""Decorator that authenticates the request and enforces authentication.
Independently raises HTTP 401 for unauthenticated requests, regardless of
whether ``AuthMiddleware`` is present in the ASGI stack. Sets the resolved
``AuthContext`` on ``request.state.auth`` for downstream handlers.
Must be placed ABOVE other decorators (executes after them).
Usage:
@router.get("/{thread_id}")
@require_auth # Bottom decorator (executes first after permission check)
@require_permission("threads", "read")
async def get_thread(thread_id: str, request: Request):
auth: AuthContext = request.state.auth
...
Raises:
HTTPException: 401 if the request is unauthenticated.
ValueError: If 'request' parameter is missing.
"""
@functools.wraps(func)
async def wrapper(*args: Any, **kwargs: Any) -> Any:
request = kwargs.get("request")
if request is None:
# Unit tests may call decorated handlers directly without a
# FastAPI Request object. Inject a minimal request stub when
# the wrapped function declares `request`.
if "request" in inspect.signature(func).parameters:
kwargs["request"] = _make_test_request_stub()
else:
raise ValueError("require_auth decorator requires 'request' parameter")
request = kwargs["request"]
if getattr(request, "_deerflow_test_bypass_auth", False):
return await func(*args, **kwargs)
# Authenticate and set context
auth_context = await _authenticate(request)
request.state.auth = auth_context
if not auth_context.is_authenticated:
raise HTTPException(status_code=401, detail="Authentication required")
return await func(*args, **kwargs)
return wrapper
def require_permission(
resource: str,
action: str,
owner_check: bool = False,
require_existing: bool = False,
) -> Callable[[Callable[P, T]], Callable[P, T]]:
"""Decorator that checks permission for resource:action.
Must be used AFTER @require_auth.
Args:
resource: Resource name (e.g., "threads", "runs")
action: Action name (e.g., "read", "write", "delete")
owner_check: If True, validates that the current user owns the resource.
Requires 'thread_id' path parameter and performs ownership check.
require_existing: Only meaningful with ``owner_check=True``. If True, a
missing ``threads_meta`` row counts as a denial (404)
instead of "untracked legacy thread, allow". Use on
**destructive / mutating** routes (DELETE, PATCH,
state-update) so a deleted thread can't be re-targeted
by another user via the missing-row code path.
Usage:
# Read-style: legacy untracked threads are allowed
@require_permission("threads", "read", owner_check=True)
async def get_thread(thread_id: str, request: Request):
...
# Destructive: thread row MUST exist and be owned by caller
@require_permission("threads", "delete", owner_check=True, require_existing=True)
async def delete_thread(thread_id: str, request: Request):
...
Raises:
HTTPException 401: If authentication required but user is anonymous
HTTPException 403: If user lacks permission
HTTPException 404: If owner_check=True but user doesn't own the thread
ValueError: If owner_check=True but 'thread_id' parameter is missing
"""
def decorator(func: Callable[P, T]) -> Callable[P, T]:
@functools.wraps(func)
async def wrapper(*args: Any, **kwargs: Any) -> Any:
request = kwargs.get("request")
if request is None:
# Unit tests may call decorated route handlers directly without
# constructing a FastAPI Request object. Inject a minimal stub
# when the wrapped function declares `request`.
if "request" in inspect.signature(func).parameters:
kwargs["request"] = _make_test_request_stub()
else:
return await func(*args, **kwargs)
request = kwargs["request"]
if getattr(request, "_deerflow_test_bypass_auth", False):
return await func(*args, **kwargs)
auth: AuthContext = getattr(request.state, "auth", None)
if auth is None:
auth = await _authenticate(request)
request.state.auth = auth
if not auth.is_authenticated:
raise HTTPException(status_code=401, detail="Authentication required")
# Check permission
if not auth.has_permission(resource, action):
raise HTTPException(
status_code=403,
detail=f"Permission denied: {resource}:{action}",
)
# Owner check for thread-specific resources.
#
# 2.0-rc moved thread metadata into the SQL persistence layer
# (``threads_meta`` table). We verify ownership via
# ``ThreadMetaStore.check_access``: it returns True for
# missing rows (untracked legacy thread) and for rows whose
# ``user_id`` is NULL (shared / pre-auth data), so this is
# strict-deny rather than strict-allow — only an *existing*
# row with a *different* user_id triggers 404.
if owner_check:
thread_id = kwargs.get("thread_id")
if thread_id is None:
raise ValueError("require_permission with owner_check=True requires 'thread_id' parameter")
from app.gateway.deps import get_thread_store
thread_store = get_thread_store(request)
allowed = await thread_store.check_access(
thread_id,
str(auth.user.id),
require_existing=require_existing,
)
if not allowed:
raise HTTPException(
status_code=404,
detail=f"Thread {thread_id} not found",
)
return await func(*args, **kwargs)
return wrapper
return decorator
backend/app/gateway/config.py
-2
View File
@@ -9,7 +9,6 @@ class GatewayConfig(BaseModel):
host: str = Field(default="0.0.0.0", description="Host to bind the gateway server")
port: int = Field(default=8001, description="Port to bind the gateway server")
cors_origins: list[str] = Field(default_factory=lambda: ["http://localhost:3000"], description="Allowed CORS origins")
enable_docs: bool = Field(default=True, description="Enable Swagger/ReDoc/OpenAPI endpoints")
_gateway_config: GatewayConfig | None = None
@@ -24,6 +23,5 @@ def get_gateway_config() -> GatewayConfig:
host=os.getenv("GATEWAY_HOST", "0.0.0.0"),
port=int(os.getenv("GATEWAY_PORT", "8001")),
cors_origins=cors_origins_str.split(","),
enable_docs=os.getenv("GATEWAY_ENABLE_DOCS", "true").lower() == "true",
)
return _gateway_config
backend/app/gateway/csrf_middleware.py
-113
View File
@@ -1,113 +0,0 @@
"""CSRF protection middleware for FastAPI.
Per RFC-001:
State-changing operations require CSRF protection.
"""
import secrets
from collections.abc import Callable
from fastapi import Request, Response
from starlette.middleware.base import BaseHTTPMiddleware
from starlette.responses import JSONResponse
from starlette.types import ASGIApp
CSRF_COOKIE_NAME = "csrf_token"
CSRF_HEADER_NAME = "X-CSRF-Token"
CSRF_TOKEN_LENGTH = 64 # bytes
def is_secure_request(request: Request) -> bool:
"""Detect whether the original client request was made over HTTPS."""
return request.headers.get("x-forwarded-proto", request.url.scheme) == "https"
def generate_csrf_token() -> str:
"""Generate a secure random CSRF token."""
return secrets.token_urlsafe(CSRF_TOKEN_LENGTH)
def should_check_csrf(request: Request) -> bool:
"""Determine if a request needs CSRF validation.
CSRF is checked for state-changing methods (POST, PUT, DELETE, PATCH).
GET, HEAD, OPTIONS, and TRACE are exempt per RFC 7231.
"""
if request.method not in ("POST", "PUT", "DELETE", "PATCH"):
return False
path = request.url.path.rstrip("/")
# Exempt /api/v1/auth/me endpoint
if path == "/api/v1/auth/me":
return False
return True
_AUTH_EXEMPT_PATHS: frozenset[str] = frozenset(
{
"/api/v1/auth/login/local",
"/api/v1/auth/logout",
"/api/v1/auth/register",
"/api/v1/auth/initialize",
}
)
def is_auth_endpoint(request: Request) -> bool:
"""Check if the request is to an auth endpoint.
Auth endpoints don't need CSRF validation on first call (no token).
"""
return request.url.path.rstrip("/") in _AUTH_EXEMPT_PATHS
class CSRFMiddleware(BaseHTTPMiddleware):
"""Middleware that implements CSRF protection using Double Submit Cookie pattern."""
def __init__(self, app: ASGIApp) -> None:
super().__init__(app)
async def dispatch(self, request: Request, call_next: Callable) -> Response:
_is_auth = is_auth_endpoint(request)
if should_check_csrf(request) and not _is_auth:
cookie_token = request.cookies.get(CSRF_COOKIE_NAME)
header_token = request.headers.get(CSRF_HEADER_NAME)
if not cookie_token or not header_token:
return JSONResponse(
status_code=403,
content={"detail": "CSRF token missing. Include X-CSRF-Token header."},
)
if not secrets.compare_digest(cookie_token, header_token):
return JSONResponse(
status_code=403,
content={"detail": "CSRF token mismatch."},
)
response = await call_next(request)
# For auth endpoints that set up session, also set CSRF cookie
if _is_auth and request.method == "POST":
# Generate a new CSRF token for the session
csrf_token = generate_csrf_token()
is_https = is_secure_request(request)
response.set_cookie(
key=CSRF_COOKIE_NAME,
value=csrf_token,
httponly=False, # Must be JS-readable for Double Submit Cookie pattern
secure=is_https,
samesite="strict",
)
return response
def get_csrf_token(request: Request) -> str | None:
"""Get the CSRF token from the current request's cookies.
This is useful for server-side rendering where you need to embed
token in forms or headers.
"""
return request.cookies.get(CSRF_COOKIE_NAME)
backend/app/gateway/deps.py
+28 -203
View File
@@ -8,34 +8,12 @@ Initialization is handled directly in ``app.py`` via :class:`AsyncExitStack`.
from __future__ import annotations
from collections.abc import AsyncGenerator, Callable
from collections.abc import AsyncGenerator
from contextlib import AsyncExitStack, asynccontextmanager
from typing import TYPE_CHECKING, TypeVar, cast
from fastapi import FastAPI, HTTPException, Request
from langgraph.types import Checkpointer
from deerflow.config.app_config import AppConfig
from deerflow.persistence.feedback import FeedbackRepository
from deerflow.runtime import RunContext, RunManager, StreamBridge
from deerflow.runtime.events.store.base import RunEventStore
from deerflow.runtime.runs.store.base import RunStore
if TYPE_CHECKING:
from app.gateway.auth.local_provider import LocalAuthProvider
from app.gateway.auth.repositories.sqlite import SQLiteUserRepository
from deerflow.persistence.thread_meta.base import ThreadMetaStore
T = TypeVar("T")
def get_config(request: Request) -> AppConfig:
"""Return the app-scoped ``AppConfig`` stored on ``app.state``."""
config = getattr(request.app.state, "config", None)
if config is None:
raise HTTPException(status_code=503, detail="Configuration not available")
return config
from deerflow.runtime import RunManager, StreamBridge
@asynccontextmanager
@@ -47,54 +25,15 @@ async def langgraph_runtime(app: FastAPI) -> AsyncGenerator[None, None]:
async with langgraph_runtime(app):
yield
"""
from deerflow.persistence.engine import close_engine, get_session_factory, init_engine_from_config
from deerflow.agents.checkpointer.async_provider import make_checkpointer
from deerflow.runtime import make_store, make_stream_bridge
from deerflow.runtime.checkpointer.async_provider import make_checkpointer
from deerflow.runtime.events.store import make_run_event_store
async with AsyncExitStack() as stack:
config = getattr(app.state, "config", None)
if config is None:
raise RuntimeError("langgraph_runtime() requires app.state.config to be initialized")
app.state.stream_bridge = await stack.enter_async_context(make_stream_bridge(config))
# Initialize persistence engine BEFORE checkpointer so that
# auto-create-database logic runs first (postgres backend).
await init_engine_from_config(config.database)
app.state.checkpointer = await stack.enter_async_context(make_checkpointer(config))
app.state.store = await stack.enter_async_context(make_store(config))
# Initialize repositories — one get_session_factory() call for all.
sf = get_session_factory()
if sf is not None:
from deerflow.persistence.feedback import FeedbackRepository
from deerflow.persistence.run import RunRepository
app.state.run_store = RunRepository(sf)
app.state.feedback_repo = FeedbackRepository(sf)
else:
from deerflow.runtime.runs.store.memory import MemoryRunStore
app.state.run_store = MemoryRunStore()
app.state.feedback_repo = None
from deerflow.persistence.thread_meta import make_thread_store
app.state.thread_store = make_thread_store(sf, app.state.store)
# Run event store (has its own factory with config-driven backend selection)
run_events_config = getattr(config, "run_events", None)
app.state.run_event_store = make_run_event_store(run_events_config)
# RunManager with store backing for persistence
app.state.run_manager = RunManager(store=app.state.run_store)
try:
yield
finally:
await close_engine()
app.state.stream_bridge = await stack.enter_async_context(make_stream_bridge())
app.state.checkpointer = await stack.enter_async_context(make_checkpointer())
app.state.store = await stack.enter_async_context(make_store())
app.state.run_manager = RunManager()
yield
# ---------------------------------------------------------------------------
@@ -102,144 +41,30 @@ async def langgraph_runtime(app: FastAPI) -> AsyncGenerator[None, None]:
# ---------------------------------------------------------------------------
def _require(attr: str, label: str) -> Callable[[Request], T]:
"""Create a FastAPI dependency that returns ``app.state.<attr>`` or 503."""
def dep(request: Request) -> T:
val = getattr(request.app.state, attr, None)
if val is None:
raise HTTPException(status_code=503, detail=f"{label} not available")
return cast(T, val)
dep.__name__ = dep.__qualname__ = f"get_{attr}"
return dep
def get_stream_bridge(request: Request) -> StreamBridge:
"""Return the global :class:`StreamBridge`, or 503."""
bridge = getattr(request.app.state, "stream_bridge", None)
if bridge is None:
raise HTTPException(status_code=503, detail="Stream bridge not available")
return bridge
get_stream_bridge: Callable[[Request], StreamBridge] = _require("stream_bridge", "Stream bridge")
get_run_manager: Callable[[Request], RunManager] = _require("run_manager", "Run manager")
get_checkpointer: Callable[[Request], Checkpointer] = _require("checkpointer", "Checkpointer")
get_run_event_store: Callable[[Request], RunEventStore] = _require("run_event_store", "Run event store")
get_feedback_repo: Callable[[Request], FeedbackRepository] = _require("feedback_repo", "Feedback")
get_run_store: Callable[[Request], RunStore] = _require("run_store", "Run store")
def get_run_manager(request: Request) -> RunManager:
"""Return the global :class:`RunManager`, or 503."""
mgr = getattr(request.app.state, "run_manager", None)
if mgr is None:
raise HTTPException(status_code=503, detail="Run manager not available")
return mgr
def get_checkpointer(request: Request):
"""Return the global checkpointer, or 503."""
cp = getattr(request.app.state, "checkpointer", None)
if cp is None:
raise HTTPException(status_code=503, detail="Checkpointer not available")
return cp
def get_store(request: Request):
"""Return the global store (may be ``None`` if not configured)."""
return getattr(request.app.state, "store", None)
def get_thread_store(request: Request) -> ThreadMetaStore:
"""Return the thread metadata store (SQL or memory-backed)."""
val = getattr(request.app.state, "thread_store", None)
if val is None:
raise HTTPException(status_code=503, detail="Thread metadata store not available")
return val
def get_run_context(request: Request) -> RunContext:
"""Build a :class:`RunContext` from ``app.state`` singletons.
Returns a *base* context with infrastructure dependencies.
"""
config = get_config(request)
return RunContext(
checkpointer=get_checkpointer(request),
store=get_store(request),
event_store=get_run_event_store(request),
run_events_config=getattr(config, "run_events", None),
thread_store=get_thread_store(request),
app_config=config,
)
# ---------------------------------------------------------------------------
# Auth helpers (used by authz.py and auth middleware)
# ---------------------------------------------------------------------------
# Cached singletons to avoid repeated instantiation per request
_cached_local_provider: LocalAuthProvider | None = None
_cached_repo: SQLiteUserRepository | None = None
def get_local_provider() -> LocalAuthProvider:
"""Get or create the cached LocalAuthProvider singleton.
Must be called after ``init_engine_from_config()`` — the shared
session factory is required to construct the user repository.
"""
global _cached_local_provider, _cached_repo
if _cached_repo is None:
from app.gateway.auth.repositories.sqlite import SQLiteUserRepository
from deerflow.persistence.engine import get_session_factory
sf = get_session_factory()
if sf is None:
raise RuntimeError("get_local_provider() called before init_engine_from_config(); cannot access users table")
_cached_repo = SQLiteUserRepository(sf)
if _cached_local_provider is None:
from app.gateway.auth.local_provider import LocalAuthProvider
_cached_local_provider = LocalAuthProvider(repository=_cached_repo)
return _cached_local_provider
async def get_current_user_from_request(request: Request):
"""Get the current authenticated user from the request cookie.
Raises HTTPException 401 if not authenticated.
"""
from app.gateway.auth import decode_token
from app.gateway.auth.errors import AuthErrorCode, AuthErrorResponse, TokenError, token_error_to_code
access_token = request.cookies.get("access_token")
if not access_token:
raise HTTPException(
status_code=401,
detail=AuthErrorResponse(code=AuthErrorCode.NOT_AUTHENTICATED, message="Not authenticated").model_dump(),
)
payload = decode_token(access_token)
if isinstance(payload, TokenError):
raise HTTPException(
status_code=401,
detail=AuthErrorResponse(code=token_error_to_code(payload), message=f"Token error: {payload.value}").model_dump(),
)
provider = get_local_provider()
user = await provider.get_user(payload.sub)
if user is None:
raise HTTPException(
status_code=401,
detail=AuthErrorResponse(code=AuthErrorCode.USER_NOT_FOUND, message="User not found").model_dump(),
)
# Token version mismatch → password was changed, token is stale
if user.token_version != payload.ver:
raise HTTPException(
status_code=401,
detail=AuthErrorResponse(code=AuthErrorCode.TOKEN_INVALID, message="Token revoked (password changed)").model_dump(),
)
return user
async def get_optional_user_from_request(request: Request):
"""Get optional authenticated user from request.
Returns None if not authenticated.
"""
try:
return await get_current_user_from_request(request)
except HTTPException:
return None
async def get_current_user(request: Request) -> str | None:
"""Extract user_id from request cookie, or None if not authenticated.
Thin adapter that returns the string id for callers that only need
identification (e.g., ``feedback.py``). Full-user callers should use
``get_current_user_from_request`` or ``get_optional_user_from_request``.
"""
user = await get_optional_user_from_request(request)
return str(user.id) if user else None
backend/app/gateway/internal_auth.py
-26
View File
@@ -1,26 +0,0 @@
"""Process-local authentication for Gateway internal callers."""
from __future__ import annotations
import secrets
from types import SimpleNamespace
from deerflow.runtime.user_context import DEFAULT_USER_ID
INTERNAL_AUTH_HEADER_NAME = "X-DeerFlow-Internal-Token"
_INTERNAL_AUTH_TOKEN = secrets.token_urlsafe(32)
def create_internal_auth_headers() -> dict[str, str]:
"""Return headers that authenticate same-process Gateway internal calls."""
return {INTERNAL_AUTH_HEADER_NAME: _INTERNAL_AUTH_TOKEN}
def is_valid_internal_auth_token(token: str | None) -> bool:
"""Return True when *token* matches the process-local internal token."""
return bool(token) and secrets.compare_digest(token, _INTERNAL_AUTH_TOKEN)
def get_internal_user():
"""Return the synthetic user used for trusted internal channel calls."""
return SimpleNamespace(id=DEFAULT_USER_ID, system_role="internal")
backend/app/gateway/langgraph_auth.py
-106
View File
@@ -1,106 +0,0 @@
"""LangGraph Server auth handler — shares JWT logic with Gateway.
Loaded by LangGraph Server via langgraph.json ``auth.path``.
Reuses the same ``decode_token`` / ``get_auth_config`` as Gateway,
so both modes validate tokens with the same secret and rules.
Two layers:
1. @auth.authenticate — validates JWT cookie, extracts user_id,
and enforces CSRF on state-changing methods (POST/PUT/DELETE/PATCH)
2. @auth.on — returns metadata filter so each user only sees own threads
"""
import secrets
from langgraph_sdk import Auth
from app.gateway.auth.errors import TokenError
from app.gateway.auth.jwt import decode_token
from app.gateway.deps import get_local_provider
auth = Auth()
# Methods that require CSRF validation (state-changing per RFC 7231).
_CSRF_METHODS = frozenset({"POST", "PUT", "DELETE", "PATCH"})
def _check_csrf(request) -> None:
"""Enforce Double Submit Cookie CSRF check for state-changing requests.
Mirrors Gateway's CSRFMiddleware logic so that LangGraph routes
proxied directly by nginx have the same CSRF protection.
"""
method = getattr(request, "method", "") or ""
if method.upper() not in _CSRF_METHODS:
return
cookie_token = request.cookies.get("csrf_token")
header_token = request.headers.get("x-csrf-token")
if not cookie_token or not header_token:
raise Auth.exceptions.HTTPException(
status_code=403,
detail="CSRF token missing. Include X-CSRF-Token header.",
)
if not secrets.compare_digest(cookie_token, header_token):
raise Auth.exceptions.HTTPException(
status_code=403,
detail="CSRF token mismatch.",
)
@auth.authenticate
async def authenticate(request):
"""Validate the session cookie, decode JWT, and check token_version.
Same validation chain as Gateway's get_current_user_from_request:
cookie → decode JWT → DB lookup → token_version match
Also enforces CSRF on state-changing methods.
"""
# CSRF check before authentication so forged cross-site requests
# are rejected early, even if the cookie carries a valid JWT.
_check_csrf(request)
token = request.cookies.get("access_token")
if not token:
raise Auth.exceptions.HTTPException(
status_code=401,
detail="Not authenticated",
)
payload = decode_token(token)
if isinstance(payload, TokenError):
raise Auth.exceptions.HTTPException(
status_code=401,
detail="Invalid token",
)
user = await get_local_provider().get_user(payload.sub)
if user is None:
raise Auth.exceptions.HTTPException(
status_code=401,
detail="User not found",
)
if user.token_version != payload.ver:
raise Auth.exceptions.HTTPException(
status_code=401,
detail="Token revoked (password changed)",
)
return payload.sub
@auth.on
async def add_owner_filter(ctx: Auth.types.AuthContext, value: dict):
"""Inject user_id metadata on writes; filter by user_id on reads.
Gateway stores thread ownership as ``metadata.user_id``.
This handler ensures LangGraph Server enforces the same isolation.
"""
# On create/update: stamp user_id into metadata
metadata = value.setdefault("metadata", {})
metadata["user_id"] = ctx.user.identity
# Return filter dict — LangGraph applies it to search/read/delete
return {"user_id": ctx.user.identity}
backend/app/gateway/path_utils.py
+1 -2
View File
@@ -5,7 +5,6 @@ from pathlib import Path
from fastapi import HTTPException
from deerflow.config.paths import get_paths
from deerflow.runtime.user_context import get_effective_user_id
def resolve_thread_virtual_path(thread_id: str, virtual_path: str) -> Path:
@@ -23,7 +22,7 @@ def resolve_thread_virtual_path(thread_id: str, virtual_path: str) -> Path:
HTTPException: If the path is invalid or outside allowed directories.
"""
try:
return get_paths().resolve_virtual_path(thread_id, virtual_path, user_id=get_effective_user_id())
return get_paths().resolve_virtual_path(thread_id, virtual_path)
except ValueError as e:
status = 403 if "traversal" in str(e) else 400
raise HTTPException(status_code=status, detail=str(e))
backend/app/gateway/routers/agents.py
+8 -46
View File
@@ -8,7 +8,6 @@ import yaml
from fastapi import APIRouter, HTTPException
from pydantic import BaseModel, Field
from deerflow.config.agents_api_config import get_agents_api_config
from deerflow.config.agents_config import AgentConfig, list_custom_agents, load_agent_config, load_agent_soul
from deerflow.config.paths import get_paths
@@ -25,8 +24,7 @@ class AgentResponse(BaseModel):
description: str = Field(default="", description="Agent description")
model: str | None = Field(default=None, description="Optional model override")
tool_groups: list[str] | None = Field(default=None, description="Optional tool group whitelist")
skills: list[str] | None = Field(default=None, description="Optional skill whitelist (None=all, []=none)")
soul: str | None = Field(default=None, description="SOUL.md content")
soul: str | None = Field(default=None, description="SOUL.md content (included on GET /{name})")
class AgentsListResponse(BaseModel):
@@ -42,7 +40,6 @@ class AgentCreateRequest(BaseModel):
description: str = Field(default="", description="Agent description")
model: str | None = Field(default=None, description="Optional model override")
tool_groups: list[str] | None = Field(default=None, description="Optional tool group whitelist")
skills: list[str] | None = Field(default=None, description="Optional skill whitelist (None=all enabled, []=none)")
soul: str = Field(default="", description="SOUL.md content — agent personality and behavioral guardrails")
@@ -52,7 +49,6 @@ class AgentUpdateRequest(BaseModel):
description: str | None = Field(default=None, description="Updated description")
model: str | None = Field(default=None, description="Updated model override")
tool_groups: list[str] | None = Field(default=None, description="Updated tool group whitelist")
skills: list[str] | None = Field(default=None, description="Updated skill whitelist (None=all, []=none)")
soul: str | None = Field(default=None, description="Updated SOUL.md content")
@@ -77,15 +73,6 @@ def _normalize_agent_name(name: str) -> str:
return name.lower()
def _require_agents_api_enabled() -> None:
"""Reject access unless the custom-agent management API is explicitly enabled."""
if not get_agents_api_config().enabled:
raise HTTPException(
status_code=403,
detail=("Custom-agent management API is disabled. Set agents_api.enabled=true to expose agent and user-profile routes over HTTP."),
)
def _agent_config_to_response(agent_cfg: AgentConfig, include_soul: bool = False) -> AgentResponse:
"""Convert AgentConfig to AgentResponse."""
soul: str | None = None
@@ -97,7 +84,6 @@ def _agent_config_to_response(agent_cfg: AgentConfig, include_soul: bool = False
description=agent_cfg.description,
model=agent_cfg.model,
tool_groups=agent_cfg.tool_groups,
skills=agent_cfg.skills,
soul=soul,
)
@@ -106,19 +92,17 @@ def _agent_config_to_response(agent_cfg: AgentConfig, include_soul: bool = False
"/agents",
response_model=AgentsListResponse,
summary="List Custom Agents",
description="List all custom agents available in the agents directory, including their soul content.",
description="List all custom agents available in the agents directory.",
)
async def list_agents() -> AgentsListResponse:
"""List all custom agents.
Returns:
List of all custom agents with their metadata and soul content.
List of all custom agents with their metadata (without soul content).
"""
_require_agents_api_enabled()
try:
agents = list_custom_agents()
return AgentsListResponse(agents=[_agent_config_to_response(a, include_soul=True) for a in agents])
return AgentsListResponse(agents=[_agent_config_to_response(a) for a in agents])
except Exception as e:
logger.error(f"Failed to list agents: {e}", exc_info=True)
raise HTTPException(status_code=500, detail=f"Failed to list agents: {str(e)}")
@@ -141,7 +125,6 @@ async def check_agent_name(name: str) -> dict:
Raises:
HTTPException: 422 if the name is invalid.
"""
_require_agents_api_enabled()
_validate_agent_name(name)
normalized = _normalize_agent_name(name)
available = not get_paths().agent_dir(normalized).exists()
@@ -166,7 +149,6 @@ async def get_agent(name: str) -> AgentResponse:
Raises:
HTTPException: 404 if agent not found.
"""
_require_agents_api_enabled()
_validate_agent_name(name)
name = _normalize_agent_name(name)
@@ -199,7 +181,6 @@ async def create_agent_endpoint(request: AgentCreateRequest) -> AgentResponse:
Raises:
HTTPException: 409 if agent already exists, 422 if name is invalid.
"""
_require_agents_api_enabled()
_validate_agent_name(request.name)
normalized_name = _normalize_agent_name(request.name)
@@ -219,8 +200,6 @@ async def create_agent_endpoint(request: AgentCreateRequest) -> AgentResponse:
config_data["model"] = request.model
if request.tool_groups is not None:
config_data["tool_groups"] = request.tool_groups
if request.skills is not None:
config_data["skills"] = request.skills
config_file = agent_dir / "config.yaml"
with open(config_file, "w", encoding="utf-8") as f:
@@ -264,7 +243,6 @@ async def update_agent(name: str, request: AgentUpdateRequest) -> AgentResponse:
Raises:
HTTPException: 404 if agent not found.
"""
_require_agents_api_enabled()
_validate_agent_name(name)
name = _normalize_agent_name(name)
@@ -277,32 +255,21 @@ async def update_agent(name: str, request: AgentUpdateRequest) -> AgentResponse:
try:
# Update config if any config fields changed
# Use model_fields_set to distinguish "field omitted" from "explicitly set to null".
# This is critical for skills where None means "inherit all" (not "don't change").
fields_set = request.model_fields_set
config_changed = bool(fields_set & {"description", "model", "tool_groups", "skills"})
config_changed = any(v is not None for v in [request.description, request.model, request.tool_groups])
if config_changed:
updated: dict = {
"name": agent_cfg.name,
"description": request.description if "description" in fields_set else agent_cfg.description,
"description": request.description if request.description is not None else agent_cfg.description,
}
new_model = request.model if "model" in fields_set else agent_cfg.model
new_model = request.model if request.model is not None else agent_cfg.model
if new_model is not None:
updated["model"] = new_model
new_tool_groups = request.tool_groups if "tool_groups" in fields_set else agent_cfg.tool_groups
new_tool_groups = request.tool_groups if request.tool_groups is not None else agent_cfg.tool_groups
if new_tool_groups is not None:
updated["tool_groups"] = new_tool_groups
# skills: None = inherit all, [] = no skills, ["a","b"] = whitelist
if "skills" in fields_set:
new_skills = request.skills
else:
new_skills = agent_cfg.skills
if new_skills is not None:
updated["skills"] = new_skills
config_file = agent_dir / "config.yaml"
with open(config_file, "w", encoding="utf-8") as f:
yaml.dump(updated, f, default_flow_style=False, allow_unicode=True)
@@ -348,8 +315,6 @@ async def get_user_profile() -> UserProfileResponse:
Returns:
UserProfileResponse with content=None if USER.md does not exist yet.
"""
_require_agents_api_enabled()
try:
user_md_path = get_paths().user_md_file
if not user_md_path.exists():
@@ -376,8 +341,6 @@ async def update_user_profile(request: UserProfileUpdateRequest) -> UserProfileR
Returns:
UserProfileResponse with the saved content.
"""
_require_agents_api_enabled()
try:
paths = get_paths()
paths.base_dir.mkdir(parents=True, exist_ok=True)
@@ -404,7 +367,6 @@ async def delete_agent(name: str) -> None:
Raises:
HTTPException: 404 if agent not found.
"""
_require_agents_api_enabled()
_validate_agent_name(name)
name = _normalize_agent_name(name)
backend/app/gateway/routers/artifacts.py
-2
View File
@@ -7,7 +7,6 @@ from urllib.parse import quote
from fastapi import APIRouter, HTTPException, Request
from fastapi.responses import FileResponse, PlainTextResponse, Response
from app.gateway.authz import require_permission
from app.gateway.path_utils import resolve_thread_virtual_path
logger = logging.getLogger(__name__)
@@ -82,7 +81,6 @@ def _extract_file_from_skill_archive(zip_path: Path, internal_path: str) -> byte
summary="Get Artifact File",
description="Retrieve an artifact file generated by the AI agent. Text and binary files can be viewed inline, while active web content is always downloaded.",
)
@require_permission("threads", "read", owner_check=True)
async def get_artifact(thread_id: str, path: str, request: Request, download: bool = False) -> Response:
"""Get an artifact file by its path.
backend/app/gateway/routers/auth.py
-493
View File
@@ -1,493 +0,0 @@
"""Authentication endpoints."""
import logging
import os
import time
from ipaddress import ip_address, ip_network
from fastapi import APIRouter, Depends, HTTPException, Request, Response, status
from fastapi.security import OAuth2PasswordRequestForm
from pydantic import BaseModel, EmailStr, Field, field_validator
from app.gateway.auth import (
UserResponse,
create_access_token,
)
from app.gateway.auth.config import get_auth_config
from app.gateway.auth.errors import AuthErrorCode, AuthErrorResponse
from app.gateway.csrf_middleware import is_secure_request
from app.gateway.deps import get_current_user_from_request, get_local_provider
logger = logging.getLogger(__name__)
router = APIRouter(prefix="/api/v1/auth", tags=["auth"])
# ── Request/Response Models ──────────────────────────────────────────────
class LoginResponse(BaseModel):
"""Response model for login — token only lives in HttpOnly cookie."""
expires_in: int # seconds
needs_setup: bool = False
# Top common-password blocklist. Drawn from the public SecLists "10k worst
# passwords" set, lowercased + length>=8 only (shorter ones already fail
# the min_length check). Kept tight on purpose: this is the **lower bound**
# defense, not a full HIBP / passlib check, and runs in-process per request.
_COMMON_PASSWORDS: frozenset[str] = frozenset(
{
"password",
"password1",
"password12",
"password123",
"password1234",
"12345678",
"123456789",
"1234567890",
"qwerty12",
"qwertyui",
"qwerty123",
"abc12345",
"abcd1234",
"iloveyou",
"letmein1",
"welcome1",
"welcome123",
"admin123",
"administrator",
"passw0rd",
"p@ssw0rd",
"monkey12",
"trustno1",
"sunshine",
"princess",
"football",
"baseball",
"superman",
"batman123",
"starwars",
"dragon123",
"master123",
"shadow12",
"michael1",
"jennifer",
"computer",
}
)
def _password_is_common(password: str) -> bool:
"""Case-insensitive blocklist check.
Lowercases the input so trivial mutations like ``Password`` /
``PASSWORD`` are also rejected. Does not normalize digit substitutions
(``p@ssw0rd`` is included as a literal entry instead) — keeping the
rule cheap and predictable.
"""
return password.lower() in _COMMON_PASSWORDS
def _validate_strong_password(value: str) -> str:
"""Pydantic field-validator body shared by Register + ChangePassword.
Constraint = function, not type-level mixin. The two request models
have no "is-a" relationship; they only share the password-strength
rule. Lifting it into a free function lets each model bind it via
``@field_validator(field_name)`` without inheritance gymnastics.
"""
if _password_is_common(value):
raise ValueError("Password is too common; choose a stronger password.")
return value
class RegisterRequest(BaseModel):
"""Request model for user registration."""
email: EmailStr
password: str = Field(..., min_length=8)
_strong_password = field_validator("password")(classmethod(lambda cls, v: _validate_strong_password(v)))
class ChangePasswordRequest(BaseModel):
"""Request model for password change (also handles setup flow)."""
current_password: str
new_password: str = Field(..., min_length=8)
new_email: EmailStr | None = None
_strong_password = field_validator("new_password")(classmethod(lambda cls, v: _validate_strong_password(v)))
class MessageResponse(BaseModel):
"""Generic message response."""
message: str
# ── Helpers ───────────────────────────────────────────────────────────────
def _set_session_cookie(response: Response, token: str, request: Request) -> None:
"""Set the access_token HttpOnly cookie on the response."""
config = get_auth_config()
is_https = is_secure_request(request)
response.set_cookie(
key="access_token",
value=token,
httponly=True,
secure=is_https,
samesite="lax",
max_age=config.token_expiry_days * 24 * 3600 if is_https else None,
)
# ── Rate Limiting ────────────────────────────────────────────────────────
# In-process dict — not shared across workers.
#
# **Limitation**: with multi-worker deployments (e.g., gunicorn -w N), each
# worker maintains its own lockout table, so an attacker effectively gets
# N × _MAX_LOGIN_ATTEMPTS guesses before being locked out everywhere. For
# production multi-worker setups, replace this with a shared store (Redis,
# database-backed counter) to enforce a true per-IP limit.
_MAX_LOGIN_ATTEMPTS = 5
_LOCKOUT_SECONDS = 300 # 5 minutes
# ip → (fail_count, lock_until_timestamp)
_login_attempts: dict[str, tuple[int, float]] = {}
def _trusted_proxies() -> list:
"""Parse ``AUTH_TRUSTED_PROXIES`` env var into a list of ip_network objects.
Comma-separated CIDR or single-IP entries. Empty / unset = no proxy is
trusted (direct mode). Invalid entries are skipped with a logger warning.
Read live so env-var overrides take effect immediately and tests can
``monkeypatch.setenv`` without poking a module-level cache.
"""
raw = os.getenv("AUTH_TRUSTED_PROXIES", "").strip()
if not raw:
return []
nets = []
for entry in raw.split(","):
entry = entry.strip()
if not entry:
continue
try:
nets.append(ip_network(entry, strict=False))
except ValueError:
logger.warning("AUTH_TRUSTED_PROXIES: ignoring invalid entry %r", entry)
return nets
def _get_client_ip(request: Request) -> str:
"""Extract the real client IP for rate limiting.
Trust model:
- The TCP peer (``request.client.host``) is always the baseline. It is
whatever the kernel reports as the connecting socket — unforgeable
by the client itself.
- ``X-Real-IP`` is **only** honored if the TCP peer is in the
``AUTH_TRUSTED_PROXIES`` allowlist (set via env var, comma-separated
CIDR or single IPs). When set, the gateway is assumed to be behind a
reverse proxy (nginx, Cloudflare, ALB, …) that overwrites
``X-Real-IP`` with the original client address.
- With no ``AUTH_TRUSTED_PROXIES`` set, ``X-Real-IP`` is silently
ignored — closing the bypass where any client could rotate the
header to dodge per-IP rate limits in dev / direct-gateway mode.
``X-Forwarded-For`` is intentionally NOT used because it is naturally
client-controlled at the *first* hop and the trust chain is harder to
audit per-request.
"""
peer_host = request.client.host if request.client else None
trusted = _trusted_proxies()
if trusted and peer_host:
try:
peer_ip = ip_address(peer_host)
if any(peer_ip in net for net in trusted):
real_ip = request.headers.get("x-real-ip", "").strip()
if real_ip:
return real_ip
except ValueError:
# peer_host wasn't a parseable IP (e.g. "unknown") — fall through
pass
return peer_host or "unknown"
def _check_rate_limit(ip: str) -> None:
"""Raise 429 if the IP is currently locked out."""
record = _login_attempts.get(ip)
if record is None:
return
fail_count, lock_until = record
if fail_count >= _MAX_LOGIN_ATTEMPTS:
if time.time() < lock_until:
raise HTTPException(
status_code=429,
detail="Too many login attempts. Try again later.",
)
del _login_attempts[ip]
_MAX_TRACKED_IPS = 10000
def _record_login_failure(ip: str) -> None:
"""Record a failed login attempt for the given IP."""
# Evict expired lockouts when dict grows too large
if len(_login_attempts) >= _MAX_TRACKED_IPS:
now = time.time()
expired = [k for k, (c, t) in _login_attempts.items() if c >= _MAX_LOGIN_ATTEMPTS and now >= t]
for k in expired:
del _login_attempts[k]
# If still too large, evict cheapest-to-lose half: below-threshold
# IPs (lock_until=0.0) sort first, then earliest-expiring lockouts.
if len(_login_attempts) >= _MAX_TRACKED_IPS:
by_time = sorted(_login_attempts.items(), key=lambda kv: kv[1][1])
for k, _ in by_time[: len(by_time) // 2]:
del _login_attempts[k]
record = _login_attempts.get(ip)
if record is None:
_login_attempts[ip] = (1, 0.0)
else:
new_count = record[0] + 1
lock_until = time.time() + _LOCKOUT_SECONDS if new_count >= _MAX_LOGIN_ATTEMPTS else 0.0
_login_attempts[ip] = (new_count, lock_until)
def _record_login_success(ip: str) -> None:
"""Clear failure counter for the given IP on successful login."""
_login_attempts.pop(ip, None)
# ── Endpoints ─────────────────────────────────────────────────────────────
@router.post("/login/local", response_model=LoginResponse)
async def login_local(
request: Request,
response: Response,
form_data: OAuth2PasswordRequestForm = Depends(),
):
"""Local email/password login."""
client_ip = _get_client_ip(request)
_check_rate_limit(client_ip)
user = await get_local_provider().authenticate({"email": form_data.username, "password": form_data.password})
if user is None:
_record_login_failure(client_ip)
raise HTTPException(
status_code=status.HTTP_401_UNAUTHORIZED,
detail=AuthErrorResponse(code=AuthErrorCode.INVALID_CREDENTIALS, message="Incorrect email or password").model_dump(),
)
_record_login_success(client_ip)
token = create_access_token(str(user.id), token_version=user.token_version)
_set_session_cookie(response, token, request)
return LoginResponse(
expires_in=get_auth_config().token_expiry_days * 24 * 3600,
needs_setup=user.needs_setup,
)
@router.post("/register", response_model=UserResponse, status_code=status.HTTP_201_CREATED)
async def register(request: Request, response: Response, body: RegisterRequest):
"""Register a new user account (always 'user' role).
Admin is auto-created on first boot. This endpoint creates regular users.
Auto-login by setting the session cookie.
"""
try:
user = await get_local_provider().create_user(email=body.email, password=body.password, system_role="user")
except ValueError:
raise HTTPException(
status_code=status.HTTP_400_BAD_REQUEST,
detail=AuthErrorResponse(code=AuthErrorCode.EMAIL_ALREADY_EXISTS, message="Email already registered").model_dump(),
)
token = create_access_token(str(user.id), token_version=user.token_version)
_set_session_cookie(response, token, request)
return UserResponse(id=str(user.id), email=user.email, system_role=user.system_role)
@router.post("/logout", response_model=MessageResponse)
async def logout(request: Request, response: Response):
"""Logout current user by clearing the cookie."""
response.delete_cookie(key="access_token", secure=is_secure_request(request), samesite="lax")
return MessageResponse(message="Successfully logged out")
@router.post("/change-password", response_model=MessageResponse)
async def change_password(request: Request, response: Response, body: ChangePasswordRequest):
"""Change password for the currently authenticated user.
Also handles the first-boot setup flow:
- If new_email is provided, updates email (checks uniqueness)
- If user.needs_setup is True and new_email is given, clears needs_setup
- Always increments token_version to invalidate old sessions
- Re-issues session cookie with new token_version
"""
from app.gateway.auth.password import hash_password_async, verify_password_async
user = await get_current_user_from_request(request)
if user.password_hash is None:
raise HTTPException(status_code=status.HTTP_400_BAD_REQUEST, detail=AuthErrorResponse(code=AuthErrorCode.INVALID_CREDENTIALS, message="OAuth users cannot change password").model_dump())
if not await verify_password_async(body.current_password, user.password_hash):
raise HTTPException(status_code=status.HTTP_400_BAD_REQUEST, detail=AuthErrorResponse(code=AuthErrorCode.INVALID_CREDENTIALS, message="Current password is incorrect").model_dump())
provider = get_local_provider()
# Update email if provided
if body.new_email is not None:
existing = await provider.get_user_by_email(body.new_email)
if existing and str(existing.id) != str(user.id):
raise HTTPException(status_code=status.HTTP_400_BAD_REQUEST, detail=AuthErrorResponse(code=AuthErrorCode.EMAIL_ALREADY_EXISTS, message="Email already in use").model_dump())
user.email = body.new_email
# Update password + bump version
user.password_hash = await hash_password_async(body.new_password)
user.token_version += 1
# Clear setup flag if this is the setup flow
if user.needs_setup and body.new_email is not None:
user.needs_setup = False
await provider.update_user(user)
# Re-issue cookie with new token_version
token = create_access_token(str(user.id), token_version=user.token_version)
_set_session_cookie(response, token, request)
return MessageResponse(message="Password changed successfully")
@router.get("/me", response_model=UserResponse)
async def get_me(request: Request):
"""Get current authenticated user info."""
user = await get_current_user_from_request(request)
return UserResponse(id=str(user.id), email=user.email, system_role=user.system_role, needs_setup=user.needs_setup)
_SETUP_STATUS_COOLDOWN: dict[str, float] = {}
_SETUP_STATUS_COOLDOWN_SECONDS = 60
_MAX_TRACKED_SETUP_STATUS_IPS = 10000
@router.get("/setup-status")
async def setup_status(request: Request):
"""Check if an admin account exists. Returns needs_setup=True when no admin exists."""
client_ip = _get_client_ip(request)
now = time.time()
last_check = _SETUP_STATUS_COOLDOWN.get(client_ip, 0)
elapsed = now - last_check
if elapsed < _SETUP_STATUS_COOLDOWN_SECONDS:
retry_after = max(1, int(_SETUP_STATUS_COOLDOWN_SECONDS - elapsed))
raise HTTPException(
status_code=status.HTTP_429_TOO_MANY_REQUESTS,
detail="Setup status check is rate limited",
headers={"Retry-After": str(retry_after)},
)
# Evict stale entries when dict grows too large to bound memory usage.
if len(_SETUP_STATUS_COOLDOWN) >= _MAX_TRACKED_SETUP_STATUS_IPS:
cutoff = now - _SETUP_STATUS_COOLDOWN_SECONDS
stale = [k for k, t in _SETUP_STATUS_COOLDOWN.items() if t < cutoff]
for k in stale:
del _SETUP_STATUS_COOLDOWN[k]
# If still too large after evicting expired entries, remove oldest half.
if len(_SETUP_STATUS_COOLDOWN) >= _MAX_TRACKED_SETUP_STATUS_IPS:
by_time = sorted(_SETUP_STATUS_COOLDOWN.items(), key=lambda kv: kv[1])
for k, _ in by_time[: len(by_time) // 2]:
del _SETUP_STATUS_COOLDOWN[k]
_SETUP_STATUS_COOLDOWN[client_ip] = now
admin_count = await get_local_provider().count_admin_users()
return {"needs_setup": admin_count == 0}
class InitializeAdminRequest(BaseModel):
"""Request model for first-boot admin account creation."""
email: EmailStr
password: str = Field(..., min_length=8)
_strong_password = field_validator("password")(classmethod(lambda cls, v: _validate_strong_password(v)))
@router.post("/initialize", response_model=UserResponse, status_code=status.HTTP_201_CREATED)
async def initialize_admin(request: Request, response: Response, body: InitializeAdminRequest):
"""Create the first admin account on initial system setup.
Only callable when no admin exists. Returns 409 Conflict if an admin
already exists.
On success, the admin account is created with ``needs_setup=False`` and
the session cookie is set.
"""
admin_count = await get_local_provider().count_admin_users()
if admin_count > 0:
raise HTTPException(
status_code=status.HTTP_409_CONFLICT,
detail=AuthErrorResponse(code=AuthErrorCode.SYSTEM_ALREADY_INITIALIZED, message="System already initialized").model_dump(),
)
try:
user = await get_local_provider().create_user(email=body.email, password=body.password, system_role="admin", needs_setup=False)
except ValueError:
# DB unique-constraint race: another concurrent request beat us.
raise HTTPException(
status_code=status.HTTP_409_CONFLICT,
detail=AuthErrorResponse(code=AuthErrorCode.SYSTEM_ALREADY_INITIALIZED, message="System already initialized").model_dump(),
)
token = create_access_token(str(user.id), token_version=user.token_version)
_set_session_cookie(response, token, request)
return UserResponse(id=str(user.id), email=user.email, system_role=user.system_role)
# ── OAuth Endpoints (Future/Placeholder) ─────────────────────────────────
@router.get("/oauth/{provider}")
async def oauth_login(provider: str):
"""Initiate OAuth login flow.
Redirects to the OAuth provider's authorization URL.
Currently a placeholder - requires OAuth provider implementation.
"""
if provider not in ["github", "google"]:
raise HTTPException(
status_code=status.HTTP_400_BAD_REQUEST,
detail=f"Unsupported OAuth provider: {provider}",
)
raise HTTPException(
status_code=status.HTTP_501_NOT_IMPLEMENTED,
detail="OAuth login not yet implemented",
)
@router.get("/callback/{provider}")
async def oauth_callback(provider: str, code: str, state: str):
"""OAuth callback endpoint.
Handles the OAuth provider's callback after user authorization.
Currently a placeholder.
"""
raise HTTPException(
status_code=status.HTTP_501_NOT_IMPLEMENTED,
detail="OAuth callback not yet implemented",
)
backend/app/gateway/routers/feedback.py
-188
View File
@@ -1,188 +0,0 @@
"""Feedback endpoints — create, list, stats, delete.
Allows users to submit thumbs-up/down feedback on runs,
optionally scoped to a specific message.
"""
from __future__ import annotations
import logging
from typing import Any
from fastapi import APIRouter, HTTPException, Request
from pydantic import BaseModel, Field
from app.gateway.authz import require_permission
from app.gateway.deps import get_current_user, get_feedback_repo, get_run_store
logger = logging.getLogger(__name__)
router = APIRouter(prefix="/api/threads", tags=["feedback"])
# ---------------------------------------------------------------------------
# Request / response models
# ---------------------------------------------------------------------------
class FeedbackCreateRequest(BaseModel):
rating: int = Field(..., description="Feedback rating: +1 (positive) or -1 (negative)")
comment: str | None = Field(default=None, description="Optional text feedback")
message_id: str | None = Field(default=None, description="Optional: scope feedback to a specific message")
class FeedbackUpsertRequest(BaseModel):
rating: int = Field(..., description="Feedback rating: +1 (positive) or -1 (negative)")
comment: str | None = Field(default=None, description="Optional text feedback")
class FeedbackResponse(BaseModel):
feedback_id: str
run_id: str
thread_id: str
user_id: str | None = None
message_id: str | None = None
rating: int
comment: str | None = None
created_at: str = ""
class FeedbackStatsResponse(BaseModel):
run_id: str
total: int = 0
positive: int = 0
negative: int = 0
# ---------------------------------------------------------------------------
# Endpoints
# ---------------------------------------------------------------------------
@router.put("/{thread_id}/runs/{run_id}/feedback", response_model=FeedbackResponse)
@require_permission("threads", "write", owner_check=True, require_existing=True)
async def upsert_feedback(
thread_id: str,
run_id: str,
body: FeedbackUpsertRequest,
request: Request,
) -> dict[str, Any]:
"""Create or update feedback for a run (idempotent)."""
if body.rating not in (1, -1):
raise HTTPException(status_code=400, detail="rating must be +1 or -1")
user_id = await get_current_user(request)
run_store = get_run_store(request)
run = await run_store.get(run_id)
if run is None:
raise HTTPException(status_code=404, detail=f"Run {run_id} not found")
if run.get("thread_id") != thread_id:
raise HTTPException(status_code=404, detail=f"Run {run_id} not found in thread {thread_id}")
feedback_repo = get_feedback_repo(request)
return await feedback_repo.upsert(
run_id=run_id,
thread_id=thread_id,
rating=body.rating,
user_id=user_id,
comment=body.comment,
)
@router.delete("/{thread_id}/runs/{run_id}/feedback")
@require_permission("threads", "delete", owner_check=True, require_existing=True)
async def delete_run_feedback(
thread_id: str,
run_id: str,
request: Request,
) -> dict[str, bool]:
"""Delete the current user's feedback for a run."""
user_id = await get_current_user(request)
feedback_repo = get_feedback_repo(request)
deleted = await feedback_repo.delete_by_run(
thread_id=thread_id,
run_id=run_id,
user_id=user_id,
)
if not deleted:
raise HTTPException(status_code=404, detail="No feedback found for this run")
return {"success": True}
@router.post("/{thread_id}/runs/{run_id}/feedback", response_model=FeedbackResponse)
@require_permission("threads", "write", owner_check=True, require_existing=True)
async def create_feedback(
thread_id: str,
run_id: str,
body: FeedbackCreateRequest,
request: Request,
) -> dict[str, Any]:
"""Submit feedback (thumbs-up/down) for a run."""
if body.rating not in (1, -1):
raise HTTPException(status_code=400, detail="rating must be +1 or -1")
user_id = await get_current_user(request)
# Validate run exists and belongs to thread
run_store = get_run_store(request)
run = await run_store.get(run_id)
if run is None:
raise HTTPException(status_code=404, detail=f"Run {run_id} not found")
if run.get("thread_id") != thread_id:
raise HTTPException(status_code=404, detail=f"Run {run_id} not found in thread {thread_id}")
feedback_repo = get_feedback_repo(request)
return await feedback_repo.create(
run_id=run_id,
thread_id=thread_id,
rating=body.rating,
user_id=user_id,
message_id=body.message_id,
comment=body.comment,
)
@router.get("/{thread_id}/runs/{run_id}/feedback", response_model=list[FeedbackResponse])
@require_permission("threads", "read", owner_check=True)
async def list_feedback(
thread_id: str,
run_id: str,
request: Request,
) -> list[dict[str, Any]]:
"""List all feedback for a run."""
feedback_repo = get_feedback_repo(request)
return await feedback_repo.list_by_run(thread_id, run_id)
@router.get("/{thread_id}/runs/{run_id}/feedback/stats", response_model=FeedbackStatsResponse)
@require_permission("threads", "read", owner_check=True)
async def feedback_stats(
thread_id: str,
run_id: str,
request: Request,
) -> dict[str, Any]:
"""Get aggregated feedback stats (positive/negative counts) for a run."""
feedback_repo = get_feedback_repo(request)
return await feedback_repo.aggregate_by_run(thread_id, run_id)
@router.delete("/{thread_id}/runs/{run_id}/feedback/{feedback_id}")
@require_permission("threads", "delete", owner_check=True, require_existing=True)
async def delete_feedback(
thread_id: str,
run_id: str,
feedback_id: str,
request: Request,
) -> dict[str, bool]:
"""Delete a feedback record."""
feedback_repo = get_feedback_repo(request)
# Verify feedback belongs to the specified thread/run before deleting
existing = await feedback_repo.get(feedback_id)
if existing is None:
raise HTTPException(status_code=404, detail=f"Feedback {feedback_id} not found")
if existing.get("thread_id") != thread_id or existing.get("run_id") != run_id:
raise HTTPException(status_code=404, detail=f"Feedback {feedback_id} not found in run {run_id}")
deleted = await feedback_repo.delete(feedback_id)
if not deleted:
raise HTTPException(status_code=404, detail=f"Feedback {feedback_id} not found")
return {"success": True}
backend/app/gateway/routers/memory.py
+7 -20
View File
@@ -13,7 +13,6 @@ from deerflow.agents.memory.updater import (
update_memory_fact,
)
from deerflow.config.memory_config import get_memory_config
from deerflow.runtime.user_context import get_effective_user_id
router = APIRouter(prefix="/api", tags=["memory"])
@@ -50,7 +49,6 @@ class Fact(BaseModel):
confidence: float = Field(default=0.5, description="Confidence score (0-1)")
createdAt: str = Field(default="", description="Creation timestamp")
source: str = Field(default="unknown", description="Source thread ID")
sourceError: str | None = Field(default=None, description="Optional description of the prior mistake or wrong approach")
class MemoryResponse(BaseModel):
@@ -110,7 +108,6 @@ class MemoryStatusResponse(BaseModel):
@router.get(
"/memory",
response_model=MemoryResponse,
response_model_exclude_none=True,
summary="Get Memory Data",
description="Retrieve the current global memory data including user context, history, and facts.",
)
@@ -148,14 +145,13 @@ async def get_memory() -> MemoryResponse:
}
```
"""
memory_data = get_memory_data(user_id=get_effective_user_id())
memory_data = get_memory_data()
return MemoryResponse(**memory_data)
@router.post(
"/memory/reload",
response_model=MemoryResponse,
response_model_exclude_none=True,
summary="Reload Memory Data",
description="Reload memory data from the storage file, refreshing the in-memory cache.",
)
@@ -168,21 +164,20 @@ async def reload_memory() -> MemoryResponse:
Returns:
The reloaded memory data.
"""
memory_data = reload_memory_data(user_id=get_effective_user_id())
memory_data = reload_memory_data()
return MemoryResponse(**memory_data)
@router.delete(
"/memory",
response_model=MemoryResponse,
response_model_exclude_none=True,
summary="Clear All Memory Data",
description="Delete all saved memory data and reset the memory structure to an empty state.",
)
async def clear_memory() -> MemoryResponse:
"""Clear all persisted memory data."""
try:
memory_data = clear_memory_data(user_id=get_effective_user_id())
memory_data = clear_memory_data()
except OSError as exc:
raise HTTPException(status_code=500, detail="Failed to clear memory data.") from exc
@@ -192,7 +187,6 @@ async def clear_memory() -> MemoryResponse:
@router.post(
"/memory/facts",
response_model=MemoryResponse,
response_model_exclude_none=True,
summary="Create Memory Fact",
description="Create a single saved memory fact manually.",
)
@@ -203,7 +197,6 @@ async def create_memory_fact_endpoint(request: FactCreateRequest) -> MemoryRespo
content=request.content,
category=request.category,
confidence=request.confidence,
user_id=get_effective_user_id(),
)
except ValueError as exc:
raise _map_memory_fact_value_error(exc) from exc
@@ -216,14 +209,13 @@ async def create_memory_fact_endpoint(request: FactCreateRequest) -> MemoryRespo
@router.delete(
"/memory/facts/{fact_id}",
response_model=MemoryResponse,
response_model_exclude_none=True,
summary="Delete Memory Fact",
description="Delete a single saved memory fact by its fact id.",
)
async def delete_memory_fact_endpoint(fact_id: str) -> MemoryResponse:
"""Delete a single fact from memory by fact id."""
try:
memory_data = delete_memory_fact(fact_id, user_id=get_effective_user_id())
memory_data = delete_memory_fact(fact_id)
except KeyError as exc:
raise HTTPException(status_code=404, detail=f"Memory fact '{fact_id}' not found.") from exc
except OSError as exc:
@@ -235,7 +227,6 @@ async def delete_memory_fact_endpoint(fact_id: str) -> MemoryResponse:
@router.patch(
"/memory/facts/{fact_id}",
response_model=MemoryResponse,
response_model_exclude_none=True,
summary="Patch Memory Fact",
description="Partially update a single saved memory fact by its fact id while preserving omitted fields.",
)
@@ -247,7 +238,6 @@ async def update_memory_fact_endpoint(fact_id: str, request: FactPatchRequest) -
content=request.content,
category=request.category,
confidence=request.confidence,
user_id=get_effective_user_id(),
)
except ValueError as exc:
raise _map_memory_fact_value_error(exc) from exc
@@ -262,27 +252,25 @@ async def update_memory_fact_endpoint(fact_id: str, request: FactPatchRequest) -
@router.get(
"/memory/export",
response_model=MemoryResponse,
response_model_exclude_none=True,
summary="Export Memory Data",
description="Export the current global memory data as JSON for backup or transfer.",
)
async def export_memory() -> MemoryResponse:
"""Export the current memory data."""
memory_data = get_memory_data(user_id=get_effective_user_id())
memory_data = get_memory_data()
return MemoryResponse(**memory_data)
@router.post(
"/memory/import",
response_model=MemoryResponse,
response_model_exclude_none=True,
summary="Import Memory Data",
description="Import and overwrite the current global memory data from a JSON payload.",
)
async def import_memory(request: MemoryResponse) -> MemoryResponse:
"""Import and persist memory data."""
try:
memory_data = import_memory_data(request.model_dump(), user_id=get_effective_user_id())
memory_data = import_memory_data(request.model_dump())
except OSError as exc:
raise HTTPException(status_code=500, detail="Failed to import memory data.") from exc
@@ -329,7 +317,6 @@ async def get_memory_config_endpoint() -> MemoryConfigResponse:
@router.get(
"/memory/status",
response_model=MemoryStatusResponse,
response_model_exclude_none=True,
summary="Get Memory Status",
description="Retrieve both memory configuration and current data in a single request.",
)
@@ -340,7 +327,7 @@ async def get_memory_status() -> MemoryStatusResponse:
Combined memory configuration and current data.
"""
config = get_memory_config()
memory_data = get_memory_data(user_id=get_effective_user_id())
memory_data = get_memory_data()
return MemoryStatusResponse(
config=MemoryConfigResponse(
backend/app/gateway/routers/models.py
+11 -27
View File
@@ -1,8 +1,7 @@
from fastapi import APIRouter, Depends, HTTPException
from fastapi import APIRouter, HTTPException
from pydantic import BaseModel, Field
from app.gateway.deps import get_config
from deerflow.config.app_config import AppConfig
from deerflow.config import get_app_config
router = APIRouter(prefix="/api", tags=["models"])
@@ -18,17 +17,10 @@ class ModelResponse(BaseModel):
supports_reasoning_effort: bool = Field(default=False, description="Whether model supports reasoning effort")
class TokenUsageResponse(BaseModel):
"""Token usage display configuration."""
enabled: bool = Field(default=False, description="Whether token usage display is enabled")
class ModelsListResponse(BaseModel):
"""Response model for listing all models."""
models: list[ModelResponse]
token_usage: TokenUsageResponse
@router.get(
@@ -37,14 +29,14 @@ class ModelsListResponse(BaseModel):
summary="List All Models",
description="Retrieve a list of all available AI models configured in the system.",
)
async def list_models(config: AppConfig = Depends(get_config)) -> ModelsListResponse:
async def list_models() -> ModelsListResponse:
"""List all available models from configuration.
Returns model information suitable for frontend display,
excluding sensitive fields like API keys and internal configuration.
Returns:
A list of all configured models with their metadata and token usage display settings.
A list of all configured models with their metadata.
Example Response:
```json
@@ -52,27 +44,21 @@ async def list_models(config: AppConfig = Depends(get_config)) -> ModelsListResp
"models": [
{
"name": "gpt-4",
"model": "gpt-4",
"display_name": "GPT-4",
"description": "OpenAI GPT-4 model",
"supports_thinking": false,
"supports_reasoning_effort": false
"supports_thinking": false
},
{
"name": "claude-3-opus",
"model": "claude-3-opus",
"display_name": "Claude 3 Opus",
"description": "Anthropic Claude 3 Opus model",
"supports_thinking": true,
"supports_reasoning_effort": false
"supports_thinking": true
}
],
"token_usage": {
"enabled": true
}
]
}
```
"""
config = get_app_config()
models = [
ModelResponse(
name=model.name,
@@ -84,10 +70,7 @@ async def list_models(config: AppConfig = Depends(get_config)) -> ModelsListResp
)
for model in config.models
]
return ModelsListResponse(
models=models,
token_usage=TokenUsageResponse(enabled=config.token_usage.enabled),
)
return ModelsListResponse(models=models)
@router.get(
@@ -96,7 +79,7 @@ async def list_models(config: AppConfig = Depends(get_config)) -> ModelsListResp
summary="Get Model Details",
description="Retrieve detailed information about a specific AI model by its name.",
)
async def get_model(model_name: str, config: AppConfig = Depends(get_config)) -> ModelResponse:
async def get_model(model_name: str) -> ModelResponse:
"""Get a specific model by name.
Args:
@@ -118,6 +101,7 @@ async def get_model(model_name: str, config: AppConfig = Depends(get_config)) ->
}
```
"""
config = get_app_config()
model = config.get_model_config(model_name)
if model is None:
raise HTTPException(status_code=404, detail=f"Model '{model_name}' not found")
backend/app/gateway/routers/runs.py
+2 -59
View File
@@ -11,11 +11,10 @@ import asyncio
import logging
import uuid
from fastapi import APIRouter, HTTPException, Query, Request
from fastapi import APIRouter, Request
from fastapi.responses import StreamingResponse
from app.gateway.authz import require_permission
from app.gateway.deps import get_checkpointer, get_feedback_repo, get_run_event_store, get_run_manager, get_run_store, get_stream_bridge
from app.gateway.deps import get_checkpointer, get_run_manager, get_stream_bridge
from app.gateway.routers.thread_runs import RunCreateRequest
from app.gateway.services import sse_consumer, start_run
from deerflow.runtime import serialize_channel_values
@@ -52,7 +51,6 @@ async def stateless_stream(body: RunCreateRequest, request: Request) -> Streamin
"Cache-Control": "no-cache",
"Connection": "keep-alive",
"X-Accel-Buffering": "no",
"Content-Location": f"/api/threads/{thread_id}/runs/{record.run_id}",
},
)
@@ -86,58 +84,3 @@ async def stateless_wait(body: RunCreateRequest, request: Request) -> dict:
logger.exception("Failed to fetch final state for run %s", record.run_id)
return {"status": record.status.value, "error": record.error}
# ---------------------------------------------------------------------------
# Run-scoped read endpoints
# ---------------------------------------------------------------------------
async def _resolve_run(run_id: str, request: Request) -> dict:
"""Fetch run by run_id with user ownership check. Raises 404 if not found."""
run_store = get_run_store(request)
record = await run_store.get(run_id) # user_id=AUTO filters by contextvar
if record is None:
raise HTTPException(status_code=404, detail=f"Run {run_id} not found")
return record
@router.get("/{run_id}/messages")
@require_permission("runs", "read")
async def run_messages(
run_id: str,
request: Request,
limit: int = Query(default=50, le=200, ge=1),
before_seq: int | None = Query(default=None),
after_seq: int | None = Query(default=None),
) -> dict:
"""Return paginated messages for a run (cursor-based).
Pagination:
- after_seq: messages with seq > after_seq (forward)
- before_seq: messages with seq < before_seq (backward)
- neither: latest messages
Response: { data: [...], has_more: bool }
"""
run = await _resolve_run(run_id, request)
event_store = get_run_event_store(request)
rows = await event_store.list_messages_by_run(
run["thread_id"],
run_id,
limit=limit + 1,
before_seq=before_seq,
after_seq=after_seq,
)
has_more = len(rows) > limit
data = rows[:limit] if has_more else rows
return {"data": data, "has_more": has_more}
@router.get("/{run_id}/feedback")
@require_permission("runs", "read")
async def run_feedback(run_id: str, request: Request) -> list[dict]:
"""Return all feedback for a run."""
run = await _resolve_run(run_id, request)
feedback_repo = get_feedback_repo(request)
return await feedback_repo.list_by_run(run["thread_id"], run_id)
backend/app/gateway/routers/skills.py
+35 -214
View File
@@ -2,19 +2,13 @@ import json
import logging
from pathlib import Path
from fastapi import APIRouter, Depends, HTTPException
from fastapi import APIRouter, HTTPException
from pydantic import BaseModel, Field
from app.gateway.deps import get_config
from app.gateway.path_utils import resolve_thread_virtual_path
from deerflow.agents.lead_agent.prompt import refresh_skills_system_prompt_cache_async
from deerflow.config.app_config import AppConfig
from deerflow.config.extensions_config import ExtensionsConfig, SkillStateConfig, get_extensions_config, reload_extensions_config
from deerflow.skills import Skill
from deerflow.skills.installer import SkillAlreadyExistsError
from deerflow.skills.security_scanner import scan_skill_content
from deerflow.skills.storage import get_or_new_skill_storage
from deerflow.skills.types import SKILL_MD_FILE, SkillCategory
from deerflow.skills import Skill, load_skills
from deerflow.skills.installer import SkillAlreadyExistsError, install_skill_from_archive
logger = logging.getLogger(__name__)
@@ -27,7 +21,7 @@ class SkillResponse(BaseModel):
name: str = Field(..., description="Name of the skill")
description: str = Field(..., description="Description of what the skill does")
license: str | None = Field(None, description="License information")
category: SkillCategory = Field(..., description="Category of the skill (public or custom)")
category: str = Field(..., description="Category of the skill (public or custom)")
enabled: bool = Field(default=True, description="Whether this skill is enabled")
@@ -58,22 +52,6 @@ class SkillInstallResponse(BaseModel):
message: str = Field(..., description="Installation result message")
class CustomSkillContentResponse(SkillResponse):
content: str = Field(..., description="Raw SKILL.md content")
class CustomSkillUpdateRequest(BaseModel):
content: str = Field(..., description="Replacement SKILL.md content")
class CustomSkillHistoryResponse(BaseModel):
history: list[dict]
class SkillRollbackRequest(BaseModel):
history_index: int = Field(default=-1, description="History entry index to restore from, defaulting to the latest change.")
def _skill_to_response(skill: Skill) -> SkillResponse:
"""Convert a Skill object to a SkillResponse."""
return SkillResponse(
@@ -91,203 +69,24 @@ def _skill_to_response(skill: Skill) -> SkillResponse:
summary="List All Skills",
description="Retrieve a list of all available skills from both public and custom directories.",
)
async def list_skills(config: AppConfig = Depends(get_config)) -> SkillsListResponse:
async def list_skills() -> SkillsListResponse:
try:
skills = get_or_new_skill_storage(app_config=config).load_skills(enabled_only=False)
skills = load_skills(enabled_only=False)
return SkillsListResponse(skills=[_skill_to_response(skill) for skill in skills])
except Exception as e:
logger.error(f"Failed to load skills: {e}", exc_info=True)
raise HTTPException(status_code=500, detail=f"Failed to load skills: {str(e)}")
@router.post(
"/skills/install",
response_model=SkillInstallResponse,
summary="Install Skill",
description="Install a skill from a .skill file (ZIP archive) located in the thread's user-data directory.",
)
async def install_skill(request: SkillInstallRequest, config: AppConfig = Depends(get_config)) -> SkillInstallResponse:
try:
skill_file_path = resolve_thread_virtual_path(request.thread_id, request.path)
result = await get_or_new_skill_storage(app_config=config).ainstall_skill_from_archive(skill_file_path)
await refresh_skills_system_prompt_cache_async()
return SkillInstallResponse(**result)
except FileNotFoundError as e:
raise HTTPException(status_code=404, detail=str(e))
except SkillAlreadyExistsError as e:
raise HTTPException(status_code=409, detail=str(e))
except ValueError as e:
raise HTTPException(status_code=400, detail=str(e))
except HTTPException:
raise
except Exception as e:
logger.error(f"Failed to install skill: {e}", exc_info=True)
raise HTTPException(status_code=500, detail=f"Failed to install skill: {str(e)}")
@router.get("/skills/custom", response_model=SkillsListResponse, summary="List Custom Skills")
async def list_custom_skills(config: AppConfig = Depends(get_config)) -> SkillsListResponse:
try:
skills = [skill for skill in get_or_new_skill_storage(app_config=config).load_skills(enabled_only=False) if skill.category == SkillCategory.CUSTOM]
return SkillsListResponse(skills=[_skill_to_response(skill) for skill in skills])
except Exception as e:
logger.error("Failed to list custom skills: %s", e, exc_info=True)
raise HTTPException(status_code=500, detail=f"Failed to list custom skills: {str(e)}")
@router.get("/skills/custom/{skill_name}", response_model=CustomSkillContentResponse, summary="Get Custom Skill Content")
async def get_custom_skill(skill_name: str, config: AppConfig = Depends(get_config)) -> CustomSkillContentResponse:
try:
skill_name = skill_name.replace("\r\n", "").replace("\n", "")
skills = get_or_new_skill_storage(app_config=config).load_skills(enabled_only=False)
skill = next((s for s in skills if s.name == skill_name and s.category == SkillCategory.CUSTOM), None)
if skill is None:
raise HTTPException(status_code=404, detail=f"Custom skill '{skill_name}' not found")
return CustomSkillContentResponse(**_skill_to_response(skill).model_dump(), content=get_or_new_skill_storage(app_config=config).read_custom_skill(skill_name))
except HTTPException:
raise
except Exception as e:
logger.error("Failed to get custom skill %s: %s", skill_name, e, exc_info=True)
raise HTTPException(status_code=500, detail=f"Failed to get custom skill: {str(e)}")
@router.put("/skills/custom/{skill_name}", response_model=CustomSkillContentResponse, summary="Edit Custom Skill")
async def update_custom_skill(skill_name: str, request: CustomSkillUpdateRequest, config: AppConfig = Depends(get_config)) -> CustomSkillContentResponse:
try:
skill_name = skill_name.replace("\r\n", "").replace("\n", "")
storage = get_or_new_skill_storage(app_config=config)
storage.ensure_custom_skill_is_editable(skill_name)
storage.validate_skill_markdown_content(skill_name, request.content)
scan = await scan_skill_content(request.content, executable=False, location=f"{skill_name}/{SKILL_MD_FILE}", app_config=config)
if scan.decision == "block":
raise HTTPException(status_code=400, detail=f"Security scan blocked the edit: {scan.reason}")
prev_content = storage.read_custom_skill(skill_name)
storage.write_custom_skill(skill_name, SKILL_MD_FILE, request.content)
storage.append_history(
skill_name,
{
"action": "human_edit",
"author": "human",
"thread_id": None,
"file_path": SKILL_MD_FILE,
"prev_content": prev_content,
"new_content": request.content,
"scanner": {"decision": scan.decision, "reason": scan.reason},
},
)
await refresh_skills_system_prompt_cache_async()
return await get_custom_skill(skill_name, config)
except HTTPException:
raise
except FileNotFoundError as e:
raise HTTPException(status_code=404, detail=str(e))
except ValueError as e:
raise HTTPException(status_code=400, detail=str(e))
except Exception as e:
logger.error("Failed to update custom skill %s: %s", skill_name, e, exc_info=True)
raise HTTPException(status_code=500, detail=f"Failed to update custom skill: {str(e)}")
@router.delete("/skills/custom/{skill_name}", summary="Delete Custom Skill")
async def delete_custom_skill(skill_name: str, config: AppConfig = Depends(get_config)) -> dict[str, bool]:
try:
skill_name = skill_name.replace("\r\n", "").replace("\n", "")
storage = get_or_new_skill_storage(app_config=config)
storage.delete_custom_skill(
skill_name,
history_meta={
"action": "human_delete",
"author": "human",
"thread_id": None,
"file_path": SKILL_MD_FILE,
"prev_content": None,
"new_content": None,
"scanner": {"decision": "allow", "reason": "Deletion requested."},
},
)
await refresh_skills_system_prompt_cache_async()
return {"success": True}
except FileNotFoundError as e:
raise HTTPException(status_code=404, detail=str(e))
except ValueError as e:
raise HTTPException(status_code=400, detail=str(e))
except Exception as e:
logger.error("Failed to delete custom skill %s: %s", skill_name, e, exc_info=True)
raise HTTPException(status_code=500, detail=f"Failed to delete custom skill: {str(e)}")
@router.get("/skills/custom/{skill_name}/history", response_model=CustomSkillHistoryResponse, summary="Get Custom Skill History")
async def get_custom_skill_history(skill_name: str, config: AppConfig = Depends(get_config)) -> CustomSkillHistoryResponse:
try:
skill_name = skill_name.replace("\r\n", "").replace("\n", "")
storage = get_or_new_skill_storage(app_config=config)
if not storage.custom_skill_exists(skill_name) and not storage.get_skill_history_file(skill_name).exists():
raise HTTPException(status_code=404, detail=f"Custom skill '{skill_name}' not found")
return CustomSkillHistoryResponse(history=storage.read_history(skill_name))
except HTTPException:
raise
except Exception as e:
logger.error("Failed to read history for %s: %s", skill_name, e, exc_info=True)
raise HTTPException(status_code=500, detail=f"Failed to read history: {str(e)}")
@router.post("/skills/custom/{skill_name}/rollback", response_model=CustomSkillContentResponse, summary="Rollback Custom Skill")
async def rollback_custom_skill(skill_name: str, request: SkillRollbackRequest, config: AppConfig = Depends(get_config)) -> CustomSkillContentResponse:
try:
storage = get_or_new_skill_storage(app_config=config)
if not storage.custom_skill_exists(skill_name) and not storage.get_skill_history_file(skill_name).exists():
raise HTTPException(status_code=404, detail=f"Custom skill '{skill_name}' not found")
history = storage.read_history(skill_name)
if not history:
raise HTTPException(status_code=400, detail=f"Custom skill '{skill_name}' has no history")
record = history[request.history_index]
target_content = record.get("prev_content")
if target_content is None:
raise HTTPException(status_code=400, detail="Selected history entry has no previous content to roll back to")
storage.validate_skill_markdown_content(skill_name, target_content)
scan = await scan_skill_content(target_content, executable=False, location=f"{skill_name}/{SKILL_MD_FILE}", app_config=config)
skill_file = storage.get_custom_skill_file(skill_name)
current_content = skill_file.read_text(encoding="utf-8") if skill_file.exists() else None
history_entry = {
"action": "rollback",
"author": "human",
"thread_id": None,
"file_path": SKILL_MD_FILE,
"prev_content": current_content,
"new_content": target_content,
"rollback_from_ts": record.get("ts"),
"scanner": {"decision": scan.decision, "reason": scan.reason},
}
if scan.decision == "block":
storage.append_history(skill_name, history_entry)
raise HTTPException(status_code=400, detail=f"Rollback blocked by security scanner: {scan.reason}")
storage.write_custom_skill(skill_name, SKILL_MD_FILE, target_content)
storage.append_history(skill_name, history_entry)
await refresh_skills_system_prompt_cache_async()
return await get_custom_skill(skill_name, config)
except HTTPException:
raise
except IndexError:
raise HTTPException(status_code=400, detail="history_index is out of range")
except FileNotFoundError as e:
raise HTTPException(status_code=404, detail=str(e))
except ValueError as e:
raise HTTPException(status_code=400, detail=str(e))
except Exception as e:
logger.error("Failed to roll back custom skill %s: %s", skill_name, e, exc_info=True)
raise HTTPException(status_code=500, detail=f"Failed to roll back custom skill: {str(e)}")
@router.get(
"/skills/{skill_name}",
response_model=SkillResponse,
summary="Get Skill Details",
description="Retrieve detailed information about a specific skill by its name.",
)
async def get_skill(skill_name: str, config: AppConfig = Depends(get_config)) -> SkillResponse:
async def get_skill(skill_name: str) -> SkillResponse:
try:
skill_name = skill_name.replace("\r\n", "").replace("\n", "")
skills = get_or_new_skill_storage(app_config=config).load_skills(enabled_only=False)
skills = load_skills(enabled_only=False)
skill = next((s for s in skills if s.name == skill_name), None)
if skill is None:
@@ -307,10 +106,9 @@ async def get_skill(skill_name: str, config: AppConfig = Depends(get_config)) ->
summary="Update Skill",
description="Update a skill's enabled status by modifying the extensions_config.json file.",
)
async def update_skill(skill_name: str, request: SkillUpdateRequest, config: AppConfig = Depends(get_config)) -> SkillResponse:
async def update_skill(skill_name: str, request: SkillUpdateRequest) -> SkillResponse:
try:
skill_name = skill_name.replace("\r\n", "").replace("\n", "")
skills = get_or_new_skill_storage(app_config=config).load_skills(enabled_only=False)
skills = load_skills(enabled_only=False)
skill = next((s for s in skills if s.name == skill_name), None)
if skill is None:
@@ -334,9 +132,8 @@ async def update_skill(skill_name: str, request: SkillUpdateRequest, config: App
logger.info(f"Skills configuration updated and saved to: {config_path}")
reload_extensions_config()
await refresh_skills_system_prompt_cache_async()
skills = get_or_new_skill_storage(app_config=config).load_skills(enabled_only=False)
skills = load_skills(enabled_only=False)
updated_skill = next((s for s in skills if s.name == skill_name), None)
if updated_skill is None:
@@ -350,3 +147,27 @@ async def update_skill(skill_name: str, request: SkillUpdateRequest, config: App
except Exception as e:
logger.error(f"Failed to update skill {skill_name}: {e}", exc_info=True)
raise HTTPException(status_code=500, detail=f"Failed to update skill: {str(e)}")
@router.post(
"/skills/install",
response_model=SkillInstallResponse,
summary="Install Skill",
description="Install a skill from a .skill file (ZIP archive) located in the thread's user-data directory.",
)
async def install_skill(request: SkillInstallRequest) -> SkillInstallResponse:
try:
skill_file_path = resolve_thread_virtual_path(request.thread_id, request.path)
result = install_skill_from_archive(skill_file_path)
return SkillInstallResponse(**result)
except FileNotFoundError as e:
raise HTTPException(status_code=404, detail=str(e))
except SkillAlreadyExistsError as e:
raise HTTPException(status_code=409, detail=str(e))
except ValueError as e:
raise HTTPException(status_code=400, detail=str(e))
except HTTPException:
raise
except Exception as e:
logger.error(f"Failed to install skill: {e}", exc_info=True)
raise HTTPException(status_code=500, detail=f"Failed to install skill: {str(e)}")
backend/app/gateway/routers/suggestions.py
+12 -21
View File
@@ -1,13 +1,9 @@
import json
import logging
from fastapi import APIRouter, Depends, Request
from langchain_core.messages import HumanMessage, SystemMessage
from fastapi import APIRouter
from pydantic import BaseModel, Field
from app.gateway.authz import require_permission
from app.gateway.deps import get_config
from deerflow.config.app_config import AppConfig
from deerflow.models import create_chat_model
logger = logging.getLogger(__name__)
@@ -101,36 +97,31 @@ def _format_conversation(messages: list[SuggestionMessage]) -> str:
summary="Generate Follow-up Questions",
description="Generate short follow-up questions a user might ask next, based on recent conversation context.",
)
@require_permission("threads", "read", owner_check=True)
async def generate_suggestions(
thread_id: str,
body: SuggestionsRequest,
request: Request,
config: AppConfig = Depends(get_config),
) -> SuggestionsResponse:
if not body.messages:
async def generate_suggestions(thread_id: str, request: SuggestionsRequest) -> SuggestionsResponse:
if not request.messages:
return SuggestionsResponse(suggestions=[])
n = body.n
conversation = _format_conversation(body.messages)
n = request.n
conversation = _format_conversation(request.messages)
if not conversation:
return SuggestionsResponse(suggestions=[])
system_instruction = (
prompt = (
"You are generating follow-up questions to help the user continue the conversation.\n"
f"Based on the conversation below, produce EXACTLY {n} short questions the user might ask next.\n"
"Requirements:\n"
"- Questions must be relevant to the preceding conversation.\n"
"- Questions must be relevant to the conversation.\n"
"- Questions must be written in the same language as the user.\n"
"- Keep each question concise (ideally <= 20 words / <= 40 Chinese characters).\n"
"- Do NOT include numbering, markdown, or any extra text.\n"
"- Output MUST be a JSON array of strings only.\n"
"- Output MUST be a JSON array of strings only.\n\n"
"Conversation:\n"
f"{conversation}\n"
)
user_content = f"Conversation Context:\n{conversation}\n\nGenerate {n} follow-up questions"
try:
model = create_chat_model(name=body.model_name, thinking_enabled=False, app_config=config)
response = await model.ainvoke([SystemMessage(content=system_instruction), HumanMessage(content=user_content)], config={"run_name": "suggest_agent"})
model = create_chat_model(name=request.model_name, thinking_enabled=False)
response = model.invoke(prompt)
raw = _extract_response_text(response.content)
suggestions = _parse_json_string_list(raw) or []
cleaned = [s.replace("\n", " ").strip() for s in suggestions if s.strip()]
backend/app/gateway/routers/thread_runs.py
+3 -114
View File
@@ -19,8 +19,7 @@ from fastapi import APIRouter, HTTPException, Query, Request
from fastapi.responses import Response, StreamingResponse
from pydantic import BaseModel, Field
from app.gateway.authz import require_permission
from app.gateway.deps import get_checkpointer, get_current_user, get_feedback_repo, get_run_event_store, get_run_manager, get_run_store, get_stream_bridge
from app.gateway.deps import get_checkpointer, get_run_manager, get_stream_bridge
from app.gateway.services import sse_consumer, start_run
from deerflow.runtime import RunRecord, serialize_channel_values
@@ -93,7 +92,6 @@ def _record_to_response(record: RunRecord) -> RunResponse:
@router.post("/{thread_id}/runs", response_model=RunResponse)
@require_permission("runs", "create", owner_check=True, require_existing=True)
async def create_run(thread_id: str, body: RunCreateRequest, request: Request) -> RunResponse:
"""Create a background run (returns immediately)."""
record = await start_run(body, thread_id, request)
@@ -101,7 +99,6 @@ async def create_run(thread_id: str, body: RunCreateRequest, request: Request) -
@router.post("/{thread_id}/runs/stream")
@require_permission("runs", "create", owner_check=True, require_existing=True)
async def stream_run(thread_id: str, body: RunCreateRequest, request: Request) -> StreamingResponse:
"""Create a run and stream events via SSE.
@@ -121,15 +118,13 @@ async def stream_run(thread_id: str, body: RunCreateRequest, request: Request) -
"Connection": "keep-alive",
"X-Accel-Buffering": "no",
# LangGraph Platform includes run metadata in this header.
# The SDK uses a greedy regex to extract the run id from this path,
# so it must point at the canonical run resource without extra suffixes.
"Content-Location": f"/api/threads/{thread_id}/runs/{record.run_id}",
# The SDK's _get_run_metadata_from_response() parses it.
"Content-Location": (f"/api/threads/{thread_id}/runs/{record.run_id}/stream?thread_id={thread_id}&run_id={record.run_id}"),
},
)
@router.post("/{thread_id}/runs/wait", response_model=dict)
@require_permission("runs", "create", owner_check=True, require_existing=True)
async def wait_run(thread_id: str, body: RunCreateRequest, request: Request) -> dict:
"""Create a run and block until it completes, returning the final state."""
record = await start_run(body, thread_id, request)
@@ -155,7 +150,6 @@ async def wait_run(thread_id: str, body: RunCreateRequest, request: Request) ->
@router.get("/{thread_id}/runs", response_model=list[RunResponse])
@require_permission("runs", "read", owner_check=True)
async def list_runs(thread_id: str, request: Request) -> list[RunResponse]:
"""List all runs for a thread."""
run_mgr = get_run_manager(request)
@@ -164,7 +158,6 @@ async def list_runs(thread_id: str, request: Request) -> list[RunResponse]:
@router.get("/{thread_id}/runs/{run_id}", response_model=RunResponse)
@require_permission("runs", "read", owner_check=True)
async def get_run(thread_id: str, run_id: str, request: Request) -> RunResponse:
"""Get details of a specific run."""
run_mgr = get_run_manager(request)
@@ -175,7 +168,6 @@ async def get_run(thread_id: str, run_id: str, request: Request) -> RunResponse:
@router.post("/{thread_id}/runs/{run_id}/cancel")
@require_permission("runs", "cancel", owner_check=True, require_existing=True)
async def cancel_run(
thread_id: str,
run_id: str,
@@ -213,7 +205,6 @@ async def cancel_run(
@router.get("/{thread_id}/runs/{run_id}/join")
@require_permission("runs", "read", owner_check=True)
async def join_run(thread_id: str, run_id: str, request: Request) -> StreamingResponse:
"""Join an existing run's SSE stream."""
bridge = get_stream_bridge(request)
@@ -234,7 +225,6 @@ async def join_run(thread_id: str, run_id: str, request: Request) -> StreamingRe
@router.api_route("/{thread_id}/runs/{run_id}/stream", methods=["GET", "POST"], response_model=None)
@require_permission("runs", "read", owner_check=True)
async def stream_existing_run(
thread_id: str,
run_id: str,
@@ -274,104 +264,3 @@ async def stream_existing_run(
"X-Accel-Buffering": "no",
},
)
# ---------------------------------------------------------------------------
# Messages / Events / Token usage endpoints
# ---------------------------------------------------------------------------
@router.get("/{thread_id}/messages")
@require_permission("runs", "read", owner_check=True)
async def list_thread_messages(
thread_id: str,
request: Request,
limit: int = Query(default=50, le=200),
before_seq: int | None = Query(default=None),
after_seq: int | None = Query(default=None),
) -> list[dict]:
"""Return displayable messages for a thread (across all runs), with feedback attached."""
event_store = get_run_event_store(request)
messages = await event_store.list_messages(thread_id, limit=limit, before_seq=before_seq, after_seq=after_seq)
# Attach feedback to the last AI message of each run
feedback_repo = get_feedback_repo(request)
user_id = await get_current_user(request)
feedback_map = await feedback_repo.list_by_thread_grouped(thread_id, user_id=user_id)
# Find the last ai_message per run_id
last_ai_per_run: dict[str, int] = {} # run_id -> index in messages list
for i, msg in enumerate(messages):
if msg.get("event_type") == "ai_message":
last_ai_per_run[msg["run_id"]] = i
# Attach feedback field
last_ai_indices = set(last_ai_per_run.values())
for i, msg in enumerate(messages):
if i in last_ai_indices:
run_id = msg["run_id"]
fb = feedback_map.get(run_id)
msg["feedback"] = (
{
"feedback_id": fb["feedback_id"],
"rating": fb["rating"],
"comment": fb.get("comment"),
}
if fb
else None
)
else:
msg["feedback"] = None
return messages
@router.get("/{thread_id}/runs/{run_id}/messages")
@require_permission("runs", "read", owner_check=True)
async def list_run_messages(
thread_id: str,
run_id: str,
request: Request,
limit: int = Query(default=50, le=200, ge=1),
before_seq: int | None = Query(default=None),
after_seq: int | None = Query(default=None),
) -> dict:
"""Return paginated messages for a specific run.
Response: { data: [...], has_more: bool }
"""
event_store = get_run_event_store(request)
rows = await event_store.list_messages_by_run(
thread_id,
run_id,
limit=limit + 1,
before_seq=before_seq,
after_seq=after_seq,
)
has_more = len(rows) > limit
data = rows[:limit] if has_more else rows
return {"data": data, "has_more": has_more}
@router.get("/{thread_id}/runs/{run_id}/events")
@require_permission("runs", "read", owner_check=True)
async def list_run_events(
thread_id: str,
run_id: str,
request: Request,
event_types: str | None = Query(default=None),
limit: int = Query(default=500, le=2000),
) -> list[dict]:
"""Return the full event stream for a run (debug/audit)."""
event_store = get_run_event_store(request)
types = event_types.split(",") if event_types else None
return await event_store.list_events(thread_id, run_id, event_types=types, limit=limit)
@router.get("/{thread_id}/token-usage")
@require_permission("threads", "read", owner_check=True)
async def thread_token_usage(thread_id: str, request: Request) -> dict:
"""Thread-level token usage aggregation."""
run_store = get_run_store(request)
agg = await run_store.aggregate_tokens_by_thread(thread_id)
return {"thread_id": thread_id, **agg}
backend/app/gateway/routers/threads.py
+246 -187
View File
@@ -18,35 +18,23 @@ import uuid
from typing import Any
from fastapi import APIRouter, HTTPException, Request
from pydantic import BaseModel, Field, field_validator
from pydantic import BaseModel, Field
from app.gateway.authz import require_permission
from app.gateway.deps import get_checkpointer
from app.gateway.utils import sanitize_log_param
from app.gateway.deps import get_checkpointer, get_store
from deerflow.config.paths import Paths, get_paths
from deerflow.runtime import serialize_channel_values
from deerflow.runtime.user_context import get_effective_user_id
# ---------------------------------------------------------------------------
# Store namespace
# ---------------------------------------------------------------------------
THREADS_NS: tuple[str, ...] = ("threads",)
"""Namespace used by the Store for thread metadata records."""
logger = logging.getLogger(__name__)
router = APIRouter(prefix="/api/threads", tags=["threads"])
# Metadata keys that the server controls; clients are not allowed to set
# them. Pydantic ``@field_validator("metadata")`` strips them on every
# inbound model below so a malicious client cannot reflect a forged
# owner identity through the API surface. Defense-in-depth — the
# row-level invariant is still ``threads_meta.user_id`` populated from
# the auth contextvar; this list closes the metadata-blob echo gap.
_SERVER_RESERVED_METADATA_KEYS: frozenset[str] = frozenset({"owner_id", "user_id"})
def _strip_reserved_metadata(metadata: dict[str, Any] | None) -> dict[str, Any]:
"""Return ``metadata`` with server-controlled keys removed."""
if not metadata:
return metadata or {}
return {k: v for k, v in metadata.items() if k not in _SERVER_RESERVED_METADATA_KEYS}
# ---------------------------------------------------------------------------
# Response / request models
# ---------------------------------------------------------------------------
@@ -75,11 +63,8 @@ class ThreadCreateRequest(BaseModel):
"""Request body for creating a thread."""
thread_id: str | None = Field(default=None, description="Optional thread ID (auto-generated if omitted)")
assistant_id: str | None = Field(default=None, description="Associate thread with an assistant")
metadata: dict[str, Any] = Field(default_factory=dict, description="Initial metadata")
_strip_reserved = field_validator("metadata")(classmethod(lambda cls, v: _strip_reserved_metadata(v)))
class ThreadSearchRequest(BaseModel):
"""Request body for searching threads."""
@@ -108,8 +93,6 @@ class ThreadPatchRequest(BaseModel):
metadata: dict[str, Any] = Field(default_factory=dict, description="Metadata to merge")
_strip_reserved = field_validator("metadata")(classmethod(lambda cls, v: _strip_reserved_metadata(v)))
class ThreadStateUpdateRequest(BaseModel):
"""Request body for updating thread state (human-in-the-loop resume)."""
@@ -143,25 +126,70 @@ class ThreadHistoryRequest(BaseModel):
# ---------------------------------------------------------------------------
def _delete_thread_data(thread_id: str, paths: Paths | None = None, *, user_id: str | None = None) -> ThreadDeleteResponse:
def _delete_thread_data(thread_id: str, paths: Paths | None = None) -> ThreadDeleteResponse:
"""Delete local persisted filesystem data for a thread."""
path_manager = paths or get_paths()
try:
path_manager.delete_thread_dir(thread_id, user_id=user_id)
path_manager.delete_thread_dir(thread_id)
except ValueError as exc:
raise HTTPException(status_code=422, detail=str(exc)) from exc
except FileNotFoundError:
# Not critical — thread data may not exist on disk
logger.debug("No local thread data to delete for %s", sanitize_log_param(thread_id))
logger.debug("No local thread data to delete for %s", thread_id)
return ThreadDeleteResponse(success=True, message=f"No local data for {thread_id}")
except Exception as exc:
logger.exception("Failed to delete thread data for %s", sanitize_log_param(thread_id))
logger.exception("Failed to delete thread data for %s", thread_id)
raise HTTPException(status_code=500, detail="Failed to delete local thread data.") from exc
logger.info("Deleted local thread data for %s", sanitize_log_param(thread_id))
logger.info("Deleted local thread data for %s", thread_id)
return ThreadDeleteResponse(success=True, message=f"Deleted local thread data for {thread_id}")
async def _store_get(store, thread_id: str) -> dict | None:
"""Fetch a thread record from the Store; returns ``None`` if absent."""
item = await store.aget(THREADS_NS, thread_id)
return item.value if item is not None else None
async def _store_put(store, record: dict) -> None:
"""Write a thread record to the Store."""
await store.aput(THREADS_NS, record["thread_id"], record)
async def _store_upsert(store, thread_id: str, *, metadata: dict | None = None, values: dict | None = None) -> None:
"""Create or refresh a thread record in the Store.
On creation the record is written with ``status="idle"``. On update only
``updated_at`` (and optionally ``metadata`` / ``values``) are changed so
that existing fields are preserved.
``values`` carries the agent-state snapshot exposed to the frontend
(currently just ``{"title": "..."}``).
"""
now = time.time()
existing = await _store_get(store, thread_id)
if existing is None:
await _store_put(
store,
{
"thread_id": thread_id,
"status": "idle",
"created_at": now,
"updated_at": now,
"metadata": metadata or {},
"values": values or {},
},
)
else:
val = dict(existing)
val["updated_at"] = now
if metadata:
val.setdefault("metadata", {}).update(metadata)
if values:
val.setdefault("values", {}).update(values)
await _store_put(store, val)
def _derive_thread_status(checkpoint_tuple) -> str:
"""Derive thread status from checkpoint metadata."""
if checkpoint_tuple is None:
@@ -187,18 +215,22 @@ def _derive_thread_status(checkpoint_tuple) -> str:
@router.delete("/{thread_id}", response_model=ThreadDeleteResponse)
@require_permission("threads", "delete", owner_check=True, require_existing=True)
async def delete_thread_data(thread_id: str, request: Request) -> ThreadDeleteResponse:
"""Delete local persisted filesystem data for a thread.
Cleans DeerFlow-managed thread directories, removes checkpoint data,
and removes the thread_meta row from the configured ThreadMetaStore
(sqlite or memory).
and removes the thread record from the Store.
"""
from app.gateway.deps import get_thread_store
# Clean local filesystem
response = _delete_thread_data(thread_id, user_id=get_effective_user_id())
response = _delete_thread_data(thread_id)
# Remove from Store (best-effort)
store = get_store(request)
if store is not None:
try:
await store.adelete(THREADS_NS, thread_id)
except Exception:
logger.debug("Could not delete store record for thread %s (not critical)", thread_id)
# Remove checkpoints (best-effort)
checkpointer = getattr(request.app.state, "checkpointer", None)
@@ -207,15 +239,7 @@ async def delete_thread_data(thread_id: str, request: Request) -> ThreadDeleteRe
if hasattr(checkpointer, "adelete_thread"):
await checkpointer.adelete_thread(thread_id)
except Exception:
logger.debug("Could not delete checkpoints for thread %s (not critical)", sanitize_log_param(thread_id))
# Remove thread_meta row (best-effort) — required for sqlite backend
# so the deleted thread no longer appears in /threads/search.
try:
thread_store = get_thread_store(request)
await thread_store.delete(thread_id)
except Exception:
logger.debug("Could not delete thread_meta for %s (not critical)", sanitize_log_param(thread_id))
logger.debug("Could not delete checkpoints for thread %s (not critical)", thread_id)
return response
@@ -224,40 +248,43 @@ async def delete_thread_data(thread_id: str, request: Request) -> ThreadDeleteRe
async def create_thread(body: ThreadCreateRequest, request: Request) -> ThreadResponse:
"""Create a new thread.
Writes a thread_meta record (so the thread appears in /threads/search)
and an empty checkpoint (so state endpoints work immediately).
The thread record is written to the Store (for fast listing) and an
empty checkpoint is written to the checkpointer (for state reads).
Idempotent: returns the existing record when ``thread_id`` already exists.
"""
from app.gateway.deps import get_thread_store
store = get_store(request)
checkpointer = get_checkpointer(request)
thread_store = get_thread_store(request)
thread_id = body.thread_id or str(uuid.uuid4())
now = time.time()
# ``body.metadata`` is already stripped of server-reserved keys by
# ``ThreadCreateRequest._strip_reserved`` — see the model definition.
# Idempotency: return existing record when already present
existing_record = await thread_store.get(thread_id)
if existing_record is not None:
return ThreadResponse(
thread_id=thread_id,
status=existing_record.get("status", "idle"),
created_at=str(existing_record.get("created_at", "")),
updated_at=str(existing_record.get("updated_at", "")),
metadata=existing_record.get("metadata", {}),
)
# Idempotency: return existing record from Store when already present
if store is not None:
existing_record = await _store_get(store, thread_id)
if existing_record is not None:
return ThreadResponse(
thread_id=thread_id,
status=existing_record.get("status", "idle"),
created_at=str(existing_record.get("created_at", "")),
updated_at=str(existing_record.get("updated_at", "")),
metadata=existing_record.get("metadata", {}),
)
# Write thread_meta so the thread appears in /threads/search immediately
try:
await thread_store.create(
thread_id,
assistant_id=getattr(body, "assistant_id", None),
metadata=body.metadata,
)
except Exception:
logger.exception("Failed to write thread_meta for %s", sanitize_log_param(thread_id))
raise HTTPException(status_code=500, detail="Failed to create thread")
# Write thread record to Store
if store is not None:
try:
await _store_put(
store,
{
"thread_id": thread_id,
"status": "idle",
"created_at": now,
"updated_at": now,
"metadata": body.metadata,
},
)
except Exception:
logger.exception("Failed to write thread %s to store", thread_id)
raise HTTPException(status_code=500, detail="Failed to create thread")
# Write an empty checkpoint so state endpoints work immediately
config = {"configurable": {"thread_id": thread_id, "checkpoint_ns": ""}}
@@ -274,10 +301,10 @@ async def create_thread(body: ThreadCreateRequest, request: Request) -> ThreadRe
}
await checkpointer.aput(config, empty_checkpoint(), ckpt_metadata, {})
except Exception:
logger.exception("Failed to create checkpoint for thread %s", sanitize_log_param(thread_id))
logger.exception("Failed to create checkpoint for thread %s", thread_id)
raise HTTPException(status_code=500, detail="Failed to create thread")
logger.info("Thread created: %s", sanitize_log_param(thread_id))
logger.info("Thread created: %s", thread_id)
return ThreadResponse(
thread_id=thread_id,
status="idle",
@@ -291,91 +318,166 @@ async def create_thread(body: ThreadCreateRequest, request: Request) -> ThreadRe
async def search_threads(body: ThreadSearchRequest, request: Request) -> list[ThreadResponse]:
"""Search and list threads.
Delegates to the configured ThreadMetaStore implementation
(SQL-backed for sqlite/postgres, Store-backed for memory mode).
"""
from app.gateway.deps import get_thread_store
Two-phase approach:
repo = get_thread_store(request)
rows = await repo.search(
metadata=body.metadata or None,
status=body.status,
limit=body.limit,
offset=body.offset,
)
return [
ThreadResponse(
thread_id=r["thread_id"],
status=r.get("status", "idle"),
created_at=r.get("created_at", ""),
updated_at=r.get("updated_at", ""),
metadata=r.get("metadata", {}),
values={"title": r["display_name"]} if r.get("display_name") else {},
interrupts={},
)
for r in rows
]
**Phase 1 Store (fast path, O(threads))**: returns threads that were
created or run through this Gateway. Store records are tiny metadata
dicts so fetching all of them at once is cheap.
**Phase 2 Checkpointer supplement (lazy migration)**: threads that
were created directly by LangGraph Server (and therefore absent from the
Store) are discovered here by iterating the shared checkpointer. Any
newly found thread is immediately written to the Store so that the next
search skips Phase 2 for that thread the Store converges to a full
index over time without a one-shot migration job.
"""
store = get_store(request)
checkpointer = get_checkpointer(request)
# -----------------------------------------------------------------------
# Phase 1: Store
# -----------------------------------------------------------------------
merged: dict[str, ThreadResponse] = {}
if store is not None:
try:
items = await store.asearch(THREADS_NS, limit=10_000)
except Exception:
logger.warning("Store search failed — falling back to checkpointer only", exc_info=True)
items = []
for item in items:
val = item.value
merged[val["thread_id"]] = ThreadResponse(
thread_id=val["thread_id"],
status=val.get("status", "idle"),
created_at=str(val.get("created_at", "")),
updated_at=str(val.get("updated_at", "")),
metadata=val.get("metadata", {}),
values=val.get("values", {}),
)
# -----------------------------------------------------------------------
# Phase 2: Checkpointer supplement
# Discovers threads not yet in the Store (e.g. created by LangGraph
# Server) and lazily migrates them so future searches skip this phase.
# -----------------------------------------------------------------------
try:
async for checkpoint_tuple in checkpointer.alist(None):
cfg = getattr(checkpoint_tuple, "config", {})
thread_id = cfg.get("configurable", {}).get("thread_id")
if not thread_id or thread_id in merged:
continue
# Skip sub-graph checkpoints (checkpoint_ns is non-empty for those)
if cfg.get("configurable", {}).get("checkpoint_ns", ""):
continue
ckpt_meta = getattr(checkpoint_tuple, "metadata", {}) or {}
# Strip LangGraph internal keys from the user-visible metadata dict
user_meta = {k: v for k, v in ckpt_meta.items() if k not in ("created_at", "updated_at", "step", "source", "writes", "parents")}
# Extract state values (title) from the checkpoint's channel_values
checkpoint_data = getattr(checkpoint_tuple, "checkpoint", {}) or {}
channel_values = checkpoint_data.get("channel_values", {})
ckpt_values = {}
if title := channel_values.get("title"):
ckpt_values["title"] = title
thread_resp = ThreadResponse(
thread_id=thread_id,
status=_derive_thread_status(checkpoint_tuple),
created_at=str(ckpt_meta.get("created_at", "")),
updated_at=str(ckpt_meta.get("updated_at", ckpt_meta.get("created_at", ""))),
metadata=user_meta,
values=ckpt_values,
)
merged[thread_id] = thread_resp
# Lazy migration — write to Store so the next search finds it there
if store is not None:
try:
await _store_upsert(store, thread_id, metadata=user_meta, values=ckpt_values or None)
except Exception:
logger.debug("Failed to migrate thread %s to store (non-fatal)", thread_id)
except Exception:
logger.exception("Checkpointer scan failed during thread search")
# Don't raise — return whatever was collected from Store + partial scan
# -----------------------------------------------------------------------
# Phase 3: Filter → sort → paginate
# -----------------------------------------------------------------------
results = list(merged.values())
if body.metadata:
results = [r for r in results if all(r.metadata.get(k) == v for k, v in body.metadata.items())]
if body.status:
results = [r for r in results if r.status == body.status]
results.sort(key=lambda r: r.updated_at, reverse=True)
return results[body.offset : body.offset + body.limit]
@router.patch("/{thread_id}", response_model=ThreadResponse)
@require_permission("threads", "write", owner_check=True, require_existing=True)
async def patch_thread(thread_id: str, body: ThreadPatchRequest, request: Request) -> ThreadResponse:
"""Merge metadata into a thread record."""
from app.gateway.deps import get_thread_store
store = get_store(request)
if store is None:
raise HTTPException(status_code=503, detail="Store not available")
thread_store = get_thread_store(request)
record = await thread_store.get(thread_id)
record = await _store_get(store, thread_id)
if record is None:
raise HTTPException(status_code=404, detail=f"Thread {thread_id} not found")
# ``body.metadata`` already stripped by ``ThreadPatchRequest._strip_reserved``.
now = time.time()
updated = dict(record)
updated.setdefault("metadata", {}).update(body.metadata)
updated["updated_at"] = now
try:
await thread_store.update_metadata(thread_id, body.metadata)
await _store_put(store, updated)
except Exception:
logger.exception("Failed to patch thread %s", sanitize_log_param(thread_id))
logger.exception("Failed to patch thread %s", thread_id)
raise HTTPException(status_code=500, detail="Failed to update thread")
# Re-read to get the merged metadata + refreshed updated_at
record = await thread_store.get(thread_id) or record
return ThreadResponse(
thread_id=thread_id,
status=record.get("status", "idle"),
created_at=str(record.get("created_at", "")),
updated_at=str(record.get("updated_at", "")),
metadata=record.get("metadata", {}),
status=updated.get("status", "idle"),
created_at=str(updated.get("created_at", "")),
updated_at=str(now),
metadata=updated.get("metadata", {}),
)
@router.get("/{thread_id}", response_model=ThreadResponse)
@require_permission("threads", "read", owner_check=True)
async def get_thread(thread_id: str, request: Request) -> ThreadResponse:
"""Get thread info.
Reads metadata from the ThreadMetaStore and derives the accurate
execution status from the checkpointer. Falls back to the checkpointer
alone for threads that pre-date ThreadMetaStore adoption (backward compat).
Reads metadata from the Store and derives the accurate execution
status from the checkpointer. Falls back to the checkpointer alone
for threads that pre-date Store adoption (backward compat).
"""
from app.gateway.deps import get_thread_store
thread_store = get_thread_store(request)
store = get_store(request)
checkpointer = get_checkpointer(request)
record: dict | None = await thread_store.get(thread_id)
record: dict | None = None
if store is not None:
record = await _store_get(store, thread_id)
# Derive accurate status from the checkpointer
config = {"configurable": {"thread_id": thread_id, "checkpoint_ns": ""}}
try:
checkpoint_tuple = await checkpointer.aget_tuple(config)
except Exception:
logger.exception("Failed to get checkpoint for thread %s", sanitize_log_param(thread_id))
logger.exception("Failed to get checkpoint for thread %s", thread_id)
raise HTTPException(status_code=500, detail="Failed to get thread")
if record is None and checkpoint_tuple is None:
raise HTTPException(status_code=404, detail=f"Thread {thread_id} not found")
# If the thread exists in the checkpointer but not in thread_meta (e.g.
# legacy data created before thread_meta adoption), synthesize a minimal
# record from the checkpoint metadata.
# If the thread exists in the checkpointer but not the store (e.g. legacy
# data), synthesize a minimal store record from the checkpoint metadata.
if record is None and checkpoint_tuple is not None:
ckpt_meta = getattr(checkpoint_tuple, "metadata", {}) or {}
record = {
@@ -386,26 +488,21 @@ async def get_thread(thread_id: str, request: Request) -> ThreadResponse:
"metadata": {k: v for k, v in ckpt_meta.items() if k not in ("created_at", "updated_at", "step", "source", "writes", "parents")},
}
if record is None:
raise HTTPException(status_code=404, detail=f"Thread {thread_id} not found")
status = _derive_thread_status(checkpoint_tuple) if checkpoint_tuple is not None else record.get("status", "idle")
status = _derive_thread_status(checkpoint_tuple) if checkpoint_tuple is not None else record.get("status", "idle") # type: ignore[union-attr]
checkpoint = getattr(checkpoint_tuple, "checkpoint", {}) or {} if checkpoint_tuple is not None else {}
channel_values = checkpoint.get("channel_values", {})
return ThreadResponse(
thread_id=thread_id,
status=status,
created_at=str(record.get("created_at", "")),
updated_at=str(record.get("updated_at", "")),
metadata=record.get("metadata", {}),
created_at=str(record.get("created_at", "")), # type: ignore[union-attr]
updated_at=str(record.get("updated_at", "")), # type: ignore[union-attr]
metadata=record.get("metadata", {}), # type: ignore[union-attr]
values=serialize_channel_values(channel_values),
)
# ---------------------------------------------------------------------------
@router.get("/{thread_id}/state", response_model=ThreadStateResponse)
@require_permission("threads", "read", owner_check=True)
async def get_thread_state(thread_id: str, request: Request) -> ThreadStateResponse:
"""Get the latest state snapshot for a thread.
@@ -418,7 +515,7 @@ async def get_thread_state(thread_id: str, request: Request) -> ThreadStateRespo
try:
checkpoint_tuple = await checkpointer.aget_tuple(config)
except Exception:
logger.exception("Failed to get state for thread %s", sanitize_log_param(thread_id))
logger.exception("Failed to get state for thread %s", thread_id)
raise HTTPException(status_code=500, detail="Failed to get thread state")
if checkpoint_tuple is None:
@@ -442,10 +539,8 @@ async def get_thread_state(thread_id: str, request: Request) -> ThreadStateRespo
next_tasks = [t.name for t in tasks_raw if hasattr(t, "name")]
tasks = [{"id": getattr(t, "id", ""), "name": getattr(t, "name", "")} for t in tasks_raw]
values = serialize_channel_values(channel_values)
return ThreadStateResponse(
values=values,
values=serialize_channel_values(channel_values),
next=next_tasks,
metadata=metadata,
checkpoint={"id": checkpoint_id, "ts": str(metadata.get("created_at", ""))},
@@ -457,19 +552,15 @@ async def get_thread_state(thread_id: str, request: Request) -> ThreadStateRespo
@router.post("/{thread_id}/state", response_model=ThreadStateResponse)
@require_permission("threads", "write", owner_check=True, require_existing=True)
async def update_thread_state(thread_id: str, body: ThreadStateUpdateRequest, request: Request) -> ThreadStateResponse:
"""Update thread state (e.g. for human-in-the-loop resume or title rename).
Writes a new checkpoint that merges *body.values* into the latest
channel values, then syncs any updated ``title`` field through the
ThreadMetaStore abstraction so that ``/threads/search`` reflects the
change immediately in both sqlite and memory backends.
channel values, then syncs any updated ``title`` field back to the Store
so that ``/threads/search`` reflects the change immediately.
"""
from app.gateway.deps import get_thread_store
checkpointer = get_checkpointer(request)
thread_store = get_thread_store(request)
store = get_store(request)
# checkpoint_ns must be present in the config for aput — default to ""
# (the root graph namespace). checkpoint_id is optional; omitting it
@@ -486,7 +577,7 @@ async def update_thread_state(thread_id: str, body: ThreadStateUpdateRequest, re
try:
checkpoint_tuple = await checkpointer.aget_tuple(read_config)
except Exception:
logger.exception("Failed to get state for thread %s", sanitize_log_param(thread_id))
logger.exception("Failed to get state for thread %s", thread_id)
raise HTTPException(status_code=500, detail="Failed to get thread state")
if checkpoint_tuple is None:
@@ -520,22 +611,19 @@ async def update_thread_state(thread_id: str, body: ThreadStateUpdateRequest, re
try:
new_config = await checkpointer.aput(write_config, checkpoint, metadata, {})
except Exception:
logger.exception("Failed to update state for thread %s", sanitize_log_param(thread_id))
logger.exception("Failed to update state for thread %s", thread_id)
raise HTTPException(status_code=500, detail="Failed to update thread state")
new_checkpoint_id: str | None = None
if isinstance(new_config, dict):
new_checkpoint_id = new_config.get("configurable", {}).get("checkpoint_id")
# Sync title changes through the ThreadMetaStore abstraction so /threads/search
# reflects them immediately in both sqlite and memory backends.
if body.values and "title" in body.values:
new_title = body.values["title"]
if new_title: # Skip empty strings and None
try:
await thread_store.update_display_name(thread_id, new_title)
except Exception:
logger.debug("Failed to sync title to thread_meta for %s (non-fatal)", sanitize_log_param(thread_id))
# Sync title changes to the Store so /threads/search reflects them immediately.
if store is not None and body.values and "title" in body.values:
try:
await _store_upsert(store, thread_id, values={"title": body.values["title"]})
except Exception:
logger.debug("Failed to sync title to store for thread %s (non-fatal)", thread_id)
return ThreadStateResponse(
values=serialize_channel_values(channel_values),
@@ -547,16 +635,8 @@ async def update_thread_state(thread_id: str, body: ThreadStateUpdateRequest, re
@router.post("/{thread_id}/history", response_model=list[HistoryEntry])
@require_permission("threads", "read", owner_check=True)
async def get_thread_history(thread_id: str, body: ThreadHistoryRequest, request: Request) -> list[HistoryEntry]:
"""Get checkpoint history for a thread.
Messages are read from the checkpointer's channel values (the
authoritative source) and serialized via
:func:`~deerflow.runtime.serialization.serialize_channel_values`.
Only the latest (first) checkpoint carries the ``messages`` key to
avoid duplicating them across every entry.
"""
"""Get checkpoint history for a thread."""
checkpointer = get_checkpointer(request)
config: dict[str, Any] = {"configurable": {"thread_id": thread_id}}
@@ -564,7 +644,6 @@ async def get_thread_history(thread_id: str, body: ThreadHistoryRequest, request
config["configurable"]["checkpoint_id"] = body.before
entries: list[HistoryEntry] = []
is_latest_checkpoint = True
try:
async for checkpoint_tuple in checkpointer.alist(config, limit=body.limit):
ckpt_config = getattr(checkpoint_tuple, "config", {})
@@ -579,42 +658,22 @@ async def get_thread_history(thread_id: str, body: ThreadHistoryRequest, request
channel_values = checkpoint.get("channel_values", {})
# Build values from checkpoint channel_values
values: dict[str, Any] = {}
if title := channel_values.get("title"):
values["title"] = title
if thread_data := channel_values.get("thread_data"):
values["thread_data"] = thread_data
# Attach messages only to the latest checkpoint entry.
if is_latest_checkpoint:
messages = channel_values.get("messages")
if messages:
values["messages"] = serialize_channel_values({"messages": messages}).get("messages", [])
is_latest_checkpoint = False
# Derive next tasks
tasks_raw = getattr(checkpoint_tuple, "tasks", []) or []
next_tasks = [t.name for t in tasks_raw if hasattr(t, "name")]
# Strip LangGraph internal keys from metadata
user_meta = {k: v for k, v in metadata.items() if k not in ("created_at", "updated_at", "step", "source", "writes", "parents")}
# Keep step for ordering context
if "step" in metadata:
user_meta["step"] = metadata["step"]
entries.append(
HistoryEntry(
checkpoint_id=checkpoint_id,
parent_checkpoint_id=parent_id,
metadata=user_meta,
values=values,
metadata=metadata,
values=serialize_channel_values(channel_values),
created_at=str(metadata.get("created_at", "")),
next=next_tasks,
)
)
except Exception:
logger.exception("Failed to get history for thread %s", sanitize_log_param(thread_id))
logger.exception("Failed to get history for thread %s", thread_id)
raise HTTPException(status_code=500, detail="Failed to get thread history")
return entries
backend/app/gateway/routers/uploads.py
+19 -163
View File
@@ -4,15 +4,11 @@ import logging
import os
import stat
from fastapi import APIRouter, Depends, File, HTTPException, Request, UploadFile
from fastapi import APIRouter, File, HTTPException, UploadFile
from pydantic import BaseModel
from app.gateway.authz import require_permission
from app.gateway.deps import get_config
from deerflow.config.app_config import AppConfig
from deerflow.config.paths import get_paths
from deerflow.runtime.user_context import get_effective_user_id
from deerflow.sandbox.sandbox_provider import SandboxProvider, get_sandbox_provider
from deerflow.sandbox.sandbox_provider import get_sandbox_provider
from deerflow.uploads.manager import (
PathTraversalError,
delete_file_safe,
@@ -30,11 +26,6 @@ logger = logging.getLogger(__name__)
router = APIRouter(prefix="/api/threads/{thread_id}/uploads", tags=["uploads"])
UPLOAD_CHUNK_SIZE = 8192
DEFAULT_MAX_FILES = 10
DEFAULT_MAX_FILE_SIZE = 50 * 1024 * 1024
DEFAULT_MAX_TOTAL_SIZE = 100 * 1024 * 1024
class UploadResponse(BaseModel):
"""Response model for file upload."""
@@ -44,14 +35,6 @@ class UploadResponse(BaseModel):
message: str
class UploadLimits(BaseModel):
"""Application-level upload limits exposed to clients."""
max_files: int
max_file_size: int
max_total_size: int
def _make_file_sandbox_writable(file_path: os.PathLike[str] | str) -> None:
"""Ensure uploaded files remain writable when mounted into non-local sandboxes.
@@ -70,124 +53,25 @@ def _make_file_sandbox_writable(file_path: os.PathLike[str] | str) -> None:
os.chmod(file_path, writable_mode, **chmod_kwargs)
def _uses_thread_data_mounts(sandbox_provider: SandboxProvider) -> bool:
return bool(getattr(sandbox_provider, "uses_thread_data_mounts", False))
def _get_uploads_config_value(app_config: AppConfig, key: str, default: object) -> object:
"""Read a value from the uploads config, supporting dict and attribute access."""
uploads_cfg = getattr(app_config, "uploads", None)
if isinstance(uploads_cfg, dict):
return uploads_cfg.get(key, default)
return getattr(uploads_cfg, key, default)
def _get_upload_limit(app_config: AppConfig, key: str, default: int, *, legacy_key: str | None = None) -> int:
try:
value = _get_uploads_config_value(app_config, key, None)
if value is None and legacy_key is not None:
value = _get_uploads_config_value(app_config, legacy_key, None)
if value is None:
value = default
limit = int(value)
if limit <= 0:
raise ValueError
return limit
except Exception:
logger.warning("Invalid uploads.%s value; falling back to %d", key, default)
return default
def _get_upload_limits(app_config: AppConfig) -> UploadLimits:
return UploadLimits(
max_files=_get_upload_limit(app_config, "max_files", DEFAULT_MAX_FILES, legacy_key="max_file_count"),
max_file_size=_get_upload_limit(app_config, "max_file_size", DEFAULT_MAX_FILE_SIZE, legacy_key="max_single_file_size"),
max_total_size=_get_upload_limit(app_config, "max_total_size", DEFAULT_MAX_TOTAL_SIZE),
)
def _cleanup_uploaded_paths(paths: list[os.PathLike[str] | str]) -> None:
for path in reversed(paths):
try:
os.unlink(path)
except FileNotFoundError:
pass
except Exception:
logger.warning("Failed to clean up upload path after rejected request: %s", path, exc_info=True)
async def _write_upload_file_streaming(
file: UploadFile,
file_path: os.PathLike[str] | str,
*,
display_filename: str,
max_single_file_size: int,
max_total_size: int,
total_size: int,
) -> tuple[int, int]:
file_size = 0
with open(file_path, "wb") as output:
while chunk := await file.read(UPLOAD_CHUNK_SIZE):
file_size += len(chunk)
total_size += len(chunk)
if file_size > max_single_file_size:
raise HTTPException(status_code=413, detail=f"File too large: {display_filename}")
if total_size > max_total_size:
raise HTTPException(status_code=413, detail="Total upload size too large")
output.write(chunk)
return file_size, total_size
def _auto_convert_documents_enabled(app_config: AppConfig) -> bool:
"""Return whether automatic host-side document conversion is enabled.
The secure default is disabled unless an operator explicitly opts in via
uploads.auto_convert_documents in config.yaml.
"""
try:
raw = _get_uploads_config_value(app_config, "auto_convert_documents", False)
if isinstance(raw, str):
return raw.strip().lower() in {"1", "true", "yes", "on"}
return bool(raw)
except Exception:
return False
@router.post("", response_model=UploadResponse)
@require_permission("threads", "write", owner_check=True, require_existing=False)
async def upload_files(
thread_id: str,
request: Request,
files: list[UploadFile] = File(...),
config: AppConfig = Depends(get_config),
) -> UploadResponse:
"""Upload multiple files to a thread's uploads directory."""
if not files:
raise HTTPException(status_code=400, detail="No files provided")
limits = _get_upload_limits(config)
if len(files) > limits.max_files:
raise HTTPException(status_code=413, detail=f"Too many files: maximum is {limits.max_files}")
try:
uploads_dir = ensure_uploads_dir(thread_id)
except ValueError as e:
raise HTTPException(status_code=400, detail=str(e))
sandbox_uploads = get_paths().sandbox_uploads_dir(thread_id, user_id=get_effective_user_id())
sandbox_uploads = get_paths().sandbox_uploads_dir(thread_id)
uploaded_files = []
written_paths = []
sandbox_sync_targets = []
total_size = 0
sandbox_provider = get_sandbox_provider()
sync_to_sandbox = not _uses_thread_data_mounts(sandbox_provider)
sandbox = None
if sync_to_sandbox:
sandbox_id = sandbox_provider.acquire(thread_id)
sandbox = sandbox_provider.get(sandbox_id)
if sandbox is None:
raise HTTPException(status_code=500, detail="Failed to acquire sandbox")
auto_convert_documents = _auto_convert_documents_enabled(config)
sandbox_id = sandbox_provider.acquire(thread_id)
sandbox = sandbox_provider.get(sandbox_id)
for file in files:
if not file.filename:
@@ -200,41 +84,35 @@ async def upload_files(
continue
try:
content = await file.read()
file_path = uploads_dir / safe_filename
written_paths.append(file_path)
file_size, total_size = await _write_upload_file_streaming(
file,
file_path,
display_filename=safe_filename,
max_single_file_size=limits.max_file_size,
max_total_size=limits.max_total_size,
total_size=total_size,
)
file_path.write_bytes(content)
virtual_path = upload_virtual_path(safe_filename)
if sync_to_sandbox:
sandbox_sync_targets.append((file_path, virtual_path))
if sandbox_id != "local":
_make_file_sandbox_writable(file_path)
sandbox.update_file(virtual_path, content)
file_info = {
"filename": safe_filename,
"size": str(file_size),
"size": str(len(content)),
"path": str(sandbox_uploads / safe_filename),
"virtual_path": virtual_path,
"artifact_url": upload_artifact_url(thread_id, safe_filename),
}
logger.info(f"Saved file: {safe_filename} ({file_size} bytes) to {file_info['path']}")
logger.info(f"Saved file: {safe_filename} ({len(content)} bytes) to {file_info['path']}")
file_ext = file_path.suffix.lower()
if auto_convert_documents and file_ext in CONVERTIBLE_EXTENSIONS:
if file_ext in CONVERTIBLE_EXTENSIONS:
md_path = await convert_file_to_markdown(file_path)
if md_path:
written_paths.append(md_path)
md_virtual_path = upload_virtual_path(md_path.name)
if sync_to_sandbox:
sandbox_sync_targets.append((md_path, md_virtual_path))
if sandbox_id != "local":
_make_file_sandbox_writable(md_path)
sandbox.update_file(md_virtual_path, md_path.read_bytes())
file_info["markdown_file"] = md_path.name
file_info["markdown_path"] = str(sandbox_uploads / md_path.name)
@@ -243,19 +121,10 @@ async def upload_files(
uploaded_files.append(file_info)
except HTTPException as e:
_cleanup_uploaded_paths(written_paths)
raise e
except Exception as e:
logger.error(f"Failed to upload {file.filename}: {e}")
_cleanup_uploaded_paths(written_paths)
raise HTTPException(status_code=500, detail=f"Failed to upload {file.filename}: {str(e)}")
if sync_to_sandbox:
for file_path, virtual_path in sandbox_sync_targets:
_make_file_sandbox_writable(file_path)
sandbox.update_file(virtual_path, file_path.read_bytes())
return UploadResponse(
success=True,
files=uploaded_files,
@@ -263,20 +132,8 @@ async def upload_files(
)
@router.get("/limits", response_model=UploadLimits)
@require_permission("threads", "read", owner_check=True)
async def get_upload_limits(
thread_id: str,
request: Request,
config: AppConfig = Depends(get_config),
) -> UploadLimits:
"""Return upload limits used by the gateway for this thread."""
return _get_upload_limits(config)
@router.get("/list", response_model=dict)
@require_permission("threads", "read", owner_check=True)
async def list_uploaded_files(thread_id: str, request: Request) -> dict:
async def list_uploaded_files(thread_id: str) -> dict:
"""List all files in a thread's uploads directory."""
try:
uploads_dir = get_uploads_dir(thread_id)
@@ -286,7 +143,7 @@ async def list_uploaded_files(thread_id: str, request: Request) -> dict:
enrich_file_listing(result, thread_id)
# Gateway additionally includes the sandbox-relative path.
sandbox_uploads = get_paths().sandbox_uploads_dir(thread_id, user_id=get_effective_user_id())
sandbox_uploads = get_paths().sandbox_uploads_dir(thread_id)
for f in result["files"]:
f["path"] = str(sandbox_uploads / f["filename"])
@@ -294,8 +151,7 @@ async def list_uploaded_files(thread_id: str, request: Request) -> dict:
@router.delete("/{filename}")
@require_permission("threads", "delete", owner_check=True, require_existing=True)
async def delete_uploaded_file(thread_id: str, filename: str, request: Request) -> dict:
async def delete_uploaded_file(thread_id: str, filename: str) -> dict:
"""Delete a file from a thread's uploads directory."""
try:
uploads_dir = get_uploads_dir(thread_id)
backend/app/gateway/services.py
+119 -114
View File
@@ -11,14 +11,13 @@ import asyncio
import json
import logging
import re
from collections.abc import Mapping
import time
from typing import Any
from fastapi import HTTPException, Request
from langchain_core.messages import HumanMessage
from app.gateway.deps import get_run_context, get_run_manager, get_stream_bridge
from app.gateway.utils import sanitize_log_param
from app.gateway.deps import get_checkpointer, get_run_manager, get_store, get_stream_bridge
from deerflow.runtime import (
END_SENTINEL,
HEARTBEAT_SENTINEL,
@@ -98,52 +97,13 @@ def normalize_input(raw_input: dict[str, Any] | None) -> dict[str, Any]:
_DEFAULT_ASSISTANT_ID = "lead_agent"
# Whitelist of run-context keys that the langgraph-compat layer forwards from
# ``body.context`` into the run config. ``config["context"]`` exists in
# LangGraph >=0.6, but these values must be written to both ``configurable``
# (for legacy ``_get_runtime_config`` consumers) and ``context`` because
# LangGraph >=1.1.9 no longer makes ``ToolRuntime.context`` fall back to
# ``configurable`` for consumers like ``setup_agent``.
_CONTEXT_CONFIGURABLE_KEYS: frozenset[str] = frozenset(
{
"model_name",
"mode",
"thinking_enabled",
"reasoning_effort",
"is_plan_mode",
"subagent_enabled",
"max_concurrent_subagents",
"agent_name",
"is_bootstrap",
}
)
def merge_run_context_overrides(config: dict[str, Any], context: Mapping[str, Any] | None) -> None:
"""Merge whitelisted keys from ``body.context`` into both ``config['configurable']``
and ``config['context']`` so they are visible to legacy configurable readers and
to LangGraph ``ToolRuntime.context`` consumers (e.g. the ``setup_agent`` tool
see issue #2677)."""
if not context:
return
configurable = config.setdefault("configurable", {})
runtime_context = config.setdefault("context", {})
for key in _CONTEXT_CONFIGURABLE_KEYS:
if key in context:
if isinstance(configurable, dict):
configurable.setdefault(key, context[key])
if isinstance(runtime_context, dict):
runtime_context.setdefault(key, context[key])
def resolve_agent_factory(assistant_id: str | None):
"""Resolve the agent factory callable from config.
Custom agents are implemented as ``lead_agent`` + an ``agent_name``
injected into ``configurable`` or ``context`` see
:func:`build_run_config`. All ``assistant_id`` values therefore map to the
same factory; the routing happens inside ``make_lead_agent`` when it reads
``cfg["agent_name"]``.
injected into ``configurable`` see :func:`build_run_config`. All
``assistant_id`` values therefore map to the same factory; the routing
happens inside ``make_lead_agent`` when it reads ``cfg["agent_name"]``.
"""
from deerflow.agents.lead_agent.agent import make_lead_agent
@@ -160,62 +120,35 @@ def build_run_config(
"""Build a RunnableConfig dict for the agent.
When *assistant_id* refers to a custom agent (anything other than
``"lead_agent"`` / ``None``), the name is forwarded as ``agent_name`` in
whichever runtime options container is active: ``context`` for
LangGraph >= 0.6.0 requests, otherwise ``configurable``.
``make_lead_agent`` reads this key to load the matching
``agents/<name>/SOUL.md`` and per-agent config without it the agent
silently runs as the default lead agent.
``"lead_agent"`` / ``None``), the name is forwarded as
``configurable["agent_name"]``. ``make_lead_agent`` reads this key to
load the matching ``agents/<name>/SOUL.md`` and per-agent config
without it the agent silently runs as the default lead agent.
This mirrors the channel manager's ``_resolve_run_params`` logic so that
the LangGraph Platform-compatible HTTP API and the IM channel path behave
identically.
"""
config: dict[str, Any] = {"recursion_limit": 100}
configurable: dict[str, Any] = {"thread_id": thread_id}
if request_config:
# LangGraph >= 0.6.0 introduced ``context`` as the preferred way to
# pass thread-level data and rejects requests that include both
# ``configurable`` and ``context``. If the caller already sends
# ``context``, honour it and skip our own ``configurable`` dict.
if "context" in request_config:
if "configurable" in request_config:
logger.warning(
"build_run_config: client sent both 'context' and 'configurable'; preferring 'context' (LangGraph >= 0.6.0). thread_id=%s, caller_configurable keys=%s",
thread_id,
list(request_config.get("configurable", {}).keys()),
)
context_value = request_config["context"]
if context_value is None:
context = {}
elif isinstance(context_value, Mapping):
context = dict(context_value)
else:
raise ValueError("request config 'context' must be a mapping or null.")
config["context"] = context
else:
configurable = {"thread_id": thread_id}
configurable.update(request_config.get("configurable", {}))
config["configurable"] = configurable
for k, v in request_config.items():
if k not in ("configurable", "context"):
config[k] = v
else:
config["configurable"] = {"thread_id": thread_id}
configurable.update(request_config.get("configurable", {}))
# Inject custom agent name when the caller specified a non-default assistant.
# Honour an explicit agent_name in the active runtime options container.
if assistant_id and assistant_id != _DEFAULT_ASSISTANT_ID:
# Honour an explicit configurable["agent_name"] in the request if already set.
if assistant_id and assistant_id != _DEFAULT_ASSISTANT_ID and "agent_name" not in configurable:
# Normalize the same way ChannelManager does: strip, lowercase,
# replace underscores with hyphens, then validate to prevent path
# traversal and invalid agent directory lookups.
normalized = assistant_id.strip().lower().replace("_", "-")
if not normalized or not re.fullmatch(r"[a-z0-9-]+", normalized):
raise ValueError(f"Invalid assistant_id {assistant_id!r}: must contain only letters, digits, and hyphens after normalization.")
if "configurable" in config:
target = config["configurable"]
elif "context" in config:
target = config["context"]
else:
target = config.setdefault("configurable", {})
if target is not None and "agent_name" not in target:
target["agent_name"] = normalized
configurable["agent_name"] = normalized
config: dict[str, Any] = {"configurable": configurable, "recursion_limit": 100}
if request_config:
for k, v in request_config.items():
if k != "configurable":
config[k] = v
if metadata:
config.setdefault("metadata", {}).update(metadata)
return config
@@ -226,6 +159,71 @@ def build_run_config(
# ---------------------------------------------------------------------------
async def _upsert_thread_in_store(store, thread_id: str, metadata: dict | None) -> None:
"""Create or refresh the thread record in the Store.
Called from :func:`start_run` so that threads created via the stateless
``/runs/stream`` endpoint (which never calls ``POST /threads``) still
appear in ``/threads/search`` results.
"""
# Deferred import to avoid circular import with the threads router module.
from app.gateway.routers.threads import _store_upsert
try:
await _store_upsert(store, thread_id, metadata=metadata)
except Exception:
logger.warning("Failed to upsert thread %s in store (non-fatal)", thread_id)
async def _sync_thread_title_after_run(
run_task: asyncio.Task,
thread_id: str,
checkpointer: Any,
store: Any,
) -> None:
"""Wait for *run_task* to finish, then persist the generated title to the Store.
TitleMiddleware writes the generated title to the LangGraph agent state
(checkpointer) but the Gateway's Store record is not updated automatically.
This coroutine closes that gap by reading the final checkpoint after the
run completes and syncing ``values.title`` into the Store record so that
subsequent ``/threads/search`` responses include the correct title.
Runs as a fire-and-forget :func:`asyncio.create_task`; failures are
logged at DEBUG level and never propagate.
"""
# Wait for the background run task to complete (any outcome).
# asyncio.wait does not propagate task exceptions — it just returns
# when the task is done, cancelled, or failed.
await asyncio.wait({run_task})
# Deferred import to avoid circular import with the threads router module.
from app.gateway.routers.threads import _store_get, _store_put
try:
ckpt_config = {"configurable": {"thread_id": thread_id, "checkpoint_ns": ""}}
ckpt_tuple = await checkpointer.aget_tuple(ckpt_config)
if ckpt_tuple is None:
return
channel_values = ckpt_tuple.checkpoint.get("channel_values", {})
title = channel_values.get("title")
if not title:
return
existing = await _store_get(store, thread_id)
if existing is None:
return
updated = dict(existing)
updated.setdefault("values", {})["title"] = title
updated["updated_at"] = time.time()
await _store_put(store, updated)
logger.debug("Synced title %r for thread %s", title, thread_id)
except Exception:
logger.debug("Failed to sync title for thread %s (non-fatal)", thread_id, exc_info=True)
async def start_run(
body: Any,
thread_id: str,
@@ -245,7 +243,8 @@ async def start_run(
"""
bridge = get_stream_bridge(request)
run_mgr = get_run_manager(request)
run_ctx = get_run_context(request)
checkpointer = get_checkpointer(request)
store = get_store(request)
disconnect = DisconnectMode.cancel if body.on_disconnect == "cancel" else DisconnectMode.continue_
@@ -263,31 +262,35 @@ async def start_run(
except UnsupportedStrategyError as exc:
raise HTTPException(status_code=501, detail=str(exc)) from exc
# Upsert thread metadata so the thread appears in /threads/search,
# even for threads that were never explicitly created via POST /threads
# (e.g. stateless runs).
try:
existing = await run_ctx.thread_store.get(thread_id)
if existing is None:
await run_ctx.thread_store.create(
thread_id,
assistant_id=body.assistant_id,
metadata=body.metadata,
)
else:
await run_ctx.thread_store.update_status(thread_id, "running")
except Exception:
logger.warning("Failed to upsert thread_meta for %s (non-fatal)", sanitize_log_param(thread_id))
# Ensure the thread is visible in /threads/search, even for threads that
# were never explicitly created via POST /threads (e.g. stateless runs).
store = get_store(request)
if store is not None:
await _upsert_thread_in_store(store, thread_id, body.metadata)
agent_factory = resolve_agent_factory(body.assistant_id)
graph_input = normalize_input(body.input)
config = build_run_config(thread_id, body.config, body.metadata, assistant_id=body.assistant_id)
# Merge DeerFlow-specific context overrides into both ``configurable`` and ``context``.
# Merge DeerFlow-specific context overrides into configurable.
# The ``context`` field is a custom extension for the langgraph-compat layer
# that carries agent configuration (model_name, thinking_enabled, etc.).
# Only agent-relevant keys are forwarded; unknown keys (e.g. thread_id) are ignored.
merge_run_context_overrides(config, getattr(body, "context", None))
context = getattr(body, "context", None)
if context:
_CONTEXT_CONFIGURABLE_KEYS = {
"model_name",
"mode",
"thinking_enabled",
"reasoning_effort",
"is_plan_mode",
"subagent_enabled",
"max_concurrent_subagents",
}
configurable = config.setdefault("configurable", {})
for key in _CONTEXT_CONFIGURABLE_KEYS:
if key in context:
configurable.setdefault(key, context[key])
stream_modes = normalize_stream_modes(body.stream_mode)
@@ -296,7 +299,8 @@ async def start_run(
bridge,
run_mgr,
record,
ctx=run_ctx,
checkpointer=checkpointer,
store=store,
agent_factory=agent_factory,
graph_input=graph_input,
config=config,
@@ -308,9 +312,11 @@ async def start_run(
)
record.task = task
# Title sync is handled by worker.py's finally block which reads the
# title from the checkpoint and calls thread_store.update_display_name
# after the run completes.
# After the run completes, sync the title generated by TitleMiddleware from
# the checkpointer into the Store record so that /threads/search returns the
# correct title instead of an empty values dict.
if store is not None:
asyncio.create_task(_sync_thread_title_after_run(task, thread_id, checkpointer, store))
return record
@@ -327,9 +333,8 @@ async def sse_consumer(
- ``cancel``: abort the background task on client disconnect.
- ``continue``: let the task run; events are discarded.
"""
last_event_id = request.headers.get("Last-Event-ID")
try:
async for entry in bridge.subscribe(record.run_id, last_event_id=last_event_id):
async for entry in bridge.subscribe(record.run_id):
if await request.is_disconnected():
break
backend/app/gateway/utils.py
-6
View File
@@ -1,6 +0,0 @@
"""Shared utility helpers for the Gateway layer."""
def sanitize_log_param(value: str) -> str:
"""Strip control characters to prevent log injection."""
return value.replace("\n", "").replace("\r", "").replace("\x00", "")
backend/debug.py
+13 -70
View File
@@ -19,70 +19,24 @@ import asyncio
import logging
from dotenv import load_dotenv
from langchain_core.messages import HumanMessage
try:
from prompt_toolkit import PromptSession
from prompt_toolkit.history import InMemoryHistory
_HAS_PROMPT_TOOLKIT = True
except ImportError:
_HAS_PROMPT_TOOLKIT = False
from deerflow.agents import make_lead_agent
load_dotenv()
_LOG_FMT = "%(asctime)s - %(name)s - %(levelname)s - %(message)s"
_LOG_DATEFMT = "%Y-%m-%d %H:%M:%S"
def _setup_logging(log_level: int = logging.INFO) -> None:
"""Route logs to ``debug.log`` using *log_level* for the initial root/file setup.
This configures the root logger and the ``debug.log`` file handler so logs do
not print on the interactive console. It is idempotent: any pre-existing
handlers on the root logger (e.g. installed by ``logging.basicConfig`` in
transitively imported modules) are removed so the debug session output only
lands in ``debug.log``.
Note: later config-driven logging adjustments may change named logger
verbosity without raising the root logger or file-handler thresholds set
here, so the eventual contents of ``debug.log`` may not be filtered solely by
this function's ``log_level`` argument.
"""
root = logging.root
for h in list(root.handlers):
root.removeHandler(h)
h.close()
root.setLevel(log_level)
file_handler = logging.FileHandler("debug.log", mode="a", encoding="utf-8")
file_handler.setLevel(log_level)
file_handler.setFormatter(logging.Formatter(_LOG_FMT, datefmt=_LOG_DATEFMT))
root.addHandler(file_handler)
logging.basicConfig(
level=logging.INFO,
format="%(asctime)s - %(name)s - %(levelname)s - %(message)s",
datefmt="%Y-%m-%d %H:%M:%S",
)
async def main():
# Install file logging first so warnings emitted while loading config do not
# leak onto the interactive terminal via Python's lastResort handler.
_setup_logging()
from deerflow.config import get_app_config
from deerflow.config.app_config import apply_logging_level
app_config = get_app_config()
apply_logging_level(app_config.log_level)
# Delay the rest of the deerflow imports until *after* logging is installed
# so that any import-time side effects (e.g. deerflow.agents starts a
# background skill-loader thread on import) emit logs to debug.log instead
# of leaking onto the interactive terminal via Python's lastResort handler.
from langchain_core.messages import HumanMessage
from langgraph.runtime import Runtime
from deerflow.agents import make_lead_agent
from deerflow.mcp import initialize_mcp_tools
# Initialize MCP tools at startup
try:
from deerflow.mcp import initialize_mcp_tools
await initialize_mcp_tools()
except Exception as e:
print(f"Warning: Failed to initialize MCP tools: {e}")
@@ -98,27 +52,16 @@ async def main():
}
}
runtime = Runtime(context={"thread_id": config["configurable"]["thread_id"]})
config["configurable"]["__pregel_runtime"] = runtime
agent = make_lead_agent(config)
session = PromptSession(history=InMemoryHistory()) if _HAS_PROMPT_TOOLKIT else None
print("=" * 50)
print("Lead Agent Debug Mode")
print("Type 'quit' or 'exit' to stop")
print(f"Logs: debug.log (log_level={app_config.log_level})")
if not _HAS_PROMPT_TOOLKIT:
print("Tip: `uv sync --group dev` to enable arrow-key & history support")
print("=" * 50)
while True:
try:
if session:
user_input = (await session.prompt_async("\nYou: ")).strip()
else:
user_input = input("\nYou: ").strip()
user_input = input("\nYou: ").strip()
if not user_input:
continue
if user_input.lower() in ("quit", "exit"):
@@ -127,15 +70,15 @@ async def main():
# Invoke the agent
state = {"messages": [HumanMessage(content=user_input)]}
result = await agent.ainvoke(state, config=config)
result = await agent.ainvoke(state, config=config, context={"thread_id": "debug-thread-001"})
# Print the response
if result.get("messages"):
last_message = result["messages"][-1]
print(f"\nAgent: {last_message.content}")
except (KeyboardInterrupt, EOFError):
print("\nGoodbye!")
except KeyboardInterrupt:
print("\nInterrupted. Goodbye!")
break
except Exception as e:
print(f"\nError: {e}")
backend/docs/API.md
+1 -25
View File
@@ -86,7 +86,6 @@ Content-Type: application/json
]
},
"config": {
"recursion_limit": 100,
"configurable": {
"model_name": "gpt-4",
"thinking_enabled": false,
@@ -101,21 +100,6 @@ Content-Type: application/json
- Use: `values`, `messages-tuple`, `custom`, `updates`, `events`, `debug`, `tasks`, `checkpoints`
- Do not use: `tools` (deprecated/invalid in current `langgraph-api` and will trigger schema validation errors)
**Recursion Limit:**
`config.recursion_limit` caps the number of graph steps LangGraph will execute
in a single run. The `/api/langgraph/*` endpoints go straight to the LangGraph
server and therefore inherit LangGraph's native default of **25**, which is
too low for plan-mode or subagent-heavy runs — the agent typically errors out
with `GraphRecursionError` after the first round of subagent results comes
back, before the lead agent can synthesize the final answer.
DeerFlow's own Gateway and IM-channel paths mitigate this by defaulting to
`100` in `build_run_config` (see `backend/app/gateway/services.py`), but
clients calling the LangGraph API directly must set `recursion_limit`
explicitly in the request body. `100` matches the Gateway default and is a
safe starting point; increase it if you run deeply nested subagent graphs.
**Configurable Options:**
- `model_name` (string): Override the default model
- `thinking_enabled` (boolean): Enable extended thinking for supported models
@@ -642,14 +626,6 @@ curl -X POST http://localhost:2026/api/langgraph/threads/abc123/runs \
-H "Content-Type: application/json" \
-d '{
"input": {"messages": [{"role": "user", "content": "Hello"}]},
"config": {
"recursion_limit": 100,
"configurable": {"model_name": "gpt-4"}
}
"config": {"configurable": {"model_name": "gpt-4"}}
}'
```
> The `/api/langgraph/*` endpoints bypass DeerFlow's Gateway and inherit
> LangGraph's native `recursion_limit` default of 25, which is too low for
> plan-mode or subagent runs. Set `config.recursion_limit` explicitly — see
> the [Create Run](#create-run) section for details.
backend/docs/ARCHITECTURE.md
+1 -1
View File
@@ -199,7 +199,7 @@ class ThreadState(AgentState):
│ Built-in Tools │ │ Configured Tools │ │ MCP Tools │
│ (packages/harness/deerflow/tools/) │ │ (config.yaml) │ │ (extensions.json) │
├─────────────────────┤ ├─────────────────────┤ ├─────────────────────┤
│ - present_files │ │ - web_search │ │ - github │
│ - present_file │ │ - web_search │ │ - github │
│ - ask_clarification │ │ - web_fetch │ │ - filesystem │
│ - view_image │ │ - bash │ │ - postgres │
│ │ │ - read_file │ │ - brave-search │
backend/docs/AUTH_TEST_DOCKER_GAP.md
-77
View File
@@ -1,77 +0,0 @@
# Docker Test Gap (Section 七 7.4)
This file documents the only **un-executed** test cases from
`backend/docs/AUTH_TEST_PLAN.md` after the full release validation pass.
## Why this gap exists
The release validation environment (sg_dev: `10.251.229.92`) **does not have
a Docker daemon installed**. The TC-DOCKER cases are container-runtime
behavior tests that need an actual Docker engine to spin up
`docker/docker-compose.yaml` services.
```bash
$ ssh sg_dev "which docker; docker --version"
# (empty)
# bash: docker: command not found
```
All other test plan sections were executed against either:
- The local dev box (Mac, all services running locally), or
- The deployed sg_dev instance (gateway + frontend + nginx via SSH tunnel)
## Cases not executed
| Case | Title | What it covers | Why not run |
|---|---|---|---|
| TC-DOCKER-01 | `users.db` volume persistence | Verify the `DEER_FLOW_HOME` bind mount survives container restart | needs `docker compose up` |
| TC-DOCKER-02 | Session persistence across container restart | `AUTH_JWT_SECRET` env var keeps cookies valid after `docker compose down && up` | needs `docker compose down/up` |
| TC-DOCKER-03 | Per-worker rate limiter divergence | Confirms in-process `_login_attempts` dict doesn't share state across `gunicorn` workers (4 by default in the compose file); known limitation, documented | needs multi-worker container |
| TC-DOCKER-04 | IM channels skip AuthMiddleware | Verify Feishu/Slack/Telegram dispatchers run in-container against `http://langgraph:2024` without going through nginx | needs `docker logs` |
| TC-DOCKER-05 | Admin credentials surfacing | **Updated post-simplify** — was "log scrape", now "0600 credential file in `DEER_FLOW_HOME`". The file-based behavior is already validated by TC-1.1 + TC-UPG-13 on sg_dev (non-Docker), so the only Docker-specific gap is verifying the volume mount carries the file out to the host | needs container + host volume |
| TC-DOCKER-06 | Gateway-mode Docker deploy | `./scripts/deploy.sh --gateway` produces a 3-container topology (no `langgraph` container); same auth flow as standard mode | needs `docker compose --profile gateway` |
## Coverage already provided by non-Docker tests
The **auth-relevant** behavior in each Docker case is already exercised by
the test cases that ran on sg_dev or local:
| Docker case | Auth behavior covered by |
|---|---|
| TC-DOCKER-01 (volume persistence) | TC-REENT-01 on sg_dev (admin row survives gateway restart) — same SQLite file, just no container layer between |
| TC-DOCKER-02 (session persistence) | TC-API-02/03/06 (cookie roundtrip), plus TC-REENT-04 (multi-cookie) — JWT verification is process-state-free, container restart is equivalent to `pkill uvicorn && uv run uvicorn` |
| TC-DOCKER-03 (per-worker rate limit) | TC-GW-04 + TC-REENT-09 (single-worker rate limit + 5min expiry). The cross-worker divergence is an architectural property of the in-memory dict; no auth code path differs |
| TC-DOCKER-04 (IM channels skip auth) | Code-level only: `app/channels/manager.py` uses `langgraph_sdk` directly with no cookie handling. The langgraph_auth handler is bypassed by going through SDK, not HTTP |
| TC-DOCKER-05 (credential surfacing) | TC-1.1 on sg_dev (file at `~/deer-flow/backend/.deer-flow/admin_initial_credentials.txt`, mode 0600, password 22 chars) — the only Docker-unique step is whether the bind mount projects this path onto the host, which is a `docker compose` config check, not a runtime behavior change |
| TC-DOCKER-06 (gateway-mode container) | Section 七 7.2 covered by TC-GW-01..05 + Section 二 (gateway-mode auth flow on sg_dev) — same Gateway code, container is just a packaging change |
## Reproduction steps when Docker becomes available
Anyone with `docker` + `docker compose` installed can reproduce the gap by
running the test plan section verbatim. Pre-flight:
```bash
# Required on the host
docker --version # >=24.x
docker compose version # plugin >=2.x
# Required env var (otherwise sessions reset on every container restart)
echo "AUTH_JWT_SECRET=$(python3 -c 'import secrets; print(secrets.token_urlsafe(32))')" \
>> .env
# Optional: pin DEER_FLOW_HOME to a stable host path
echo "DEER_FLOW_HOME=$HOME/deer-flow-data" >> .env
```
Then run TC-DOCKER-01..06 from the test plan as written.
## Decision log
- **Not blocking the release.** The auth-relevant behavior in every Docker
case has an already-validated equivalent on bare metal. The gap is purely
about *container packaging* details (bind mounts, multi-worker, log
collection), not about whether the auth code paths work.
- **TC-DOCKER-05 was updated in place** in `AUTH_TEST_PLAN.md` to reflect
the post-simplify reality (credentials file → 0600 file, no log leak).
The old "grep 'Password:' in docker logs" expectation would have failed
silently and given a false sense of coverage.
backend/docs/AUTH_TEST_PLAN.md
-1801
View File
File diff suppressed because it is too large Load Diff
backend/docs/AUTH_UPGRADE.md
-129
View File
@@ -1,129 +0,0 @@
# Authentication Upgrade Guide
DeerFlow 内置了认证模块。本文档面向从无认证版本升级的用户。
## 核心概念
认证模块采用**始终强制**策略:
- 首次启动时自动创建 admin 账号,随机密码打印到控制台日志
- 认证从一开始就是强制的,无竞争窗口
- 历史对话(升级前创建的 thread)自动迁移到 admin 名下
## 升级步骤
### 1. 更新代码
```bash
git pull origin main
cd backend && make install
```
### 2. 首次启动
```bash
make dev
```
控制台会输出:
```
============================================================
Admin account created on first boot
Email: admin@deerflow.dev
Password: aB3xK9mN_pQ7rT2w
Change it after login: Settings → Account
============================================================
```
如果未登录就重启了服务,不用担心——只要 setup 未完成,每次启动都会重置密码并重新打印到控制台。
### 3. 登录
访问 `http://localhost:2026/login`,使用控制台输出的邮箱和密码登录。
### 4. 修改密码
登录后进入 Settings → Account → Change Password。
### 5. 添加用户(可选)
其他用户通过 `/login` 页面注册,自动获得 **user** 角色。每个用户只能看到自己的对话。
## 安全机制
| 机制 | 说明 |
|------|------|
| JWT HttpOnly Cookie | Token 不暴露给 JavaScript,防止 XSS 窃取 |
| CSRF Double Submit Cookie | 所有 POST/PUT/DELETE 请求需携带 `X-CSRF-Token` |
| bcrypt 密码哈希 | 密码不以明文存储 |
| 多租户隔离 | 用户只能访问自己的 thread |
| HTTPS 自适应 | 检测 `x-forwarded-proto`,自动设置 `Secure` cookie 标志 |
## 常见操作
### 忘记密码
```bash
cd backend
# 重置 admin 密码
python -m app.gateway.auth.reset_admin
# 重置指定用户密码
python -m app.gateway.auth.reset_admin --email user@example.com
```
会输出新的随机密码。
### 完全重置
删除用户数据库,重启后自动创建新 admin:
```bash
rm -f backend/.deer-flow/users.db
# 重启服务,控制台输出新密码
```
## 数据存储
| 文件 | 内容 |
|------|------|
| `.deer-flow/users.db` | SQLite 用户数据库(密码哈希、角色) |
| `.env` 中的 `AUTH_JWT_SECRET` | JWT 签名密钥(未设置时自动生成临时密钥,重启后 session 失效) |
### 生产环境建议
```bash
# 生成持久化 JWT 密钥,避免重启后所有用户需重新登录
python -c "import secrets; print(secrets.token_urlsafe(32))"
# 将输出添加到 .env
# AUTH_JWT_SECRET=<生成的密钥>
```
## API 端点
| 端点 | 方法 | 说明 |
|------|------|------|
| `/api/v1/auth/login/local` | POST | 邮箱密码登录(OAuth2 form |
| `/api/v1/auth/register` | POST | 注册新用户(user 角色) |
| `/api/v1/auth/logout` | POST | 登出(清除 cookie |
| `/api/v1/auth/me` | GET | 获取当前用户信息 |
| `/api/v1/auth/change-password` | POST | 修改密码 |
| `/api/v1/auth/setup-status` | GET | 检查 admin 是否存在 |
## 兼容性
- **标准模式**`make dev`):完全兼容,admin 自动创建
- **Gateway 模式**`make dev-pro`):完全兼容
- **Docker 部署**:完全兼容,`.deer-flow/users.db` 需持久化卷挂载
- **IM 渠道**Feishu/Slack/Telegram):通过 LangGraph SDK 通信,不经过认证层
- **DeerFlowClient**(嵌入式):不经过 HTTP,不受认证影响
## 故障排查
| 症状 | 原因 | 解决 |
|------|------|------|
| 启动后没看到密码 | admin 已存在(非首次启动) | 用 `reset_admin` 重置,或删 `users.db` |
| 登录后 POST 返回 403 | CSRF token 缺失 | 确认前端已更新 |
| 重启后需要重新登录 | `AUTH_JWT_SECRET` 未持久化 | 在 `.env` 中设置固定密钥 |
backend/docs/AUTO_TITLE_GENERATION.md
+1 -1
View File
@@ -248,7 +248,7 @@ def after_agent(self, state: TitleMiddlewareState, runtime: Runtime) -> dict | N
- [`packages/harness/deerflow/agents/thread_state.py`](../packages/harness/deerflow/agents/thread_state.py) - ThreadState 定义
- [`packages/harness/deerflow/agents/middlewares/title_middleware.py`](../packages/harness/deerflow/agents/middlewares/title_middleware.py) - TitleMiddleware 实现
- [`packages/harness/deerflow/config/title_config.py`](../packages/harness/deerflow/config/title_config.py) - 配置管理
- [`config.yaml`](../../config.example.yaml) - 配置文件
- [`config.yaml`](../config.yaml) - 配置文件
- [`packages/harness/deerflow/agents/lead_agent/agent.py`](../packages/harness/deerflow/agents/lead_agent/agent.py) - Middleware 注册
## 参考资料
backend/docs/CONFIGURATION.md
+8 -21
View File
@@ -192,8 +192,8 @@ tools:
```
**Built-in Tools**:
- `web_search` - Search the web (DuckDuckGo, Tavily, Exa, InfoQuest, Firecrawl)
- `web_fetch` - Fetch web pages (Jina AI, Exa, InfoQuest, Firecrawl)
- `web_search` - Search the web (Tavily)
- `web_fetch` - Fetch web pages (Jina AI)
- `ls` - List directory contents
- `read_file` - Read file contents
- `write_file` - Write file contents
@@ -259,8 +259,6 @@ sandbox:
When you configure `sandbox.mounts`, DeerFlow exposes those `container_path` values in the agent prompt so the agent can discover and operate on mounted directories directly instead of assuming everything must live under `/mnt/user-data`.
For bare-metal Docker sandbox runs that use localhost, DeerFlow binds the sandbox HTTP port to `127.0.0.1` by default so it is not exposed on every host interface. Docker-outside-of-Docker deployments that connect through `host.docker.internal` keep the broad legacy bind for compatibility. Set `DEER_FLOW_SANDBOX_BIND_HOST` explicitly if your deployment needs a different bind address.
### Skills
Configure the skills directory for specialized workflows:
@@ -280,12 +278,6 @@ skills:
- Skills are automatically discovered and loaded
- Available in both local and Docker sandbox via path mapping
**Per-Agent Skill Filtering**:
Custom agents can restrict which skills they load by defining a `skills` field in their `config.yaml` (located at `workspace/agents/<agent_name>/config.yaml`):
- **Omitted or `null`**: Loads all globally enabled skills (default fallback).
- **`[]` (empty list)**: Disables all skills for this specific agent.
- **`["skill-name"]`**: Loads only the explicitly specified skills.
### Title Generation
Automatic conversation title generation:
@@ -321,16 +313,11 @@ models:
- `DEEPSEEK_API_KEY` - DeepSeek API key
- `NOVITA_API_KEY` - Novita API key (OpenAI-compatible endpoint)
- `TAVILY_API_KEY` - Tavily search API key
- `DEER_FLOW_PROJECT_ROOT` - Project root for relative runtime paths
- `DEER_FLOW_CONFIG_PATH` - Custom config file path
- `DEER_FLOW_EXTENSIONS_CONFIG_PATH` - Custom extensions config file path
- `DEER_FLOW_HOME` - Runtime state directory (defaults to `.deer-flow` under the project root)
- `DEER_FLOW_SKILLS_PATH` - Skills directory when `skills.path` is omitted
- `GATEWAY_ENABLE_DOCS` - Set to `false` to disable Swagger UI (`/docs`), ReDoc (`/redoc`), and OpenAPI schema (`/openapi.json`) endpoints (default: `true`)
## Configuration Location
The configuration file should be placed in the **project root directory** (`deer-flow/config.yaml`). Set `DEER_FLOW_PROJECT_ROOT` when the process may start from another working directory, or set `DEER_FLOW_CONFIG_PATH` to point at a specific file.
The configuration file should be placed in the **project root directory** (`deer-flow/config.yaml`), not in the backend directory.
## Configuration Priority
@@ -338,12 +325,12 @@ DeerFlow searches for configuration in this order:
1. Path specified in code via `config_path` argument
2. Path from `DEER_FLOW_CONFIG_PATH` environment variable
3. `config.yaml` under `DEER_FLOW_PROJECT_ROOT`, or under the current working directory when `DEER_FLOW_PROJECT_ROOT` is unset
4. Legacy backend/repository-root locations for monorepo compatibility
3. `config.yaml` in current working directory (typically `backend/` when running)
4. `config.yaml` in parent directory (project root: `deer-flow/`)
## Best Practices
1. **Place `config.yaml` in project root** - Set `DEER_FLOW_PROJECT_ROOT` if the runtime starts elsewhere
1. **Place `config.yaml` in project root** - Not in `backend/` directory
2. **Never commit `config.yaml`** - It's already in `.gitignore`
3. **Use environment variables for secrets** - Don't hardcode API keys
4. **Keep `config.example.yaml` updated** - Document all new options
@@ -354,7 +341,7 @@ DeerFlow searches for configuration in this order:
### "Config file not found"
- Ensure `config.yaml` exists in the **project root** directory (`deer-flow/config.yaml`)
- If the runtime starts outside the project root, set `DEER_FLOW_PROJECT_ROOT`
- The backend searches parent directory by default, so root location is preferred
- Alternatively, set `DEER_FLOW_CONFIG_PATH` environment variable to custom location
### "Invalid API key"
@@ -364,7 +351,7 @@ DeerFlow searches for configuration in this order:
### "Skills not loading"
- Check that `deer-flow/skills/` directory exists
- Verify skills have valid `SKILL.md` files
- Check `skills.path` or `DEER_FLOW_SKILLS_PATH` if using a custom path
- Check `skills.path` configuration if using custom path
### "Docker sandbox fails to start"
- Ensure Docker is running
backend/docs/FILE_UPLOAD.md
+5 -26
View File
@@ -2,12 +2,12 @@
## 概述
DeerFlow 后端提供了完整的文件上传功能,支持多文件上传,并可选地将 Office 文档和 PDF 转换为 Markdown 格式。
DeerFlow 后端提供了完整的文件上传功能,支持多文件上传,并自动将 Office 文档和 PDF 转换为 Markdown 格式。
## 功能特性
- ✅ 支持多文件同时上传
- ✅ 可选地转换文档为 MarkdownPDF、PPT、Excel、Word
- ✅ 自动转换文档为 MarkdownPDF、PPT、Excel、Word
- ✅ 文件存储在线程隔离的目录中
- ✅ Agent 自动感知已上传的文件
- ✅ 支持文件列表查询和删除
@@ -22,8 +22,6 @@ POST /api/threads/{thread_id}/uploads
**请求体:** `multipart/form-data`
- `files`: 一个或多个文件
网关会在应用层限制上传规模,默认最多 10 个文件、单文件 50 MiB、单次请求总计 100 MiB。可通过 `config.yaml``uploads.max_files``uploads.max_file_size``uploads.max_total_size` 调整;前端会读取同一组限制并在选择文件时提示,超过限制时后端返回 `413 Payload Too Large`
**响应:**
```json
{
@@ -50,23 +48,7 @@ POST /api/threads/{thread_id}/uploads
- `virtual_path`: Agent 在沙箱中使用的虚拟路径
- `artifact_url`: 前端通过 HTTP 访问文件的 URL
### 2. 查询上传限制
```
GET /api/threads/{thread_id}/uploads/limits
```
返回网关当前生效的上传限制,供前端在用户选择文件前提示和拦截。
**响应:**
```json
{
"max_files": 10,
"max_file_size": 52428800,
"max_total_size": 104857600
}
```
### 3. 列出已上传文件
### 2. 列出已上传文件
```
GET /api/threads/{thread_id}/uploads/list
```
@@ -89,7 +71,7 @@ GET /api/threads/{thread_id}/uploads/list
}
```
### 4. 删除文件
### 3. 删除文件
```
DELETE /api/threads/{thread_id}/uploads/{filename}
```
@@ -104,7 +86,7 @@ DELETE /api/threads/{thread_id}/uploads/{filename}
## 支持的文档格式
以下格式在显式启用 `uploads.auto_convert_documents: true`会自动转换为 Markdown
以下格式会自动转换为 Markdown:
- PDF (`.pdf`)
- PowerPoint (`.ppt`, `.pptx`)
- Excel (`.xls`, `.xlsx`)
@@ -112,8 +94,6 @@ DELETE /api/threads/{thread_id}/uploads/{filename}
转换后的 Markdown 文件会保存在同一目录下,文件名为原文件名 + `.md` 扩展名。
默认情况下,自动转换是关闭的,以避免在网关主机上对不受信任的 Office/PDF 上传执行解析。只有在受信任部署中明确接受此风险时,才应将 `uploads.auto_convert_documents` 设置为 `true`
## Agent 集成
### 自动文件列举
@@ -227,7 +207,6 @@ backend/.deer-flow/threads/
- 最大文件大小:100MB(可在 nginx.conf 中配置 `client_max_body_size`
- 文件名安全性:系统会自动验证文件路径,防止目录遍历攻击
- 线程隔离:每个线程的上传文件相互隔离,无法跨线程访问
- 自动文档转换默认关闭;如需启用,需在 `config.yaml` 中显式设置 `uploads.auto_convert_documents: true`
## 技术实现
backend/docs/GUARDRAILS.md
+1 -1
View File
@@ -296,7 +296,7 @@ These are the tool names your provider will see in `request.tool_name`:
| `web_search` | Web search query |
| `web_fetch` | Fetch URL content |
| `image_search` | Image search |
| `present_files` | Present file to user |
| `present_file` | Present file to user |
| `view_image` | Display image |
| `ask_clarification` | Ask user a question |
| `task` | Delegate to subagent |
backend/docs/HARNESS_APP_SPLIT.md
+343
View File
@@ -0,0 +1,343 @@
# DeerFlow 后端拆分设计文档:Harness + App
> 状态:Draft
> 作者:DeerFlow Team
> 日期:2026-03-13
## 1. 背景与动机
DeerFlow 后端当前是一个单一 Python 包(`src.*`),包含了从底层 agent 编排到上层用户产品的所有代码。随着项目发展,这种结构带来了几个问题:
- **复用困难**:其他产品(CLI 工具、Slack bot、第三方集成)想用 agent 能力,必须依赖整个后端,包括 FastAPI、IM SDK 等不需要的依赖
- **职责模糊**:agent 编排逻辑和用户产品逻辑混在同一个 `src/` 下,边界不清晰
- **依赖膨胀**LangGraph Server 运行时不需要 FastAPI/uvicorn/Slack SDK,但当前必须安装全部依赖
本文档提出将后端拆分为两部分:**deerflow-harness**(可发布的 agent 框架包)和 **app**(不打包的用户产品代码)。
## 2. 核心概念
### 2.1 Harness(线束/框架层)
Harness 是 agent 的构建与编排框架,回答 **"如何构建和运行 agent"** 的问题:
- Agent 工厂与生命周期管理
- Middleware pipeline
- 工具系统(内置工具 + MCP + 社区工具)
- 沙箱执行环境
- 子 agent 委派
- 记忆系统
- 技能加载与注入
- 模型工厂
- 配置系统
**Harness 是一个可发布的 Python 包**(`deerflow-harness`),可以独立安装和使用。
**Harness 的设计原则**:对上层应用完全无感知。它不知道也不关心谁在调用它——可以是 Web App、CLI、Slack Bot、或者一个单元测试。
### 2.2 App(应用层)
App 是面向用户的产品代码,回答 **"如何将 agent 呈现给用户"** 的问题:
- Gateway APIFastAPI REST 接口)
- IM Channels(飞书、Slack、Telegram 集成)
- Custom Agent 的 CRUD 管理
- 文件上传/下载的 HTTP 接口
**App 不打包、不发布**,它是 DeerFlow 项目内部的应用代码,直接运行。
**App 依赖 Harness,但 Harness 不依赖 App。**
### 2.3 边界划分
| 模块 | 归属 | 说明 |
|------|------|------|
| `config/` | Harness | 配置系统是基础设施 |
| `reflection/` | Harness | 动态模块加载工具 |
| `utils/` | Harness | 通用工具函数 |
| `agents/` | Harness | Agent 工厂、middleware、state、memory |
| `subagents/` | Harness | 子 agent 委派系统 |
| `sandbox/` | Harness | 沙箱执行环境 |
| `tools/` | Harness | 工具注册与发现 |
| `mcp/` | Harness | MCP 协议集成 |
| `skills/` | Harness | 技能加载、解析、定义 schema |
| `models/` | Harness | LLM 模型工厂 |
| `community/` | Harness | 社区工具(tavily、jina 等) |
| `client.py` | Harness | 嵌入式 Python 客户端 |
| `gateway/` | App | FastAPI REST API |
| `channels/` | App | IM 平台集成 |
**关于 Custom Agents**agent 定义格式(`config.yaml` + `SOUL.md` schema)由 Harness 层的 `config/agents_config.py` 定义,但文件的存储、CRUD、发现机制由 App 层的 `gateway/routers/agents.py` 负责。
## 3. 目标架构
### 3.1 目录结构
```
backend/
├── packages/
│ └── harness/
│ ├── pyproject.toml # deerflow-harness 包定义
│ └── deerflow/ # Python 包根(import 前缀: deerflow.*
│ ├── __init__.py
│ ├── config/
│ ├── reflection/
│ ├── utils/
│ ├── agents/
│ │ ├── lead_agent/
│ │ ├── middlewares/
│ │ ├── memory/
│ │ ├── checkpointer/
│ │ └── thread_state.py
│ ├── subagents/
│ ├── sandbox/
│ ├── tools/
│ ├── mcp/
│ ├── skills/
│ ├── models/
│ ├── community/
│ └── client.py
├── app/ # 不打包(import 前缀: app.*
│ ├── __init__.py
│ ├── gateway/
│ │ ├── __init__.py
│ │ ├── app.py
│ │ ├── config.py
│ │ ├── path_utils.py
│ │ └── routers/
│ └── channels/
│ ├── __init__.py
│ ├── base.py
│ ├── manager.py
│ ├── service.py
│ ├── store.py
│ ├── message_bus.py
│ ├── feishu.py
│ ├── slack.py
│ └── telegram.py
├── pyproject.toml # uv workspace root
├── langgraph.json
├── tests/
├── docs/
└── Makefile
```
### 3.2 Import 规则
两个层使用不同的 import 前缀,职责边界一目了然:
```python
# ---------------------------------------------------------------
# Harness 内部互相引用(deerflow.* 前缀)
# ---------------------------------------------------------------
from deerflow.agents import make_lead_agent
from deerflow.models import create_chat_model
from deerflow.config import get_app_config
from deerflow.tools import get_available_tools
# ---------------------------------------------------------------
# App 内部互相引用(app.* 前缀)
# ---------------------------------------------------------------
from app.gateway.app import app
from app.gateway.routers.uploads import upload_files
from app.channels.service import start_channel_service
# ---------------------------------------------------------------
# App 调用 Harness(单向依赖,Harness 永远不 import app
# ---------------------------------------------------------------
from deerflow.agents import make_lead_agent
from deerflow.models import create_chat_model
from deerflow.skills import load_skills
from deerflow.config.extensions_config import get_extensions_config
```
**App 调用 Harness 示例 — Gateway 中启动 agent**
```python
# app/gateway/routers/chat.py
from deerflow.agents.lead_agent.agent import make_lead_agent
from deerflow.models import create_chat_model
from deerflow.config import get_app_config
async def create_chat_session(thread_id: str, model_name: str):
config = get_app_config()
model = create_chat_model(name=model_name)
agent = make_lead_agent(config=...)
# ... 使用 agent 处理用户消息
```
**App 调用 Harness 示例 — Channel 中查询 skills**
```python
# app/channels/manager.py
from deerflow.skills import load_skills
from deerflow.agents.memory.updater import get_memory_data
def handle_status_command():
skills = load_skills(enabled_only=True)
memory = get_memory_data()
return f"Skills: {len(skills)}, Memory facts: {len(memory.get('facts', []))}"
```
**禁止方向**:Harness 代码中绝不能出现 `from app.``import app.`
### 3.3 为什么 App 不打包
| 方面 | 打包(放 packages/ 下) | 不打包(放 backend/app/ |
|------|------------------------|--------------------------|
| 命名空间 | 需要 pkgutil `extend_path` 合并,或独立前缀 | 天然独立,`app.*` vs `deerflow.*` |
| 发布需求 | 没有——App 是项目内部代码 | 不需要 pyproject.toml |
| 复杂度 | 需要管理两个包的构建、版本、依赖声明 | 直接运行,零额外配置 |
| 运行方式 | `pip install deerflow-app` | `PYTHONPATH=. uvicorn app.gateway.app:app` |
App 的唯一消费者是 DeerFlow 项目自身,没有独立发布的需求。放在 `backend/app/` 下作为普通 Python 包,通过 `PYTHONPATH` 或 editable install 让 Python 找到即可。
### 3.4 依赖关系
```
┌─────────────────────────────────────┐
│ app/ (不打包,直接运行) │
│ ├── fastapi, uvicorn │
│ ├── slack-sdk, lark-oapi, ... │
│ └── import deerflow.* │
└──────────────┬──────────────────────┘
┌─────────────────────────────────────┐
│ deerflow-harness (可发布的包) │
│ ├── langgraph, langchain │
│ ├── markitdown, pydantic, ... │
│ └── 零 app 依赖 │
└─────────────────────────────────────┘
```
**依赖分类**
| 分类 | 依赖包 |
|------|--------|
| Harness only | agent-sandbox, langchain*, langgraph*, markdownify, markitdown, pydantic, pyyaml, readabilipy, tavily-python, firecrawl-py, tiktoken, ddgs, duckdb, httpx, kubernetes, dotenv |
| App only | fastapi, uvicorn, sse-starlette, python-multipart, lark-oapi, slack-sdk, python-telegram-bot, markdown-to-mrkdwn |
| Shared | langgraph-sdkchannels 用 HTTP client, pydantic, httpx |
### 3.5 Workspace 配置
`backend/pyproject.toml`workspace root):
```toml
[project]
name = "deer-flow"
version = "0.1.0"
requires-python = ">=3.12"
dependencies = ["deerflow-harness"]
[dependency-groups]
dev = ["pytest>=8.0.0", "ruff>=0.14.11"]
# App 的额外依赖(fastapi 等)也声明在 workspace root,因为 app 不打包
app = ["fastapi", "uvicorn", "sse-starlette", "python-multipart"]
channels = ["lark-oapi", "slack-sdk", "python-telegram-bot"]
[tool.uv.workspace]
members = ["packages/harness"]
[tool.uv.sources]
deerflow-harness = { workspace = true }
```
## 4. 当前的跨层依赖问题
在拆分之前,需要先解决 `client.py` 中两处从 harness 到 app 的反向依赖:
### 4.1 `_validate_skill_frontmatter`
```python
# client.py — harness 导入了 app 层代码
from src.gateway.routers.skills import _validate_skill_frontmatter
```
**解决方案**:将该函数提取到 `deerflow/skills/validation.py`。这是一个纯逻辑函数(解析 YAML frontmatter、校验字段),与 FastAPI 无关。
### 4.2 `CONVERTIBLE_EXTENSIONS` + `convert_file_to_markdown`
```python
# client.py — harness 导入了 app 层代码
from src.gateway.routers.uploads import CONVERTIBLE_EXTENSIONS, convert_file_to_markdown
```
**解决方案**:将它们提取到 `deerflow/utils/file_conversion.py`。仅依赖 `markitdown` + `pathlib`,是通用工具函数。
## 5. 基础设施变更
### 5.1 LangGraph Server
LangGraph Server 只需要 harness 包。`langgraph.json` 更新:
```json
{
"dependencies": ["./packages/harness"],
"graphs": {
"lead_agent": "deerflow.agents:make_lead_agent"
},
"checkpointer": {
"path": "./packages/harness/deerflow/agents/checkpointer/async_provider.py:make_checkpointer"
}
}
```
### 5.2 Gateway API
```bash
# serve.sh / Makefile
# PYTHONPATH 包含 backend/ 根目录,使 app.* 和 deerflow.* 都能被找到
PYTHONPATH=. uvicorn app.gateway.app:app --host 0.0.0.0 --port 8001
```
### 5.3 Nginx
无需变更(只做 URL 路由,不涉及 Python 模块路径)。
### 5.4 Docker
Dockerfile 中的 module 引用从 `src.` 改为 `deerflow.` / `app.``COPY` 命令需覆盖 `packages/``app/` 目录。
## 6. 实施计划
分 3 个 PR 递进执行:
### PR 1:提取共享工具函数(Low Risk)
1. 创建 `src/skills/validation.py`,从 `gateway/routers/skills.py` 提取 `_validate_skill_frontmatter`
2. 创建 `src/utils/file_conversion.py`,从 `gateway/routers/uploads.py` 提取文件转换逻辑
3. 更新 `client.py``gateway/routers/skills.py``gateway/routers/uploads.py` 的 import
4. 运行全部测试确认无回归
### PR 2Rename + 物理拆分(High Risk,原子操作)
1. 创建 `packages/harness/` 目录,创建 `pyproject.toml`
2. `git mv` 将 harness 相关模块从 `src/` 移入 `packages/harness/deerflow/`
3. `git mv` 将 app 相关模块从 `src/` 移入 `app/`
4. 全局替换 import
- harness 模块:`src.*``deerflow.*`(所有 `.py` 文件、`langgraph.json`、测试、文档)
- app 模块:`src.gateway.*``app.gateway.*``src.channels.*``app.channels.*`
5. 更新 workspace root `pyproject.toml`
6. 更新 `langgraph.json``Makefile``Dockerfile`
7. `uv sync` + 全部测试 + 手动验证服务启动
### PR 3:边界检查 + 文档(Low Risk)
1. 添加 lint 规则:检查 harness 不 import app 模块
2. 更新 `CLAUDE.md``README.md`
## 7. 风险与缓解
| 风险 | 影响 | 缓解措施 |
|------|------|----------|
| 全局 rename 误伤 | 字符串中的 `src` 被错误替换 | 正则精确匹配 `\bsrc\.`review diff |
| LangGraph Server 找不到模块 | 服务启动失败 | `langgraph.json``dependencies` 指向正确的 harness 包路径 |
| App 的 `PYTHONPATH` 缺失 | Gateway/Channel 启动 import 报错 | Makefile/Docker 统一设置 `PYTHONPATH=.` |
| `config.yaml` 中的 `use` 字段引用旧路径 | 运行时模块解析失败 | `config.yaml` 中的 `use` 字段同步更新为 `deerflow.*` |
| 测试中 `sys.path` 混乱 | 测试失败 | 用 editable install`uv sync`)确保 deerflow 可导入,`conftest.py` 中添加 `app/``sys.path` |
## 8. 未来演进
- **独立发布**harness 可以发布到内部 PyPI,让其他项目直接 `pip install deerflow-harness`
- **插件化 App**:不同的 app(web、CLI、bot)可以各自独立,都依赖同一个 harness
- **更细粒度拆分**:如果 harness 内部模块继续增长,可以进一步拆分(如 `deerflow-sandbox``deerflow-mcp`
backend/docs/MCP_SERVER.md
-35
View File
@@ -45,41 +45,6 @@ Example:
}
```
## Custom Tool Interceptors
You can register custom interceptors that run before every MCP tool call. This is useful for injecting per-request headers (e.g., user auth tokens from the LangGraph execution context), logging, or metrics.
Declare interceptors in `extensions_config.json` using the `mcpInterceptors` field:
```json
{
"mcpInterceptors": [
"my_package.mcp.auth:build_auth_interceptor"
],
"mcpServers": { ... }
}
```
Each entry is a Python import path in `module:variable` format (resolved via `resolve_variable`). The variable must be a **no-arg builder function** that returns an async interceptor compatible with `MultiServerMCPClient`s `tool_interceptors` interface, or `None` to skip.
Example interceptor that injects auth headers from LangGraph metadata:
```python
def build_auth_interceptor():
async def interceptor(request, handler):
from langgraph.config import get_config
metadata = get_config().get("metadata", {})
headers = dict(request.headers or {})
if token := metadata.get("auth_token"):
headers["X-Auth-Token"] = token
return await handler(request.override(headers=headers))
return interceptor
```
- A single string value is accepted and normalized to a one-element list.
- Invalid paths or builder failures are logged as warnings without blocking other interceptors.
- The builder return value must be `callable`; non-callable values are skipped with a warning.
## How It Works
MCP servers expose tools that are automatically discovered and integrated into DeerFlows agent system at runtime. Once enabled, these tools become available to agents without additional code changes.
backend/docs/README.md
-2
View File
@@ -15,7 +15,6 @@ This directory contains detailed documentation for the DeerFlow backend.
| Document | Description |
|----------|-------------|
| [STREAMING.md](STREAMING.md) | Token-level streaming design: Gateway vs DeerFlowClient paths, `stream_mode` semantics, per-id dedup |
| [FILE_UPLOAD.md](FILE_UPLOAD.md) | File upload functionality |
| [PATH_EXAMPLES.md](PATH_EXAMPLES.md) | Path types and usage examples |
| [summarization.md](summarization.md) | Context summarization feature |
@@ -48,7 +47,6 @@ docs/
├── PATH_EXAMPLES.md # Path usage examples
├── summarization.md # Summarization feature
├── plan_mode_usage.md # Plan mode feature
├── STREAMING.md # Token-level streaming design
├── AUTO_TITLE_GENERATION.md # Title generation
├── TITLE_GENERATION_IMPLEMENTATION.md # Title implementation details
└── TODO.md # Roadmap and issues
backend/docs/SETUP.md
+8 -14
View File
@@ -23,9 +23,6 @@ DeerFlow uses a YAML configuration file that should be placed in the **project r
# Option A: Set environment variables (recommended)
export OPENAI_API_KEY="your-key-here"
# Optional: pin the project root when running from another directory
export DEER_FLOW_PROJECT_ROOT="/path/to/deer-flow"
# Option B: Edit config.yaml directly
vim config.yaml # or your preferred editor
```
@@ -38,20 +35,17 @@ DeerFlow uses a YAML configuration file that should be placed in the **project r
## Important Notes
- **Location**: `config.yaml` should be in `deer-flow/` (project root)
- **Location**: `config.yaml` should be in `deer-flow/` (project root), not `deer-flow/backend/`
- **Git**: `config.yaml` is automatically ignored by git (contains secrets)
- **Runtime root**: Set `DEER_FLOW_PROJECT_ROOT` if DeerFlow may start from outside the project root
- **Runtime data**: State defaults to `.deer-flow` under the project root; set `DEER_FLOW_HOME` to move it
- **Skills**: Skills default to `skills/` under the project root; set `DEER_FLOW_SKILLS_PATH` or `skills.path` to move them
- **Priority**: If both `backend/config.yaml` and `../config.yaml` exist, backend version takes precedence
## Configuration File Locations
The backend searches for `config.yaml` in this order:
1. Explicit `config_path` argument from code
2. `DEER_FLOW_CONFIG_PATH` environment variable (if set)
3. `config.yaml` under `DEER_FLOW_PROJECT_ROOT`, or the current working directory when `DEER_FLOW_PROJECT_ROOT` is unset
4. Legacy backend/repository-root locations for monorepo compatibility
1. `DEER_FLOW_CONFIG_PATH` environment variable (if set)
2. `backend/config.yaml` (current directory when running from backend/)
3. `deer-flow/config.yaml` (parent directory - **recommended location**)
**Recommended**: Place `config.yaml` in project root (`deer-flow/config.yaml`).
@@ -83,8 +77,8 @@ python -c "from deerflow.config.app_config import AppConfig; print(AppConfig.res
If it can't find the config:
1. Ensure you've copied `config.example.yaml` to `config.yaml`
2. Verify you're in the project root, or set `DEER_FLOW_PROJECT_ROOT`
3. Check the file exists: `ls -la config.yaml`
2. Verify you're in the correct directory
3. Check the file exists: `ls -la ../config.yaml`
### Permission denied
@@ -95,4 +89,4 @@ chmod 600 ../config.yaml # Protect sensitive configuration
## See Also
- [Configuration Guide](CONFIGURATION.md) - Detailed configuration options
- [Architecture Overview](../CLAUDE.md) - System architecture
- [Architecture Overview](../CLAUDE.md) - System architecture
backend/docs/STREAMING.md
-351
View File
@@ -1,351 +0,0 @@
# DeerFlow 流式输出设计
本文档解释 DeerFlow 是如何把 LangGraph agent 的事件流端到端送到两类消费者(HTTP 客户端、嵌入式 Python 调用方)的:两条路径为什么**必须**并存、它们各自的契约是什么、以及设计里那些 non-obvious 的不变式。
---
## TL;DR
- DeerFlow 有**两条并行**的流式路径:**Gateway 路径**async / HTTP SSE / JSON 序列化)服务浏览器和 IM 渠道;**DeerFlowClient 路径**sync / in-process / 原生 LangChain 对象)服务 Jupyter、脚本、测试。它们**无法合并**——消费者模型不同。
- 两条路径都从 `create_agent()` 工厂出发,核心都是订阅 LangGraph 的 `stream_mode=["values", "messages", "custom"]``values` 是节点级 state 快照,`messages` 是 LLM token 级 delta`custom` 是显式 `StreamWriter` 事件。**这三种模式不是详细程度的梯度,是三个独立的事件源**,要 token 流就必须显式订阅 `messages`
- 嵌入式 client 为每个 `stream()` 调用维护三个 `set[str]``seen_ids` / `streamed_ids` / `counted_usage_ids`。三者看起来相似但管理**三个独立的不变式**,不能合并。
---
## 为什么有两条流式路径
两条路径服务的消费者模型根本不同:
| 维度 | Gateway 路径 | DeerFlowClient 路径 |
|---|---|---|
| 入口 | FastAPI `/runs/stream` endpoint | `DeerFlowClient.stream(message)` |
| 触发层 | `runtime/runs/worker.py::run_agent` | `packages/harness/deerflow/client.py::DeerFlowClient.stream` |
| 执行模型 | `async def` + `agent.astream()` | sync generator + `agent.stream()` |
| 事件传输 | `StreamBridge`asyncio Queue+ `sse_consumer` | 直接 `yield` |
| 序列化 | `serialize(chunk)` → 纯 JSON dict,匹配 LangGraph Platform wire 格式 | `StreamEvent.data`,携带原生 LangChain 对象 |
| 消费者 | 前端 `useStream` React hook、飞书/Slack/Telegram channel、LangGraph SDK 客户端 | Jupyter notebook、集成测试、内部 Python 脚本 |
| 生命周期管理 | `RunManager`run_id 跟踪、disconnect 语义、multitask 策略、heartbeat | 无;函数返回即结束 |
| 断连恢复 | `Last-Event-ID` SSE 重连 | 无需要 |
**两条路径的存在是 DRY 的刻意妥协**:Gateway 的全部基础设施(async + Queue + JSON + RunManager**都是为了跨网络边界把事件送给 HTTP 消费者**。当生产者(agent)和消费者(Python 调用栈)在同一个进程时,这整套东西都是纯开销。
### 为什么不能让 DeerFlowClient 复用 Gateway
曾经考虑过三种复用方案,都被否决:
1. **让 `client.stream()` 变成 `async def client.astream()`**
breaking change。用户用不上的 `async for` / `asyncio.run()` 要硬塞进 Jupyter notebook 和同步脚本。DeerFlowClient 的一大卖点("把 agent 当普通函数调用")直接消失。
2. **在 `client.stream()` 内部起一个独立事件循环线程,用 `StreamBridge` 在 sync/async 之间做桥接**
引入线程池、队列、信号量。为了"消除重复",把**复杂度**代替代码行数引进来。是典型的"wrong abstraction"——开销高于复用收益。
3. **让 `run_agent` 自己兼容 sync mode**
给 Gateway 加一条用不到的死分支,污染 worker.py 的焦点。
所以两条路径的事件处理逻辑会**相似但不共享**。这是刻意设计,不是疏忽。
---
## LangGraph `stream_mode` 三层语义
LangGraph 的 `agent.stream(stream_mode=[...])` 是**多路复用**接口:一次订阅多个 mode,每个 mode 是一个独立的事件源。三种核心 mode:
```mermaid
flowchart LR
classDef values fill:#B8C5D1,stroke:#5A6B7A,color:#2C3E50
classDef messages fill:#C9B8A8,stroke:#7A6B5A,color:#2C3E50
classDef custom fill:#B5C4B1,stroke:#5A7A5A,color:#2C3E50
subgraph LG["LangGraph agent graph"]
direction TB
Node1["node: LLM call"]
Node2["node: tool call"]
Node3["node: reducer"]
end
LG -->|"每个节点完成后"| V["values: 完整 state 快照"]
Node1 -->|"LLM 每产生一个 token"| M["messages: (AIMessageChunk, meta)"]
Node1 -->|"StreamWriter.write()"| C["custom: 任意 dict"]
class V values
class M messages
class C custom
```
| Mode | 发射时机 | Payload | 粒度 |
|---|---|---|---|
| `values` | 每个 graph 节点完成后 | 完整 state dicttitle、messages、artifacts| 节点级 |
| `messages` | LLM 每次 yield 一个 chunktool 节点完成时 | `(AIMessageChunk \| ToolMessage, metadata_dict)` | token 级 |
| `custom` | 用户代码显式调用 `StreamWriter.write()` | 任意 dict | 应用定义 |
### 两套命名的由来
同一件事在**三个协议层**有三个名字:
```
Application HTTP / SSE LangGraph Graph
┌──────────────┐ ┌──────────────┐ ┌──────────────┐
│ frontend │ │ LangGraph │ │ agent.astream│
│ useStream │──"messages- │ Platform SDK │──"messages"──│ graph.astream│
│ Feishu IM │ tuple"──────│ HTTP wire │ │ │
└──────────────┘ └──────────────┘ └──────────────┘
```
- **Graph 层**`agent.stream` / `agent.astream`):LangGraph Python 直接 APImode 叫 **`"messages"`**。
- **Platform SDK 层**`langgraph-sdk` HTTP client):跨进程 HTTP 契约,mode 叫 **`"messages-tuple"`**。
- **Gateway worker** 显式做翻译:`if m == "messages-tuple": lg_modes.append("messages")``runtime/runs/worker.py:117-121`)。
**后果**`DeerFlowClient.stream()` 直接调 `agent.stream()`Graph 层),所以必须传 `"messages"``app/channels/manager.py` 通过 `langgraph-sdk` 走 HTTP SDK,所以传 `"messages-tuple"`。**这两个字符串不能互相替代**,也不能抽成"一个共享常量"——它们是不同协议层的 type alias,共享只会让某一层说不是它母语的话。
---
## Gateway 路径:async + HTTP SSE
```mermaid
sequenceDiagram
participant Client as HTTP Client
participant API as FastAPI<br/>thread_runs.py
participant Svc as services.py<br/>start_run
participant Worker as worker.py<br/>run_agent (async)
participant Bridge as StreamBridge<br/>(asyncio.Queue)
participant Agent as LangGraph<br/>agent.astream
participant SSE as sse_consumer
Client->>API: POST /runs/stream
API->>Svc: start_run(body)
Svc->>Bridge: create bridge
Svc->>Worker: asyncio.create_task(run_agent(...))
Svc-->>API: StreamingResponse(sse_consumer)
API-->>Client: event-stream opens
par worker (producer)
Worker->>Agent: astream(stream_mode=lg_modes)
loop 每个 chunk
Agent-->>Worker: (mode, chunk)
Worker->>Bridge: publish(run_id, event, serialize(chunk))
end
Worker->>Bridge: publish_end(run_id)
and sse_consumer (consumer)
SSE->>Bridge: subscribe(run_id)
loop 每个 event
Bridge-->>SSE: StreamEvent
SSE-->>Client: "event: <name>\ndata: <json>\n\n"
end
end
```
关键组件:
- `runtime/runs/worker.py::run_agent` — 在 `asyncio.Task` 里跑 `agent.astream()`,把每个 chunk 通过 `serialize(chunk, mode=mode)` 转成 JSON,再 `bridge.publish()`
- `runtime/stream_bridge` — 抽象 Queue。`publish/subscribe` 解耦生产者和消费者,支持 `Last-Event-ID` 重连、心跳、多订阅者 fan-out。
- `app/gateway/services.py::sse_consumer` — 从 bridge 订阅,格式化为 SSE wire 帧。
- `runtime/serialization.py::serialize` — mode-aware 序列化;`messages` mode 下 `serialize_messages_tuple``(chunk, metadata)` 转成 `[chunk.model_dump(), metadata]`
**`StreamBridge` 的存在价值**:当生产者(`run_agent` 任务)和消费者(HTTP 连接)在不同的 asyncio task 里运行时,需要一个可以跨 task 传递事件的中介。Queue 同时还承担断连重连的 buffer 和多订阅者的 fan-out。
---
## DeerFlowClient 路径:sync + in-process
```mermaid
sequenceDiagram
participant User as Python caller
participant Client as DeerFlowClient.stream
participant Agent as LangGraph<br/>agent.stream (sync)
User->>Client: for event in client.stream("hi"):
Client->>Agent: stream(stream_mode=["values","messages","custom"])
loop 每个 chunk
Agent-->>Client: (mode, chunk)
Client->>Client: 分发 mode<br/>构建 StreamEvent
Client-->>User: yield StreamEvent
end
Client-->>User: yield StreamEvent(type="end")
```
对比之下,sync 路径的每个环节都是显著更少的移动部件:
- 没有 `RunManager` —— 一次 `stream()` 调用对应一次生命周期,无需 run_id。
- 没有 `StreamBridge` —— 直接 `yield`,生产和消费在同一个 Python 调用栈,不需要跨 task 中介。
- 没有 JSON 序列化 —— `StreamEvent.data` 直接装原生 LangChain 对象(`AIMessage.content``usage_metadata``UsageMetadata` TypedDict)。Jupyter 用户拿到的是真正的类型,不是匿名 dict。
- 没有 asyncio —— 调用者可以直接 `for event in ...`,不必写 `async for`
---
## 消费语义:delta vs cumulative
LangGraph `messages` mode 给出的是 **delta**:每个 `AIMessageChunk.content` 只包含这一次新 yield 的 token,**不是**从头的累计文本。
这个语义和 LangChain 的 `fs2 Stream` 风格一致:**上游发增量,下游负责累加**。Gateway 路径里前端 `useStream` React hook 自己维护累加器;DeerFlowClient 路径里 `chat()` 方法替调用者做累加。
### `DeerFlowClient.chat()` 的 O(n) 累加器
```python
chunks: dict[str, list[str]] = {}
last_id: str = ""
for event in self.stream(message, thread_id=thread_id, **kwargs):
if event.type == "messages-tuple" and event.data.get("type") == "ai":
msg_id = event.data.get("id") or ""
delta = event.data.get("content", "")
if delta:
chunks.setdefault(msg_id, []).append(delta)
last_id = msg_id
return "".join(chunks.get(last_id, ()))
```
**为什么不是 `buffers[id] = buffers.get(id,"") + delta`**CPython 的字符串 in-place concat 优化仅在 refcount=1 且 LHS 是 local name 时生效;这里字符串存在 dict 里被 reassign,优化失效,每次都是 O(n) 拷贝 → 总体 O(n²)。实测 50 KB / 5000 chunk 的回复要 100-300ms 纯拷贝开销。用 `list` + `"".join()` 是 O(n)。
---
## 三个 id set 为什么不能合并
`DeerFlowClient.stream()` 在一次调用生命周期内维护三个 `set[str]`
```python
seen_ids: set[str] = set() # values 路径内部 dedup
streamed_ids: set[str] = set() # messages → values 跨模式 dedup
counted_usage_ids: set[str] = set() # usage_metadata 幂等计数
```
乍看像是"三份几乎一样的东西",实际每个管**不同的不变式**。
| Set | 负责的不变式 | 被谁填充 | 被谁查询 |
|---|---|---|---|
| `seen_ids` | 连续两个 `values` 快照里同一条 message 只生成一个 `messages-tuple` 事件 | values 分支每处理一条消息就加入 | values 分支处理下一条消息前检查 |
| `streamed_ids` | 如果一条消息已经通过 `messages` 模式 token 级流过,values 快照到达时**不要**再合成一次完整 `messages-tuple` | messages 分支每发一个 AI/tool 事件就加入 | values 分支看到消息时检查 |
| `counted_usage_ids` | 同一个 `usage_metadata` 在 messages 末尾 chunk 和 values 快照的 final AIMessage 里各带一份,**累计总量只算一次** | `_account_usage()` 每次接受 usage 就加入 | `_account_usage()` 每次调用时检查 |
### 为什么不能只用一个 set
关键观察:**同一个 message id 在这三个 set 里的加入时机不同**。
```mermaid
sequenceDiagram
participant M as messages mode
participant V as values mode
participant SS as streamed_ids
participant SU as counted_usage_ids
participant SE as seen_ids
Note over M: 第一个 AI text chunk 到达
M->>SS: add(msg_id)
Note over M: 最后一个 chunk 带 usage
M->>SU: add(msg_id)
Note over V: snapshot 到达,包含同一条 AI message
V->>SE: add(msg_id)
V->>SS: 查询 → 已存在,跳过文本合成
V->>SU: 查询 → 已存在,不重复计数
```
- `seen_ids` **永远在 values 快照到达时**加入,所以它是 "values 已处理" 的标记。一条只出现在 messages 流里的消息(罕见但可能),`seen_ids` 里永远没有它。
- `streamed_ids` **在 messages 流的第一个有效事件时**加入。一条只通过 values 快照到达的非 AI 消息(HumanMessage、被 truncate 的 tool 消息),`streamed_ids` 里永远没有它。
- `counted_usage_ids` **只在看到非空 `usage_metadata` 时**加入。一条完全没有 usage 的消息(tool message、错误消息)永远不会进去。
**集合包含关系**`counted_usage_ids ⊆ (streamed_ids seen_ids)` 大致成立,但**不是严格子集**,因为一条消息可以在 messages 模式流完 text 但**在最后那个带 usage 的 chunk 之前**就被 values snapshot 赶上——此时它已经在 `streamed_ids` 里,但还不在 `counted_usage_ids` 里。把它们合并成一个 dict-of-flags 会让这个微妙的时序依赖**从类型系统里消失**,变成注释里的一句话。三个独立的 set 把不变式显式化了:每个 set 名对应一个可以口头回答的问题。
---
## 端到端:一次真实对话的事件时序
假设调用 `client.stream("Count from 1 to 15")`LLM 给出 "one\ntwo\n...\nfifteen"88 字符),tokenizer 把它拆成 ~35 个 BPE chunk。下面是事件到达序列的精简版:
```mermaid
sequenceDiagram
participant U as User
participant C as DeerFlowClient
participant A as LangGraph<br/>agent.stream
U->>C: stream("Count ... 15")
C->>A: stream(mode=["values","messages","custom"])
A-->>C: ("values", {messages: [HumanMessage]})
C-->>U: StreamEvent(type="values", ...)
Note over A,C: LLM 开始 yield token
loop 35 次,约 476ms
A-->>C: ("messages", (AIMessageChunk(content="ele"), meta))
C->>C: streamed_ids.add(ai-1)
C-->>U: StreamEvent(type="messages-tuple",<br/>data={type:ai, content:"ele", id:ai-1})
end
Note over A: LLM finish_reason=stop,最后一个 chunk 带 usage
A-->>C: ("messages", (AIMessageChunk(content="", usage_metadata={...}), meta))
C->>C: counted_usage_ids.add(ai-1)<br/>(无文本,不 yield)
A-->>C: ("values", {messages: [..., AIMessage(complete)]})
C->>C: ai-1 in streamed_ids → 跳过合成
C->>C: 捕获 usage (已在 counted_usage_idsno-op)
C-->>U: StreamEvent(type="values", ...)
C-->>U: StreamEvent(type="end", data={usage:{...}})
```
关键观察:
1. 用户看到 **35 个 messages-tuple 事件**,跨越约 476ms,每个事件带一个 token delta 和同一个 `id=ai-1`
2. 最后一个 `values` 快照里的 `AIMessage` **不会**再触发一个完整的 `messages-tuple` 事件——因为 `ai-1 in streamed_ids` 跳过了合成。
3. `end` 事件里的 `usage` 正好等于那一份 cumulative usage**不是它的两倍**——`counted_usage_ids` 在 messages 末尾 chunk 上已经吸收了,values 分支的重复访问是 no-op。
4. 消费者拿到的 `content` 是**增量**"ele" 只包含 3 个字符,不是 "one\ntwo\n...ele"。想要完整文本要按 `id` 累加,`chat()` 已经帮你做了。
---
## 为什么这个设计容易出 bug,以及测试策略
本文档的直接起因是 bytedance/deer-flow#1969`DeerFlowClient.stream()` 原本只订阅 `["values", "custom"]`**漏了 `"messages"`**。结果 `client.stream("hello")` 等价于一次性返回,视觉上和 `chat()` 没区别。
这类 bug 有三个结构性原因:
1. **多协议层命名**`messages` / `messages-tuple` / HTTP SSE `messages` 是同一概念的三个名字。在其中一层出错不会在另外两层报错。
2. **多消费者模型**Gateway 和 DeerFlowClient 是两套独立实现,**没有单一的"订阅哪些 mode"的 single source of truth**。前者订阅对了不代表后者也订阅对了。
3. **mock 测试绕开了真实路径**:老测试用 `agent.stream.return_value = iter([dict_chunk, ...])` 喂 values 形状的 dict 模拟 state 快照。这样构造的输入**永远不会进入 `messages` mode 分支**,所以即使 `stream_mode` 里少一个元素,CI 依然全绿。
### 防御手段
真正的防线是**显式断言 "messages" mode 被订阅 + 用真实 chunk shape mock**
```python
# tests/test_client.py::test_messages_mode_emits_token_deltas
agent.stream.return_value = iter([
("messages", (AIMessageChunk(content="Hel", id="ai-1"), {})),
("messages", (AIMessageChunk(content="lo ", id="ai-1"), {})),
("messages", (AIMessageChunk(content="world!", id="ai-1"), {})),
("values", {"messages": [HumanMessage(...), AIMessage(content="Hello world!", id="ai-1")]}),
])
# ...
assert [e.data["content"] for e in ai_text_events] == ["Hel", "lo ", "world!"]
assert len(ai_text_events) == 3 # values snapshot must NOT re-synthesize
assert "messages" in agent.stream.call_args.kwargs["stream_mode"]
```
**为什么这比"抽一个共享常量"更有效**:共享常量只能保证"用它的人写对字符串",但新增消费者的人可能根本不知道常量在哪。行为断言强制任何改动都要穿过**实际执行路径**,改回 `["values", "custom"]` 会立刻让 `assert "messages" in ...` 失败。
### 活体信号:BPE 子词边界
回归的最终验证是让真实 LLM 数 1-15,然后看是否能在输出里看到 tokenizer 的子词切分:
```
[5.460s] 'ele' / 'ven' eleven 被拆成两个 token
[5.508s] 'tw' / 'elve' twelve 拆两个
[5.568s] 'th' / 'irteen' thirteen 拆两个
[5.623s] 'four'/ 'teen' fourteen 拆两个
[5.677s] 'f' / 'if' / 'teen' fifteen 拆三个
```
子词切分是 tokenizer 的外部事实,**无法伪造**。能看到它就说明数据流**逐 chunk** 地穿过了整条管道,没有被任何中间层缓冲成整段。这种"活体信号"在流式系统里是比单元测试更高置信度的证据。
---
## 相关源码定位
| 关心什么 | 看这里 |
|---|---|
| DeerFlowClient 嵌入式流 | `packages/harness/deerflow/client.py::DeerFlowClient.stream` |
| `chat()` 的 delta 累加器 | `packages/harness/deerflow/client.py::DeerFlowClient.chat` |
| Gateway async 流 | `packages/harness/deerflow/runtime/runs/worker.py::run_agent` |
| HTTP SSE 帧输出 | `app/gateway/services.py::sse_consumer` / `format_sse` |
| 序列化到 wire 格式 | `packages/harness/deerflow/runtime/serialization.py` |
| LangGraph mode 命名翻译 | `packages/harness/deerflow/runtime/runs/worker.py:117-121` |
| 飞书渠道的增量卡片更新 | `app/channels/manager.py::_handle_streaming_chat` |
| Channels 自带的 delta/cumulative 防御性累加 | `app/channels/manager.py::_merge_stream_text` |
| Frontend useStream 支持的 mode 集合 | `frontend/src/core/api/stream-mode.ts` |
| 核心回归测试 | `backend/tests/test_client.py::TestStream::test_messages_mode_emits_token_deltas` |
backend/docs/TITLE_GENERATION_IMPLEMENTATION.md
+3 -3
View File
@@ -30,7 +30,7 @@
### 2. 配置文件
#### [`config.yaml`](../../config.example.yaml)
#### [`config.yaml`](../config.yaml)
- ✅ 添加 title 配置段:
```yaml
title:
@@ -51,7 +51,7 @@ title:
- ✅ 故障排查指南
- ✅ State vs Metadata 对比
#### [`TODO.md`](TODO.md)
#### [`BACKEND_TODO.md`](../BACKEND_TODO.md)
- ✅ 添加功能完成记录
### 4. 测试
@@ -124,7 +124,7 @@ title:
# checkpointer.py
from langgraph.checkpoint.sqlite import SqliteSaver
checkpointer = SqliteSaver.from_conn_string("deerflow.db")
checkpointer = SqliteSaver.from_conn_string("checkpoints.db")
```
```json
backend/docs/TODO.md
+3 -3
View File
@@ -11,7 +11,6 @@
- [x] Add Plan Mode with TodoList middleware
- [x] Add vision model support with ViewImageMiddleware
- [x] Skills system with SKILL.md format
- [x] Replace `time.sleep(5)` with `asyncio.sleep()` in `packages/harness/deerflow/tools/builtins/task_tool.py` (subagent polling)
## Planned Features
@@ -22,9 +21,10 @@
- [ ] Support for more document formats in upload
- [ ] Skill marketplace / remote skill installation
- [ ] Optimize async concurrency in agent hot path (IM channels multi-task scenario)
- [ ] Replace `subprocess.run()` with `asyncio.create_subprocess_shell()` in `packages/harness/deerflow/sandbox/local/local_sandbox.py`
- Replace `time.sleep(5)` with `asyncio.sleep()` in `packages/harness/deerflow/tools/builtins/task_tool.py` (subagent polling)
- Replace `subprocess.run()` with `asyncio.create_subprocess_shell()` in `packages/harness/deerflow/sandbox/local/local_sandbox.py`
- Replace sync `requests` with `httpx.AsyncClient` in community tools (tavily, jina_ai, firecrawl, infoquest, image_search)
- [x] Replace sync `model.invoke()` with async `model.ainvoke()` in title_middleware and memory updater
- Replace sync `model.invoke()` with async `model.ainvoke()` in title_middleware and memory updater
- Consider `asyncio.to_thread()` wrapper for remaining blocking file I/O
- For production: use `langgraph up` (multi-worker) instead of `langgraph dev` (single-worker)
backend/docs/rfc-grep-glob-tools.md
-446
View File
@@ -1,446 +0,0 @@
# [RFC] 在 DeerFlow 中增加 `grep``glob` 文件搜索工具
## Summary
我认为这个方向是对的,而且值得做。
如果 DeerFlow 想更接近 Claude Code 这类 coding agent 的实际工作流,仅有 `ls` / `read_file` / `write_file` / `str_replace` 还不够。模型在进入修改前,通常还需要两类能力:
- `glob`: 快速按路径模式找文件
- `grep`: 快速按内容模式找候选位置
这两类工具的价值,不是“功能上 bash 也能做”,而是它们能以更低 token 成本、更强约束、更稳定的输出格式,替代模型频繁走 `bash find` / `bash grep` / `rg` 的习惯。
但前提是实现方式要对:**它们应该是只读、结构化、受限、可审计的原生工具,而不是对 shell 命令的简单包装。**
## Problem
当前 DeerFlow 的文件工具层主要覆盖:
- `ls`: 浏览目录结构
- `read_file`: 读取文件内容
- `write_file`: 写文件
- `str_replace`: 做局部字符串替换
- `bash`: 兜底执行命令
这套能力能完成任务,但在代码库探索阶段效率不高。
典型问题:
1. 模型想找 “所有 `*.tsx` 的 page 文件” 时,只能反复 `ls` 多层目录,或者退回 `bash find`
2. 模型想找 “某个 symbol / 文案 / 配置键在哪里出现” 时,只能逐文件 `read_file`,或者退回 `bash grep` / `rg`
3. 一旦退回 `bash`,工具调用就失去结构化输出,结果也更难做裁剪、分页、审计和跨 sandbox 一致化
4. 对没有开启 host bash 的本地模式,`bash` 甚至可能不可用,此时缺少足够强的只读检索能力
结论:DeerFlow 现在缺的不是“再多一个 shell 命令”,而是**文件系统检索层**。
## Goals
- 为 agent 提供稳定的路径搜索和内容搜索能力
- 减少对 `bash` 的依赖,特别是在仓库探索阶段
- 保持与现有 sandbox 安全模型一致
- 输出格式结构化,便于模型后续串联 `read_file` / `str_replace`
- 让本地 sandbox、容器 sandbox、未来 MCP 文件系统工具都能遵守同一语义
## Non-Goals
- 不做通用 shell 兼容层
- 不暴露完整 grep/find/rg CLI 语法
- 不在第一版支持二进制检索、复杂 PCRE 特性、上下文窗口高亮渲染等重功能
- 不把它做成“任意磁盘搜索”,仍然只允许在 DeerFlow 已授权的路径内执行
## Why This Is Worth Doing
参考 Claude Code 这一类 agent 的设计思路,`glob``grep` 的核心价值不是新能力本身,而是把“探索代码库”的常见动作从开放式 shell 降到受控工具层。
这样有几个直接收益:
1. **更低的模型负担**
模型不需要自己拼 `find`, `grep`, `rg`, `xargs`, quoting 等命令细节。
2. **更稳定的跨环境行为**
本地、Docker、AIO sandbox 不必依赖容器里是否装了 `rg`,也不会因为 shell 差异导致行为漂移。
3. **更强的安全与审计**
调用参数就是“搜索什么、在哪搜、最多返回多少”,天然比任意命令更容易审计和限流。
4. **更好的 token 效率**
`grep` 返回的是命中摘要而不是整段文件,模型只对少数候选路径再调用 `read_file`
5. **对 `tool_search` 友好**
当 DeerFlow 持续扩展工具集时,`grep` / `glob` 会成为非常高频的基础工具,值得保留为 built-in,而不是让模型总是退回通用 bash。
## Proposal
增加两个 built-in sandbox tools
- `glob`
- `grep`
推荐继续放在:
- `backend/packages/harness/deerflow/sandbox/tools.py`
并在 `config.example.yaml` 中默认加入 `file:read` 组。
### 1. `glob` 工具
用途:按路径模式查找文件或目录。
建议 schema
```python
@tool("glob", parse_docstring=True)
def glob_tool(
runtime: ToolRuntime[ContextT, ThreadState],
description: str,
pattern: str,
path: str,
include_dirs: bool = False,
max_results: int = 200,
) -> str:
...
```
参数语义:
- `description`: 与现有工具保持一致
- `pattern`: glob 模式,例如 `**/*.py``src/**/test_*.ts`
- `path`: 搜索根目录,必须是绝对路径
- `include_dirs`: 是否返回目录
- `max_results`: 最大返回条数,防止一次性打爆上下文
建议返回格式:
```text
Found 3 paths under /mnt/user-data/workspace
1. /mnt/user-data/workspace/backend/app.py
2. /mnt/user-data/workspace/backend/tests/test_app.py
3. /mnt/user-data/workspace/scripts/build.py
```
如果后续想更适合前端消费,也可以改成 JSON 字符串;但第一版为了兼容现有工具风格,返回可读文本即可。
### 2. `grep` 工具
用途:按内容模式搜索文件,返回命中位置摘要。
建议 schema
```python
@tool("grep", parse_docstring=True)
def grep_tool(
runtime: ToolRuntime[ContextT, ThreadState],
description: str,
pattern: str,
path: str,
glob: str | None = None,
literal: bool = False,
case_sensitive: bool = False,
max_results: int = 100,
) -> str:
...
```
参数语义:
- `pattern`: 搜索词或正则
- `path`: 搜索根目录,必须是绝对路径
- `glob`: 可选路径过滤,例如 `**/*.py`
- `literal`: 为 `True` 时按普通字符串匹配,不解释为正则
- `case_sensitive`: 是否大小写敏感
- `max_results`: 最大返回命中数,不是文件数
建议返回格式:
```text
Found 4 matches under /mnt/user-data/workspace
/mnt/user-data/workspace/backend/config.py:12: TOOL_GROUPS = [...]
/mnt/user-data/workspace/backend/config.py:48: def load_tool_config(...):
/mnt/user-data/workspace/backend/tools.py:91: "tool_groups"
/mnt/user-data/workspace/backend/tests/test_config.py:22: assert "tool_groups" in data
```
第一版建议只返回:
- 文件路径
- 行号
- 命中行摘要
不返回上下文块,避免结果过大。模型如果需要上下文,再调用 `read_file(path, start_line, end_line)`
## Design Principles
### A. 不做 shell wrapper
不建议把 `grep` 实现为:
```python
subprocess.run("grep ...")
```
也不建议在容器里直接拼 `find` / `rg` 命令。
原因:
- 会引入 shell quoting 和注入面
- 会依赖不同 sandbox 内镜像是否安装同一套命令
- Windows / macOS / Linux 行为不一致
- 很难稳定控制输出条数与格式
正确方向是:
- `glob` 使用 Python 标准库路径遍历
- `grep` 使用 Python 逐文件扫描
- 输出由 DeerFlow 自己格式化
如果未来为了性能考虑要优先调用 `rg`,也应该封装在 provider 内部,并保证外部语义不变,而不是把 CLI 暴露给模型。
### B. 继续沿用 DeerFlow 的路径权限模型
这两个工具必须复用当前 `ls` / `read_file` 的路径校验逻辑:
- 本地模式走 `validate_local_tool_path(..., read_only=True)`
- 支持 `/mnt/skills/...`
- 支持 `/mnt/acp-workspace/...`
- 支持 thread workspace / uploads / outputs 的虚拟路径解析
- 明确拒绝越权路径与 path traversal
也就是说,它们属于 **file:read**,不是 `bash` 的替代越权入口。
### C. 结果必须硬限制
没有硬限制的 `glob` / `grep` 很容易炸上下文。
建议第一版至少限制:
- `glob.max_results` 默认 200,最大 1000
- `grep.max_results` 默认 100,最大 500
- 单行摘要最大长度,例如 200 字符
- 二进制文件跳过
- 超大文件跳过,例如单文件大于 1 MB 或按配置控制
此外,命中数超过阈值时应返回:
- 已展示的条数
- 被截断的事实
- 建议用户缩小搜索范围
例如:
```text
Found more than 100 matches, showing first 100. Narrow the path or add a glob filter.
```
### D. 工具语义要彼此互补
推荐模型工作流应该是:
1. `glob` 找候选文件
2. `grep` 找候选位置
3. `read_file` 读局部上下文
4. `str_replace` / `write_file` 执行修改
这样工具边界清晰,也更利于 prompt 中教模型形成稳定习惯。
## Implementation Approach
## Option A: 直接在 `sandbox/tools.py` 实现第一版
这是我推荐的起步方案。
做法:
- 在 `sandbox/tools.py` 新增 `glob_tool``grep_tool`
- 在 local sandbox 场景直接使用 Python 文件系统 API
- 在非 local sandbox 场景,优先也通过 DeerFlow 自己控制的路径访问层实现
优点:
- 改动小
- 能尽快验证 agent 效果
- 不需要先改 `Sandbox` 抽象
缺点:
- `tools.py` 会继续变胖
- 如果未来想在 provider 侧做性能优化,需要再抽象一次
## Option B: 先扩展 `Sandbox` 抽象
例如新增:
```python
class Sandbox(ABC):
def glob(self, path: str, pattern: str, include_dirs: bool = False, max_results: int = 200) -> list[str]:
...
def grep(
self,
path: str,
pattern: str,
*,
glob: str | None = None,
literal: bool = False,
case_sensitive: bool = False,
max_results: int = 100,
) -> list[GrepMatch]:
...
```
优点:
- 抽象更干净
- 容器 / 远程 sandbox 可以各自优化
缺点:
- 首次引入成本更高
- 需要同步改所有 sandbox provider
结论:
**第一版建议走 Option A,等工具价值验证后再下沉到 `Sandbox` 抽象层。**
## Detailed Behavior
### `glob` 行为
- 输入根目录不存在:返回清晰错误
- 根路径不是目录:返回清晰错误
- 模式非法:返回清晰错误
- 结果为空:返回 `No files matched`
- 默认忽略项应尽量与当前 `list_dir` 对齐,例如:
- `.git`
- `node_modules`
- `__pycache__`
- `.venv`
- 构建产物目录
这里建议抽一个共享 ignore 集,避免 `ls``glob` 结果风格不一致。
### `grep` 行为
- 默认只扫描文本文件
- 检测到二进制文件直接跳过
- 对超大文件直接跳过或只扫前 N KB
- regex 编译失败时返回参数错误
- 输出中的路径继续使用虚拟路径,而不是暴露宿主真实路径
- 建议默认按文件路径、行号排序,保持稳定输出
## Prompting Guidance
如果引入这两个工具,建议同步更新系统提示中的文件操作建议:
- 查找文件名模式时优先用 `glob`
- 查找代码符号、配置项、文案时优先用 `grep`
- 只有在工具不足以完成目标时才退回 `bash`
否则模型仍会习惯性先调用 `bash`
## Risks
### 1. 与 `bash` 能力重叠
这是事实,但不是问题。
`ls``read_file` 也都能被 `bash` 替代,但我们仍然保留它们,因为结构化工具更适合 agent。
### 2. 性能问题
在大仓库上,纯 Python `grep` 可能比 `rg` 慢。
缓解方式:
- 第一版先加结果上限和文件大小上限
- 路径上强制要求 root path
- 提供 `glob` 过滤缩小扫描范围
- 后续如有必要,在 provider 内部做 `rg` 优化,但保持同一 schema
### 3. 忽略规则不一致
如果 `ls` 能看到的路径,`glob` 却看不到,模型会困惑。
缓解方式:
- 统一 ignore 规则
- 在文档里明确“默认跳过常见依赖和构建目录”
### 4. 正则搜索过于复杂
如果第一版就支持大量 grep 方言,边界会很乱。
缓解方式:
- 第一版只支持 Python `re`
- 并提供 `literal=True` 的简单模式
## Alternatives Considered
### A. 不增加工具,完全依赖 `bash`
不推荐。
这会让 DeerFlow 在代码探索体验上持续落后,也削弱无 bash 或受限 bash 场景下的能力。
### B. 只加 `glob`,不加 `grep`
不推荐。
只解决“找文件”,没有解决“找位置”。模型最终还是会退回 `bash grep`
### C. 只加 `grep`,不加 `glob`
也不推荐。
`grep` 缺少路径模式过滤时,扫描范围经常太大;`glob` 是它的天然前置工具。
### D. 直接接入 MCP filesystem server 的搜索能力
短期不推荐作为主路径。
MCP 可以是补充,但 `glob` / `grep` 作为 DeerFlow 的基础 coding tool,最好仍然是 built-in,这样才能在默认安装中稳定可用。
## Acceptance Criteria
- `config.example.yaml` 中可默认启用 `glob``grep`
- 两个工具归属 `file:read`
- 本地 sandbox 下严格遵守现有路径权限
- 输出不泄露宿主机真实路径
- 大结果集会被截断并明确提示
- 模型可以通过 `glob -> grep -> read_file -> str_replace` 完成典型改码流
- 在禁用 host bash 的本地模式下,仓库探索能力明显提升
## Rollout Plan
1. 在 `sandbox/tools.py` 中实现 `glob_tool``grep_tool`
2. 抽取与 `list_dir` 一致的 ignore 规则,避免行为漂移
3. 在 `config.example.yaml` 默认加入工具配置
4. 为本地路径校验、虚拟路径映射、结果截断、二进制跳过补测试
5. 更新 README / backend docs / prompt guidance
6. 收集实际 agent 调用数据,再决定是否下沉到 `Sandbox` 抽象
## Suggested Config
```yaml
tools:
- name: glob
group: file:read
use: deerflow.sandbox.tools:glob_tool
- name: grep
group: file:read
use: deerflow.sandbox.tools:grep_tool
```
## Final Recommendation
结论是:**可以加,而且应该加。**
但我会明确卡三个边界:
1. `grep` / `glob` 必须是 built-in 的只读结构化工具
2. 第一版不要做 shell wrapper,不要把 CLI 方言直接暴露给模型
3. 先在 `sandbox/tools.py` 验证价值,再考虑是否下沉到 `Sandbox` provider 抽象
如果按这个方向做,它会明显提升 DeerFlow 在 coding / repo exploration 场景下的可用性,而且风险可控。
backend/docs/summarization.md
-28
View File
@@ -41,13 +41,6 @@ summarization:
# Custom summary prompt (optional)
summary_prompt: null
# Tool names treated as skill file reads for skill rescue
skill_file_read_tool_names:
- read_file
- read
- view
- cat
```
### Configuration Options
@@ -132,26 +125,6 @@ keep:
- **Default**: `null` (uses LangChain's default prompt)
- **Description**: Custom prompt template for generating summaries. The prompt should guide the model to extract the most important context.
#### `preserve_recent_skill_count`
- **Type**: Integer (≥ 0)
- **Default**: `5`
- **Description**: Number of most-recently-loaded skill files (tool results whose tool name is in `skill_file_read_tool_names` and whose target path is under `skills.container_path`, e.g. `/mnt/skills/...`) that are rescued from summarization. Prevents the agent from losing skill instructions after compression. Set to `0` to disable skill rescue entirely.
#### `preserve_recent_skill_tokens`
- **Type**: Integer (≥ 0)
- **Default**: `25000`
- **Description**: Total token budget reserved for rescued skill reads. Once this budget is exhausted, older skill bundles are allowed to be summarized.
#### `preserve_recent_skill_tokens_per_skill`
- **Type**: Integer (≥ 0)
- **Default**: `5000`
- **Description**: Per-skill token cap. Any individual skill read whose tool result exceeds this size is not rescued (it falls through to the summarizer like ordinary content).
#### `skill_file_read_tool_names`
- **Type**: List of strings
- **Default**: `["read_file", "read", "view", "cat"]`
- **Description**: Tool names treated as skill file reads during summarization rescue. A tool call is only eligible for skill rescue when its name appears in this list and its target path is under `skills.container_path`.
**Default Prompt Behavior:**
The default LangChain prompt instructs the model to:
- Extract highest quality/most relevant context
@@ -174,7 +147,6 @@ The default LangChain prompt instructs the model to:
- A single summary message is added
- Recent messages are preserved
6. **AI/Tool Pair Protection**: The system ensures AI messages and their corresponding tool messages stay together
7. **Skill Rescue**: Before the summary is generated, the most recently loaded skill files (tool results whose tool name is in `skill_file_read_tool_names` and whose target path is under `skills.container_path`) are lifted out of the summarization set and prepended to the preserved tail. Selection walks newest-first under three budgets: `preserve_recent_skill_count`, `preserve_recent_skill_tokens`, and `preserve_recent_skill_tokens_per_skill`. The triggering AIMessage and all of its paired ToolMessages move together so tool_call ↔ tool_result pairing stays intact.
### Token Counting
backend/langgraph.json
+1 -4
View File
@@ -8,10 +8,7 @@
"graphs": {
"lead_agent": "deerflow.agents:make_lead_agent"
},
"auth": {
"path": "./app/gateway/langgraph_auth.py:auth"
},
"checkpointer": {
"path": "./packages/harness/deerflow/runtime/checkpointer/async_provider.py:make_checkpointer"
"path": "./packages/harness/deerflow/agents/checkpointer/async_provider.py:make_checkpointer"
}
}
backend/packages/harness/deerflow/agents/__init__.py
+4 -6
View File
@@ -1,14 +1,9 @@
from .checkpointer import get_checkpointer, make_checkpointer, reset_checkpointer
from .factory import create_deerflow_agent
from .features import Next, Prev, RuntimeFeatures
from .lead_agent import make_lead_agent
from .lead_agent.prompt import prime_enabled_skills_cache
from .thread_state import SandboxState, ThreadState
# LangGraph imports deerflow.agents when registering the graph. Prime the
# enabled-skills cache here so the request path can usually read a warm cache
# without forcing synchronous filesystem work during prompt module import.
prime_enabled_skills_cache()
__all__ = [
"create_deerflow_agent",
"RuntimeFeatures",
@@ -17,4 +12,7 @@ __all__ = [
"make_lead_agent",
"SandboxState",
"ThreadState",
"get_checkpointer",
"reset_checkpointer",
"make_checkpointer",
]
backend/packages/harness/deerflow/runtime/checkpointer/__init__.py → backend/packages/harness/deerflow/agents/checkpointer/__init__.py
View File
backend/packages/harness/deerflow/runtime/checkpointer/async_provider.py → backend/packages/harness/deerflow/agents/checkpointer/async_provider.py
+20 -75
View File
@@ -7,29 +7,28 @@ Supported backends: memory, sqlite, postgres.
Usage (e.g. FastAPI lifespan)::
from deerflow.runtime.checkpointer.async_provider import make_checkpointer
from deerflow.agents.checkpointer.async_provider import make_checkpointer
async with make_checkpointer() as checkpointer:
app.state.checkpointer = checkpointer # InMemorySaver if not configured
For sync usage see :mod:`deerflow.runtime.checkpointer.provider`.
For sync usage see :mod:`deerflow.agents.checkpointer.provider`.
"""
from __future__ import annotations
import asyncio
import contextlib
import logging
from collections.abc import AsyncIterator
from langgraph.types import Checkpointer
from deerflow.config.app_config import AppConfig, get_app_config
from deerflow.runtime.checkpointer.provider import (
from deerflow.agents.checkpointer.provider import (
POSTGRES_CONN_REQUIRED,
POSTGRES_INSTALL,
SQLITE_INSTALL,
)
from deerflow.config.app_config import get_app_config
from deerflow.runtime.store._sqlite_utils import ensure_sqlite_parent_dir, resolve_sqlite_conn_str
logger = logging.getLogger(__name__)
@@ -55,7 +54,7 @@ async def _async_checkpointer(config) -> AsyncIterator[Checkpointer]:
raise ImportError(SQLITE_INSTALL) from exc
conn_str = resolve_sqlite_conn_str(config.connection_string or "store.db")
await asyncio.to_thread(ensure_sqlite_parent_dir, conn_str)
ensure_sqlite_parent_dir(conn_str)
async with AsyncSqliteSaver.from_conn_string(conn_str) as saver:
await saver.setup()
yield saver
@@ -84,77 +83,23 @@ async def _async_checkpointer(config) -> AsyncIterator[Checkpointer]:
@contextlib.asynccontextmanager
async def _async_checkpointer_from_database(db_config) -> AsyncIterator[Checkpointer]:
"""Async context manager that constructs a checkpointer from unified DatabaseConfig."""
if db_config.backend == "memory":
async def make_checkpointer() -> AsyncIterator[Checkpointer]:
"""Async context manager that yields a checkpointer for the caller's lifetime.
Resources are opened on enter and closed on exit no global state::
async with make_checkpointer() as checkpointer:
app.state.checkpointer = checkpointer
Yields an ``InMemorySaver`` when no checkpointer is configured in *config.yaml*.
"""
config = get_app_config()
if config.checkpointer is None:
from langgraph.checkpoint.memory import InMemorySaver
yield InMemorySaver()
return
if db_config.backend == "sqlite":
try:
from langgraph.checkpoint.sqlite.aio import AsyncSqliteSaver
except ImportError as exc:
raise ImportError(SQLITE_INSTALL) from exc
conn_str = db_config.checkpointer_sqlite_path
ensure_sqlite_parent_dir(conn_str)
async with AsyncSqliteSaver.from_conn_string(conn_str) as saver:
await saver.setup()
yield saver
return
if db_config.backend == "postgres":
try:
from langgraph.checkpoint.postgres.aio import AsyncPostgresSaver
except ImportError as exc:
raise ImportError(POSTGRES_INSTALL) from exc
if not db_config.postgres_url:
raise ValueError("database.postgres_url is required for the postgres backend")
async with AsyncPostgresSaver.from_conn_string(db_config.postgres_url) as saver:
await saver.setup()
yield saver
return
raise ValueError(f"Unknown database backend: {db_config.backend!r}")
@contextlib.asynccontextmanager
async def make_checkpointer(app_config: AppConfig | None = None) -> AsyncIterator[Checkpointer]:
"""Async context manager that yields a checkpointer for the caller's lifetime.
Resources are opened on enter and closed on exit -- no global state::
async with make_checkpointer(app_config) as checkpointer:
app.state.checkpointer = checkpointer
Yields an ``InMemorySaver`` when no checkpointer is configured in *config.yaml*.
Priority:
1. Legacy ``checkpointer:`` config section (backward compatible)
2. Unified ``database:`` config section
3. Default InMemorySaver
"""
if app_config is None:
app_config = get_app_config()
# Legacy: standalone checkpointer config takes precedence
if app_config.checkpointer is not None:
async with _async_checkpointer(app_config.checkpointer) as saver:
yield saver
return
# Unified database config
db_config = getattr(app_config, "database", None)
if db_config is not None and db_config.backend != "memory":
async with _async_checkpointer_from_database(db_config) as saver:
yield saver
return
# Default: in-memory
from langgraph.checkpoint.memory import InMemorySaver
yield InMemorySaver()
async with _async_checkpointer(config.checkpointer) as saver:
yield saver

Some files were not shown because too many files have changed in this diff Show More