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Branches Tags
furyhawk/deer-flow:main furyhawk/deer-flow:copilot/fix-lint-frontend-job furyhawk/deer-flow:codex/refactor-run-runtime-ddd-boundaries furyhawk/deer-flow:fix-2788 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/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-rc3 furyhawk/deer-flow:v2.0-m1-rc2 furyhawk/deer-flow:v2.0-m1-rc1 furyhawk/deer-flow:v2.0-m1-rc0 furyhawk/deer-flow:v2.0-m0
..
compare: furyhawk/deer-flow:rayhpeng/storage-package-base
Branches Tags
furyhawk/deer-flow:main furyhawk/deer-flow:copilot/fix-lint-frontend-job furyhawk/deer-flow:codex/refactor-run-runtime-ddd-boundaries furyhawk/deer-flow:fix-2788 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/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-rc3 furyhawk/deer-flow:v2.0-m1-rc2 furyhawk/deer-flow:v2.0-m1-rc1 furyhawk/deer-flow:v2.0-m1-rc0 furyhawk/deer-flow:v2.0-m0

10 Commits
copilot/fix-lint-frontend-job .. rayhpeng/storage-package-base

Author SHA1 Message Date
rayhpeng d7a2fff7e0 fix(task): tolerate invalid default config in usage cache 2026-05-15 16:52:11 +08:00
rayhpeng eabd78ce4e Merge branch 'main' of https://github.com/bytedance/deer-flow into rayhpeng/storage-package-base 2026-05-15 16:41:34 +08:00
rayhpeng 533d3fbfee docs(storage): add storage package design 2026-05-14 11:27:55 +08:00
rayhpeng d6b3a277a5 test(storage): update postgres extra expectation 2026-05-13 14:18:35 +08:00
rayhpeng def2a3ad79 fix(storage): address user repository test comment 2026-05-13 13:03:06 +08:00
rayhpeng 3c0b42d836 fix(storage): address code quality comments 2026-05-13 12:58:17 +08:00
rayhpeng 34ec205e1d style(storage): format storage package 2026-05-13 12:52:34 +08:00
rayhpeng 11a9041b65 fix(storage): address repository review feedback 2026-05-13 12:51:45 +08:00
rayhpeng d3066a1746 fix(storage): harden sql persistence compatibility 2026-05-13 11:26:25 +08:00
rayhpeng 485f8a2bf2 feat(storage): add storage package base 2026-05-12 19:08:37 +08:00
381 changed files with 8250 additions and 32527 deletions
Expand all files Collapse all files
.agent/skills/smoke-test/SKILL.md
+5 -5
View File
@@ -59,7 +59,7 @@ smoke-test/
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, and 8001 are not occupied
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`
@@ -93,17 +93,17 @@ smoke-test/
### Phase 5: Service Health Check
**Local mode health check**:
1. **Check process status** - Confirm that Gateway, Frontend, and Nginx processes are all running
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-compatible API** - Verify the `/api/langgraph/*` route exposed by Gateway
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-compatible API** - Verify the `/api/langgraph/*` route exposed by Gateway
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
@@ -135,7 +135,7 @@ smoke-test/
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 Gateway logs about missing methods in the custom checkpointer, such as `adelete_for_runs` or `aprune`, do not affect the core functionality
- 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
.agent/skills/smoke-test/references/SOP.md
+10 -8
View File
@@ -138,6 +138,7 @@ This document describes the detailed operating steps for each phase of the DeerF
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.
@@ -257,7 +258,7 @@ This document describes the detailed operating steps for each phase of the DeerF
**Steps**:
1. Run `make dev-daemon` (background mode)
**Description**: This command starts all services (Gateway embedded runtime, Frontend, Nginx).
**Description**: This command starts all services (LangGraph, Gateway, Frontend, Nginx).
**Notes**:
- `make dev` runs in the foreground and stops with Ctrl+C
@@ -271,6 +272,7 @@ This document describes the detailed operating steps for each phase of the DeerF
**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`
@@ -314,10 +316,11 @@ This document describes the detailed operating steps for each phase of the DeerF
**Steps**:
1. Run the following command to check processes:
```bash
ps aux | grep -E "(uvicorn|next|nginx)" | grep -v grep
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`)
@@ -353,11 +356,10 @@ curl http://localhost:2026/health
---
#### 5.1.4 Check LangGraph-compatible API
#### 5.1.4 Check LangGraph Service
**Steps**:
1. Visit `http://localhost:2026/api/langgraph/assistants/lead_agent` to verify Gateway's LangGraph-compatible API route is reachable.
2. A `401` response is acceptable when authentication is enabled and no session cookie is provided.
1. Visit relevant LangGraph endpoints to verify availability
---
@@ -371,6 +373,7 @@ curl http://localhost:2026/health
- `deer-flow-nginx`
- `deer-flow-frontend`
- `deer-flow-gateway`
- `deer-flow-langgraph` (if not in gateway mode)
---
@@ -403,11 +406,10 @@ curl http://localhost:2026/health
---
#### 5.2.4 Check LangGraph-compatible API
#### 5.2.4 Check LangGraph Service
**Steps**:
1. Visit `http://localhost:2026/api/langgraph/assistants/lead_agent` to verify Gateway's LangGraph-compatible API route is reachable.
2. A `401` response is acceptable when authentication is enabled and no session cookie is provided.
1. Visit relevant LangGraph endpoints to verify availability
---
.agent/skills/smoke-test/references/troubleshooting.md
+23 -4
View File
@@ -254,6 +254,7 @@ 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
@@ -366,7 +367,24 @@ Errors appear in `gateway.log`.
uv sync
```
4. Confirm that the Gateway process is running normally.
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
---
@@ -501,7 +519,7 @@ Accessing `/health` returns an error or times out.
2. Confirm that config.yaml exists and has valid formatting
3. Check whether Python dependencies are complete
4. Confirm that the Gateway process is running normally.
4. Confirm that the LangGraph service is running normally
**Solutions** (Docker mode):
1. Check gateway container logs:
@@ -511,7 +529,7 @@ Accessing `/health` returns an error or times out.
2. Confirm that config.yaml is mounted correctly
3. Check whether Python dependencies are complete
4. Confirm that the Gateway process is running normally.
4. Confirm that the LangGraph service is running normally
---
@@ -521,7 +539,7 @@ Accessing `/health` returns an error or times out.
#### View All Service Processes
```bash
ps aux | grep -E "(uvicorn|next|nginx)" | grep -v grep
ps aux | grep -E "(langgraph|uvicorn|next|nginx)" | grep -v grep
```
#### View Service Logs
@@ -530,6 +548,7 @@ ps aux | grep -E "(uvicorn|next|nginx)" | grep -v grep
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
.agent/skills/smoke-test/scripts/check_local_env.sh
+1 -1
View File
@@ -65,7 +65,7 @@ if ! command -v lsof >/dev/null 2>&1; then
echo " Install lsof and rerun this check"
all_passed=false
else
for port in 2026 3000 8001; do
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
.agent/skills/smoke-test/scripts/deploy_local.sh
+1
View File
@@ -54,6 +54,7 @@ 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"
.agent/skills/smoke-test/scripts/health_check.sh
+4 -3
View File
@@ -76,11 +76,12 @@ if [ "$mode" = "docker" ]; then
all_passed=false
fi
else
summary_hint="logs/{gateway,frontend,nginx}.log"
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 ""
@@ -103,8 +104,8 @@ else
fi
echo ""
echo "5. Checking LangGraph-compatible Gateway API..."
check_http_status "LangGraph-compatible Gateway API" "http://localhost:2026/api/langgraph/assistants/lead_agent" "200|401"
echo "5. Checking LangGraph service..."
check_http_status "LangGraph service" "http://localhost:2024/" "200|301|302|307|308|404"
echo ""
echo "=========================================="
.agent/skills/smoke-test/templates/report.docker.template.md
+2 -1
View File
@@ -78,7 +78,7 @@
- [x] Container status - {{status_containers}}
- [x] Frontend service - {{status_frontend}}
- [x] API Gateway - {{status_api_gateway}}
- [x] LangGraph-compatible Gateway API - {{status_langgraph}}
- [x] LangGraph service - {{status_langgraph}}
**Phase Status**: {{stage5_status}}
@@ -147,6 +147,7 @@ Commit Message: {{git_commit_message}}
| 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}} |
---
.agent/skills/smoke-test/templates/report.local.template.md
+3 -3
View File
@@ -80,7 +80,7 @@
- [x] Process status - {{status_processes}}
- [x] Frontend service - {{status_frontend}}
- [x] API Gateway - {{status_api_gateway}}
- [x] LangGraph-compatible Gateway API - {{status_langgraph}}
- [x] LangGraph service - {{status_langgraph}}
**Phase Status**: {{stage5_status}}
@@ -152,7 +152,7 @@ Commit Message: {{git_commit_message}}
| Nginx | {{nginx_status}} | {{nginx_endpoint}} |
| Frontend | {{frontend_status}} | {{frontend_endpoint}} |
| Gateway | {{gateway_status}} | {{gateway_endpoint}} |
| Gateway LangGraph API | {{langgraph_status}} | {{langgraph_endpoint}} |
| LangGraph | {{langgraph_status}} | {{langgraph_endpoint}} |
---
@@ -166,7 +166,7 @@ Commit Message: {{git_commit_message}}
### If the Test Fails
1. [ ] Review references/troubleshooting.md for common solutions
2. [ ] Check local logs: `logs/{gateway,frontend,nginx}.log`
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`
.env.example
-5
View File
@@ -50,11 +50,6 @@ INFOQUEST_API_KEY=your-infoquest-api-key
# Set to "false" to disable Swagger UI, ReDoc, and OpenAPI schema in production
# GATEWAY_ENABLE_DOCS=false
# Shared internal Gateway auth token for multi-worker deployments.
# `make up` generates and persists this automatically; set it manually only
# when you run Gateway workers outside the bundled deploy script.
# DEER_FLOW_INTERNAL_AUTH_TOKEN=your-shared-internal-token
# ── Frontend SSR → Gateway wiring ─────────────────────────────────────────────
# The Next.js server uses these to reach the Gateway during SSR (auth checks,
# /api/* rewrites). They default to localhost values that match `make dev` and
.github/ISSUE_TEMPLATE/bug-report.yml
-159
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@@ -1,159 +0,0 @@
name: 🐛 Bug report
description: Report something that isn't working so maintainers can reproduce and fix it.
title: "[bug] "
labels: ["bug"]
body:
- type: markdown
attributes:
value: |
Thanks for taking the time to file a bug. A clear, reproducible report is the
single biggest factor in how fast it gets fixed.
Please fill in every required field — especially **reproduction steps** and **logs**.
- type: checkboxes
id: preflight
attributes:
label: Before you start
options:
- label: I searched [existing issues](https://github.com/bytedance/deer-flow/issues?q=is%3Aissue) and this is not a duplicate.
required: true
- label: I can reproduce this on the latest `main`.
required: false
- type: input
id: summary
attributes:
label: Problem summary
description: One sentence describing the bug.
placeholder: e.g. make dev fails to start the gateway service
validations:
required: true
- type: dropdown
id: areas
attributes:
label: Affected area(s)
description: Which part of DeerFlow does this touch? Select all that apply.
multiple: true
options:
- Frontend (UI / Next.js)
- Backend API (gateway / endpoints / SSE)
- Agents / LangGraph (graph, prompts, langgraph.json)
- Sandbox / Docker
- Skills
- MCP
- Config / setup (make, config.yaml, env)
- Docs
- Not sure
validations:
required: true
- type: textarea
id: actual
attributes:
label: What happened?
description: The actual behavior. Include the key error lines verbatim.
placeholder: When I do X, I expected Y but I got Z.
validations:
required: true
- type: textarea
id: expected
attributes:
label: Expected behavior
placeholder: What did you expect to happen instead?
validations:
required: true
- type: textarea
id: reproduce
attributes:
label: Steps to reproduce
description: Exact commands and sequence. Minimal steps that reliably reproduce the problem.
placeholder: |
1. make check
2. make install
3. make dev
4. ...
validations:
required: true
- type: textarea
id: logs
attributes:
label: Relevant logs
description: Paste key lines from logs (for example `logs/gateway.log`, `logs/frontend.log`). Redact secrets.
render: shell
validations:
required: true
- type: dropdown
id: run_mode
attributes:
label: How are you running DeerFlow?
options:
- Local (make dev)
- Docker (make docker-start)
- CI
- Other
validations:
required: true
- type: dropdown
id: os
attributes:
label: Operating system
options:
- macOS
- Linux
- Windows
- Other
validations:
required: true
- type: input
id: platform_details
attributes:
label: Platform details
description: Architecture and shell, if relevant.
placeholder: e.g. arm64, zsh
- type: input
id: python_version
attributes:
label: Python version
placeholder: e.g. Python 3.12.9
- type: input
id: node_version
attributes:
label: Node.js version
placeholder: e.g. v22.11.0
- type: input
id: pnpm_version
attributes:
label: pnpm version
placeholder: e.g. 10.26.2
- type: input
id: uv_version
attributes:
label: uv version
placeholder: e.g. 0.7.20
- type: textarea
id: git_info
attributes:
label: Git state
description: Output of `git branch --show-current` and the latest commit SHA.
placeholder: |
branch: feature/my-branch
commit: abcdef1
- type: textarea
id: additional
attributes:
label: Additional context
description: Screenshots, related issues, config snippets (redacted), or anything else that helps triage.
.github/ISSUE_TEMPLATE/config.yml
-11
View File
@@ -1,11 +0,0 @@
blank_issues_enabled: false
contact_links:
- name: 💬 Questions & usage help
url: https://github.com/bytedance/deer-flow/discussions/categories/q-a
about: "How do I use X? Why does Y behave like that? Ask in Discussions — it gets answered faster and stays searchable."
- name: 💡 Ideas & proposals
url: https://github.com/bytedance/deer-flow/discussions/categories/ideas
about: Have a half-formed idea? Float it in Discussions before opening a formal feature request.
- name: 🔒 Report a security vulnerability
url: https://github.com/bytedance/deer-flow/security/policy
about: Do not open a public issue for security problems. Follow the security policy instead.
.github/ISSUE_TEMPLATE/feature-request.yml
-67
View File
@@ -1,67 +0,0 @@
name: 💡 Feature request
description: Propose a new capability or an improvement to an existing one.
title: "[feat] "
labels: ["enhancement"]
body:
- type: markdown
attributes:
value: |
Thanks for the suggestion. For non-trivial features, please open a
[Discussion](https://github.com/bytedance/deer-flow/discussions/categories/ideas)
first to align on scope before writing code.
- type: checkboxes
id: preflight
attributes:
label: Before you start
options:
- label: I searched [existing issues](https://github.com/bytedance/deer-flow/issues?q=is%3Aissue) and this is not a duplicate.
required: true
- type: textarea
id: problem
attributes:
label: Problem / motivation
description: What problem does this solve? What is painful today, or what does it unblock?
placeholder: "I'm always frustrated when ..."
validations:
required: true
- type: textarea
id: solution
attributes:
label: Proposed solution
description: Describe the change from a user's / caller's perspective.
validations:
required: true
- type: dropdown
id: areas
attributes:
label: Affected area(s)
description: Which part of DeerFlow would this touch? Select all that apply.
multiple: true
options:
- Frontend (UI / Next.js)
- Backend API (gateway / endpoints / SSE)
- Agents / LangGraph (graph, prompts, langgraph.json)
- Sandbox / Docker
- Skills
- MCP
- Config / setup
- Docs
- Not sure
validations:
required: true
- type: textarea
id: alternatives
attributes:
label: Alternatives considered
description: Other approaches you weighed and why you discarded them.
- type: textarea
id: additional
attributes:
label: Additional context
description: Mockups, links, related issues, or anything else that helps.
.github/ISSUE_TEMPLATE/runtime-information.yml
+128
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@@ -0,0 +1,128 @@
name: Runtime Information
description: Report runtime/environment details to help reproduce an issue.
title: "[runtime] "
labels:
- needs-triage
body:
- type: markdown
attributes:
value: |
Thanks for sharing runtime details.
Complete this form so maintainers can quickly reproduce and diagnose the problem.
- type: input
id: summary
attributes:
label: Problem summary
description: Short summary of the issue.
placeholder: e.g. make dev fails to start gateway service
validations:
required: true
- type: textarea
id: expected
attributes:
label: Expected behavior
placeholder: What did you expect to happen?
validations:
required: true
- type: textarea
id: actual
attributes:
label: Actual behavior
placeholder: What happened instead? Include key error lines.
validations:
required: true
- type: dropdown
id: os
attributes:
label: Operating system
options:
- macOS
- Linux
- Windows
- Other
validations:
required: true
- type: input
id: platform_details
attributes:
label: Platform details
description: Add architecture and shell if relevant.
placeholder: e.g. arm64, zsh
- type: input
id: python_version
attributes:
label: Python version
placeholder: e.g. Python 3.12.9
- type: input
id: node_version
attributes:
label: Node.js version
placeholder: e.g. v23.11.0
- type: input
id: pnpm_version
attributes:
label: pnpm version
placeholder: e.g. 10.26.2
- type: input
id: uv_version
attributes:
label: uv version
placeholder: e.g. 0.7.20
- type: dropdown
id: run_mode
attributes:
label: How are you running DeerFlow?
options:
- Local (make dev)
- Docker (make docker-dev)
- CI
- Other
validations:
required: true
- type: textarea
id: reproduce
attributes:
label: Reproduction steps
description: Provide exact commands and sequence.
placeholder: |
1. make check
2. make install
3. make dev
4. ...
validations:
required: true
- type: textarea
id: logs
attributes:
label: Relevant logs
description: Paste key lines from logs (for example logs/gateway.log, logs/frontend.log).
render: shell
validations:
required: true
- type: textarea
id: git_info
attributes:
label: Git state
description: Share output of git branch and latest commit SHA.
placeholder: |
branch: feature/my-branch
commit: abcdef1
- type: textarea
id: additional
attributes:
label: Additional context
description: Add anything else that might help triage.
.github/labeler.yml
-72
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@@ -1,72 +0,0 @@
# Path-based PR auto-labeling config for actions/labeler@v5.
# Each key is a label (must exist — see .github/labels.yml); the globs decide
# when it is applied. A PR can match several areas, which is expected.
"area:frontend":
- changed-files:
- any-glob-to-any-file:
- "frontend/**"
"area:backend":
- changed-files:
- any-glob-to-any-file:
- "backend/app/**"
- "backend/packages/harness/deerflow/runtime/**"
- "backend/packages/harness/deerflow/persistence/**"
- "backend/packages/harness/deerflow/config/**"
- "backend/packages/harness/deerflow/tools/**"
- "backend/packages/harness/deerflow/guardrails/**"
- "backend/packages/harness/deerflow/tracing/**"
- "backend/packages/harness/deerflow/models/**"
- "backend/packages/harness/deerflow/utils/**"
- "backend/packages/harness/deerflow/uploads/**"
"area:agents":
- changed-files:
- any-glob-to-any-file:
- "backend/packages/harness/deerflow/agents/**"
- "backend/packages/harness/deerflow/subagents/**"
- "backend/packages/harness/deerflow/reflection/**"
- "backend/langgraph.json"
- "backend/**/prompts/**"
"area:sandbox":
- changed-files:
- any-glob-to-any-file:
- "docker/**"
- "backend/packages/harness/deerflow/sandbox/**"
- "backend/Dockerfile"
- "frontend/Dockerfile"
"area:skills":
- changed-files:
- any-glob-to-any-file:
- "skills/**"
- "backend/packages/harness/deerflow/skills/**"
- "frontend/src/core/skills/**"
"area:mcp":
- changed-files:
- any-glob-to-any-file:
- "backend/packages/harness/deerflow/mcp/**"
- "frontend/src/core/mcp/**"
"area:ci":
- changed-files:
- any-glob-to-any-file:
- ".github/**"
- "scripts/**"
"area:docs":
- changed-files:
- any-glob-to-any-file:
- "docs/**"
- "**/*.md"
"area:deps":
- changed-files:
- any-glob-to-any-file:
- "backend/pyproject.toml"
- "backend/uv.lock"
- "frontend/package.json"
- "frontend/pnpm-lock.yaml"
.github/labels.yml
-119
View File
@@ -1,119 +0,0 @@
# Declarative label source of truth for DeerFlow.
#
# This file is the single source of truth for repository labels used by the
# auto-labeling workflows (.github/workflows/pr-labeler.yml, pr-triage.yml,
# issue-triage.yml). Auto-labelers can only apply labels that already exist,
# so every label referenced by a workflow MUST be declared here.
#
# Apply with: uv run --with pyyaml python scripts/sync_labels.py [--repo OWNER/NAME]
# CI keeps it in sync via .github/workflows/label-sync.yml (runs on changes here).
#
# Sync is additive/update-only: it creates or updates the labels listed below
# and never deletes labels that are not listed.
#
# Color = 6-digit hex without the leading '#'.
labels:
# ── Type ─────────────────────────────────────────────────────────────────
# Mostly GitHub defaults; declared here so colors/descriptions stay stable
# and so issue templates can rely on them existing.
- name: bug
color: d73a4a
description: Something isn't working
- name: enhancement
color: a2eeef
description: New feature or request
- name: documentation
color: 0075ca
description: Improvements or additions to documentation
- name: question
color: d876e3
description: Further information is requested
# ── Area (auto, by changed paths — see .github/labeler.yml) ───────────────
# Mirrors the "Surface area" section of the pull request template.
- name: "area:frontend"
color: c5def5
description: Next.js frontend under frontend/
- name: "area:backend"
color: c5def5
description: Gateway / runtime / core backend under backend/
- name: "area:agents"
color: c5def5
description: Agents, subagents, graph wiring, prompts, langgraph.json
- name: "area:sandbox"
color: c5def5
description: Sandboxed execution and docker/
- name: "area:skills"
color: c5def5
description: Skills under skills/ or the skills harness
- name: "area:mcp"
color: c5def5
description: Model Context Protocol integration
- name: "area:ci"
color: c5def5
description: GitHub Actions, CI config, repo tooling
- name: "area:docs"
color: c5def5
description: Documentation and Markdown only
- name: "area:deps"
color: c5def5
description: Dependency manifests / lockfiles
# ── Size (auto, by additions + deletions — see pr-triage.yml) ─────────────
- name: "size/XS"
color: "009900"
description: PR changes < 20 lines
- name: "size/S"
color: 77bb00
description: PR changes 20-100 lines
- name: "size/M"
color: eebb00
description: PR changes 100-300 lines
- name: "size/L"
color: ee9900
description: PR changes 300-700 lines
- name: "size/XL"
color: ee5500
description: PR changes 700+ lines
# ── Risk (auto, by changed paths — see pr-triage.yml) ─────────────────────
- name: "risk:low"
color: 0e8a16
description: "Low risk: docs / i18n / assets only"
- name: "risk:medium"
color: fbca04
description: "Medium risk: regular code changes"
- name: "risk:high"
color: b60205
description: "High risk: backend API, agents, sandbox, auth, deps, CI"
# ── Priority (manual) ─────────────────────────────────────────────────────
- name: P0
color: b60205
description: Critical priority
- name: P1
color: d93f0b
description: Major priority
- name: P2
color: e99695
description: Normal priority
# ── Status (auto + manual) ────────────────────────────────────────────────
- name: needs-triage
color: fef2c0
description: Awaiting maintainer triage
- name: needs-validation
color: d4c5f9
description: Touches front/back contract surface; needs real-path validation
- name: skip-validation
color: cccccc
description: "Maintainer override: do not auto-add needs-validation on this PR"
- name: reviewing
color: 5319e7
description: A maintainer is reviewing this PR
# ── Contributor ───────────────────────────────────────────────────────────
- name: first-time-contributor
color: c2e0c6
description: First contribution to this repository — be welcoming
.github/pull_request_template.md
-75
View File
@@ -1,75 +0,0 @@
<!-- Reference a related issue with #123. Use Fixes / Closes / Resolves to
auto-close it on merge. Delete this line if the PR doesn't reference an issue. -->
Fixes #
## Why
<!-- Why are you opening this PR? Cover two things:
- The trigger — what made you write this? A bug you hit, a feature you need,
tech debt, or a prod issue?
- The pain being addressed — user-facing problem, or what it unblocks.
For non-trivial features, please open an issue/discussion first to align on
scope before writing code. -->
## What changed
<!-- Describe the change from a user's / caller's perspective, not as a code diff. e.g.:
- "Settings now has a 'Custom endpoint' field, off by default"
- "Backend /api/chat gains a `stream` flag, defaults to false"
- "Default model changed from X to Y — existing users notice on first run" -->
## Surface area
<!-- Check every box that applies. Reviewers use this to scope the review. -->
- [ ] **Frontend UI** — page / component / setting / interaction under `frontend/`
- [ ] **Backend API** — endpoint / SSE event / request-response shape under `backend/app`
- [ ] **Agents / LangGraph** — agent node, graph wiring, `langgraph.json`, or prompt change
- [ ] **Sandbox**`docker/` or sandboxed execution
- [ ] **Skills** — change under `skills/`
- [ ] **Dependencies** — new/upgraded entry in `backend/pyproject.toml` or `frontend/package.json` (say what it buys us)
- [ ] **Default behavior change** — changes existing behavior without the user opting in (default model, default setting, data shape)
- [ ] **Docs / tests / CI only** — no runtime behavior change
## Screenshots / Recording
<!-- If you checked "Frontend UI", attach screenshots showing the entry point —
where users discover the change — not just the feature in isolation.
Before/after is best for behavior changes. Short GIFs welcome. -->
## Bug fix verification
<!-- Skip (delete) this section if this PR is not a bug fix.
Bugs should be encoded as a failing test that goes red before the fix.
Confirm:
- Test path that reproduces the bug:
- Did it go red on `main` and green on this branch? (yes / no)
- If a red test wasn't cheap to write, explain why and what you did instead. -->
## Validation
<!-- What you actually ran. Run at least the checks for the area you changed:
Backend: cd backend && make lint && make test
Frontend: cd frontend && pnpm format && pnpm lint && pnpm typecheck && BETTER_AUTH_SECRET=local-dev-secret pnpm build && make test
Frontend E2E (if you touched frontend/): cd frontend && make test-e2e -->
## AI assistance
<!-- DeerFlow is an AI project — most PRs here use AI coding tools, and that's
welcome. Disclosing it just helps reviewers calibrate how closely to read the
diff. Please fill all three; don't delete the section. -->
**Tool(s) used:** <!-- e.g. Claude Code, Cursor, GitHub Copilot, Codex, Windsurf, or "none" -->
**How you used it:** <!-- e.g. "generated the module from a spec", "autocomplete only",
"AI wrote tests, I wrote the impl". A prompt or conversation link is great too. -->
- [ ] I've read and understand every line of this change and take responsibility for it — it's not unreviewed AI output.
.github/workflows/backend-blocking-io-tests.yml
-46
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@@ -1,46 +0,0 @@
name: Backend Blocking IO
on:
push:
branches: ["main"]
paths:
- "backend/**"
- ".github/workflows/backend-blocking-io-tests.yml"
pull_request:
types: [opened, synchronize, reopened, ready_for_review]
paths:
- "backend/**"
- ".github/workflows/backend-blocking-io-tests.yml"
concurrency:
group: blocking-io-${{ github.event.pull_request.number || github.ref }}
cancel-in-progress: true
permissions:
contents: read
jobs:
backend-blocking-io:
if: github.event_name != 'pull_request' || github.event.pull_request.draft == false
runs-on: ubuntu-latest
timeout-minutes: 10
steps:
- name: Checkout
uses: actions/checkout@v4
- name: Set up Python
uses: actions/setup-python@v5
with:
python-version: "3.12"
- name: Install uv
uses: astral-sh/setup-uv@v3
- name: Install backend dependencies
working-directory: backend
run: uv sync --group dev
- name: Run blocking IO regression tests
working-directory: backend
run: make test-blocking-io
.github/workflows/issue-triage.yml
-44
View File
@@ -1,44 +0,0 @@
name: Issue Triage
# Ensures every newly opened issue carries `needs-triage`, even blank or
# API-created ones that bypass the issue templates. Creates the label if it is
# somehow missing, so the workflow is self-healing.
on:
issues:
types: [opened]
permissions:
issues: write
jobs:
needs-triage:
runs-on: ubuntu-latest
steps:
- name: Add needs-triage label
uses: actions/github-script@v7
with:
script: |
const { owner, repo } = context.repo;
const issue_number = context.payload.issue.number;
const current = (context.payload.issue.labels || []).map(l => l.name);
if (current.includes('needs-triage')) {
core.info('Issue already has needs-triage; nothing to do.');
return;
}
// Self-heal: create the label if it does not exist yet.
try {
await github.rest.issues.createLabel({
owner, repo, name: 'needs-triage', color: 'fef2c0',
description: 'Awaiting maintainer triage',
});
} catch (e) {
if (e.status !== 422) throw e; // 422 = already exists
}
await github.rest.issues.addLabels({
owner, repo, issue_number, labels: ['needs-triage'],
});
core.info(`Added needs-triage to #${issue_number}.`);
.github/workflows/label-sync.yml
-38
View File
@@ -1,38 +0,0 @@
name: Label Sync
# Keeps repository labels in sync with the declarative source of truth
# (.github/labels.yml). Runs whenever that file changes on main, and can be
# triggered manually. Additive/update-only — never deletes labels.
on:
push:
branches: [main]
paths:
- ".github/labels.yml"
- "scripts/sync_labels.py"
- ".github/workflows/label-sync.yml"
workflow_dispatch:
permissions:
contents: read
issues: write
concurrency:
group: label-sync
cancel-in-progress: false
jobs:
sync:
runs-on: ubuntu-latest
steps:
- name: Checkout
uses: actions/checkout@v6
- name: Install uv
uses: astral-sh/setup-uv@v7
- name: Sync labels
run: uv run --with pyyaml python scripts/sync_labels.py
env:
GH_TOKEN: ${{ secrets.GITHUB_TOKEN }}
GH_REPO: ${{ github.repository }}
.github/workflows/pr-labeler.yml
-28
View File
@@ -1,28 +0,0 @@
name: PR Labeler
# Applies area:* labels based on which files a PR changes (see .github/labeler.yml).
# Uses pull_request_target so it also works on fork PRs. SAFE: actions/labeler
# only reads the changed-file list via the API — it never checks out or runs PR code.
on:
pull_request_target:
types: [opened, synchronize, reopened, ready_for_review]
permissions:
contents: read
pull-requests: write
concurrency:
group: pr-labeler-${{ github.event.pull_request.number }}
cancel-in-progress: true
jobs:
label:
if: github.event.pull_request.draft == false
runs-on: ubuntu-latest
steps:
- name: Apply area labels
uses: actions/labeler@v5
with:
configuration-path: .github/labeler.yml
sync-labels: true
.github/workflows/pr-triage.yml
-164
View File
@@ -1,164 +0,0 @@
name: PR Triage
# Two responsibilities, both pure-metadata (no PR code is checked out or run):
# 1. On open/sync: apply size/* + risk:* labels, and needs-validation when the
# PR touches the front/back contract surface (backend API, SSE, agents, or
# the frontend streaming client). A `skip-validation` label opts out.
# 2. On maintainer review: apply the `reviewing` label.
#
# All labels are managed within their own namespace — labels outside size/*,
# risk:*, needs-validation and reviewing are never touched here.
on:
pull_request_target:
types: [opened, synchronize, reopened, ready_for_review]
pull_request_review:
types: [submitted]
permissions:
contents: read
pull-requests: write
concurrency:
group: pr-triage-${{ github.event.pull_request.number }}
cancel-in-progress: false
jobs:
size-and-risk:
if: github.event_name == 'pull_request_target' && github.event.pull_request.draft == false
runs-on: ubuntu-latest
steps:
- name: Label size, risk and validation need
uses: actions/github-script@v7
with:
script: |
const pr = context.payload.pull_request;
const { owner, repo } = context.repo;
const prNumber = pr.number;
// ---- size, from additions + deletions ----
const churn = (pr.additions || 0) + (pr.deletions || 0);
const sizeLabel =
churn < 20 ? 'size/XS' :
churn < 100 ? 'size/S' :
churn < 300 ? 'size/M' :
churn < 700 ? 'size/L' : 'size/XL';
// ---- changed paths ----
const files = await github.paginate(github.rest.pulls.listFiles, {
owner, repo, pull_number: prNumber, per_page: 100,
});
const paths = files.map(f => f.filename);
const matches = (re) => paths.some(p => re.test(p));
const docsOnly = paths.length > 0 && paths.every(p =>
/\.(md|mdx|txt)$/i.test(p) || p.startsWith('docs/') ||
/\.(png|jpe?g|gif|svg|webp|ico)$/i.test(p));
const highRisk = matches(
/^backend\/app\/gateway\//) || matches(
/^backend\/packages\/harness\/deerflow\/(agents|subagents|sandbox)\//) || matches(
/(^|\/)langgraph\.json$/) || matches(
/(^|\/)(auth|authz|security)/i) || matches(
/(pyproject\.toml|uv\.lock|package\.json|pnpm-lock\.yaml)$/) || matches(
/^docker\//) || matches(
/^\.github\/workflows\//);
const riskLabel = docsOnly ? 'risk:low' : (highRisk ? 'risk:high' : 'risk:medium');
// needs-validation: front/back contract surface
const contractSurface =
matches(/^backend\/app\/gateway\//) ||
matches(/^backend\/packages\/harness\/deerflow\/(agents|subagents)\//) ||
matches(/(^|\/)langgraph\.json$/) ||
matches(/^frontend\/src\/core\/(api|threads|messages)\//);
const current = (pr.labels || []).map(l => l.name);
const hasSkip = current.includes('skip-validation');
const desired = [sizeLabel, riskLabel];
if (contractSurface && !hasSkip) desired.push('needs-validation');
const managed = (name) =>
name.startsWith('size/') || name.startsWith('risk:') || name === 'needs-validation';
const toRemove = current.filter(l => managed(l) && !desired.includes(l));
const toAdd = desired.filter(l => !current.includes(l));
for (const name of toRemove) {
try {
await github.rest.issues.removeLabel({ owner, repo, issue_number: prNumber, name });
} catch (e) {
if (e.status !== 404) throw e;
}
}
if (toAdd.length) {
await github.rest.issues.addLabels({ owner, repo, issue_number: prNumber, labels: toAdd });
}
core.info(`size=${sizeLabel} risk=${riskLabel} churn=${churn} ` +
`validation=${desired.includes('needs-validation')} ` +
`(+${toAdd.join(',') || '-'} / -${toRemove.join(',') || '-'})`);
first-time:
if: github.event_name == 'pull_request_target' && github.event.action == 'opened'
runs-on: ubuntu-latest
steps:
- name: Label first-time contributors
uses: actions/github-script@v7
with:
script: |
const pr = context.payload.pull_request;
const { owner, repo } = context.repo;
const assoc = pr.author_association;
const isBot = pr.user.type === 'Bot';
core.info(`author=${pr.user.login} association=${assoc} bot=${isBot}`);
// FIRST_TIME_CONTRIBUTOR = no prior merged commit to this repo;
// FIRST_TIMER = no prior commit anywhere on GitHub. Either counts.
if (isBot || !['FIRST_TIME_CONTRIBUTOR', 'FIRST_TIMER'].includes(assoc)) {
core.info('Not a first-time contributor; skipping.');
return;
}
await github.rest.issues.addLabels({
owner, repo, issue_number: pr.number, labels: ['first-time-contributor'],
});
core.info(`Added first-time-contributor to #${pr.number}.`);
reviewing:
if: github.event_name == 'pull_request_review'
runs-on: ubuntu-latest
steps:
- name: Add reviewing label for maintainer reviews
uses: actions/github-script@v7
with:
script: |
const { owner, repo } = context.repo;
const prNumber = context.payload.pull_request.number;
const reviewer = context.payload.review.user.login;
const { data: perm } = await github.rest.repos.getCollaboratorPermissionLevel({
owner, repo, username: reviewer,
});
if (!['admin', 'write', 'maintain'].includes(perm.permission)) {
core.info(`Reviewer ${reviewer} (${perm.permission}) is not a maintainer; skipping.`);
return;
}
const { data: labels } = await github.rest.issues.listLabelsOnIssue({
owner, repo, issue_number: prNumber,
});
if (labels.some(l => l.name === 'reviewing')) {
core.info('Already labeled reviewing; skipping.');
return;
}
try {
await github.rest.issues.addLabels({
owner, repo, issue_number: prNumber, labels: ['reviewing'],
});
core.info(`Added "reviewing" (reviewer ${reviewer}).`);
} catch (e) {
// 403 is expected for review events on some fork PR contexts.
if (e.status === 403) core.info('No permission to label (expected on some fork PRs).');
else throw e;
}
CONTRIBUTING.md
-15
View File
@@ -287,21 +287,6 @@ Nginx (port 2026) ← Unified entry point
git push origin feature/your-feature-name
```
## AI assistance disclosure
DeerFlow is an AI project and we welcome AI-assisted contributions. To help
reviewers calibrate how closely to read a change, **every pull request must
complete the "AI assistance" section of the
[PR template](.github/pull_request_template.md)**:
- which tool(s) you used (or `none`),
- how you used them, and
- a confirmation that a human has read, understands, and takes responsibility
for the change.
Please don't delete the section. PRs that ignore it may be asked to fill it in
before review.
## Testing
```bash
Makefile
+32 -10
View File
@@ -1,6 +1,6 @@
# DeerFlow - Unified Development Environment
.PHONY: help config config-upgrade check install setup doctor detect-thread-boundaries detect-blocking-io 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 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
BASH ?= bash
BACKEND_UV_RUN = cd backend && uv run
@@ -23,8 +23,6 @@ help:
@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 detect-thread-boundaries - Inventory async/thread boundary points"
@echo " make detect-blocking-io - Inventory blocking IO that may block the backend event loop"
@echo " make install - Install all dependencies (frontend + backend + pre-commit hooks)"
@echo " make setup-sandbox - Pre-pull sandbox container image (recommended)"
@echo " make dev - Start all services in development mode (with hot-reloading)"
@@ -53,12 +51,6 @@ setup:
doctor:
@$(BACKEND_UV_RUN) python ../scripts/doctor.py
detect-thread-boundaries:
@$(PYTHON) ./scripts/detect_thread_boundaries.py
detect-blocking-io:
@$(MAKE) -C backend detect-blocking-io
config:
@$(PYTHON) ./scripts/configure.py
@@ -89,7 +81,36 @@ install:
# Pre-pull sandbox Docker image (optional but recommended)
setup-sandbox:
@$(RUN_WITH_GIT_BASH) ./scripts/setup-sandbox.sh
@echo "=========================================="
@echo " Pre-pulling Sandbox Container Image"
@echo "=========================================="
@echo ""
@IMAGE=$$(grep -A 20 "# sandbox:" config.yaml 2>/dev/null | grep "image:" | awk '{print $$2}' | head -1); \
if [ -z "$$IMAGE" ]; then \
IMAGE="enterprise-public-cn-beijing.cr.volces.com/vefaas-public/all-in-one-sandbox:latest"; \
echo "Using default image: $$IMAGE"; \
else \
echo "Using configured image: $$IMAGE"; \
fi; \
echo ""; \
if command -v container >/dev/null 2>&1 && [ "$$(uname)" = "Darwin" ]; then \
echo "Detected Apple Container on macOS, pulling image..."; \
container image pull "$$IMAGE" || echo "⚠ Apple Container pull failed, will try Docker"; \
fi; \
if command -v docker >/dev/null 2>&1; then \
echo "Pulling image using Docker..."; \
if docker pull "$$IMAGE"; then \
echo ""; \
echo "✓ Sandbox image pulled successfully"; \
else \
echo ""; \
echo "⚠ Failed to pull sandbox image (this is OK for local sandbox mode)"; \
fi; \
else \
echo "✗ Neither Docker nor Apple Container is available"; \
echo " Please install Docker: https://docs.docker.com/get-docker/"; \
exit 1; \
fi
# Start all services in development mode (with hot-reloading)
dev:
@@ -119,6 +140,7 @@ stop:
clean: stop
@echo "Cleaning up..."
@-rm -rf backend/.deer-flow 2>/dev/null || true
@-rm -rf backend/.langgraph_api 2>/dev/null || true
@-rm -rf logs/*.log 2>/dev/null || true
@echo "✓ Cleanup complete"
README.md
-15
View File
@@ -546,15 +546,6 @@ LANGFUSE_BASE_URL=https://cloud.langfuse.com
If you are using a self-hosted Langfuse instance, set `LANGFUSE_BASE_URL` to your deployment URL.
**Trace correlation fields.** Every agent run is annotated with Langfuse's reserved trace attributes so the Sessions and Users pages light up automatically:
- `session_id` = LangGraph `thread_id` — groups every trace of the same conversation
- `user_id` = effective user from `get_effective_user_id()` (falls back to `default` in no-auth mode)
- `trace_name` = assistant id (defaults to `lead-agent`)
- `tags` = `[env:<DEER_FLOW_ENV>, model:<model_name>]` (omitted when not set)
These are injected into `RunnableConfig.metadata` at the graph invocation root for both the gateway path (`runtime/runs/worker.py::run_agent`) and the embedded path (`client.py::DeerFlowClient.stream`), so any LangChain-compatible callback can read them. Set `DEER_FLOW_ENV` (or `ENVIRONMENT`) to tag traces by deployment environment.
#### Using Both Providers
If both LangSmith and Langfuse are enabled, DeerFlow attaches both tracing callbacks and reports the same model activity to both systems.
@@ -740,12 +731,6 @@ DeerFlow has key high-privilege capabilities including **system command executio
We welcome contributions! Please see [CONTRIBUTING.md](CONTRIBUTING.md) for development setup, workflow, and guidelines.
Regression coverage includes Docker sandbox mode detection and provisioner kubeconfig-path handling tests in `backend/tests/`.
Backend blocking-IO diagnostics are available from the repository root with
`make detect-blocking-io`: it statically scans backend business code for
blocking IO that may run on the backend event loop, prints a concise summary,
and writes complete JSON findings to `.deer-flow/blocking-io-findings.json`.
The JSON includes compact review records with `priority`, `location`,
`blocking_call`, `event_loop_exposure`, `reason`, and `code`.
Gateway artifact serving now forces active web content types (`text/html`, `application/xhtml+xml`, `image/svg+xml`) to download as attachments instead of inline rendering, reducing XSS risk for generated artifacts.
## License
backend/CLAUDE.md
+13 -81
View File
@@ -88,57 +88,18 @@ 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 gateway # Run Gateway API only (port 8001)
make test # Run all backend tests
make test-blocking-io # Run strict Blockbuster runtime gate on tests/blocking_io/
make lint # Lint with ruff
make format # Format code with ruff
make install # Install backend dependencies
make dev # Run Gateway API with reload (port 8001)
make gateway # Run Gateway API only (port 8001)
make test # Run all backend tests
make lint # Lint with ruff
make format # Format code with ruff
```
The `detect-blocking-io` target parses `app/`, `packages/harness/deerflow/`,
and `scripts/` with AST. By default it reports only blocking IO candidates that
are inside async code, reachable from async code in the same file, or reachable
from sync-only `AgentMiddleware` before/after hooks that LangGraph can execute
on the async graph path. It prints a concise summary and writes complete JSON
findings to `.deer-flow/blocking-io-findings.json` at the repository root
(both `make detect-blocking-io` from the repo root and `cd backend && make
detect-blocking-io` resolve to the same repo-root path). JSON findings include
`priority`, `location`, `blocking_call`, `event_loop_exposure`, `reason`, and
`code` for model-assisted or manual review. `priority` is a deterministic
review ordering from operation type, not proof of a bug. Bare-name same-file
calls are resolved by function name, so duplicate helper names in one file can
conservatively over-report async reachability. It is intentionally
informational and is not run from CI in this round.
Regression tests related to Docker/provisioner behavior:
- `tests/test_docker_sandbox_mode_detection.py` (mode detection from `config.yaml`)
- `tests/test_provisioner_kubeconfig.py` (kubeconfig file/directory handling)
Blocking-IO runtime gate (`tests/blocking_io/`):
- Wraps every item under `tests/blocking_io/` with a strict Blockbuster
context scoped to `app.*` and `deerflow.*` (see
`tests/support/detectors/blocking_io_runtime.py`). Any sync blocking IO
call whose stack passes through DeerFlow business code while running on
the asyncio event loop raises `BlockingError` and fails the test.
- Regression anchors live there: `test_skills_load.py` (locks the
`asyncio.to_thread` offload around `LocalSkillStorage.load_skills`, fix
for #1917); `test_sqlite_lifespan.py` (locks the offload around
SQLite path resolution plus `ensure_sqlite_parent_dir`, fix for #1912);
`test_jsonl_run_event_store.py` (locks `JsonlRunEventStore`'s async
API offloading its file IO via `asyncio.to_thread`, fix #3084); and
`test_uploads_middleware.py` (locks `UploadsMiddleware.abefore_agent`
offloading the uploads-directory scan off the event loop).
- `test_gate_smoke.py` is a meta-test asserting the gate actually catches
unoffloaded blocking IO and that the `@pytest.mark.allow_blocking_io`
opt-out works.
- Coverage boundary: the gate only sees code that test execution actually
touches. Static AST coverage is a separate concern (out of scope for
this PR).
- CI: runs on every PR via `.github/workflows/backend-blocking-io-tests.yml`,
hard-fail.
Boundary check (harness → app import firewall):
- `tests/test_harness_boundary.py` — ensures `packages/harness/deerflow/` never imports from `app.*`
@@ -208,7 +169,7 @@ Lead-agent middlewares are assembled in strict append order across `packages/har
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 (MCP) tool schemas from the bound model using a build-time deferred-name set + catalog hash, reading per-thread promotions from `ThreadState.promoted` (hash-scoped, no ContextVar); a tool becomes bound on subsequent turns after `tool_search` returns its schema (optional, if `tool_search.enabled`)
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)
@@ -223,10 +184,6 @@ Setup: Copy `config.example.yaml` to `config.yaml` in the **project root** direc
**Config Caching**: `get_app_config()` caches the parsed config, but automatically reloads it when the resolved config path changes or the file's mtime increases. This keeps Gateway and LangGraph reads aligned with `config.yaml` edits without requiring a manual process restart.
**Config Hot-Reload Boundary**: Gateway dependencies route through `get_app_config()` on every request, so per-run fields like `models[*].max_tokens`, `summarization.*`, `title.*`, `memory.*`, `subagents.*`, `tools[*]`, and the agent system prompt pick up `config.yaml` edits on the next message. `AppConfig` is intentionally **not** cached on `app.state``lifespan()` keeps a local `startup_config` variable for one-shot bootstrap work and passes it to `langgraph_runtime(app, startup_config)`.
Infrastructure fields are **restart-required**. The authoritative list lives in `packages/harness/deerflow/config/reload_boundary.py::STARTUP_ONLY_FIELDS` and is mirrored by the standardised `"startup-only:"` prefix on the corresponding `Field(description=...)` in `AppConfig`, so IDE hover on those fields surfaces the reason inline (no need to context-switch into this table). Currently registered: `database`, `checkpointer`, `run_events`, `stream_bridge`, `sandbox`, `log_level`, `channels`. Adding a new restart-required field requires updating the registry; drift is pinned by `tests/test_reload_boundary.py`.
Configuration priority:
1. Explicit `config_path` argument
2. `DEER_FLOW_CONFIG_PATH` environment variable
@@ -268,28 +225,21 @@ CORS is same-origin by default when requests enter through nginx on port 2026. S
| **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 |
**RunManager / RunStore contract**:
- `RunManager.get()` is async; direct callers must `await` it.
- When a persistent `RunStore` is configured, `get()` and `list_by_thread()` hydrate historical runs from the store. In-memory records win for the same `run_id` so task, abort, and stream-control state stays attached to active local runs.
- `cancel()` and `create_or_reject(..., multitask_strategy="interrupt"|"rollback")` persist interrupted status through `RunStore.update_status()`, matching normal `set_status()` transitions.
- Store-only hydrated runs are readable history. If the current worker has no in-memory task/control state for that run, cancellation APIs can return 409 because this worker cannot stop the task.
- `POST /wait` (both thread-scoped and `/api/runs/wait`) drains the stream bridge via `wait_for_run_completion()` instead of bare `await record.task`, so it honours the run's `on_disconnect` setting and cancels the background run on real client disconnect rather than returning a stale checkpoint (issue #3265).
Proxied through nginx: `/api/langgraph/*` → Gateway LangGraph-compatible runtime, all other `/api/*` → Gateway REST APIs.
### Sandbox System (`packages/harness/deerflow/sandbox/`)
**Interface**: Abstract `Sandbox` with `execute_command`, `read_file`, `write_file`, `list_dir`
**Provider Pattern**: `SandboxProvider` with `acquire`, `acquire_async`, `get`, `release` lifecycle. Async agent/tool paths call async sandbox lifecycle hooks so Docker sandbox creation, discovery, cross-process locking, readiness polling, and release stay off the event loop.
**Provider Pattern**: `SandboxProvider` with `acquire`, `get`, `release` lifecycle
**Implementations**:
- `LocalSandboxProvider` - Local filesystem execution. `acquire(thread_id)` returns a per-thread `LocalSandbox` (id `local:{thread_id}`) whose `path_mappings` resolve `/mnt/user-data/{workspace,uploads,outputs}` and `/mnt/acp-workspace` to that thread's host directories, so the public `Sandbox` API honours the `/mnt/user-data` contract uniformly with AIO. `acquire()` / `acquire(None)` keeps the legacy generic singleton (id `local`) for callers without a thread context. Per-thread sandboxes are held in an LRU cache (default 256 entries) guarded by a `threading.Lock`.
- `LocalSandboxProvider` - Singleton local filesystem execution with path mappings
- `AioSandboxProvider` (`packages/harness/deerflow/community/`) - Docker-based isolation
**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/`
- Translation: `LocalSandboxProvider` builds per-thread `PathMapping`s for the user-data prefixes at acquire time; `tools.py` keeps `replace_virtual_path()` / `replace_virtual_paths_in_command()` as a defense-in-depth layer (and for path validation). AIO has the directories volume-mounted at the same virtual paths inside its container, so both implementations accept `/mnt/user-data/...` natively.
- Detection: `is_local_sandbox()` accepts both `sandbox_id == "local"` (legacy / no-thread) and `sandbox_id.startswith("local:")` (per-thread)
- Translation: `replace_virtual_path()` / `replace_virtual_paths_in_command()`
- Detection: `is_local_sandbox()` checks `sandbox_id == "local"`
**Sandbox Tools** (in `packages/harness/deerflow/sandbox/tools.py`):
- `bash` - Execute commands with path translation and error handling
@@ -339,7 +289,7 @@ Proxied through nginx: `/api/langgraph/*` → Gateway LangGraph-compatible runti
- **Cache invalidation**: Detects config file changes via mtime comparison
- **Transports**: stdio (command-based), SSE, HTTP
- **OAuth (HTTP/SSE)**: Supports token endpoint flows (`client_credentials`, `refresh_token`) with automatic token refresh + Authorization header injection
- **Runtime updates**: Gateway API saves to extensions_config.json; the Gateway-embedded runtime detects changes via mtime
- **Runtime updates**: Gateway API saves to extensions_config.json; LangGraph detects via mtime
### Skills System (`packages/harness/deerflow/skills/`)
@@ -366,7 +316,7 @@ Proxied through nginx: `/api/langgraph/*` → Gateway LangGraph-compatible runti
### IM Channels System (`app/channels/`)
Bridges external messaging platforms (Feishu, Slack, Telegram, DingTalk) to the DeerFlow agent via Gateway's LangGraph-compatible API.
Bridges external messaging platforms (Feishu, Slack, Telegram, DingTalk) 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.
@@ -441,24 +391,6 @@ Focused regression coverage for the updater lives in `backend/tests/test_memory_
- `resolve_variable(path)` - Import module and return variable (e.g., `module.path:variable_name`)
- `resolve_class(path, base_class)` - Import and validate class against base class
### Tracing System (`packages/harness/deerflow/tracing/`)
LangSmith and Langfuse are both supported. The wiring lives in two layers:
- `factory.py::build_tracing_callbacks()` — returns the LangChain `CallbackHandler` list for the providers currently enabled via env vars (`LANGSMITH_TRACING`, `LANGFUSE_TRACING`, etc.). The handlers are attached at the **graph invocation root** for in-graph runs (`make_lead_agent` and `DeerFlowClient.stream` both append them to `config["callbacks"]` before invoking the graph) so a single run produces one trace with all node / LLM / tool calls as child spans. Standalone callers — anything that invokes a model outside such a graph (e.g. `MemoryUpdater`) — keep `create_chat_model`'s default `attach_tracing=True`, which falls back to model-level callback attachment.
- `metadata.py::build_langfuse_trace_metadata()` — builds the Langfuse-reserved trace attributes for `RunnableConfig.metadata`. The Langfuse v4 `langchain.CallbackHandler` lifts these onto the root trace (see its `_parse_langfuse_trace_attributes`), but only when it sees `on_chain_start(parent_run_id=None)` — which is why the callbacks have to live at the graph root, not the model.
**Trace-attribute injection points**: both `runtime/runs/worker.py::run_agent` (gateway path) and `client.py::DeerFlowClient.stream` (embedded path) merge the metadata into `config["metadata"]` right before constructing the graph. Caller-supplied keys win via `setdefault`, so an external `session_id` override is preserved. Field mapping:
| Langfuse field | Source |
|-----------------------|----------------------------------------------|
| `langfuse_session_id` | LangGraph `thread_id` |
| `langfuse_user_id` | `get_effective_user_id()` (`default` in no-auth) |
| `langfuse_trace_name` | `RunRecord.assistant_id` / client `agent_name` (defaults to `lead-agent`) |
| `langfuse_tags` | `env:<DEER_FLOW_ENV>` + `model:<model_name>` |
Returns `{}` when Langfuse is not in the enabled providers — LangSmith-only deployments are unaffected. Set `DEER_FLOW_ENV` (or `ENVIRONMENT`) to tag traces by deployment environment. Tests live in `tests/test_tracing_factory.py`, `tests/test_tracing_metadata.py`, `tests/test_worker_langfuse_metadata.py`, and `tests/test_client_langfuse_metadata.py`.
### Config Schema
**`config.yaml`** key sections:
backend/Dockerfile
+3 -3
View File
@@ -64,7 +64,7 @@ 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
EXPOSE 8001 2024
CMD ["sh", "-c", "cd backend && PYTHONPATH=. uv run uvicorn app.gateway.app:app --host 0.0.0.0 --port 8001"]
@@ -94,8 +94,8 @@ WORKDIR /app
# Copy backend with pre-built virtualenv from builder
COPY --from=builder /app/backend ./backend
# Expose Gateway API port.
EXPOSE 8001
# 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"]
backend/Makefile
+3 -9
View File
@@ -2,16 +2,13 @@ install:
uv sync
dev:
PYTHONPATH=. PYTHONIOENCODING=utf-8 PYTHONUTF8=1 uv run uvicorn app.gateway.app:app --host 0.0.0.0 --port 8001 --reload
PYTHONPATH=. uv run uvicorn app.gateway.app:app --host 0.0.0.0 --port 8001 --reload
gateway:
PYTHONPATH=. PYTHONIOENCODING=utf-8 PYTHONUTF8=1 uv run uvicorn app.gateway.app:app --host 0.0.0.0 --port 8001
PYTHONPATH=. uv run uvicorn app.gateway.app:app --host 0.0.0.0 --port 8001
test:
PYTHONPATH=. PYTHONIOENCODING=utf-8 PYTHONUTF8=1 uv run pytest tests/ -v
test-blocking-io:
PYTHONPATH=. PYTHONIOENCODING=utf-8 PYTHONUTF8=1 uv run pytest tests/blocking_io -q --tb=short
PYTHONPATH=. uv run pytest tests/ -v
lint:
uvx ruff check .
@@ -19,6 +16,3 @@ lint:
format:
uvx ruff check . --fix && uvx ruff format .
detect-blocking-io:
@PYTHONPATH=. PYTHONIOENCODING=utf-8 PYTHONUTF8=1 uv run python ../scripts/detect_blocking_io_static.py --output ../.deer-flow/blocking-io-findings.json
backend/README.md
+1 -14
View File
@@ -69,7 +69,7 @@ Middlewares execute in strict order, each handling a specific concern:
Per-thread isolated execution with virtual path translation:
- **Abstract interface**: `execute_command`, `read_file`, `write_file`, `list_dir`
- **Providers**: `LocalSandboxProvider` (filesystem) and `AioSandboxProvider` (Docker, in community/). Async runtime paths use async sandbox lifecycle hooks so startup, readiness polling, and release do not block the event loop.
- **Providers**: `LocalSandboxProvider` (filesystem) and `AioSandboxProvider` (Docker, in community/)
- **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
@@ -362,7 +362,6 @@ make dev # Run Gateway API + embedded agent runtime (port 8001)
make gateway # Run Gateway API without reload (port 8001)
make lint # Run linter (ruff)
make format # Format code (ruff)
make detect-blocking-io # Inventory blocking IO that may block the backend event loop
```
### Code Style
@@ -379,18 +378,6 @@ make detect-blocking-io # Inventory blocking IO that may block the backend even
uv run pytest
```
`make detect-blocking-io` statically scans backend business code for blocking
IO that may run on the backend event loop and is not test-coverage-bound. It
prints a concise summary for human review and writes complete JSON findings to
`.deer-flow/blocking-io-findings.json` at the repository root (regardless of
whether the target is invoked from the repo root or from `backend/`). JSON
findings include both broad IO category and review-oriented fields such as
`priority`, `location`, `blocking_call`, `event_loop_exposure`, `reason`, and
`code`. `priority` is a deterministic review ordering from the operation type,
not proof of a bug. Bare-name same-file calls are resolved by function name,
so duplicate helper names in one file can conservatively over-report async
reachability.
---
## Technology Stack
backend/app/channels/discord.py
+11 -291
View File
@@ -3,10 +3,8 @@
from __future__ import annotations
import asyncio
import json
import logging
import threading
from pathlib import Path
from typing import Any
from app.channels.base import Channel
@@ -23,12 +21,6 @@ class DiscordChannel(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.
- ``mention_only``: (optional) If true, only respond when the bot is mentioned.
- ``allowed_channels``: (optional) List of channel IDs where messages are always accepted
(even when mention_only is true). Use for channels where you want the bot to respond
without mentions. Empty = mention_only applies everywhere.
- ``thread_mode``: (optional) If true, group a channel conversation into a thread.
Default: same as ``mention_only``.
"""
def __init__(self, bus: MessageBus, config: dict[str, Any]) -> None:
@@ -40,29 +32,6 @@ class DiscordChannel(Channel):
self._allowed_guilds.add(int(guild_id))
except (TypeError, ValueError):
continue
self._mention_only: bool = bool(config.get("mention_only", False))
self._thread_mode: bool = config.get("thread_mode", self._mention_only)
self._allowed_channels: set[str] = set()
for channel_id in config.get("allowed_channels", []):
self._allowed_channels.add(str(channel_id))
# Session tracking: channel_id -> Discord thread_id (in-memory, persisted to JSON).
# Uses a dedicated JSON file separate from ChannelStore, which maps IM
# conversations to DeerFlow thread IDs — a different concern.
self._active_threads: dict[str, str] = {}
# Reverse-lookup set for O(1) thread ID checks (avoids O(n) scan of _active_threads.values()).
self._active_thread_ids: set[str] = set()
# Lock protecting _active_threads and the JSON file from concurrent access.
# _run_client (Discord loop thread) and the main thread both read/write.
self._thread_store_lock = threading.Lock()
store = config.get("channel_store")
if store is not None:
self._thread_store_path = store._path.parent / "discord_threads.json"
else:
self._thread_store_path = Path.home() / ".deer-flow" / "channels" / "discord_threads.json"
# Typing indicator management
self._typing_tasks: dict[str, asyncio.Task] = {}
self._client = None
self._thread: threading.Thread | None = None
@@ -106,56 +75,12 @@ class DiscordChannel(Channel):
self._thread = threading.Thread(target=self._run_client, daemon=True)
self._thread.start()
self._load_active_threads()
logger.info("Discord channel started")
def _load_active_threads(self) -> None:
"""Restore Discord thread mappings from the dedicated JSON file on startup."""
with self._thread_store_lock:
try:
if not self._thread_store_path.exists():
logger.debug("[Discord] no thread mappings file at %s", self._thread_store_path)
return
data = json.loads(self._thread_store_path.read_text())
self._active_threads.clear()
self._active_thread_ids.clear()
for channel_id, thread_id in data.items():
self._active_threads[channel_id] = thread_id
self._active_thread_ids.add(thread_id)
if self._active_threads:
logger.info("[Discord] restored %d thread mappings from %s", len(self._active_threads), self._thread_store_path)
except Exception:
logger.exception("[Discord] failed to load thread mappings")
def _save_thread(self, channel_id: str, thread_id: str) -> None:
"""Persist a Discord thread mapping to the dedicated JSON file."""
with self._thread_store_lock:
try:
data: dict[str, str] = {}
if self._thread_store_path.exists():
data = json.loads(self._thread_store_path.read_text())
old_id = data.get(channel_id)
data[channel_id] = thread_id
# Update reverse-lookup set
if old_id:
self._active_thread_ids.discard(old_id)
self._active_thread_ids.add(thread_id)
self._thread_store_path.parent.mkdir(parents=True, exist_ok=True)
self._thread_store_path.write_text(json.dumps(data, indent=2))
except Exception:
logger.exception("[Discord] failed to save thread mapping for channel %s", channel_id)
async def stop(self) -> None:
self._running = False
self.bus.unsubscribe_outbound(self._on_outbound)
# Cancel all active typing indicator tasks
for target_id, task in list(self._typing_tasks.items()):
if not task.done():
task.cancel()
logger.debug("[Discord] cancelled typing task for target %s", target_id)
self._typing_tasks.clear()
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:
@@ -175,10 +100,6 @@ class DiscordChannel(Channel):
logger.info("Discord channel stopped")
async def send(self, msg: OutboundMessage) -> None:
# Stop typing indicator once we're sending the response
stop_future = asyncio.run_coroutine_threadsafe(self._stop_typing(msg.chat_id, msg.thread_ts), self._discord_loop)
await asyncio.wrap_future(stop_future)
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)
@@ -190,9 +111,6 @@ class DiscordChannel(Channel):
await asyncio.wrap_future(send_future)
async def send_file(self, msg: OutboundMessage, attachment: ResolvedAttachment) -> bool:
stop_future = asyncio.run_coroutine_threadsafe(self._stop_typing(msg.chat_id, msg.thread_ts), self._discord_loop)
await asyncio.wrap_future(stop_future)
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)
@@ -212,41 +130,6 @@ class DiscordChannel(Channel):
logger.exception("[Discord] failed to upload file: %s", attachment.filename)
return False
async def _start_typing(self, channel, chat_id: str, thread_ts: str | None = None) -> None:
"""Starts a loop to send periodic typing indicators."""
target_id = thread_ts or chat_id
if target_id in self._typing_tasks:
return # Already typing for this target
async def _typing_loop():
try:
while True:
try:
await channel.trigger_typing()
except Exception:
pass
await asyncio.sleep(10)
except asyncio.CancelledError:
pass
task = asyncio.create_task(_typing_loop())
self._typing_tasks[target_id] = task
async def _stop_typing(self, chat_id: str, thread_ts: str | None = None) -> None:
"""Stops the typing loop for a specific target."""
target_id = thread_ts or chat_id
task = self._typing_tasks.pop(target_id, None)
if task and not task.done():
task.cancel()
logger.debug("[Discord] stopped typing indicator for target %s", target_id)
async def _add_reaction(self, message) -> None:
"""Add a checkmark reaction to acknowledge the message was received."""
try:
await message.add_reaction("")
except Exception:
logger.debug("[Discord] failed to add reaction to message %s", message.id, exc_info=True)
async def _on_message(self, message) -> None:
if not self._running or not self._client:
return
@@ -269,143 +152,15 @@ class DiscordChannel(Channel):
if self._discord_module is None:
return
# Determine whether the bot is mentioned in this message
user = self._client.user if self._client else None
if user:
bot_mention = user.mention # <@ID>
alt_mention = f"<@!{user.id}>" # <@!ID> (ping variant)
standard_mention = f"<@{user.id}>"
else:
bot_mention = None
alt_mention = None
standard_mention = ""
has_mention = (bot_mention and bot_mention in message.content) or (alt_mention and alt_mention in message.content) or (standard_mention and standard_mention in message.content)
# Strip mention from text for processing
if has_mention:
text = text.replace(bot_mention or "", "").replace(alt_mention or "", "").replace(standard_mention or "", "").strip()
# Don't return early if text is empty — still process the mention (e.g., create thread)
# --- Determine thread/channel routing and typing target ---
thread_id = None
chat_id = None
typing_target = None # The Discord object to type into
if isinstance(message.channel, self._discord_module.Thread):
# --- Message already inside a thread ---
thread_obj = message.channel
thread_id = str(thread_obj.id)
chat_id = str(thread_obj.parent_id or thread_obj.id)
typing_target = thread_obj
# If this is a known active thread, process normally
if thread_id in self._active_thread_ids:
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
self._publish(inbound)
# Start typing indicator in the thread
if typing_target:
asyncio.create_task(self._start_typing(typing_target, chat_id, thread_id))
asyncio.create_task(self._add_reaction(message))
return
# Thread not tracked (orphaned) — create new thread and handle below
logger.debug("[Discord] message in orphaned thread %s, will create new thread", thread_id)
thread_id = None
typing_target = None
# At this point we're guaranteed to be in a channel, not a thread
# (the Thread case is handled above). Apply mention_only for all
# non-thread messages — no special case needed.
channel_id = str(message.channel.id)
# Check if there's an active thread for this channel
if channel_id in self._active_threads:
# respect mention_only: if enabled, only process messages that mention the bot
# (unless the channel is in allowed_channels)
# Messages within a thread are always allowed through (continuation).
# At this code point we know the message is in a channel, not a thread
# (Thread case handled above), so always apply the check.
if self._mention_only and not has_mention and channel_id not in self._allowed_channels:
logger.debug("[Discord] skipping no-@ message in channel %s (not in thread)", channel_id)
return
# mention_only + fresh @ → create new thread instead of routing to existing one
if self._mention_only and has_mention:
thread_obj = await self._create_thread(message)
if thread_obj is not None:
target_thread_id = str(thread_obj.id)
self._active_threads[channel_id] = target_thread_id
self._save_thread(channel_id, target_thread_id)
thread_id = target_thread_id
chat_id = channel_id
typing_target = thread_obj
logger.info("[Discord] created new thread %s in channel %s on mention (replacing existing thread)", target_thread_id, channel_id)
else:
logger.info("[Discord] thread creation failed in channel %s, falling back to channel replies", channel_id)
thread_id = channel_id
chat_id = channel_id
typing_target = message.channel
else:
# Existing session → route to the existing thread
target_thread_id = self._active_threads[channel_id]
logger.debug("[Discord] routing message in channel %s to existing thread %s", channel_id, target_thread_id)
thread_id = target_thread_id
chat_id = channel_id
typing_target = await self._get_channel_or_thread(target_thread_id)
elif self._mention_only and not has_mention and channel_id not in self._allowed_channels:
# Not mentioned and not in an allowed channel → skip
logger.debug("[Discord] skipping message without mention in channel %s", channel_id)
return
elif self._mention_only and has_mention:
# First mention in this channel → create thread
thread_obj = await self._create_thread(message)
if thread_obj is not None:
target_thread_id = str(thread_obj.id)
self._active_threads[channel_id] = target_thread_id
self._save_thread(channel_id, target_thread_id)
thread_id = target_thread_id
chat_id = channel_id
typing_target = thread_obj # Type into the new thread
logger.info("[Discord] created thread %s in channel %s for user %s", target_thread_id, channel_id, message.author.display_name)
else:
# Fallback: thread creation failed (disabled/permissions), reply in channel
logger.info("[Discord] thread creation failed in channel %s, falling back to channel replies", channel_id)
thread_id = channel_id
chat_id = channel_id
typing_target = message.channel # Type into the channel
elif self._thread_mode:
# thread_mode but mention_only is False → create thread anyway for conversation grouping
thread_obj = await self._create_thread(message)
if thread_obj is None:
# Thread creation failed (disabled/permissions), fall back to channel replies
logger.info("[Discord] thread creation failed in channel %s, falling back to channel replies", channel_id)
thread_id = channel_id
chat_id = channel_id
typing_target = message.channel # Type into the channel
else:
target_thread_id = str(thread_obj.id)
self._active_threads[channel_id] = target_thread_id
self._save_thread(channel_id, target_thread_id)
thread_id = target_thread_id
chat_id = channel_id
typing_target = thread_obj # Type into the new thread
chat_id = str(message.channel.parent_id or message.channel.id)
thread_id = str(message.channel.id)
else:
# No threading — reply directly in channel
thread_id = channel_id
chat_id = channel_id
typing_target = message.channel # Type into the channel
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(
@@ -422,15 +177,6 @@ class DiscordChannel(Channel):
)
inbound.topic_id = thread_id
# Start typing indicator in the correct target (thread or channel)
if typing_target:
asyncio.create_task(self._start_typing(typing_target, chat_id, thread_id))
self._publish(inbound)
asyncio.create_task(self._add_reaction(message))
def _publish(self, inbound) -> None:
"""Publish an inbound message to the main event loop."""
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)
@@ -452,40 +198,14 @@ class DiscordChannel(Channel):
async def _create_thread(self, message):
try:
if self._discord_module is None:
return None
# Only TextChannel (type 0) and NewsChannel (type 10) support threads
channel_type = message.channel.type
if channel_type not in (
self._discord_module.ChannelType.text,
self._discord_module.ChannelType.news,
):
logger.info(
"[Discord] channel type %s (%s) does not support threads",
channel_type.value,
channel_type.name,
)
return None
thread_name = f"deerflow-{message.author.display_name}-{message.id}"[:100]
return await message.create_thread(name=thread_name)
except self._discord_module.errors.HTTPException as exc:
if exc.code == 50024:
logger.info(
"[Discord] cannot create thread in channel %s (error code 50024): %s",
message.channel.id,
channel_type.name if (channel_type := message.channel.type) else "unknown",
)
else:
logger.exception(
"[Discord] failed to create thread for message=%s (HTTPException %s)",
message.id,
exc.code,
)
return None
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):
backend/app/channels/feishu.py
+9 -188
View File
@@ -7,26 +7,16 @@ import json
import logging
import re
import threading
import time
from typing import Any, Literal
from app.channels.base import Channel
from app.channels.commands import KNOWN_CHANNEL_COMMANDS
from app.channels.message_bus import (
PENDING_CLARIFICATION_METADATA_KEY,
RESOLVED_FROM_PENDING_CLARIFICATION_METADATA_KEY,
InboundMessage,
InboundMessageType,
MessageBus,
OutboundMessage,
ResolvedAttachment,
)
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
logger = logging.getLogger(__name__)
PENDING_CLARIFICATION_TTL_SECONDS = 30 * 60
def _is_feishu_command(text: str) -> bool:
@@ -66,7 +56,6 @@ class FeishuChannel(Channel):
self._background_tasks: set[asyncio.Task] = set()
self._running_card_ids: dict[str, str] = {}
self._running_card_tasks: dict[str, asyncio.Task] = {}
self._pending_clarifications: dict[tuple[str, str], list[dict[str, Any]]] = {}
self._CreateFileRequest = None
self._CreateFileRequestBody = None
self._CreateImageRequest = None
@@ -74,16 +63,6 @@ class FeishuChannel(Channel):
self._GetMessageResourceRequest = None
self._thread_lock = threading.Lock()
@staticmethod
def _non_empty_str(value: Any) -> str | None:
if isinstance(value, str) and value.strip():
return value.strip()
return None
@staticmethod
def _pending_key(chat_id: str, user_id: str) -> tuple[str, str]:
return (chat_id, user_id)
@property
def supports_streaming(self) -> bool:
return True
@@ -552,25 +531,18 @@ class FeishuChannel(Channel):
"[Feishu] failed to patch running card %s, falling back to final reply",
running_card_id,
)
fallback_card_id = await self._reply_card(source_message_id, msg.text)
self._remember_thread_mapping(msg, source_message_id, fallback_card_id)
self._remember_pending_clarification(msg, fallback_card_id)
await self._reply_card(source_message_id, msg.text)
else:
self._remember_thread_mapping(msg, source_message_id, running_card_id)
self._remember_pending_clarification(msg, running_card_id)
logger.info("[Feishu] running card updated: source=%s card=%s", source_message_id, running_card_id)
elif msg.is_final:
final_card_id = await self._reply_card(source_message_id, msg.text)
self._remember_thread_mapping(msg, source_message_id, final_card_id)
self._remember_pending_clarification(msg, final_card_id)
await self._reply_card(source_message_id, msg.text)
elif awaited_running_card_task:
logger.warning(
"[Feishu] running card task finished without message_id for source=%s, skipping duplicate non-final creation",
source_message_id,
)
else:
created_card_id = await self._ensure_running_card(source_message_id, msg.text)
self._remember_thread_mapping(msg, source_message_id, created_card_id)
await self._ensure_running_card(source_message_id, msg.text)
if msg.is_final:
self._running_card_ids.pop(source_message_id, None)
@@ -581,129 +553,6 @@ class FeishuChannel(Channel):
# -- internal ----------------------------------------------------------
def _remember_thread_mapping(self, msg: OutboundMessage, *topic_ids: str | None) -> None:
store = self.config.get("channel_store")
if store is None or not msg.thread_id:
return
metadata_topic_ids = [
msg.metadata.get("message_id"),
msg.metadata.get("root_id"),
msg.metadata.get("parent_id"),
msg.metadata.get("thread_id"),
msg.metadata.get("topic_id"),
]
user_id = ""
raw_user_id = msg.metadata.get("user_id")
if isinstance(raw_user_id, str):
user_id = raw_user_id
seen: set[str] = set()
for topic_id in [*topic_ids, *metadata_topic_ids]:
topic_id = self._non_empty_str(topic_id)
if not topic_id or topic_id in seen:
continue
seen.add(topic_id)
try:
store.set_thread_id(
self.name,
msg.chat_id,
msg.thread_id,
topic_id=topic_id,
user_id=user_id,
)
except Exception:
logger.exception("[Feishu] failed to remember thread mapping for topic_id=%s", topic_id)
def _remember_pending_clarification(self, msg: OutboundMessage, card_message_id: str | None) -> None:
if not msg.is_final or msg.metadata.get(PENDING_CLARIFICATION_METADATA_KEY) is not True:
return
user_id = self._non_empty_str(msg.metadata.get("user_id"))
topic_id = self._non_empty_str(msg.metadata.get("topic_id"))
source_message_id = self._non_empty_str(msg.thread_ts) or self._non_empty_str(msg.metadata.get("message_id"))
if not (user_id and topic_id and msg.thread_id and source_message_id and card_message_id):
return
key = self._pending_key(msg.chat_id, user_id)
pending = {
"thread_id": msg.thread_id,
"topic_id": topic_id,
"source_message_id": source_message_id,
"card_message_id": card_message_id,
"created_at": time.time(),
}
with self._thread_lock:
# Plain-message clarification continuity is a short-lived in-memory
# hint; explicit Feishu replies are still covered by persisted
# message-id mappings.
self._pending_clarifications.setdefault(key, []).append(pending)
logger.info(
"[Feishu] pending clarification remembered: chat_id=%s user_id=%s topic_id=%s thread_id=%s",
msg.chat_id,
user_id,
topic_id,
msg.thread_id,
)
def _consume_pending_clarification(self, chat_id: str, user_id: str) -> dict[str, Any] | None:
key = self._pending_key(chat_id, user_id)
with self._thread_lock:
pending_items = self._pending_clarifications.get(key)
if not pending_items:
return None
now = time.time()
while pending_items:
pending = pending_items.pop(0)
created_at = pending.get("created_at")
if isinstance(created_at, (int, float)) and now - created_at <= PENDING_CLARIFICATION_TTL_SECONDS:
if pending_items:
self._pending_clarifications[key] = pending_items
else:
self._pending_clarifications.pop(key, None)
return pending
logger.info("[Feishu] pending clarification expired: chat_id=%s user_id=%s", chat_id, user_id)
self._pending_clarifications.pop(key, None)
return None
def _ensure_pending_thread_mapping(self, chat_id: str, user_id: str, pending: dict[str, Any]) -> None:
store = self.config.get("channel_store")
topic_id = self._non_empty_str(pending.get("topic_id"))
thread_id = self._non_empty_str(pending.get("thread_id"))
if store is None or not topic_id or not thread_id:
return
try:
store.set_thread_id(self.name, chat_id, thread_id, topic_id=topic_id, user_id=user_id)
except Exception:
logger.exception("[Feishu] failed to restore pending clarification mapping for topic_id=%s", topic_id)
def _resolve_topic_id(
self,
chat_id: str,
msg_id: str,
*,
root_id: str | None,
parent_id: str | None,
thread_id: str | None,
) -> tuple[str, bool]:
store = self.config.get("channel_store")
candidates = [root_id, parent_id, thread_id]
if store is not None:
for candidate in candidates:
candidate = self._non_empty_str(candidate)
if not candidate:
continue
try:
if store.get_thread_id(self.name, chat_id, topic_id=candidate):
return candidate, True
except Exception:
logger.exception("[Feishu] failed to resolve stored topic mapping for topic_id=%s", candidate)
return root_id or msg_id, False
@staticmethod
def _log_future_error(fut, name: str, msg_id: str) -> None:
"""Callback for run_coroutine_threadsafe futures to surface errors."""
@@ -744,9 +593,7 @@ class FeishuChannel(Channel):
# root_id is set when the message is a reply within a Feishu thread.
# Use it as topic_id so all replies share the same DeerFlow thread.
root_id = self._non_empty_str(getattr(message, "root_id", None))
parent_id = self._non_empty_str(getattr(message, "parent_id", None))
feishu_thread_id = self._non_empty_str(getattr(message, "thread_id", None))
root_id = getattr(message, "root_id", None) or None
# Parse message content
content = json.loads(message.content)
@@ -807,12 +654,10 @@ class FeishuChannel(Channel):
text = text.strip()
logger.info(
"[Feishu] parsed message: chat_id=%s, msg_id=%s, root_id=%s, parent_id=%s, thread_id=%s, sender=%s, text=%r",
"[Feishu] parsed message: chat_id=%s, msg_id=%s, root_id=%s, sender=%s, text=%r",
chat_id,
msg_id,
root_id,
parent_id,
feishu_thread_id,
sender_id,
text[:100] if text else "",
)
@@ -828,24 +673,8 @@ class FeishuChannel(Channel):
else:
msg_type = InboundMessageType.CHAT
# Prefer any platform message id that already maps to a DeerFlow
# thread. This keeps replies to bot clarification cards in the
# original conversation even when Feishu reports the card as root.
topic_id, resolved_from_stored_mapping = self._resolve_topic_id(
chat_id,
msg_id,
root_id=root_id,
parent_id=parent_id,
thread_id=feishu_thread_id,
)
resolved_from_pending = False
if msg_type == InboundMessageType.CHAT and not resolved_from_stored_mapping:
pending = self._consume_pending_clarification(chat_id, sender_id)
pending_topic_id = self._non_empty_str(pending.get("topic_id")) if pending else None
if pending_topic_id:
topic_id = pending_topic_id
self._ensure_pending_thread_mapping(chat_id, sender_id, pending)
resolved_from_pending = True
# topic_id: use root_id for replies (same topic), msg_id for new messages (new topic)
topic_id = root_id or msg_id
inbound = self._make_inbound(
chat_id=chat_id,
@@ -854,15 +683,7 @@ class FeishuChannel(Channel):
msg_type=msg_type,
thread_ts=msg_id,
files=files_list,
metadata={
"message_id": msg_id,
"root_id": root_id,
"parent_id": parent_id,
"thread_id": feishu_thread_id,
"topic_id": topic_id,
"user_id": sender_id,
RESOLVED_FROM_PENDING_CLARIFICATION_METADATA_KEY: resolved_from_pending,
},
metadata={"message_id": msg_id, "root_id": root_id},
)
inbound.topic_id = topic_id
backend/app/channels/manager.py
+27 -103
View File
@@ -15,18 +15,10 @@ import httpx
from langgraph_sdk.errors import ConflictError
from app.channels.commands import KNOWN_CHANNEL_COMMANDS
from app.channels.message_bus import (
PENDING_CLARIFICATION_METADATA_KEY,
InboundMessage,
InboundMessageType,
MessageBus,
OutboundMessage,
ResolvedAttachment,
)
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.config.paths import make_safe_user_id
from deerflow.runtime.user_context import get_effective_user_id
logger = logging.getLogger(__name__)
@@ -154,6 +146,13 @@ def _normalize_custom_agent_name(raw_value: str) -> str:
return normalized
def _strip_loop_warning_text(text: str) -> str:
"""Remove middleware-authored loop warning lines from display text."""
if "[LOOP DETECTED]" not in text:
return text
return "\n".join(line for line in text.splitlines() if "[LOOP DETECTED]" not in line).strip()
def _extract_response_text(result: dict | list) -> str:
"""Extract the last AI message text from a LangGraph runs.wait result.
@@ -163,6 +162,7 @@ def _extract_response_text(result: dict | list) -> str:
Handles special cases:
- Regular AI text responses
- Clarification interrupts (``ask_clarification`` tool messages)
- Strips loop-detection warnings attached to tool-call AI messages
"""
if isinstance(result, list):
messages = result
@@ -181,8 +181,6 @@ def _extract_response_text(result: dict | list) -> str:
# Stop at the last human message — anything before it is a previous turn
if msg_type == "human":
if _is_hidden_human_control_message(msg):
continue
break
# Check for tool messages from ask_clarification (interrupt case)
@@ -194,7 +192,12 @@ def _extract_response_text(result: dict | list) -> str:
# Regular AI message with text content
if msg_type == "ai":
content = msg.get("content", "")
has_tool_calls = bool(msg.get("tool_calls"))
if isinstance(content, str) and content:
if has_tool_calls:
content = _strip_loop_warning_text(content)
if not content:
continue
return content
# content can be a list of content blocks
if isinstance(content, list):
@@ -205,59 +208,13 @@ def _extract_response_text(result: dict | list) -> str:
elif isinstance(block, str):
parts.append(block)
text = "".join(parts)
if has_tool_calls:
text = _strip_loop_warning_text(text)
if text:
return text
return ""
def _messages_from_result(result: dict | list) -> list[Any]:
if isinstance(result, list):
return result
if isinstance(result, dict):
messages = result.get("messages", [])
if isinstance(messages, list):
return messages
return []
def _current_turn_messages(result: dict | list) -> list[dict[str, Any]]:
messages = _messages_from_result(result)
current_turn: list[dict[str, Any]] = []
for msg in reversed(messages):
if not isinstance(msg, dict):
continue
if msg.get("type") == "human":
break
current_turn.append(msg)
current_turn.reverse()
return current_turn
def _has_current_turn_clarification(result: dict | list) -> bool:
"""Return True only when the current turn's final result is clarification."""
for msg in reversed(_current_turn_messages(result)):
msg_type = msg.get("type")
if msg_type == "tool":
return msg.get("name") == "ask_clarification"
if msg_type == "ai":
content = msg.get("content")
if isinstance(content, str):
if content:
return False
elif content:
return False
if msg.get("tool_calls"):
return False
return False
def _response_metadata(base_metadata: dict[str, Any], *, pending_clarification: bool = False) -> dict[str, Any]:
metadata = _slim_metadata(base_metadata)
if pending_clarification:
metadata[PENDING_CLARIFICATION_METADATA_KEY] = True
return metadata
def _extract_text_content(content: Any) -> str:
"""Extract text from a streaming payload content field."""
if isinstance(content, str):
@@ -371,8 +328,6 @@ def _extract_artifacts(result: dict | list) -> list[str]:
continue
# Stop at the last human message — anything before it is a previous turn
if msg.get("type") == "human":
if _is_hidden_human_control_message(msg):
continue
break
# Look for AI messages with present_files tool calls
if msg.get("type") == "ai":
@@ -385,18 +340,6 @@ def _extract_artifacts(result: dict | list) -> list[str]:
return artifacts
def _is_hidden_human_control_message(msg: Mapping[str, Any]) -> bool:
"""Return whether a human message is an internal control message hidden from UI."""
if msg.get("type") != "human":
return False
additional_kwargs = msg.get("additional_kwargs")
if not isinstance(additional_kwargs, Mapping):
return False
return additional_kwargs.get("hide_from_ui") is True
def _format_artifact_text(artifacts: list[str]) -> str:
"""Format artifact paths into a human-readable text block listing filenames."""
import posixpath
@@ -671,20 +614,12 @@ class ChannelManager:
configurable["checkpoint_ns"] = ""
configurable["thread_id"] = thread_id
# ``user_id`` drives user-scoped filesystem buckets that only accept
# ``[A-Za-z0-9_-]``, so normalize the channel id and keep the raw value
# under ``channel_user_id`` for platform-facing lookups.
run_context_identity: dict[str, Any] = {"thread_id": thread_id}
if msg.user_id:
run_context_identity["user_id"] = make_safe_user_id(msg.user_id)
run_context_identity["channel_user_id"] = msg.user_id
run_context = _merge_dicts(
DEFAULT_RUN_CONTEXT,
self._default_session.get("context"),
channel_layer.get("context"),
user_layer.get("context"),
run_context_identity,
{"thread_id": thread_id},
)
# Custom agents are implemented as lead_agent + agent_name context.
@@ -852,25 +787,15 @@ class ChannelManager:
return
logger.info("[Manager] invoking runs.wait(thread_id=%s, text=%r)", thread_id, msg.text[:100])
try:
result = await client.runs.wait(
thread_id,
assistant_id,
input={"messages": [{"role": "human", "content": msg.text}]},
config=run_config,
context=run_context,
multitask_strategy="reject",
)
except Exception as exc:
if _is_thread_busy_error(exc):
logger.warning("[Manager] thread busy (concurrent run rejected): thread_id=%s", thread_id)
await self._send_error(msg, THREAD_BUSY_MESSAGE)
return
else:
raise
result = await client.runs.wait(
thread_id,
assistant_id,
input={"messages": [{"role": "human", "content": msg.text}]},
config=run_config,
context=run_context,
)
response_text = _extract_response_text(result)
pending_clarification = _has_current_turn_clarification(result)
artifacts = _extract_artifacts(result)
logger.info(
@@ -896,7 +821,7 @@ class ChannelManager:
artifacts=artifacts,
attachments=attachments,
thread_ts=msg.thread_ts,
metadata=_response_metadata(msg.metadata, pending_clarification=pending_clarification),
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)
@@ -958,7 +883,7 @@ class ChannelManager:
text=latest_text,
is_final=False,
thread_ts=msg.thread_ts,
metadata=_response_metadata(msg.metadata),
metadata=_slim_metadata(msg.metadata),
)
)
last_published_text = latest_text
@@ -972,7 +897,6 @@ class ChannelManager:
finally:
result = last_values if last_values is not None else {"messages": [{"type": "ai", "content": latest_text}]}
response_text = _extract_response_text(result)
pending_clarification = _has_current_turn_clarification(result)
artifacts = _extract_artifacts(result)
response_text, attachments = _prepare_artifact_delivery(thread_id, response_text, artifacts)
@@ -1004,7 +928,7 @@ class ChannelManager:
attachments=attachments,
is_final=True,
thread_ts=msg.thread_ts,
metadata=_response_metadata(msg.metadata, pending_clarification=pending_clarification),
metadata=_slim_metadata(msg.metadata),
)
)
backend/app/channels/message_bus.py
-3
View File
@@ -13,9 +13,6 @@ from typing import Any
logger = logging.getLogger(__name__)
PENDING_CLARIFICATION_METADATA_KEY = "pending_clarification"
RESOLVED_FROM_PENDING_CLARIFICATION_METADATA_KEY = "resolved_from_pending_clarification"
# ---------------------------------------------------------------------------
# Message types
backend/app/channels/service.py
-2
View File
@@ -167,8 +167,6 @@ class ChannelService:
return False
try:
config = dict(config)
config["channel_store"] = self.store
channel = channel_cls(bus=self.bus, config=config)
self._channels[name] = channel
await channel.start()
backend/app/gateway/app.py
+5 -11
View File
@@ -161,16 +161,10 @@ async def _migrate_orphaned_threads(store, admin_user_id: str) -> int:
async def lifespan(app: FastAPI) -> AsyncGenerator[None, None]:
"""Application lifespan handler."""
# Load config and check necessary environment variables at startup.
# `startup_config` is a local snapshot used only for one-shot bootstrap
# work (logging level, langgraph_runtime engines, channels). Request-time
# config resolution always routes through `get_app_config()` in
# `app/gateway/deps.py::get_config()` so `config.yaml` edits become
# visible without a process restart. We deliberately do NOT cache this
# snapshot on `app.state` to keep that contract enforceable.
# Load config and check necessary environment variables at startup
try:
startup_config = get_app_config()
apply_logging_level(startup_config.log_level)
app.state.config = get_app_config()
apply_logging_level(app.state.config.log_level)
logger.info("Configuration loaded successfully")
except Exception as e:
error_msg = f"Failed to load configuration during gateway startup: {e}"
@@ -180,7 +174,7 @@ async def lifespan(app: FastAPI) -> AsyncGenerator[None, None]:
logger.info(f"Starting API Gateway on {config.host}:{config.port}")
# Initialize LangGraph runtime components (StreamBridge, RunManager, checkpointer, store)
async with langgraph_runtime(app, startup_config):
async with langgraph_runtime(app):
logger.info("LangGraph runtime initialised")
# Check admin bootstrap state and migrate orphan threads after admin exists.
@@ -191,7 +185,7 @@ async def lifespan(app: FastAPI) -> AsyncGenerator[None, None]:
try:
from app.channels.service import start_channel_service
channel_service = await start_channel_service(startup_config)
channel_service = await start_channel_service(app.state.config)
logger.info("Channel service started: %s", channel_service.get_status())
except Exception:
logger.exception("No IM channels configured or channel service failed to start")
backend/app/gateway/auth/config.py
+3 -31
View File
@@ -8,8 +8,6 @@ from pydantic import BaseModel, Field
logger = logging.getLogger(__name__)
_SECRET_FILE = ".jwt_secret"
class AuthConfig(BaseModel):
"""JWT and auth-related configuration. Parsed once at startup.
@@ -32,32 +30,6 @@ class AuthConfig(BaseModel):
_auth_config: AuthConfig | None = None
def _load_or_create_secret() -> str:
"""Load persisted JWT secret from ``{base_dir}/.jwt_secret``, or generate and persist a new one."""
from deerflow.config.paths import get_paths
paths = get_paths()
secret_file = paths.base_dir / _SECRET_FILE
try:
if secret_file.exists():
secret = secret_file.read_text(encoding="utf-8").strip()
if secret:
return secret
except OSError as exc:
raise RuntimeError(f"Failed to read JWT secret from {secret_file}. Set AUTH_JWT_SECRET explicitly or fix DEER_FLOW_HOME/base directory permissions so DeerFlow can read its persisted auth secret.") from exc
secret = secrets.token_urlsafe(32)
try:
secret_file.parent.mkdir(parents=True, exist_ok=True)
fd = os.open(secret_file, os.O_WRONLY | os.O_CREAT | os.O_TRUNC, 0o600)
with os.fdopen(fd, "w", encoding="utf-8") as fh:
fh.write(secret)
except OSError as exc:
raise RuntimeError(f"Failed to persist JWT secret to {secret_file}. Set AUTH_JWT_SECRET explicitly or fix DEER_FLOW_HOME/base directory permissions so DeerFlow can store a stable auth secret.") from exc
return secret
def get_auth_config() -> AuthConfig:
"""Get the global AuthConfig instance. Parses from env on first call."""
global _auth_config
@@ -67,11 +39,11 @@ def get_auth_config() -> AuthConfig:
load_dotenv()
jwt_secret = os.environ.get("AUTH_JWT_SECRET")
if not jwt_secret:
jwt_secret = _load_or_create_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 secret "
"persisted to .jwt_secret. Sessions will survive restarts. "
"⚠ 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))"'
)
backend/app/gateway/deps.py
+17 -160
View File
@@ -3,22 +3,11 @@
**Getters** (used by routers): raise 503 when a required dependency is
missing, except ``get_store`` which returns ``None``.
``AppConfig`` is intentionally *not* cached on ``app.state``. Routers and the
run path resolve it through :func:`deerflow.config.app_config.get_app_config`,
which performs mtime-based hot reload, so edits to ``config.yaml`` take
effect on the next request without a process restart. The engines created in
:func:`langgraph_runtime` (stream bridge, persistence, checkpointer, store,
run-event store) accept a ``startup_config`` snapshot they are
restart-required by design and stay bound to that snapshot to keep the live
process consistent with itself.
Initialization is handled directly in ``app.py`` via :class:`AsyncExitStack`.
"""
from __future__ import annotations
import asyncio
import logging
from collections.abc import AsyncGenerator, Callable
from contextlib import AsyncExitStack, asynccontextmanager
from typing import TYPE_CHECKING, TypeVar, cast
@@ -26,144 +15,36 @@ 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, get_app_config
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
logger = logging.getLogger(__name__)
# Upper bound (seconds) for draining in-flight runs during shutdown, before the
# AsyncExitStack tears down the checkpointer (and its connection pool). Kept
# local to avoid an app -> deps -> app import cycle. This is a *separate* budget
# from ``app.gateway.app._SHUTDOWN_HOOK_TIMEOUT_SECONDS`` (currently also 5.0s,
# which bounds channel-service stop): the two govern independent teardown steps
# and may diverge, but both count toward the lifespan shutdown window — revisit
# them together if their sum must stay within the server's graceful-shutdown
# timeout.
_RUN_DRAIN_TIMEOUT_SECONDS = 5.0
async def _drain_inflight_runs(run_manager: RunManager) -> None:
"""Drain in-flight runs before the checkpointer is torn down (issue #3373).
Shields the (internally-bounded) drain so that even if the lifespan
coroutine is itself cancelled mid-shutdown a second SIGINT or the server's
graceful-shutdown timeout, i.e. the same signal storm behind #3373 — the
checkpointer pool is not closed while run tasks are still writing
checkpoints. On such a cancellation we let the already-running drain finish
(it is bounded by ``RunManager.shutdown``'s own timeout) and then propagate
the cancellation.
"""
drain = asyncio.create_task(run_manager.shutdown(timeout=_RUN_DRAIN_TIMEOUT_SECONDS))
try:
await asyncio.shield(drain)
except asyncio.CancelledError:
# Re-shield so this second wait does not abandon the in-flight drain;
# it is bounded, so this cannot hang. Then re-raise to honour shutdown.
try:
await asyncio.shield(drain)
except Exception:
logger.exception("In-flight run drain failed after shutdown cancellation")
raise
except Exception:
logger.exception("Failed to drain in-flight runs during shutdown")
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
from deerflow.runtime import RunRecord
T = TypeVar("T")
async def _mark_latest_recovered_threads_error(
run_manager: RunManager,
thread_store: ThreadMetaStore,
recovered_runs: list[RunRecord],
) -> None:
"""Mark thread status as error only when its newest run was recovered."""
recovered_by_thread: dict[str, set[str]] = {}
for record in recovered_runs:
recovered_by_thread.setdefault(record.thread_id, set()).add(record.run_id)
for thread_id, recovered_run_ids in recovered_by_thread.items():
try:
latest_runs = await run_manager.list_by_thread(thread_id, user_id=None, limit=1)
except Exception:
logger.warning("Failed to find latest run for thread %s during run reconciliation", thread_id, exc_info=True)
continue
if not latest_runs or latest_runs[0].run_id not in recovered_run_ids:
continue
try:
await thread_store.update_status(thread_id, "error", user_id=None)
except Exception:
logger.warning("Failed to mark thread %s as error during run reconciliation", thread_id, exc_info=True)
def get_config() -> AppConfig:
"""Return the freshest ``AppConfig`` for the current request.
Routes through :func:`deerflow.config.app_config.get_app_config`, which
honours runtime ``ContextVar`` overrides and reloads ``config.yaml`` from
disk when its mtime changes. ``AppConfig`` is not cached on ``app.state``
at all the only startup-time snapshot lives as a local
``startup_config`` variable inside ``lifespan()`` and is passed
explicitly into :func:`langgraph_runtime` for the engines that are
restart-required by design. Routing every request through
:func:`get_app_config` closes the bytedance/deer-flow issue #3107 BUG-001
split-brain where the worker / lead-agent thread saw a stale startup
snapshot.
Hot-reload boundary: fields backed by startup-time singletons
(engines, sandbox provider, IM channels, logging handler) require a
process restart to change at runtime. The authoritative list lives in
:mod:`deerflow.config.reload_boundary` and is mirrored by the
standardised ``"startup-only:"`` prefix on the matching
``Field(description=...)`` in :class:`AppConfig` IDE hover on those
fields will surface the boundary inline. See
``backend/CLAUDE.md`` "Config Hot-Reload Boundary" for the operator
summary.
Any failure to materialise the config (missing file, permission denied,
YAML parse error, validation error) is reported as 503 semantically
"the gateway cannot serve requests without a usable configuration" and
logged with the original exception so operators have something to debug.
"""
try:
return get_app_config()
except Exception as exc: # noqa: BLE001 - request boundary: log and degrade gracefully
logger.exception("Failed to load AppConfig at request time")
raise HTTPException(status_code=503, detail="Configuration not available") from exc
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
@asynccontextmanager
async def langgraph_runtime(app: FastAPI, startup_config: AppConfig) -> AsyncGenerator[None, None]:
async def langgraph_runtime(app: FastAPI) -> AsyncGenerator[None, None]:
"""Bootstrap and tear down all LangGraph runtime singletons.
``startup_config`` is the ``AppConfig`` snapshot taken once during
``lifespan()`` for one-shot infrastructure bootstrap. The engines and
stores constructed here (stream bridge, persistence engine, checkpointer,
store, run-event store) are restart-required by design they hold live
connections, file handles, or singleton providers so they bind to this
snapshot and survive across `config.yaml` edits. Request-time consumers
must still go through :func:`get_config` for any field that should be
hot-reloadable. See ``backend/CLAUDE.md`` "Config Hot-Reload Boundary".
The matching ``run_events_config`` is frozen onto ``app.state`` so
:func:`get_run_context` pairs a freshly-loaded ``AppConfig`` with the
*startup-time* run-events configuration the underlying ``event_store``
was built from otherwise the runtime could end up combining a live
new ``run_events_config`` with an event store still bound to the
previous backend.
Usage in ``app.py``::
async with langgraph_runtime(app, startup_config):
async with langgraph_runtime(app):
yield
"""
from deerflow.persistence.engine import close_engine, get_session_factory, init_engine_from_config
@@ -172,7 +53,9 @@ async def langgraph_runtime(app: FastAPI, startup_config: AppConfig) -> AsyncGen
from deerflow.runtime.events.store import make_run_event_store
async with AsyncExitStack() as stack:
config = startup_config
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))
@@ -201,38 +84,16 @@ async def langgraph_runtime(app: FastAPI, startup_config: AppConfig) -> AsyncGen
app.state.thread_store = make_thread_store(sf, app.state.store)
# Run event store. The store and the matching ``run_events_config`` are
# both frozen at startup so ``get_run_context`` does not combine a
# freshly-reloaded ``AppConfig.run_events`` with a store still bound to
# the previous backend.
# Run event store (has its own factory with config-driven backend selection)
run_events_config = getattr(config, "run_events", None)
app.state.run_events_config = run_events_config
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)
if getattr(config.database, "backend", None) == "sqlite":
from deerflow.utils.time import now_iso
# Startup-only recovery: clean shutdowns return no active rows and
# the thread-status update below becomes a no-op.
recovered_runs = await app.state.run_manager.reconcile_orphaned_inflight_runs(
error="Gateway restarted before this run reached a durable final state.",
before=now_iso(),
)
await _mark_latest_recovered_threads_error(app.state.run_manager, app.state.thread_store, recovered_runs)
try:
yield
finally:
# Drain in-flight run tasks BEFORE the AsyncExitStack tears down the
# checkpointer (and its connection pool). A run still mid-graph would
# otherwise leak into asyncio.run() shutdown, where langgraph's
# _checkpointer_put_after_previous aput races the closed pool and
# raises PoolClosed (issue #3373).
run_manager = getattr(app.state, "run_manager", None)
if run_manager is not None:
await _drain_inflight_runs(run_manager)
await close_engine()
@@ -278,20 +139,16 @@ def get_thread_store(request: Request) -> ThreadMetaStore:
def get_run_context(request: Request) -> RunContext:
"""Build a :class:`RunContext` from ``app.state`` singletons.
Returns a *base* context with infrastructure dependencies. The
``app_config`` field is resolved live so per-run fields (e.g.
``models[*].max_tokens``) follow ``config.yaml`` edits; the
``event_store`` / ``run_events_config`` pair stays frozen to the snapshot
captured in :func:`langgraph_runtime` so callers never see a store bound
to one backend paired with a config pointing at another.
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(request.app.state, "run_events_config", None),
run_events_config=getattr(config, "run_events", None),
thread_store=get_thread_store(request),
app_config=get_config(),
app_config=config,
)
backend/app/gateway/internal_auth.py
+5 -17
View File
@@ -1,38 +1,26 @@
"""Authentication for trusted Gateway internal callers."""
"""Process-local authentication for Gateway internal callers."""
from __future__ import annotations
import os
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_ENV_VAR = "DEER_FLOW_INTERNAL_AUTH_TOKEN"
INTERNAL_SYSTEM_ROLE = "internal"
def _load_internal_auth_token() -> str:
token = os.environ.get(INTERNAL_AUTH_ENV_VAR)
if token:
return token
return secrets.token_urlsafe(32)
_INTERNAL_AUTH_TOKEN = _load_internal_auth_token()
_INTERNAL_AUTH_TOKEN = secrets.token_urlsafe(32)
def create_internal_auth_headers() -> dict[str, str]:
"""Return headers that authenticate trusted Gateway internal calls."""
"""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 this Gateway worker's internal token."""
"""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_SYSTEM_ROLE)
return SimpleNamespace(id=DEFAULT_USER_ID, system_role="internal")
backend/app/gateway/pagination.py
-15
View File
@@ -1,15 +0,0 @@
"""Shared pagination helpers for gateway routers."""
from __future__ import annotations
def trim_run_message_page(rows: list[dict], *, limit: int, after_seq: int | None) -> tuple[list[dict], bool]:
"""Trim a ``limit + 1`` run-message page while preserving page boundaries."""
has_more = len(rows) > limit
if not has_more:
return rows, False
if after_seq is not None:
return rows[:limit], True
return rows[-limit:], True
backend/app/gateway/routers/artifacts.py
+5 -24
View File
@@ -20,9 +20,6 @@ ACTIVE_CONTENT_MIME_TYPES = {
"image/svg+xml",
}
MAX_SKILL_ARCHIVE_MEMBER_BYTES = 16 * 1024 * 1024
_SKILL_ARCHIVE_READ_CHUNK_SIZE = 64 * 1024
def _build_content_disposition(disposition_type: str, filename: str) -> str:
"""Build an RFC 5987 encoded Content-Disposition header value."""
@@ -47,22 +44,6 @@ def is_text_file_by_content(path: Path, sample_size: int = 8192) -> bool:
return False
def _read_skill_archive_member(zip_ref: zipfile.ZipFile, info: zipfile.ZipInfo) -> bytes:
"""Read a .skill archive member while enforcing an uncompressed size cap."""
if info.file_size > MAX_SKILL_ARCHIVE_MEMBER_BYTES:
raise HTTPException(status_code=413, detail="Skill archive member is too large to preview")
chunks: list[bytes] = []
total_read = 0
with zip_ref.open(info, "r") as src:
while chunk := src.read(_SKILL_ARCHIVE_READ_CHUNK_SIZE):
total_read += len(chunk)
if total_read > MAX_SKILL_ARCHIVE_MEMBER_BYTES:
raise HTTPException(status_code=413, detail="Skill archive member is too large to preview")
chunks.append(chunk)
return b"".join(chunks)
def _extract_file_from_skill_archive(zip_path: Path, internal_path: str) -> bytes | None:
"""Extract a file from a .skill ZIP archive.
@@ -79,16 +60,16 @@ def _extract_file_from_skill_archive(zip_path: Path, internal_path: str) -> byte
try:
with zipfile.ZipFile(zip_path, "r") as zip_ref:
# List all files in the archive
infos_by_name = {info.filename: info for info in zip_ref.infolist()}
namelist = zip_ref.namelist()
# Try direct path first
if internal_path in infos_by_name:
return _read_skill_archive_member(zip_ref, infos_by_name[internal_path])
if internal_path in namelist:
return zip_ref.read(internal_path)
# Try with any top-level directory prefix (e.g., "skill-name/SKILL.md")
for name, info in infos_by_name.items():
for name in namelist:
if name.endswith("/" + internal_path) or name == internal_path:
return _read_skill_archive_member(zip_ref, info)
return zip_ref.read(name)
# Not found
return None
backend/app/gateway/routers/auth.py
+25 -59
View File
@@ -1,6 +1,5 @@
"""Authentication endpoints."""
import asyncio
import logging
import os
import time
@@ -383,15 +382,9 @@ async def get_me(request: Request):
return UserResponse(id=str(user.id), email=user.email, system_role=user.system_role, needs_setup=user.needs_setup)
# Per-IP cache: ip → (timestamp, result_dict).
# Returns the cached result within the TTL instead of 429, because
# the answer (whether an admin exists) rarely changes and returning
# 429 breaks multi-tab / post-restart reconnection storms.
_SETUP_STATUS_CACHE: dict[str, tuple[float, dict]] = {}
_SETUP_STATUS_CACHE_TTL_SECONDS = 60
_SETUP_STATUS_COOLDOWN: dict[str, float] = {}
_SETUP_STATUS_COOLDOWN_SECONDS = 60
_MAX_TRACKED_SETUP_STATUS_IPS = 10000
_SETUP_STATUS_INFLIGHT: dict[str, asyncio.Task[dict]] = {}
_SETUP_STATUS_INFLIGHT_GUARD = asyncio.Lock()
@router.get("/setup-status")
@@ -399,56 +392,29 @@ 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()
# Return cached result when within TTL — avoids 429 on multi-tab reconnection.
cached = _SETUP_STATUS_CACHE.get(client_ip)
if cached is not None:
cached_time, cached_result = cached
if now - cached_time < _SETUP_STATUS_CACHE_TTL_SECONDS:
return cached_result
async with _SETUP_STATUS_INFLIGHT_GUARD:
# Recheck cache after waiting for the inflight guard.
now = time.time()
cached = _SETUP_STATUS_CACHE.get(client_ip)
if cached is not None:
cached_time, cached_result = cached
if now - cached_time < _SETUP_STATUS_CACHE_TTL_SECONDS:
return cached_result
task = _SETUP_STATUS_INFLIGHT.get(client_ip)
if task is None:
# Evict stale entries when dict grows too large to bound memory usage.
if len(_SETUP_STATUS_CACHE) >= _MAX_TRACKED_SETUP_STATUS_IPS:
cutoff = now - _SETUP_STATUS_CACHE_TTL_SECONDS
stale = [k for k, (t, _) in _SETUP_STATUS_CACHE.items() if t < cutoff]
for k in stale:
del _SETUP_STATUS_CACHE[k]
if len(_SETUP_STATUS_CACHE) >= _MAX_TRACKED_SETUP_STATUS_IPS:
by_time = sorted(_SETUP_STATUS_CACHE.items(), key=lambda entry: entry[1][0])
for k, _ in by_time[: len(by_time) // 2]:
del _SETUP_STATUS_CACHE[k]
async def _compute_setup_status() -> dict:
admin_count = await get_local_provider().count_admin_users()
return {"needs_setup": admin_count == 0}
task = asyncio.create_task(_compute_setup_status())
_SETUP_STATUS_INFLIGHT[client_ip] = task
try:
result = await task
finally:
async with _SETUP_STATUS_INFLIGHT_GUARD:
if _SETUP_STATUS_INFLIGHT.get(client_ip) is task:
del _SETUP_STATUS_INFLIGHT[client_ip]
# Cache only the stable "initialized" result to avoid stale setup redirects.
if result["needs_setup"] is False:
_SETUP_STATUS_CACHE[client_ip] = (time.time(), result)
else:
_SETUP_STATUS_CACHE.pop(client_ip, None)
return result
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):
backend/app/gateway/routers/mcp.py
+13 -132
View File
@@ -63,99 +63,6 @@ class McpConfigUpdateRequest(BaseModel):
)
_MASKED_VALUE = "***"
def _mask_server_config(server: McpServerConfigResponse) -> McpServerConfigResponse:
"""Return a copy of server config with sensitive fields masked.
Masks env values, header values, and removes OAuth secrets so they
are not exposed through the GET API endpoint.
"""
masked_env = {k: _MASKED_VALUE for k in server.env}
masked_headers = {k: _MASKED_VALUE for k in server.headers}
masked_oauth = None
if server.oauth is not None:
masked_oauth = server.oauth.model_copy(
update={
"client_secret": None,
"refresh_token": None,
}
)
return server.model_copy(
update={
"env": masked_env,
"headers": masked_headers,
"oauth": masked_oauth,
}
)
def _merge_preserving_secrets(
incoming: McpServerConfigResponse,
existing: McpServerConfigResponse,
) -> McpServerConfigResponse:
"""Merge incoming config with existing, preserving secrets masked by GET.
When the frontend toggles ``enabled`` it round-trips the full config:
GET (masked) modify enabled PUT (masked values sent back).
This function ensures masked values (``***``) are replaced with the
real secrets from the current on-disk config.
``***`` is only accepted for keys that already exist in *existing*.
New keys must provide a real value.
For OAuth secrets, ``None`` means "preserve the existing stored value"
so masked GET responses can be safely round-tripped. To explicitly clear
a stored secret, clients may send an empty string, which is converted
to ``None`` before persisting.
"""
merged_env = {}
for k, v in incoming.env.items():
if v == _MASKED_VALUE:
if k in existing.env:
merged_env[k] = existing.env[k]
else:
raise HTTPException(
status_code=400,
detail=f"Cannot set env key '{k}' to masked value '***'; provide a real value.",
)
else:
merged_env[k] = v
merged_headers = {}
for k, v in incoming.headers.items():
if v == _MASKED_VALUE:
if k in existing.headers:
merged_headers[k] = existing.headers[k]
else:
raise HTTPException(
status_code=400,
detail=f"Cannot set header '{k}' to masked value '***'; provide a real value.",
)
else:
merged_headers[k] = v
merged_oauth = incoming.oauth
if incoming.oauth is not None and existing.oauth is not None:
# None = preserve (masked round-trip), "" = explicitly clear, else = new value
merged_client_secret = existing.oauth.client_secret if incoming.oauth.client_secret is None else (None if incoming.oauth.client_secret == "" else incoming.oauth.client_secret)
merged_refresh_token = existing.oauth.refresh_token if incoming.oauth.refresh_token is None else (None if incoming.oauth.refresh_token == "" else incoming.oauth.refresh_token)
merged_oauth = incoming.oauth.model_copy(
update={
"client_secret": merged_client_secret,
"refresh_token": merged_refresh_token,
}
)
return incoming.model_copy(
update={
"env": merged_env,
"headers": merged_headers,
"oauth": merged_oauth,
}
)
@router.get(
"/mcp/config",
response_model=McpConfigResponse,
@@ -176,7 +83,7 @@ async def get_mcp_configuration() -> McpConfigResponse:
"enabled": true,
"command": "npx",
"args": ["-y", "@modelcontextprotocol/server-github"],
"env": {"GITHUB_TOKEN": "***"},
"env": {"GITHUB_TOKEN": "ghp_xxx"},
"description": "GitHub MCP server for repository operations"
}
}
@@ -185,8 +92,7 @@ async def get_mcp_configuration() -> McpConfigResponse:
"""
config = get_extensions_config()
servers = {name: _mask_server_config(McpServerConfigResponse(**server.model_dump())) for name, server in config.mcp_servers.items()}
return McpConfigResponse(mcp_servers=servers)
return McpConfigResponse(mcp_servers={name: McpServerConfigResponse(**server.model_dump()) for name, server in config.mcp_servers.items()})
@router.put(
@@ -236,39 +142,14 @@ async def update_mcp_configuration(request: McpConfigUpdateRequest) -> McpConfig
config_path = Path.cwd().parent / "extensions_config.json"
logger.info(f"No existing extensions config found. Creating new config at: {config_path}")
# Load current config to preserve skills
# Load current config to preserve skills configuration
current_config = get_extensions_config()
# Load raw (un-resolved) JSON from disk to use as the merge source.
# This preserves $VAR placeholders in env values and top-level keys
# like mcpInterceptors that would otherwise be lost.
raw_servers: dict[str, dict] = {}
raw_other_keys: dict = {}
if config_path is not None and config_path.exists():
with open(config_path, encoding="utf-8") as f:
raw_data = json.load(f)
raw_servers = raw_data.get("mcpServers", {})
# Preserve any top-level keys beyond mcpServers/skills
for key, value in raw_data.items():
if key not in ("mcpServers", "skills"):
raw_other_keys[key] = value
# Merge incoming server configs with raw on-disk secrets
merged_servers: dict[str, McpServerConfigResponse] = {}
for name, incoming in request.mcp_servers.items():
raw_server = raw_servers.get(name)
if raw_server is not None:
merged_servers[name] = _merge_preserving_secrets(
incoming,
McpServerConfigResponse(**raw_server),
)
else:
merged_servers[name] = incoming
# Build config data preserving all top-level keys from the original file
config_data = dict(raw_other_keys)
config_data["mcpServers"] = {name: server.model_dump() for name, server in merged_servers.items()}
config_data["skills"] = {name: {"enabled": skill.enabled} for name, skill in current_config.skills.items()}
# Convert request to dict format for JSON serialization
config_data = {
"mcpServers": {name: server.model_dump() for name, server in request.mcp_servers.items()},
"skills": {name: {"enabled": skill.enabled} for name, skill in current_config.skills.items()},
}
# Write the configuration to file
with open(config_path, "w", encoding="utf-8") as f:
@@ -276,12 +157,12 @@ async def update_mcp_configuration(request: McpConfigUpdateRequest) -> McpConfig
logger.info(f"MCP configuration updated and saved to: {config_path}")
# Reload the Gateway configuration and update the global cache. The
# agent runtime lives in Gateway, so this keeps API reads and tool
# execution aligned after extensions_config.json changes.
# NOTE: No need to reload/reset cache here - LangGraph Server (separate process)
# will detect config file changes via mtime and reinitialize MCP tools automatically
# Reload the configuration and update the global cache
reloaded_config = reload_extensions_config()
servers = {name: _mask_server_config(McpServerConfigResponse(**server.model_dump())) for name, server in reloaded_config.mcp_servers.items()}
return McpConfigResponse(mcp_servers=servers)
return McpConfigResponse(mcp_servers={name: McpServerConfigResponse(**server.model_dump()) for name, server in reloaded_config.mcp_servers.items()})
except Exception as e:
logger.error(f"Failed to update MCP configuration: {e}", exc_info=True)
backend/app/gateway/routers/runs.py
+18 -18
View File
@@ -7,6 +7,7 @@ is reused so that conversation history is preserved across calls.
from __future__ import annotations
import asyncio
import logging
import uuid
@@ -15,9 +16,8 @@ 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.pagination import trim_run_message_page
from app.gateway.routers.thread_runs import RunCreateRequest
from app.gateway.services import sse_consumer, start_run, wait_for_run_completion
from app.gateway.services import sse_consumer, start_run
from deerflow.runtime import serialize_channel_values
logger = logging.getLogger(__name__)
@@ -66,25 +66,24 @@ async def stateless_wait(body: RunCreateRequest, request: Request) -> dict:
Otherwise a new temporary thread is created.
"""
thread_id = _resolve_thread_id(body)
bridge = get_stream_bridge(request)
run_mgr = get_run_manager(request)
record = await start_run(body, thread_id, request)
completed = True
if record.task is not None:
completed = await wait_for_run_completion(bridge, record, request, run_mgr)
if completed:
checkpointer = get_checkpointer(request)
config = {"configurable": {"thread_id": thread_id}}
try:
checkpoint_tuple = await checkpointer.aget_tuple(config)
if checkpoint_tuple is not None:
checkpoint = getattr(checkpoint_tuple, "checkpoint", {}) or {}
channel_values = checkpoint.get("channel_values", {})
return serialize_channel_values(channel_values)
except Exception:
logger.exception("Failed to fetch final state for run %s", record.run_id)
await record.task
except asyncio.CancelledError:
pass
checkpointer = get_checkpointer(request)
config = {"configurable": {"thread_id": thread_id}}
try:
checkpoint_tuple = await checkpointer.aget_tuple(config)
if checkpoint_tuple is not None:
checkpoint = getattr(checkpoint_tuple, "checkpoint", {}) or {}
channel_values = checkpoint.get("channel_values", {})
return serialize_channel_values(channel_values)
except Exception:
logger.exception("Failed to fetch final state for run %s", record.run_id)
return {"status": record.status.value, "error": record.error}
@@ -130,7 +129,8 @@ async def run_messages(
before_seq=before_seq,
after_seq=after_seq,
)
data, has_more = trim_run_message_page(rows, limit=limit, after_seq=after_seq)
has_more = len(rows) > limit
data = rows[:limit] if has_more else rows
return {"data": data, "has_more": has_more}
backend/app/gateway/routers/thread_runs.py
+32 -72
View File
@@ -21,9 +21,8 @@ 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.pagination import trim_run_message_page
from app.gateway.services import sse_consumer, start_run, wait_for_run_completion
from deerflow.runtime import RunRecord, RunStatus, serialize_channel_values
from app.gateway.services import sse_consumer, start_run
from deerflow.runtime import RunRecord, serialize_channel_values
logger = logging.getLogger(__name__)
router = APIRouter(prefix="/api/threads", tags=["runs"])
@@ -67,14 +66,6 @@ class RunResponse(BaseModel):
multitask_strategy: str = "reject"
created_at: str = ""
updated_at: str = ""
total_input_tokens: int = 0
total_output_tokens: int = 0
total_tokens: int = 0
llm_call_count: int = 0
lead_agent_tokens: int = 0
subagent_tokens: int = 0
middleware_tokens: int = 0
message_count: int = 0
class ThreadTokenUsageModelBreakdown(BaseModel):
@@ -103,12 +94,6 @@ class ThreadTokenUsageResponse(BaseModel):
# ---------------------------------------------------------------------------
def _cancel_conflict_detail(run_id: str, record: RunRecord) -> str:
if record.status in (RunStatus.pending, RunStatus.running):
return f"Run {run_id} is not active on this worker and cannot be cancelled"
return f"Run {run_id} is not cancellable (status: {record.status.value})"
def _record_to_response(record: RunRecord) -> RunResponse:
return RunResponse(
run_id=record.run_id,
@@ -120,14 +105,6 @@ def _record_to_response(record: RunRecord) -> RunResponse:
multitask_strategy=record.multitask_strategy,
created_at=record.created_at,
updated_at=record.updated_at,
total_input_tokens=record.total_input_tokens,
total_output_tokens=record.total_output_tokens,
total_tokens=record.total_tokens,
llm_call_count=record.llm_call_count,
lead_agent_tokens=record.lead_agent_tokens,
subagent_tokens=record.subagent_tokens,
middleware_tokens=record.middleware_tokens,
message_count=record.message_count,
)
@@ -176,25 +153,24 @@ async def stream_run(thread_id: str, body: RunCreateRequest, request: Request) -
@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."""
bridge = get_stream_bridge(request)
run_mgr = get_run_manager(request)
record = await start_run(body, thread_id, request)
completed = True
if record.task is not None:
completed = await wait_for_run_completion(bridge, record, request, run_mgr)
if completed:
checkpointer = get_checkpointer(request)
config = {"configurable": {"thread_id": thread_id}}
try:
checkpoint_tuple = await checkpointer.aget_tuple(config)
if checkpoint_tuple is not None:
checkpoint = getattr(checkpoint_tuple, "checkpoint", {}) or {}
channel_values = checkpoint.get("channel_values", {})
return serialize_channel_values(channel_values)
except Exception:
logger.exception("Failed to fetch final state for run %s", record.run_id)
await record.task
except asyncio.CancelledError:
pass
checkpointer = get_checkpointer(request)
config = {"configurable": {"thread_id": thread_id}}
try:
checkpoint_tuple = await checkpointer.aget_tuple(config)
if checkpoint_tuple is not None:
checkpoint = getattr(checkpoint_tuple, "checkpoint", {}) or {}
channel_values = checkpoint.get("channel_values", {})
return serialize_channel_values(channel_values)
except Exception:
logger.exception("Failed to fetch final state for run %s", record.run_id)
return {"status": record.status.value, "error": record.error}
@@ -204,8 +180,7 @@ async def wait_run(thread_id: str, body: RunCreateRequest, request: Request) ->
async def list_runs(thread_id: str, request: Request) -> list[RunResponse]:
"""List all runs for a thread."""
run_mgr = get_run_manager(request)
user_id = await get_current_user(request)
records = await run_mgr.list_by_thread(thread_id, user_id=user_id)
records = await run_mgr.list_by_thread(thread_id)
return [_record_to_response(r) for r in records]
@@ -214,8 +189,7 @@ async def list_runs(thread_id: str, request: Request) -> list[RunResponse]:
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)
user_id = await get_current_user(request)
record = await run_mgr.get(run_id, user_id=user_id)
record = run_mgr.get(run_id)
if record is None or record.thread_id != thread_id:
raise HTTPException(status_code=404, detail=f"Run {run_id} not found")
return _record_to_response(record)
@@ -238,13 +212,16 @@ async def cancel_run(
- wait=false: Return immediately with 202
"""
run_mgr = get_run_manager(request)
record = await run_mgr.get(run_id)
record = run_mgr.get(run_id)
if record is None or record.thread_id != thread_id:
raise HTTPException(status_code=404, detail=f"Run {run_id} not found")
cancelled = await run_mgr.cancel(run_id, action=action)
if not cancelled:
raise HTTPException(status_code=409, detail=_cancel_conflict_detail(run_id, record))
raise HTTPException(
status_code=409,
detail=f"Run {run_id} is not cancellable (status: {record.status.value})",
)
if wait and record.task is not None:
try:
@@ -260,14 +237,12 @@ async def cancel_run(
@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)
run_mgr = get_run_manager(request)
record = await run_mgr.get(run_id)
record = run_mgr.get(run_id)
if record is None or record.thread_id != thread_id:
raise HTTPException(status_code=404, detail=f"Run {run_id} not found")
if record.store_only:
raise HTTPException(status_code=409, detail=f"Run {run_id} is not active on this worker and cannot be streamed")
bridge = get_stream_bridge(request)
return StreamingResponse(
sse_consumer(bridge, record, request, run_mgr),
media_type="text/event-stream",
@@ -279,12 +254,7 @@ async def join_run(thread_id: str, run_id: str, request: Request) -> StreamingRe
)
# Register GET and POST as separate routes so each method gets a unique OpenAPI
# operationId. ``api_route(methods=["GET", "POST"])`` shares one route registration
# across both methods, which makes FastAPI emit the same ``operationId`` twice and
# warn about a duplicate operation id during OpenAPI generation.
@router.get("/{thread_id}/runs/{run_id}/stream", response_model=None)
@router.post("/{thread_id}/runs/{run_id}/stream", response_model=None)
@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,
@@ -301,18 +271,14 @@ async def stream_existing_run(
remaining buffered events so the client observes a clean shutdown.
"""
run_mgr = get_run_manager(request)
record = await run_mgr.get(run_id)
record = run_mgr.get(run_id)
if record is None or record.thread_id != thread_id:
raise HTTPException(status_code=404, detail=f"Run {run_id} not found")
if record.store_only and action is None:
raise HTTPException(status_code=409, detail=f"Run {run_id} is not active on this worker and cannot be streamed")
# Cancel if an action was requested (stop-button / interrupt flow)
if action is not None:
cancelled = await run_mgr.cancel(run_id, action=action)
if not cancelled:
raise HTTPException(status_code=409, detail=_cancel_conflict_detail(run_id, record))
if wait and record.task is not None:
if cancelled and wait and record.task is not None:
try:
await record.task
except (asyncio.CancelledError, Exception):
@@ -403,7 +369,8 @@ async def list_run_messages(
before_seq=before_seq,
after_seq=after_seq,
)
data, has_more = trim_run_message_page(rows, limit=limit, after_seq=after_seq)
has_more = len(rows) > limit
data = rows[:limit] if has_more else rows
return {"data": data, "has_more": has_more}
@@ -424,15 +391,8 @@ async def list_run_events(
@router.get("/{thread_id}/token-usage", response_model=ThreadTokenUsageResponse)
@require_permission("threads", "read", owner_check=True)
async def thread_token_usage(
thread_id: str,
request: Request,
include_active: bool = Query(default=False, description="Include running run progress snapshots"),
) -> ThreadTokenUsageResponse:
async def thread_token_usage(thread_id: str, request: Request) -> ThreadTokenUsageResponse:
"""Thread-level token usage aggregation."""
run_store = get_run_store(request)
if include_active:
agg = await run_store.aggregate_tokens_by_thread(thread_id, include_active=True)
else:
agg = await run_store.aggregate_tokens_by_thread(thread_id)
agg = await run_store.aggregate_tokens_by_thread(thread_id)
return ThreadTokenUsageResponse(thread_id=thread_id, **agg)
backend/app/gateway/routers/uploads.py
+6 -59
View File
@@ -39,39 +39,15 @@ DEFAULT_MAX_FILE_SIZE = 50 * 1024 * 1024
DEFAULT_MAX_TOTAL_SIZE = 100 * 1024 * 1024
class UploadedFileInfo(BaseModel):
"""Uploaded file metadata exposed by upload and list APIs."""
filename: str
size: int
path: str
virtual_path: str
artifact_url: str
extension: str | None = None
modified: float | None = None
original_filename: str | None = None
markdown_file: str | None = None
markdown_path: str | None = None
markdown_virtual_path: str | None = None
markdown_artifact_url: str | None = None
class UploadResponse(BaseModel):
"""Response model for file upload."""
success: bool
files: list[UploadedFileInfo]
files: list[dict[str, str]]
message: str
skipped_files: list[str] = Field(default_factory=list)
class UploadListResponse(BaseModel):
"""Response model for uploaded file listing."""
files: list[UploadedFileInfo]
count: int
class UploadLimits(BaseModel):
"""Application-level upload limits exposed to clients."""
@@ -93,30 +69,11 @@ def _make_file_sandbox_writable(file_path: os.PathLike[str] | str) -> None:
logger.warning("Skipping sandbox chmod for symlinked upload path: %s", file_path)
return
writable_mode = stat.S_IMODE(file_stat.st_mode) | stat.S_IWUSR | stat.S_IWGRP | stat.S_IWOTH | stat.S_IRGRP | stat.S_IROTH
writable_mode = stat.S_IMODE(file_stat.st_mode) | stat.S_IWUSR | stat.S_IWGRP | stat.S_IWOTH
chmod_kwargs = {"follow_symlinks": False} if os.chmod in os.supports_follow_symlinks else {}
os.chmod(file_path, writable_mode, **chmod_kwargs)
def _make_file_sandbox_readable(file_path: os.PathLike[str] | str) -> None:
"""Ensure uploaded files are readable by the sandbox process.
For Docker sandboxes (AIO), the gateway writes files as root with 0o600
permissions, then bind-mounts the host directory into the container. The
sandbox process inside the container runs as a non-root user and cannot
read those files without group/other read bits. This function adds
``S_IRGRP | S_IROTH`` so the sandbox can read the uploaded content.
"""
file_stat = os.lstat(file_path)
if stat.S_ISLNK(file_stat.st_mode):
logger.warning("Skipping sandbox chmod for symlinked upload path: %s", file_path)
return
readable_mode = stat.S_IMODE(file_stat.st_mode) | stat.S_IRGRP | stat.S_IROTH
chmod_kwargs = {"follow_symlinks": False} if os.chmod in os.supports_follow_symlinks else {}
os.chmod(file_path, readable_mode, **chmod_kwargs)
def _uses_thread_data_mounts(sandbox_provider: SandboxProvider) -> bool:
return bool(getattr(sandbox_provider, "uses_thread_data_mounts", False))
@@ -280,7 +237,7 @@ async def upload_files(
file_info = {
"filename": safe_filename,
"size": file_size,
"size": str(file_size),
"path": str(sandbox_uploads / safe_filename),
"virtual_path": virtual_path,
"artifact_url": upload_artifact_url(thread_id, safe_filename),
@@ -319,16 +276,6 @@ async def upload_files(
_cleanup_uploaded_paths(written_paths)
raise HTTPException(status_code=500, detail=f"Failed to upload {file.filename}: {str(e)}")
# Uploaded files are created with 0o600 permissions (owner read/write only).
# In Docker sandbox deployments the gateway writes as root but the sandbox
# process runs as a non-root user (typically UID 1000). Without group/other
# read bits the sandbox cannot access the files — whether the uploads
# directory is bind-mounted into the container or synced via
# sandbox.update_file. Always add group/other read bits so every sandbox
# configuration can read the uploaded content.
for file_path in written_paths:
_make_file_sandbox_readable(file_path)
if sync_to_sandbox:
for file_path, virtual_path in sandbox_sync_targets:
_make_file_sandbox_writable(file_path)
@@ -357,9 +304,9 @@ async def get_upload_limits(
return _get_upload_limits(config)
@router.get("/list", response_model=UploadListResponse)
@router.get("/list", response_model=dict)
@require_permission("threads", "read", owner_check=True)
async def list_uploaded_files(thread_id: str, request: Request) -> UploadListResponse:
async def list_uploaded_files(thread_id: str, request: Request) -> dict:
"""List all files in a thread's uploads directory."""
try:
uploads_dir = get_uploads_dir(thread_id)
@@ -373,7 +320,7 @@ async def list_uploaded_files(thread_id: str, request: Request) -> UploadListRes
for f in result["files"]:
f["path"] = str(sandbox_uploads / f["filename"])
return UploadListResponse(**result)
return result
@router.delete("/{filename}")
backend/app/gateway/services.py
+13 -91
View File
@@ -15,11 +15,9 @@ from collections.abc import Mapping
from typing import Any
from fastapi import HTTPException, Request
from langchain_core.messages import BaseMessage
from langchain_core.messages.utils import convert_to_messages
from langchain_core.messages import HumanMessage
from app.gateway.deps import get_run_context, get_run_manager, get_stream_bridge
from app.gateway.internal_auth import INTERNAL_SYSTEM_ROLE
from app.gateway.utils import sanitize_log_param
from deerflow.config.app_config import get_app_config
from deerflow.runtime import (
@@ -34,7 +32,6 @@ from deerflow.runtime import (
UnsupportedStrategyError,
run_agent,
)
from deerflow.runtime.runs.naming import resolve_root_run_name
logger = logging.getLogger(__name__)
@@ -78,35 +75,21 @@ def normalize_stream_modes(raw: list[str] | str | None) -> list[str]:
def normalize_input(raw_input: dict[str, Any] | None) -> dict[str, Any]:
"""Convert LangGraph Platform input format to LangChain state dict.
Delegates dictmessage coercion to ``langchain_core.messages.utils.convert_to_messages``
so that ``additional_kwargs`` (e.g. uploaded-file metadata gh #3132), ``id``,
``name``, and non-human roles (ai/system/tool) survive unchanged. An earlier
hand-rolled version only forwarded ``content`` and collapsed every role to
``HumanMessage``, which silently stripped frontend-supplied attachments.
Malformed message dicts (missing ``role``/``type``/``content``, unsupported
role, etc.) raise ``HTTPException(400)`` with the offending index, instead
of bubbling up as a 500. The gateway is a system boundary, so per-entry
validation errors are the right shape for clients to retry against.
"""
"""Convert LangGraph Platform input format to LangChain state dict."""
if raw_input is None:
return {}
messages = raw_input.get("messages")
if messages and isinstance(messages, list):
converted: list[Any] = []
for index, msg in enumerate(messages):
if isinstance(msg, BaseMessage):
converted.append(msg)
elif isinstance(msg, dict):
try:
converted.extend(convert_to_messages([msg]))
except (ValueError, TypeError, NotImplementedError) as exc:
raise HTTPException(
status_code=400,
detail=f"Invalid message at input.messages[{index}]: {exc}",
) from exc
converted = []
for msg in messages:
if isinstance(msg, dict):
role = msg.get("role", msg.get("type", "user"))
content = msg.get("content", "")
if role in ("user", "human"):
converted.append(HumanMessage(content=content))
else:
# TODO: handle other message types (system, ai, tool)
converted.append(HumanMessage(content=content))
else:
converted.append(msg)
return {**raw_input, "messages": converted}
@@ -141,14 +124,7 @@ def merge_run_context_overrides(config: dict[str, Any], context: Mapping[str, An
"""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).
``user_id`` is intentionally propagated into ``config['context']`` in addition to
the whitelisted keys, so non-web callers (e.g. IM channels) that supply identity in
``body.context`` keep it on ``ToolRuntime.context``. It is merged with
``setdefault`` so a server-authenticated id stamped by
:func:`inject_authenticated_user_context` always wins over the client-supplied one.
"""
see issue #2677)."""
if not context:
return
configurable = config.setdefault("configurable", {})
@@ -159,8 +135,6 @@ def merge_run_context_overrides(config: dict[str, Any], context: Mapping[str, An
configurable.setdefault(key, context[key])
if isinstance(runtime_context, dict):
runtime_context.setdefault(key, context[key])
if "user_id" in context and isinstance(runtime_context, dict):
runtime_context.setdefault("user_id", context["user_id"])
def inject_authenticated_user_context(config: dict[str, Any], request: Request) -> None:
@@ -176,9 +150,6 @@ def inject_authenticated_user_context(config: dict[str, Any], request: Request)
if user_id is None:
return
if getattr(user, "system_role", None) == INTERNAL_SYSTEM_ROLE:
return
runtime_context = config.setdefault("context", {})
if isinstance(runtime_context, dict):
runtime_context["user_id"] = str(user_id)
@@ -264,7 +235,6 @@ def build_run_config(
target = config.setdefault("configurable", {})
if target is not None and "agent_name" not in target:
target["agent_name"] = normalized
config.setdefault("run_name", resolve_root_run_name(config, normalized))
if metadata:
config.setdefault("metadata", {}).update(metadata)
return config
@@ -415,51 +385,3 @@ async def sse_consumer(
if record.status in (RunStatus.pending, RunStatus.running):
if record.on_disconnect == DisconnectMode.cancel:
await run_mgr.cancel(record.run_id)
async def wait_for_run_completion(
bridge: StreamBridge,
record: RunRecord,
request: Request,
run_mgr: RunManager,
) -> bool:
"""Block until the run publishes ``END_SENTINEL``, honouring on_disconnect.
The non-streaming ``/wait`` endpoints used to ``await record.task``
directly with no disconnect handling. When the client (or an
intermediate HTTP proxy) timed out during a long tool call such as
``pip install``, the handler would swallow ``CancelledError`` and
serialize whatever checkpoint happened to exist masking a half-finished
run as a normal completion (issue #3265).
This helper consumes the same bridge that ``sse_consumer`` does so the
wait path shares its disconnect semantics: each wake-up polls
``request.is_disconnected()``; on a real disconnect it cancels the
background run when ``record.on_disconnect`` is ``cancel``. The bridge's
heartbeat sentinels guarantee at least one wake-up per
``heartbeat_interval`` even when the agent emits no events for a while.
Returns:
``True`` when ``END_SENTINEL`` was observed (run reached a terminal
state), ``False`` when the loop exited because the client
disconnected. Callers must skip checkpoint serialization on
``False`` so a partial checkpoint is not returned as a normal
response.
"""
completed = False
try:
async for entry in bridge.subscribe(record.run_id):
# END_SENTINEL means the run reached a terminal state; honour it
# even if the client just disconnected so the caller still serializes
# the real final checkpoint.
if entry is END_SENTINEL:
completed = True
return True
if await request.is_disconnected():
break
# Heartbeats and regular events: keep waiting for END_SENTINEL.
return completed
finally:
if not completed and record.status in (RunStatus.pending, RunStatus.running):
if record.on_disconnect == DisconnectMode.cancel:
await run_mgr.cancel(record.run_id)
backend/docs/API.md
+7
View File
@@ -241,6 +241,13 @@ GET /api/mcp/config
"GITHUB_TOKEN": "***"
},
"description": "GitHub operations"
},
"filesystem": {
"enabled": false,
"type": "stdio",
"command": "npx",
"args": ["-y", "@modelcontextprotocol/server-filesystem"],
"description": "File system access"
}
}
}
backend/docs/AUTH_TEST_DOCKER_GAP.md
+2 -2
View File
@@ -29,7 +29,7 @@ All other test plan sections were executed against either:
| 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 use internal Gateway auth | Verify Feishu/Slack/Telegram dispatchers attach the process-local internal auth header plus CSRF cookie/header when calling Gateway-compatible LangGraph APIs | needs `docker logs` |
| TC-DOCKER-05 | Reset credentials surfacing | `reset_admin` writes a 0600 credential file in `DEER_FLOW_HOME` instead of logging plaintext. The file-based behavior is validated by non-Docker reset tests, 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 | Docker deploy uses Gateway embedded runtime | `./scripts/deploy.sh` produces a Gateway + frontend + nginx topology (no `langgraph` container); same auth flow as local `make dev` | needs `docker compose up` |
| 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
@@ -43,7 +43,7 @@ the test cases that ran on sg_dev or local:
| 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 use internal auth) | Code-level: `app/channels/manager.py` creates the `langgraph_sdk` client with `create_internal_auth_headers()` plus CSRF cookie/header, so channel workers do not rely on browser cookies |
| TC-DOCKER-05 (credential surfacing) | `reset_admin` writes `.deer-flow/admin_initial_credentials.txt` with mode 0600 and logs only the path — 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 embedded runtime container) | Section 七 7.2 covered by TC-GW-01..05 + Section 二 (Gateway auth flow on sg_dev) — same Gateway code, container is just a packaging 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
backend/docs/AUTH_TEST_PLAN.md
+51 -30
View File
@@ -4,12 +4,10 @@
| 模式 | 启动命令 | Auth 层 | 端口 |
|------|---------|---------|------|
| 标准模式 | `make dev` | Gateway AuthMiddleware(全量) | 2026 (nginx) |
| 标准模式 | `make dev` | Gateway AuthMiddleware + LangGraph auth | 2026 (nginx) |
| Gateway 模式 | `make dev-pro` | Gateway AuthMiddleware(全量) | 2026 (nginx) |
| 直连 Gateway | `cd backend && make gateway` | Gateway AuthMiddleware | 8001 |
| 直连 LangGraph 兼容性 | 手动运行 LangGraph 工具链时使用 | LangGraph auth | 2024 |
`make dev`、Docker dev 和生产部署默认都运行 Gateway embedded runtime。
`app.gateway.langgraph_auth` 仅用于保留的直连 LangGraph 工具链 / Studio 兼容性测试,不是标准服务启动路径。
| 直连 LangGraph | `cd backend && make dev` | LangGraph auth | 2024 |
每种模式下都需执行以下测试。
@@ -23,8 +21,10 @@
# 清除已有数据
rm -f backend/.deer-flow/data/deerflow.db
# 启动标准模式(Gateway embedded runtime
make dev
# 选择模式启动
make dev # 标准模式
# 或
make dev-pro # Gateway 模式
```
**验证点:**
@@ -57,7 +57,7 @@ make dev
## 二、接口流程测试
> 以下用 `BASE=http://localhost:2026` 为例。标准模式经 nginx 暴露此地址。
> 以下用 `BASE=http://localhost:2026` 为例。标准模式和 Gateway 模式都用此地址。
> 直连测试替换为对应端口。
>
> **CSRF token 提取**:多处用到从 cookie jar 提取 CSRF token,统一使用:
@@ -211,18 +211,20 @@ curl -s -X POST $BASE/api/threads/search \
**预期:** 返回 0 或仅包含 user2 自己的 thread
### 2.3 LangGraph-compatible Gateway 路由隔离
### 2.3 标准模式 LangGraph Server 隔离
#### TC-API-10: LangGraph-compatible 端点需要 cookie
> 仅在标准模式下测试。Gateway 模式不跑 LangGraph Server。
#### TC-API-10: LangGraph 端点需要 cookie
```bash
# 不带 cookie 访问 LangGraph-compatible 接口
# 不带 cookie 访问 LangGraph 接口
curl -s -w "%{http_code}" $BASE/api/langgraph/threads
```
**预期:** 401
#### TC-API-11: LangGraph-compatible 路由带 cookie 可访问
#### TC-API-11: LangGraph 带 cookie 可访问
```bash
curl -s $BASE/api/langgraph/threads -b user1.txt | jq length
@@ -230,10 +232,10 @@ curl -s $BASE/api/langgraph/threads -b user1.txt | jq length
**预期:** 200,返回 user1 的 thread 列表
#### TC-API-12: LangGraph-compatible 路由隔离 — 用户只看到自己的
#### TC-API-12: LangGraph 隔离 — 用户只看到自己的
```bash
# user2 查 threads
# user2 查 LangGraph threads
curl -s $BASE/api/langgraph/threads -b user2.txt | jq length
```
@@ -1232,11 +1234,21 @@ P2=$(awk -F': ' '/^password:/ {print $2}' /tmp/deerflow-reset-p2.txt)
## 七、模式差异测试
> 以下用 `GW=http://localhost:8001` 表示直连 Gateway`BASE=http://localhost:2026` 表示经 nginx。
> 标准启动命令:`make dev`(或 `./scripts/serve.sh --dev`)。
> Gateway 模式启动命令:`make dev-pro`(或 `./scripts/serve.sh --dev --gateway`)。
### 7.1 标准启动模式
### 7.1 标准模式独有
#### TC-MODE-01: Gateway AuthMiddleware 的 token_version 检查
> 启动命令:`make dev`(或 `./scripts/serve.sh --dev`
#### TC-MODE-01: LangGraph Server 独立运行,需 cookie
```bash
# 无 cookie 访问 LangGraph
curl -s -w "%{http_code}" -o /dev/null $BASE/api/langgraph/threads/search
# 预期: 403LangGraph auth handler 拒绝)
```
#### TC-MODE-02: LangGraph auth 的 token_version 检查
```bash
# 登录拿 cookie
@@ -1249,9 +1261,9 @@ curl -s -X POST $BASE/api/v1/auth/change-password \
-b cookies.txt -H "Content-Type: application/json" -H "X-CSRF-Token: $CSRF" \
-d '{"current_password":"正确密码","new_password":"NewPass1!"}' -c new_cookies.txt
# 用旧 cookie 访问 LangGraph-compatible 路由
# 用旧 cookie 访问 LangGraph
curl -s -w "%{http_code}" $BASE/api/langgraph/threads/search -b cookies.txt
# 预期: 401token_version 不匹配)
# 预期: 403token_version 不匹配)
# 用新 cookie 访问
CSRF2=$(grep csrf_token new_cookies.txt | awk '{print $NF}')
@@ -1260,7 +1272,7 @@ curl -s -w "%{http_code}" -X POST $BASE/api/langgraph/threads/search \
# 预期: 200
```
#### TC-MODE-02: Gateway owner filter 隔离
#### TC-MODE-03: LangGraph auth 的 owner filter 隔离
```bash
# user1 创建 thread
@@ -1285,9 +1297,18 @@ print('OK: user2 sees', len(threads), 'threads, none belong to user1')
"
```
#### TC-MODE-03: 所有请求经 AuthMiddleware
### 7.2 Gateway 模式独有
> 启动命令:`make dev-pro`(或 `./scripts/serve.sh --dev --gateway`
> 无 LangGraph Server 进程,agent runtime 嵌入 Gateway。
#### TC-MODE-04: 所有请求经 AuthMiddleware
```bash
# 确认 LangGraph Server 未运行
curl -s -w "%{http_code}" -o /dev/null http://localhost:2024/ok
# 预期: 000(连接被拒)
# Gateway API 受保护
curl -s -w "%{http_code}" -o /dev/null $BASE/api/models
# 预期: 401
@@ -1298,7 +1319,7 @@ curl -s -w "%{http_code}" -o /dev/null -X POST $BASE/api/langgraph/threads/searc
# 预期: 401
```
#### TC-MODE-04: 标准模式下完整 auth 流程
#### TC-MODE-05: Gateway 模式下完整 auth 流程
```bash
# 登录
@@ -1313,7 +1334,7 @@ curl -s -X POST $BASE/api/langgraph/threads \
-d '{"metadata":{}}' | python3 -c "import sys,json; print(json.load(sys.stdin)['thread_id'])"
# 预期: 返回 thread_id
# CSRF 保护(CSRFMiddleware 覆盖所有 Gateway 路由)
# CSRF 保护(Gateway 模式下 CSRFMiddleware 直接覆盖所有路由)
curl -s -w "%{http_code}" -o /dev/null -X POST $BASE/api/langgraph/threads \
-b cookies.txt -H "Content-Type: application/json" -d '{"metadata":{}}'
# 预期: 403CSRF token missing
@@ -1412,7 +1433,7 @@ done
### 7.4 Docker 部署
> 启动命令:`./scripts/deploy.sh`
> 启动命令:`./scripts/deploy.sh`(标准)或 `./scripts/deploy.sh --gateway`Gateway 模式)
> Docker Compose 文件:`docker/docker-compose.yaml`
>
> 前置条件:
@@ -1521,16 +1542,16 @@ docker logs deer-flow-gateway 2>&1 | grep -iE "Password: .{15,}" && echo "FAIL:
- 容器日志输出**路径**(不是密码本身),符合 CodeQL `py/clear-text-logging-sensitive-data` 规则
- `grep "Password:"` 在日志中**应当无匹配**(旧行为已废弃,simplify pass 移除了日志泄露路径)
#### TC-DOCKER-06: Docker 部署
#### TC-DOCKER-06: Gateway 模式 Docker 部署
```bash
# 标准 Docker 模式:runtime 嵌入 gateway 容器
./scripts/deploy.sh
# Gateway 模式:无 langgraph 容器
./scripts/deploy.sh --gateway
sleep 15
# 确认 gateway 容器存在
docker ps --filter name=deer-flow-gateway --format '{{.Names}}'
# 预期: deer-flow-gateway
# 确认 langgraph 容器存在
docker ps --filter name=deer-flow-langgraph --format '{{.Names}}' | wc -l
# 预期: 0
# auth 流程正常:未登录受保护接口返回 401
curl -s -w "%{http_code}" -o /dev/null $BASE/api/models
backend/docs/AUTH_UPGRADE.md
+4 -4
View File
@@ -99,7 +99,7 @@ rm -f backend/.deer-flow/data/deerflow.db
| `.deer-flow/users/{user_id}/memory.json` | 用户级 memory |
| `.deer-flow/users/{user_id}/agents/{agent_name}/` | 用户自定义 agent 配置、SOUL 和 agent memory |
| `.deer-flow/admin_initial_credentials.txt` | `reset_admin` 生成的新凭据文件(0600,读完应删除) |
| `.env` 中的 `AUTH_JWT_SECRET` | JWT 签名密钥(未设置时自动生成并持久化到 `.deer-flow/.jwt_secret`,重启后 session 保持 |
| `.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
@@ -124,8 +124,8 @@ python -c "import secrets; print(secrets.token_urlsafe(32))"
## 兼容性
- **本地开发**`make dev`):Gateway embedded runtime 完全兼容;无 admin 时访问 `/setup` 初始化
- **Gateway embedded runtime**:标准脚本、Docker dev 和生产部署均通过 Gateway 提供认证与 LangGraph-compatible API
- **标准模式**`make dev`):完全兼容;无 admin 时访问 `/setup` 初始化
- **Gateway 模式**`make dev-pro`):完全兼容
- **Docker 部署**:完全兼容,`.deer-flow/data/deerflow.db` 需持久化卷挂载
- **IM 渠道**Feishu/Slack/Telegram):通过 Gateway 内部认证通信,使用 `default` 用户桶
- **DeerFlowClient**(嵌入式):不经过 HTTP,不受认证影响
@@ -137,4 +137,4 @@ python -c "import secrets; print(secrets.token_urlsafe(32))"
| 启动后没看到密码 | 当前实现不在启动日志输出密码 | 首次安装访问 `/setup`;忘记密码用 `reset_admin` |
| `/login` 自动跳到 `/setup` | 系统还没有 admin | 在 `/setup` 创建第一个 admin |
| 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 | `.jwt_secret` 文件被删除且 `.env` 未设置 `AUTH_JWT_SECRET` | 在 `.env` 中设置固定密钥 |
| 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/BLOCKING_IO_DETECTION.md
-154
View File
@@ -1,154 +0,0 @@
# Blocking IO detection usage and maintenance
This document describes how to use and maintain DeerFlow backend blocking-IO
detection for async event-loop safety.
The goal is narrow: find and prevent synchronous IO from blocking backend
async event-loop paths. Static and runtime detection are complementary, but
they have different jobs.
## Static detector
The static detector is the discovery tool. It scans backend source code and
reports candidate blocking-IO call sites that may need human review.
Run it from the repository root:
```bash
make detect-blocking-io
```
Or from `backend/`:
```bash
make detect-blocking-io
```
The report is written to:
```text
.deer-flow/blocking-io-findings.json
```
Use this output for review and triage. A static finding is a candidate, not
proof that production blocks the event loop at runtime. The current static
rules are intentionally broad; prefer triaging existing output before adding
new static rules.
Add a static rule only when review finds a recurring high-risk blocking
pattern that is invisible to the current detector.
## Runtime detector
The runtime detector is the CI regression guard. It uses Blockbuster to fail a
focused test when code under `app.*` or `deerflow.*` performs blocking IO on
the asyncio event-loop thread.
Run it from `backend/`:
```bash
make test-blocking-io
```
The runtime gate starts from confirmed production bugs and protects those
paths from regressing. It does not prove that the entire backend is free of
blocking IO; it only covers the production paths exercised by
`backend/tests/blocking_io/`.
## Maintenance workflow
Use the static detector to find candidates, then use review to decide which
async production paths are worth protecting in CI.
The normal workflow is:
1. Run the static detector to find backend blocking-IO candidates.
2. Use human review to pick high-risk production async paths.
3. Add or update a focused runtime anchor in `backend/tests/blocking_io/`.
4. Let CI prevent that path from regressing.
Runtime detection has two maintenance paths.
### Add a runtime rule
Add a runtime rule when Blockbuster's default rules do not cover a generic
blocking primitive used by production code.
Rules belong in:
```text
backend/tests/support/detectors/blocking_io_runtime.py
```
Add them to `_PROJECT_BLOCKING_RULES`, not directly inside individual tests.
Keeping rules centralized makes it clear which extra primitives DeerFlow
expects Blockbuster to catch.
Example shape:
```python
import subprocess
from blockbuster import BlockBusterFunction
_PROJECT_BLOCKING_RULES = (
(
"subprocess.Popen.__init__",
BlockBusterFunction(
subprocess.Popen,
"__init__",
scanned_modules=["app", "deerflow"],
),
),
)
```
Do not add a runtime rule just because a business path is not tested. A rule
only expands what Blockbuster can intercept after code runs.
### Add a runtime anchor
Add a runtime anchor when a high-risk async production path should be protected
by CI but no existing `backend/tests/blocking_io/` test executes it.
Anchors belong in:
```text
backend/tests/blocking_io/
```
A good anchor should:
- Call the real production async entry point.
- Avoid bypassing the blocking surface with test-only `asyncio.to_thread`
wrappers.
- Use real local filesystem inputs when the bug shape is filesystem IO.
- Mock only the external dependency boundary, such as a network service or
third-party saver class.
- Fail if a future change moves the blocking operation back onto the event
loop.
Avoid testing only the low-level helper unless that helper is the production
async entry point. The runtime gate is most useful when it protects the caller
that production actually executes.
## Current runtime coverage
The runtime anchors protect confirmed blocking-IO bug shapes:
- SQLite checkpointer setup, including path resolution and parent-directory
creation.
- Subagent skill metadata loading through `SubagentExecutor._load_skills()`.
- `JsonlRunEventStore` async API (`put` / `list_*` / `delete_*`): the JSONL
run-event backend offloads its synchronous file IO via `asyncio.to_thread`
(fix #3084); this anchor drives the real async API under the gate so any
blocking IO reintroduced on the loop fails, not only removal of one
`to_thread` call.
- `UploadsMiddleware.before_agent` uploads-directory scan: a sync-only middleware
hook runs on the event loop under async graph execution, so the scan is
offloaded via `abefore_agent` + `run_in_executor`.
- Gate health checks: Blockbuster catches unoffloaded calls, opt-out works, and
patches are restored after exceptions.
As static detection and review identify more high-risk async paths, add new
runtime anchors incrementally.
backend/docs/CONFIGURATION.md
+6 -49
View File
@@ -36,7 +36,6 @@ models:
- OpenAI (`langchain_openai:ChatOpenAI`)
- Anthropic (`langchain_anthropic:ChatAnthropic`)
- DeepSeek (`langchain_deepseek:ChatDeepSeek`)
- Xiaomi MiMo (`deerflow.models.patched_mimo:PatchedChatMiMo`)
- Claude Code OAuth (`deerflow.models.claude_provider:ClaudeChatModel`)
- Codex CLI (`deerflow.models.openai_codex_provider:CodexChatModel`)
- Any LangChain-compatible provider
@@ -95,30 +94,20 @@ models:
thinking:
type: enabled
- name: minimax-m3
display_name: MiniMax M3
- name: minimax-m2.5
display_name: MiniMax M2.5
use: langchain_openai:ChatOpenAI
model: MiniMax-M3
model: MiniMax-M2.5
api_key: $MINIMAX_API_KEY
base_url: https://api.minimax.io/v1
max_tokens: 4096
temperature: 1.0 # MiniMax requires temperature in (0.0, 1.0]
supports_vision: true
- name: minimax-m2.7
display_name: MiniMax M2.7
- name: minimax-m2.5-highspeed
display_name: MiniMax M2.5 Highspeed
use: langchain_openai:ChatOpenAI
model: MiniMax-M2.7
api_key: $MINIMAX_API_KEY
base_url: https://api.minimax.io/v1
max_tokens: 4096
temperature: 1.0 # MiniMax requires temperature in (0.0, 1.0]
supports_vision: true
- name: minimax-m2.7-highspeed
display_name: MiniMax M2.7 Highspeed
use: langchain_openai:ChatOpenAI
model: MiniMax-M2.7-highspeed
model: MiniMax-M2.5-highspeed
api_key: $MINIMAX_API_KEY
base_url: https://api.minimax.io/v1
max_tokens: 4096
@@ -177,37 +166,6 @@ models:
For Gemini accessed **without** thinking (e.g. via OpenRouter where thinking is not activated), the plain `langchain_openai:ChatOpenAI` with `supports_thinking: false` is sufficient and no patch is needed.
**MiMo with thinking via OpenAI-compatible API**:
MiMo returns `reasoning_content` on assistant messages in thinking mode. In multi-turn agent conversations with tool calls, subsequent requests must preserve that historical `reasoning_content` on assistant messages or the MiMo API can return HTTP 400. Standard `langchain_openai:ChatOpenAI` drops this provider-specific field, so use `deerflow.models.patched_mimo:PatchedChatMiMo`:
For pay-as-you-go API keys (`sk-...`), use `https://api.xiaomimimo.com/v1`. For Token Plan keys (`tp-...`), use the regional Token Plan Base URL shown in the MiMo console, such as `https://token-plan-cn.xiaomimimo.com/v1`. MiMo documents these key types as separate and non-interchangeable.
`PatchedChatMiMo` is model-id agnostic. Use it for every MiMo thinking model entry you configure, including model entries referenced by `subagents.*.model` overrides (for example `mimo-v2.5-pro`, `mimo-v2.5`, `mimo-v2-pro`, `mimo-v2-omni`, or `mimo-v2-flash`).
```yaml
models:
- name: mimo-v2.5-pro
display_name: MiMo V2.5 Pro
use: deerflow.models.patched_mimo:PatchedChatMiMo
model: mimo-v2.5-pro
api_key: $MIMO_API_KEY
base_url: https://api.xiaomimimo.com/v1
max_tokens: 8192
supports_thinking: true
supports_vision: false
when_thinking_enabled:
extra_body:
thinking:
type: enabled
when_thinking_disabled:
extra_body:
thinking:
type: disabled
```
`PatchedChatMiMo` preserves MiMo's `choices[].message.reasoning_content`, streaming `delta.reasoning_content`, and request-history assistant `reasoning_content` fields. It does not reuse the DeepSeek provider.
### Tool Groups
Organize tools into logical groups:
@@ -361,7 +319,6 @@ models:
- `OPENAI_API_KEY` - OpenAI API key
- `ANTHROPIC_API_KEY` - Anthropic API key
- `DEEPSEEK_API_KEY` - DeepSeek API key
- `MIMO_API_KEY` - Xiaomi MiMo 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
backend/docs/MCP_SERVER.md
+1 -13
View File
@@ -14,19 +14,6 @@ DeerFlow supports configurable MCP servers and skills to extend its capabilities
3. Configure each servers command, arguments, and environment variables as needed.
4. Restart the application to load and register MCP tools.
## Filesystem MCP Servers
DeerFlow already provides built-in file tools for thread-scoped workspace access.
Do not add an MCP filesystem server for the same DeerFlow workspace. The
overlapping file tools use different path semantics, which can make LLM tool
selection and file access behavior unstable.
DeerFlow does not currently adapt the MCP Roots mode for filesystem servers. In
particular, it does not publish per-thread MCP roots or map DeerFlow sandbox
paths such as `/mnt/user-data/...` to paths accepted by
`@modelcontextprotocol/server-filesystem`. Use DeerFlow's built-in file tools
for DeerFlow workspace files.
## OAuth Support (HTTP/SSE MCP Servers)
For `http` and `sse` MCP servers, DeerFlow supports OAuth token acquisition and automatic token refresh.
@@ -101,6 +88,7 @@ MCP servers expose tools that are automatically discovered and integrated into D
MCP servers can provide access to:
- **File systems**
- **Databases** (e.g., PostgreSQL)
- **External APIs** (e.g., GitHub, Brave Search)
- **Browser automation** (e.g., Puppeteer)
backend/docs/README.md
-1
View File
@@ -19,7 +19,6 @@ This directory contains detailed documentation for the DeerFlow backend.
| [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 |
| [SANDBOX_MEMORY_PROFILING.md](SANDBOX_MEMORY_PROFILING.md) | Sandbox memory baseline and runtime comparison guide |
| [summarization.md](summarization.md) | Context summarization feature |
| [plan_mode_usage.md](plan_mode_usage.md) | Plan mode with TodoList |
| [AUTO_TITLE_GENERATION.md](AUTO_TITLE_GENERATION.md) | Automatic title generation |
backend/docs/SANDBOX_MEMORY_PROFILING.md
-81
View File
@@ -1,81 +0,0 @@
# Sandbox Memory Profiling
This guide records a repeatable baseline before changing the sandbox runtime.
Issue #3213 reports per-sandbox memory near 1 GiB in Kubernetes. Before adding
or recommending a new provider, capture the current AIO sandbox baseline and
compare candidates with the same DeerFlow workload.
## What to Measure
Measure at least these samples:
1. Empty sandbox after it becomes ready.
2. After a simple bash command.
3. After a Python task that imports common packages.
4. After a Node task when Node-based workloads are expected.
5. After generating files under `/mnt/user-data/outputs`.
6. After release and warm reuse.
7. At the target concurrency level, for example 10, 50, or 100 sandboxes.
`kubectl top` reports Kubernetes/container working set memory. Treat it as a
capacity signal, not exclusive RSS/PSS. Pod-level memory includes every
container in the Pod and may include cache charged to the cgroup. If a result
looks surprising, inspect the sandbox processes and cgroup metrics on the node
before drawing conclusions.
## Capture a Snapshot
Run this from the repository root:
```bash
python scripts/sandbox_memory_profile.py \
--namespace deer-flow \
--selector app=deer-flow-sandbox \
--sample empty \
--include-processes \
--format markdown
```
Use a descriptive `--sample` value for each phase:
```bash
python scripts/sandbox_memory_profile.py --sample after-bash --format json
python scripts/sandbox_memory_profile.py --sample after-python --format json
python scripts/sandbox_memory_profile.py --sample after-artifact --format json
```
`--include-processes` runs `kubectl exec ... ps` in each sandbox Pod and adds
the highest-RSS processes to the report. This helps distinguish Pod-level cgroup
memory from process RSS. The two numbers will not match exactly because cgroup
memory can include cache and other kernel-accounted memory.
Save the raw JSON when comparing backends so totals, pod names, images,
requests, limits, and timestamps can be audited later.
## Candidate Runtime Matrix
For AIO, CubeSandbox, OpenSandbox, gVisor, Kata, or another candidate, compare
the same workload and record:
| Area | Required Evidence |
| --- | --- |
| Capacity | Pod or instance count, total memory, average memory, max memory |
| Startup | Ready latency at 1, 10, 50, and 100 concurrent sandboxes |
| Commands | Bash output, timeout behavior, failure shape |
| Files | `read_file`, `write_file`, binary `update_file`, `list_dir`, `glob`, `grep` |
| Uploads | Files uploaded by the gateway are visible inside the sandbox |
| Artifacts | Files written to `/mnt/user-data/outputs` are readable by the backend artifact API |
| Paths | `/mnt/user-data/workspace`, `/mnt/user-data/uploads`, `/mnt/user-data/outputs`, `/mnt/acp-workspace`, and skills paths keep their expected semantics |
| Isolation | Different users and threads cannot read each other's data |
| Cleanup | Release, idle timeout, process restart, and orphan cleanup free resources |
| Operations | Deployment prerequisites, privileged components, networking, storage, and upgrade path |
## PR Guidance
Do not claim that a new provider fixes high-concurrency memory usage until the
same DeerFlow workload has been measured on both the current AIO sandbox and the
candidate backend.
For an experimental provider PR, prefer `Related to #3213` unless the PR also
includes reproducible DeerFlow workload data that demonstrates the target memory
reduction and preserves uploads, outputs, artifacts, and isolation behavior.
backend/docs/Storage_Design.md
+401
View File
@@ -0,0 +1,401 @@
# Storage Package Design
## Background
DeerFlow currently has several persistence responsibilities spread across app, gateway, runtime, and legacy persistence modules. This makes the persistence boundary difficult to reason about and creates several migration risks:
- Routers and runtime services can accidentally depend on concrete persistence implementations instead of stable contracts.
- User/auth, run metadata, thread metadata, feedback, run events, and checkpointer setup are initialized through different paths.
- Some persistence behavior is duplicated between memory, SQLite, and PostgreSQL-oriented code paths.
- Incremental migration is hard because app-level code and storage-level code are coupled.
- Adding or validating another SQL backend requires touching app/runtime code instead of a storage-owned package.
The storage package is introduced to make application data persistence a package-level capability with explicit contracts, a clear boundary, and SQL backend compatibility.
## Goals
- Provide a standalone `packages/storage` package for durable application data.
- Support SQLite, PostgreSQL, and MySQL through a shared persistence construction flow.
- Keep LangGraph checkpointer initialization compatible with the same database backend.
- Expose repository contracts as the only package-level data access boundary.
- Let the app layer depend on app-owned adapters under `app.infra.storage`, not on storage DB implementation classes.
- Allow the app/gateway migration to happen in small steps without forcing a large rewrite.
## Non-Goals
- This design does not remove legacy persistence in the first PR.
- This design does not move routers directly onto storage package models.
- This design does not make app routers own SQLAlchemy sessions.
- Cron persistence is intentionally out of scope for the storage package foundation.
- Memory backend is not part of the durable storage package. Memory compatibility, if still needed by app runtime, belongs outside `packages/storage`.
## Storage Design Principles
### Package-Owned Durable Storage
`packages/storage` owns durable application data persistence. It defines:
- configuration shape for storage-backed persistence
- SQLAlchemy models
- repository contracts and DTOs
- SQL repository implementations
- persistence factory functions
- compatibility helpers for config-driven initialization
The package should be usable without importing `app.gateway`, routers, auth providers, or runtime-specific gateway objects.
### SQL Backend Compatibility
The package supports three SQL backends:
- SQLite for local/single-node deployments
- PostgreSQL for production multi-node deployments
- MySQL for deployments that standardize on MySQL
Backend-specific differences are handled inside the storage package:
- SQLAlchemy async engine URL construction
- LangGraph checkpointer connection-string compatibility
- JSON metadata filtering across SQLite/PostgreSQL/MySQL
- SQL dialect behavior around locking, aggregation, and JSON type semantics
### Unified Persistence Bundle
Storage initialization returns an `AppPersistence` bundle:
```python
@dataclass(slots=True)
class AppPersistence:
checkpointer: Checkpointer
engine: AsyncEngine
session_factory: async_sessionmaker[AsyncSession]
setup: Callable[[], Awaitable[None]]
aclose: Callable[[], Awaitable[None]]
```
The app runtime can initialize persistence once, call `setup()`, and then inject:
- `checkpointer`
- `session_factory`
- repository adapters
This keeps checkpointer and application data aligned to the same backend without requiring routers to understand database configuration.
## Package Layout
```text
backend/packages/storage/
store/
config/
storage_config.py
app_config.py
persistence/
factory.py
types.py
base_model.py
json_compat.py
drivers/
sqlite.py
postgres.py
mysql.py
repositories/
contracts/
user.py
run.py
thread_meta.py
feedback.py
run_event.py
models/
user.py
run.py
thread_meta.py
feedback.py
run_event.py
db/
user.py
run.py
thread_meta.py
feedback.py
run_event.py
factory.py
```
## Persistence Construction
The primary storage entrypoint is:
```python
from store.persistence import create_persistence_from_storage_config
persistence = await create_persistence_from_storage_config(storage_config)
await persistence.setup()
```
For app-level compatibility with existing database config shape:
```python
from store.persistence import create_persistence_from_database_config
persistence = await create_persistence_from_database_config(config.database)
await persistence.setup()
```
Expected app startup flow:
```python
persistence = await create_persistence_from_database_config(config.database)
await persistence.setup()
app.state.persistence = persistence
app.state.checkpointer = persistence.checkpointer
app.state.session_factory = persistence.session_factory
```
Expected app shutdown flow:
```python
await app.state.persistence.aclose()
```
## Repository Contract Design
Repository contracts are the storage package's public data access boundary. They live under `store.repositories.contracts` and are re-exported from `store.repositories`.
The key contract groups are:
- `UserRepositoryProtocol`
- `RunRepositoryProtocol`
- `ThreadMetaRepositoryProtocol`
- `FeedbackRepositoryProtocol`
- `RunEventRepositoryProtocol`
Each contract owns:
- input DTOs, such as `UserCreate`, `RunCreate`, `ThreadMetaCreate`
- output DTOs, such as `User`, `Run`, `ThreadMeta`
- repository protocol methods
- domain-specific exceptions when needed, such as `InvalidMetadataFilterError`
Repository construction is session-based:
```python
from store.repositories import build_run_repository
async with persistence.session_factory() as session:
repo = build_run_repository(session)
run = await repo.get_run(run_id)
```
This keeps transaction ownership explicit. The storage package does not hide commits or session lifecycle inside global singletons.
## App/Infra Calling Contract
The app layer should not call `store.repositories.db.*` directly. The intended app boundary is `app.infra.storage`.
`app.infra.storage` is responsible for:
- receiving `session_factory` from FastAPI runtime initialization
- owning session lifecycle for app-facing repository methods
- translating storage DTOs to app/gateway DTOs only when needed
- preserving the existing app-facing names during migration
- depending on storage repository protocols, not concrete DB classes
Expected adapter pattern:
```python
class StorageRunRepository(RunRepositoryProtocol):
def __init__(self, session_factory):
self._session_factory = session_factory
async def get_run(self, run_id: str):
async with self._session_factory() as session:
repo = build_run_repository(session)
return await repo.get_run(run_id)
```
For gateway compatibility, app state can keep existing names while the implementation changes:
```python
app.state.run_store = StorageRunStore(run_repository)
app.state.feedback_repo = StorageFeedbackStore(feedback_repository)
app.state.thread_store = StorageThreadMetaStore(thread_meta_repository)
app.state.run_event_store = StorageRunEventStore(run_event_repository)
app.state.checkpointer = persistence.checkpointer
app.state.session_factory = persistence.session_factory
```
The app-facing objects may expose legacy method names during migration, but their internal data access should go through storage contracts.
## Boundary Rules
### Allowed Calls
Storage package callers may use:
```python
from store.persistence import create_persistence_from_database_config
from store.persistence import create_persistence_from_storage_config
from store.repositories import build_run_repository
from store.repositories import build_user_repository
from store.repositories import build_thread_meta_repository
from store.repositories import build_feedback_repository
from store.repositories import build_run_event_repository
from store.repositories import RunRepositoryProtocol
from store.repositories import UserRepositoryProtocol
```
App layer callers should use:
```python
from app.infra.storage import StorageRunRepository
from app.infra.storage import StorageUserDataRepository
from app.infra.storage import StorageThreadMetaRepository
from app.infra.storage import StorageFeedbackRepository
from app.infra.storage import StorageRunEventRepository
```
### Prohibited Calls
App/gateway/router/auth code must not import:
```python
from store.repositories.db import DbRunRepository
from store.repositories.models import Run
from store.persistence.base_model import MappedBase
```
Routers must not:
- create SQLAlchemy engines
- create SQLAlchemy sessions directly
- call storage DB repository classes directly
- commit/rollback storage transactions directly unless explicitly scoped by an infra adapter
- depend on storage SQLAlchemy model classes
Storage package code must not import:
```python
import app.gateway
import app.infra
import deerflow.runtime
```
The dependency direction is:
```text
app/gateway -> app.infra.storage -> packages/storage contracts/factories -> packages/storage db implementations
```
The reverse direction is forbidden.
## Checkpointer Compatibility
The storage persistence bundle initializes the LangGraph checkpointer alongside application data persistence.
Backend-specific notes:
- SQLite uses `langgraph-checkpoint-sqlite`.
- PostgreSQL uses `langgraph-checkpoint-postgres` and requires a string `postgresql://...` connection URL.
- MySQL uses `langgraph-checkpoint-mysql` and requires a string MySQL connection URL.
SQLAlchemy may use async driver URLs such as `postgresql+asyncpg://...` or `mysql+aiomysql://...`, but LangGraph checkpointer constructors expect plain string connection URLs. This conversion belongs inside the storage driver implementation.
## JSON Metadata Filtering
Thread metadata search supports dialect-aware JSON filtering through `store.persistence.json_compat`.
The matcher supports:
- `None`
- `bool`
- `int`
- `float`
- `str`
It rejects:
- unsafe keys
- nested JSON path expressions
- dict/list values
- integers outside signed 64-bit range
This prevents SQL/JSON path injection, avoids compiled-cache type drift, and preserves type semantics such as `True != 1` and explicit JSON `null` not matching a missing key.
## Step-by-Step Implementation Plan
### Step 1: Introduce Storage Package Foundation
- Add `backend/packages/storage`.
- Add storage config models.
- Add `AppPersistence`.
- Add SQLite/PostgreSQL/MySQL persistence drivers.
- Add repository contracts, models, DB implementations, and factory helpers.
- Add package dependency wiring.
- Exclude cron persistence.
### Step 2: Harden Storage Backend Compatibility
- Validate SQLite setup and repository behavior.
- Validate PostgreSQL and MySQL with local E2E tests.
- Fix checkpointer connection-string compatibility.
- Fix PostgreSQL locking and aggregation differences.
- Add dialect-aware JSON metadata filtering.
### Step 3: Add App Infra Adapters
- Add `backend/app/infra/storage`.
- Implement app-facing repositories that own session lifecycle.
- Keep storage contracts as the only data access boundary.
- Add legacy compatibility adapters for existing app/gateway method shapes.
- Keep app/gateway imports out of `packages/storage`.
### Step 4: Switch FastAPI Runtime Injection
- Initialize storage persistence in FastAPI startup/lifespan.
- Attach `persistence`, `checkpointer`, and `session_factory` to `app.state`.
- Preserve existing external state names:
- `run_store`
- `feedback_repo`
- `thread_store`
- `run_event_store`
- `checkpointer`
- `session_factory`
- Start with user/auth provider construction, then migrate run/thread/feedback/run_event.
### Step 5: Router and Auth Compatibility
- Ensure routers consume app-facing adapters, not storage DB classes.
- Ensure auth providers depend on user repository contracts.
- Keep router response shapes unchanged.
- Add focused auth/admin/router regression tests.
### Step 6: Cleanup Legacy Persistence
- Compare old persistence usage after app/gateway migration.
- Remove unused old repository implementations only after all call sites move.
- Keep compatibility shims only where needed for a transition window.
- Delete memory backend paths from storage-owned durable persistence.
## Testing Strategy
Unit tests should cover:
- config parsing
- persistence setup
- table creation
- repository CRUD/query behavior
- typed JSON metadata filtering
- dialect SQL compilation
- cron exclusion
E2E tests should cover:
- SQLite persistence setup
- PostgreSQL temporary database setup
- MySQL temporary database setup
- repository contract behavior across all supported SQL backends
- JSON/Unicode round trip
- rollback behavior
- persistence close/cleanup
E2E tests may remain local-only if CI does not provide PostgreSQL/MySQL services.
backend/docs/Storage_Design_ZH.md
+401
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@@ -0,0 +1,401 @@
# Storage Package 设计文档
## 背景
DeerFlow 当前有多类持久化职责分散在 app、gateway、runtime 和旧 persistence 模块中。这会带来几个问题:
- routers 和 runtime services 容易依赖具体 persistence 实现,而不是稳定契约。
- user/auth、run metadata、thread metadata、feedback、run events、checkpointer setup 的初始化路径不统一。
- memory、SQLite、PostgreSQL 相关路径中存在部分重复逻辑。
- app 层代码和 storage 层代码耦合,导致增量迁移困难。
- 增加或验证新的 SQL backend 时,需要改动 app/runtime,而不是只改 storage package。
引入 storage package 的目标,是把应用数据持久化抽象成 package 级能力,并提供明确契约、清晰边界和 SQL backend 兼容性。
## 目标
- 新增独立的 `packages/storage`,负责 durable application data。
- 通过统一 persistence 构造流程支持 SQLite、PostgreSQL、MySQL。
- 保持 LangGraph checkpointer 与同一个数据库 backend 兼容。
- 将 repository contracts 作为 package 对外唯一数据访问边界。
- app 层通过 `app.infra.storage` 适配 storage,而不是直接依赖 storage DB 实现类。
- 支持 app/gateway 后续小步迁移,避免一次性大重构。
## 非目标
- 第一阶段不删除旧 persistence。
- 不让 routers 直接依赖 storage package models。
- 不让 app routers 管理 SQLAlchemy sessions。
- cron persistence 不属于 storage package 基础迁移范围。
- memory backend 不属于 durable storage package。若 app runtime 仍需要 memory 兼容,应放在 `packages/storage` 之外。
## Storage 设计理念
### Package 自己负责 Durable Storage
`packages/storage` 负责应用数据的 durable persistence,包括:
- storage 持久化配置
- SQLAlchemy models
- repository contracts 和 DTOs
- SQL repository 实现
- persistence factory functions
- 面向现有 config 的兼容初始化入口
该 package 不应该 import `app.gateway`、routers、auth providers 或 runtime 中的 gateway 对象。
### SQL Backend 兼容
该 package 支持三种 SQL backend
- SQLite:本地或单节点部署
- PostgreSQL:生产多节点部署
- MySQL:使用 MySQL 作为标准数据库的部署
backend 差异在 storage package 内部处理:
- SQLAlchemy async engine URL 构造
- LangGraph checkpointer 连接串兼容
- SQLite/PostgreSQL/MySQL 的 JSON metadata filter
- 不同 SQL 方言在 locking、aggregation、JSON 类型语义上的差异
### 统一 Persistence Bundle
Storage 初始化返回 `AppPersistence` bundle
```python
@dataclass(slots=True)
class AppPersistence:
checkpointer: Checkpointer
engine: AsyncEngine
session_factory: async_sessionmaker[AsyncSession]
setup: Callable[[], Awaitable[None]]
aclose: Callable[[], Awaitable[None]]
```
app runtime 只需要初始化一次 persistence,调用 `setup()`,然后注入:
- `checkpointer`
- `session_factory`
- repository adapters
这样 checkpointer 和应用数据可以对齐到同一个 backend,同时 routers 不需要理解数据库配置。
## Package 结构
```text
backend/packages/storage/
store/
config/
storage_config.py
app_config.py
persistence/
factory.py
types.py
base_model.py
json_compat.py
drivers/
sqlite.py
postgres.py
mysql.py
repositories/
contracts/
user.py
run.py
thread_meta.py
feedback.py
run_event.py
models/
user.py
run.py
thread_meta.py
feedback.py
run_event.py
db/
user.py
run.py
thread_meta.py
feedback.py
run_event.py
factory.py
```
## Persistence 构造
storage 的主要入口:
```python
from store.persistence import create_persistence_from_storage_config
persistence = await create_persistence_from_storage_config(storage_config)
await persistence.setup()
```
为了兼容现有 app database config,也提供:
```python
from store.persistence import create_persistence_from_database_config
persistence = await create_persistence_from_database_config(config.database)
await persistence.setup()
```
预期 app startup 流程:
```python
persistence = await create_persistence_from_database_config(config.database)
await persistence.setup()
app.state.persistence = persistence
app.state.checkpointer = persistence.checkpointer
app.state.session_factory = persistence.session_factory
```
预期 app shutdown 流程:
```python
await app.state.persistence.aclose()
```
## Repository 契约设计
Repository contracts 是 storage package 对外公开的数据访问边界。它们位于 `store.repositories.contracts`,并通过 `store.repositories` re-export。
主要契约包括:
- `UserRepositoryProtocol`
- `RunRepositoryProtocol`
- `ThreadMetaRepositoryProtocol`
- `FeedbackRepositoryProtocol`
- `RunEventRepositoryProtocol`
每组契约包含:
- 输入 DTO,例如 `UserCreate``RunCreate``ThreadMetaCreate`
- 输出 DTO,例如 `User``Run``ThreadMeta`
- repository protocol methods
- 必要的领域异常,例如 `InvalidMetadataFilterError`
Repository 通过 session 构造:
```python
from store.repositories import build_run_repository
async with persistence.session_factory() as session:
repo = build_run_repository(session)
run = await repo.get_run(run_id)
```
这样可以让 transaction ownership 保持明确。storage package 不通过全局 singleton 隐式隐藏 commit 或 session 生命周期。
## App/Infra 调用契约
app 层不应该直接调用 `store.repositories.db.*`。预期的 app 边界是 `app.infra.storage`
`app.infra.storage` 负责:
- 从 FastAPI runtime 初始化中接收 `session_factory`
- 为 app-facing repository methods 管理 session 生命周期
- 在必要时将 storage DTOs 转成 app/gateway DTOs
- 迁移期间保留现有 app-facing 名称
- 依赖 storage repository protocols,而不是具体 DB classes
预期 adapter 模式:
```python
class StorageRunRepository(RunRepositoryProtocol):
def __init__(self, session_factory):
self._session_factory = session_factory
async def get_run(self, run_id: str):
async with self._session_factory() as session:
repo = build_run_repository(session)
return await repo.get_run(run_id)
```
为了兼容 gatewayapp state 可以暂时保持现有名字,只替换内部实现:
```python
app.state.run_store = StorageRunStore(run_repository)
app.state.feedback_repo = StorageFeedbackStore(feedback_repository)
app.state.thread_store = StorageThreadMetaStore(thread_meta_repository)
app.state.run_event_store = StorageRunEventStore(run_event_repository)
app.state.checkpointer = persistence.checkpointer
app.state.session_factory = persistence.session_factory
```
app-facing objects 可以在迁移期间保留旧方法名,但内部数据访问必须经过 storage contracts。
## 边界规则
### 允许调用的范围
storage package 调用方可以使用:
```python
from store.persistence import create_persistence_from_database_config
from store.persistence import create_persistence_from_storage_config
from store.repositories import build_run_repository
from store.repositories import build_user_repository
from store.repositories import build_thread_meta_repository
from store.repositories import build_feedback_repository
from store.repositories import build_run_event_repository
from store.repositories import RunRepositoryProtocol
from store.repositories import UserRepositoryProtocol
```
app 层应该使用:
```python
from app.infra.storage import StorageRunRepository
from app.infra.storage import StorageUserDataRepository
from app.infra.storage import StorageThreadMetaRepository
from app.infra.storage import StorageFeedbackRepository
from app.infra.storage import StorageRunEventRepository
```
### 禁止调用的范围
app/gateway/router/auth 代码不应该 import
```python
from store.repositories.db import DbRunRepository
from store.repositories.models import Run
from store.persistence.base_model import MappedBase
```
routers 禁止:
- 创建 SQLAlchemy engines
- 直接创建 SQLAlchemy sessions
- 直接调用 storage DB repository classes
- 直接 commit/rollback storage transactions,除非这是 infra adapter 明确管理的范围
- 依赖 storage SQLAlchemy model classes
storage package 禁止 import
```python
import app.gateway
import app.infra
import deerflow.runtime
```
依赖方向必须是:
```text
app/gateway -> app.infra.storage -> packages/storage contracts/factories -> packages/storage db implementations
```
禁止反向依赖。
## Checkpointer 兼容
storage persistence bundle 会同时初始化 LangGraph checkpointer 和应用数据持久化。
backend 说明:
- SQLite 使用 `langgraph-checkpoint-sqlite`
- PostgreSQL 使用 `langgraph-checkpoint-postgres`,需要字符串形式的 `postgresql://...` 连接串。
- MySQL 使用 `langgraph-checkpoint-mysql`,需要字符串形式的 MySQL 连接串。
SQLAlchemy 可以使用 `postgresql+asyncpg://...``mysql+aiomysql://...` 这类 async driver URL,但 LangGraph checkpointer 构造函数需要普通字符串连接串。这个转换应该封装在 storage driver implementation 内部。
## JSON Metadata Filtering
Thread metadata search 通过 `store.persistence.json_compat` 支持跨方言 JSON filtering。
支持的 filter value 类型:
- `None`
- `bool`
- `int`
- `float`
- `str`
拒绝:
- unsafe keys
- nested JSON path expressions
- dict/list values
- 超出 signed 64-bit 范围的整数
这样可以避免 SQL/JSON path injection,避免 compiled-cache 类型漂移,并保留类型语义,例如 `True != 1`,显式 JSON `null` 不等于 missing key。
## 分步实现方案
### 第 1 步:新增 Storage Package 基础
- 新增 `backend/packages/storage`
- 增加 storage config models。
- 增加 `AppPersistence`
- 增加 SQLite/PostgreSQL/MySQL persistence drivers。
- 增加 repository contracts、models、DB implementations 和 factory helpers。
- 接入 package dependency。
- 排除 cron persistence。
### 第 2 步:补齐 Storage Backend 兼容性
- 验证 SQLite setup 和 repository 行为。
- 使用本地 E2E 验证 PostgreSQL 和 MySQL。
- 修复 checkpointer 连接串兼容。
- 修复 PostgreSQL locking 和 aggregation 差异。
- 增加跨方言 JSON metadata filtering。
### 第 3 步:新增 App Infra Adapters
- 新增 `backend/app/infra/storage`
- 实现 app-facing repositories,由它们管理 session 生命周期。
- 保持 storage contracts 作为唯一数据访问边界。
- 为现有 app/gateway method shape 增加兼容 adapters。
- 避免 `packages/storage` import app/gateway。
### 第 4 步:切换 FastAPI Runtime 注入
- 在 FastAPI startup/lifespan 中初始化 storage persistence。
- 将 `persistence``checkpointer``session_factory` 注入 `app.state`
- 暂时保留现有对外 state 名称:
- `run_store`
- `feedback_repo`
- `thread_store`
- `run_event_store`
- `checkpointer`
- `session_factory`
- 先切 user/auth provider 构造,再逐步迁移 run/thread/feedback/run_event。
### 第 5 步:Router 和 Auth 兼容
- 确保 routers 消费 app-facing adapters,而不是 storage DB classes。
- 确保 auth providers 依赖 user repository contracts。
- 保持 router response shapes 不变。
- 增加 auth/admin/router regression tests。
### 第 6 步:清理旧 Persistence
- app/gateway 迁移完成后,再比较旧 persistence usage。
- 所有 call sites 迁移完成后,再删除未使用的旧 repository implementations。
- 只在必要时保留短期 compatibility shims。
- 从 storage-owned durable persistence 中移除 memory backend 路径。
## 测试策略
单测应覆盖:
- config parsing
- persistence setup
- table creation
- repository CRUD/query behavior
- typed JSON metadata filtering
- dialect SQL compilation
- cron exclusion
E2E 应覆盖:
- SQLite persistence setup
- PostgreSQL temporary database setup
- MySQL temporary database setup
- 所有支持 SQL backend 下的 repository contract 行为
- JSON/Unicode round trip
- rollback behavior
- persistence close/cleanup
如果 CI 暂时没有 PostgreSQL/MySQL servicesE2E 可以先作为 local-only 验证保留。
backend/docs/TODO.md
+1 -1
View File
@@ -26,7 +26,7 @@
- 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
- Consider `asyncio.to_thread()` wrapper for remaining blocking file I/O
- For production: tune Gateway worker/runtime settings for long-running agent workloads
- For production: use `langgraph up` (multi-worker) instead of `langgraph dev` (single-worker)
## Resolved Issues
backend/docs/middleware-execution-flow.md
+65 -79
View File
@@ -4,22 +4,22 @@
`create_deerflow_agent` 通过 `RuntimeFeatures` 组装的完整 middleware 链(默认全开时):
| # | Middleware | `before_agent` | `before_model` | `after_model` | `after_agent` | `wrap_model_call` | `wrap_tool_call` | 主 Agent | Subagent | 来源 |
|---|-----------|:-:|:-:|:-:|:-:|:-:|:-:|:-:|:-:|------|
| 0 | ThreadDataMiddleware | ✓ | | | | | | ✓ | ✓ | `sandbox` |
| 1 | UploadsMiddleware | ✓ | | | | | | ✓ | ✗ | `sandbox` |
| 2 | SandboxMiddleware | ✓ | | | ✓ | | | ✓ | ✓ | `sandbox` |
| 3 | DanglingToolCallMiddleware | | | | | | | ✓ | ✗ | 始终开启 |
| 4 | GuardrailMiddleware | | | | | | ✓ | ✓ | ✓ | *Phase 2 纳入* |
| 5 | ToolErrorHandlingMiddleware | | | | | | ✓ | ✓ | ✓ | 始终开启 |
| 6 | SummarizationMiddleware | | | | | | | ✓ | ✗ | `summarization` |
| 7 | TodoMiddleware | | | ✓ | | ✓ | | ✓ | ✗ | `plan_mode` 参数 |
| 8 | TitleMiddleware | | | ✓ | | | | ✓ | ✗ | `auto_title` |
| 9 | MemoryMiddleware | | | | ✓ | | | ✓ | ✗ | `memory` |
| 10 | ViewImageMiddleware | | ✓ | | | | | ✓ | ✗ | `vision` |
| 11 | SubagentLimitMiddleware | | | ✓ | | | | ✓ | ✗ | `subagent` |
| 12 | LoopDetectionMiddleware | | | ✓ | ✓ | ✓ | | ✓ | ✗ | 始终开启 |
| 13 | ClarificationMiddleware | | | | | | | ✓ | ✗ | 始终最后 |
| # | Middleware | `before_agent` | `before_model` | `after_model` | `after_agent` | `wrap_tool_call` | 主 Agent | Subagent | 来源 |
|---|-----------|:-:|:-:|:-:|:-:|:-:|:-:|:-:|------|
| 0 | ThreadDataMiddleware | ✓ | | | | | ✓ | ✓ | `sandbox` |
| 1 | UploadsMiddleware | ✓ | | | | | ✓ | ✗ | `sandbox` |
| 2 | SandboxMiddleware | ✓ | | | ✓ | | ✓ | ✓ | `sandbox` |
| 3 | DanglingToolCallMiddleware | | | | | | ✓ | ✗ | 始终开启 |
| 4 | GuardrailMiddleware | | | | | ✓ | ✓ | ✓ | *Phase 2 纳入* |
| 5 | ToolErrorHandlingMiddleware | | | | | ✓ | ✓ | ✓ | 始终开启 |
| 6 | SummarizationMiddleware | | | | | | ✓ | ✗ | `summarization` |
| 7 | TodoMiddleware | | | ✓ | | | ✓ | ✗ | `plan_mode` 参数 |
| 8 | TitleMiddleware | | | ✓ | | | ✓ | ✗ | `auto_title` |
| 9 | MemoryMiddleware | | | | ✓ | | ✓ | ✗ | `memory` |
| 10 | ViewImageMiddleware | | ✓ | | | | ✓ | ✗ | `vision` |
| 11 | SubagentLimitMiddleware | | | ✓ | | | ✓ | ✗ | `subagent` |
| 12 | LoopDetectionMiddleware | | | ✓ | | | ✓ | ✗ | 始终开启 |
| 13 | ClarificationMiddleware | | | | | | ✓ | ✗ | 始终最后 |
主 agent **14 个** middleware`make_lead_agent`),subagent **4 个**ThreadData、Sandbox、Guardrail、ToolErrorHandling)。`create_deerflow_agent` Phase 1 实现 **13 个**(Guardrail 仅支持自定义实例,无内置默认)。
@@ -35,7 +35,7 @@ graph TB
subgraph BA ["<b>before_agent</b> 正序 0→N"]
direction TB
TD["[0] ThreadData<br/>创建线程目录"] --> UL["[1] Uploads<br/>扫描上传文件"] --> SB["[2] Sandbox<br/>获取沙箱"] --> LD_BA["[12] LoopDetection<br/>清理 stale warning"]
TD["[0] ThreadData<br/>创建线程目录"] --> UL["[1] Uploads<br/>扫描上传文件"] --> SB["[2] Sandbox<br/>获取沙箱"]
end
subgraph BM ["<b>before_model</b> 正序 0→N"]
@@ -43,42 +43,34 @@ graph TB
VI["[10] ViewImage<br/>注入图片 base64"]
end
subgraph WM ["<b>wrap_model_call</b>"]
direction TB
DTC_WM["[3] DanglingToolCall<br/>补悬空 ToolMessage"] --> LD_WM["[12] LoopDetection<br/>注入当前 run warning"]
end
LD_BA --> VI
VI --> DTC_WM
LD_WM --> M["<b>MODEL</b>"]
SB --> VI
VI --> M["<b>MODEL</b>"]
subgraph AM ["<b>after_model</b> 反序 N→0"]
direction TB
LD["[12] LoopDetection<br/>检测循环/排队 warning"] --> SL["[11] SubagentLimit<br/>截断多余 task"] --> TI["[8] Title<br/>生成标题"]
CL["[13] Clarification<br/>拦截 ask_clarification"] --> LD["[12] LoopDetection<br/>检测循环"] --> SL["[11] SubagentLimit<br/>截断多余 task"] --> TI["[8] Title<br/>生成标题"] --> SM["[6] Summarization<br/>上下文压缩"] --> DTC["[3] DanglingToolCall<br/>补缺失 ToolMessage"]
end
M --> LD
M --> CL
subgraph AA ["<b>after_agent</b> 反序 N→0"]
direction TB
LD_CLEAN["[12] LoopDetection<br/>清理 pending warning"] --> MEM["[9] Memory<br/>入队记忆"] --> SBR["[2] Sandbox<br/>释放沙箱"]
SBR["[2] Sandbox<br/>释放沙箱"] --> MEM["[9] Memory<br/>入队记忆"]
end
TI --> LD_CLEAN
SBR --> END(["response"])
DTC --> SBR
MEM --> END(["response"])
classDef beforeNode fill:#a0a8b5,stroke:#636b7a,color:#2d3239
classDef modelNode fill:#b5a8a0,stroke:#7a6b63,color:#2d3239
classDef wrapModelNode fill:#a8a0b5,stroke:#6b637a,color:#2d3239
classDef afterModelNode fill:#b5a0a8,stroke:#7a636b,color:#2d3239
classDef afterAgentNode fill:#a0b5a8,stroke:#637a6b,color:#2d3239
classDef terminalNode fill:#a8b5a0,stroke:#6b7a63,color:#2d3239
class TD,UL,SB,LD_BA,VI beforeNode
class DTC_WM,LD_WM wrapModelNode
class TD,UL,SB,VI beforeNode
class M modelNode
class LD,SL,TI afterModelNode
class LD_CLEAN,SBR,MEM afterAgentNode
class CL,LD,SL,TI,SM,DTC afterModelNode
class SBR,MEM afterAgentNode
class START,END terminalNode
```
@@ -90,12 +82,13 @@ sequenceDiagram
participant TD as ThreadDataMiddleware
participant UL as UploadsMiddleware
participant SB as SandboxMiddleware
participant LD as LoopDetectionMiddleware
participant VI as ViewImageMiddleware
participant DTC as DanglingToolCallMiddleware
participant M as MODEL
participant CL as ClarificationMiddleware
participant SL as SubagentLimitMiddleware
participant TI as TitleMiddleware
participant SM as SummarizationMiddleware
participant DTC as DanglingToolCallMiddleware
participant MEM as MemoryMiddleware
U ->> TD: invoke
@@ -110,26 +103,19 @@ sequenceDiagram
activate SB
Note right of SB: before_agent 获取沙箱
SB ->> LD: before_agent
activate LD
Note right of LD: before_agent 清理同 thread 旧 run 的 pending warning
LD ->> VI: before_model
SB ->> VI: before_model
activate VI
Note right of VI: before_model 注入图片 base64
VI ->> DTC: wrap_model_call
activate DTC
Note right of DTC: wrap_model_call 补悬空 ToolMessage
DTC ->> LD: wrap_model_call
Note right of LD: wrap_model_call drain 当前 run warning 并追加到末尾
LD ->> M: messages + tools
VI ->> M: messages + tools
activate M
M -->> LD: AI response
M -->> CL: AI response
deactivate M
Note right of LD: after_model 检测循环;warning 入队,hard-stop 清 tool_calls
LD -->> SL: after_model
deactivate LD
activate CL
Note right of CL: after_model 拦截 ask_clarification
CL -->> SL: after_model
deactivate CL
activate SL
Note right of SL: after_model 截断多余 task
@@ -138,18 +124,22 @@ sequenceDiagram
activate TI
Note right of TI: after_model 生成标题
TI -->> DTC: done
TI -->> SM: after_model
deactivate TI
activate SM
Note right of SM: after_model 上下文压缩
SM -->> DTC: after_model
deactivate SM
activate DTC
Note right of DTC: after_model 补缺失 ToolMessage
DTC -->> VI: done
deactivate DTC
VI -->> SB: done
deactivate VI
Note right of LD: after_agent 清理当前 run 未消费 warning
Note right of MEM: after_agent 入队记忆
Note right of SB: after_agent 释放沙箱
SB -->> UL: done
deactivate SB
@@ -157,6 +147,8 @@ sequenceDiagram
UL -->> TD: done
deactivate UL
Note right of MEM: after_agent 入队记忆
TD -->> U: response
deactivate TD
```
@@ -232,12 +224,12 @@ sequenceDiagram
participant TD as ThreadData
participant UL as Uploads
participant SB as Sandbox
participant LD as LoopDetection
participant VI as ViewImage
participant DTC as DanglingToolCall
participant M as MODEL
participant CL as Clarification
participant SL as SubagentLimit
participant TI as Title
participant SM as Summarization
participant MEM as Memory
U ->> TD: invoke
@@ -246,40 +238,34 @@ sequenceDiagram
Note right of UL: before_agent 扫描文件
UL ->> SB: .
Note right of SB: before_agent 获取沙箱
SB ->> LD: .
Note right of LD: before_agent 清理 stale pending warning
loop 每轮对话(tool call 循环)
SB ->> VI: .
Note right of VI: before_model 注入图片
VI ->> DTC: .
Note right of DTC: wrap_model_call 补悬空工具结果
DTC ->> LD: .
Note right of LD: wrap_model_call 注入当前 run warning
LD ->> M: messages + tools
M -->> LD: AI response
Note right of LD: after_model 检测循环/排队 warning
LD -->> SL: .
VI ->> M: messages + tools
M -->> CL: AI response
Note right of CL: after_model 拦截 ask_clarification
CL -->> SL: .
Note right of SL: after_model 截断多余 task
SL -->> TI: .
Note right of TI: after_model 生成标题
TI -->> SM: .
Note right of SM: after_model 上下文压缩
end
Note right of LD: after_agent 清理当前 run pending warning
LD -->> MEM: .
Note right of MEM: after_agent 入队记忆
MEM -->> SB: .
Note right of SB: after_agent 释放沙箱
SB -->> U: response
SB -->> MEM: .
Note right of MEM: after_agent 入队记忆
MEM -->> U: response
```
> [!warning] 不是洋葱
> 大部分 middleware 只用一个阶段。SandboxMiddleware 使用 `before_agent`/`after_agent` 做资源获取/释放;LoopDetectionMiddleware 也使用这两个钩子,但用途是清理 run-scoped pending warnings,不是资源生命周期对称`before_agent` / `after_agent` 只跑一次,`before_model` / `after_model` / `wrap_model_call` 每轮循环都跑。
> 14 个 middleware 中只有 SandboxMiddleware before/after 对称(获取/释放)。其余都是单向的:要么只在 `before_*` 做事,要么只在 `after_*` 做事`before_agent` / `after_agent` 只跑一次,`before_model` / `after_model` 每轮循环都跑。
硬依赖只有 2 处:
1. **ThreadData 在 Sandbox 之前** — sandbox 需要线程目录
2. **Clarification 在列表最后**`wrap_tool_call` 处理 `ask_clarification` 时优先拦截,并通过 `Command(goto=END)` 中断执行
2. **Clarification 在列表最后**`after_model` 反序时最先执行,第一个拦截 `ask_clarification`
### 结论
@@ -287,19 +273,19 @@ sequenceDiagram
|---|---|---|
| 每个 middleware | before + after 对称 | 大多只用一个钩子 |
| 激活条 | 嵌套(外长内短) | 不嵌套(串行) |
| 反序的意义 | 清理与初始化配对 | 影响 `after_model` / `after_agent` 的执行优先级 |
| 反序的意义 | 清理与初始化配对 | 影响 after_model 的执行优先级 |
| 典型例子 | Auth: 校验 token / 清理上下文 | ThreadData: 只创建目录,没有清理 |
## 关键设计点
### ClarificationMiddleware 为什么在列表最后?
位置最后使它在工具调用包装链中优先拦截 `ask_clarification`。如果命中,它返回 `Command(goto=END)`,把格式化后的澄清问题写成 `ToolMessage` 并中断执行。
位置最后 = `after_model` 最先执行。它需要**第一个**看到 model 输出,检查是否有 `ask_clarification` tool call。如果有,立即中断(`Command(goto=END)`),后续 middleware 的 `after_model` 不再执行。
### SandboxMiddleware 的对称性
`before_agent`(正序第 3 个)获取沙箱,`after_agent`(反序第 1 个)释放沙箱。外层进入 → 外层退出,天然的洋葱对称。
### LoopDetectionMiddleware 为什么同时用多个钩子
### 大部分 middleware 只用一个钩子
`after_model` 只做检测:重复工具调用达到 warning 阈值时,把 warning 放入 `(thread_id, run_id)` 作用域的 pending 队列。真正注入发生在下一次 `wrap_model_call`:此时上一轮 `AIMessage(tool_calls)` 对应的 `ToolMessage` 已经在请求里,warning 追加在末尾,不会破坏 OpenAI/Moonshot 的 tool-call pairing。`before_agent` 清理同一 thread 下旧 run 的残留 warning`after_agent` 清理当前 run 没被消费的 warning
14 个 middleware 中,只有 SandboxMiddleware 同时用了 `before_agent` + `after_agent`(获取/释放)。其余都只在一个阶段执行。洋葱模型的反序特性主要影响 `after_model` 阶段的执行顺序
backend/packages/harness/deerflow/agents/lead_agent/agent.py
+13 -98
View File
@@ -1,27 +1,4 @@
"""Lead agent factory.
INVARIANT tracing callback placement
======================================
Tracing callbacks (Langfuse, LangSmith) are attached at the **graph
invocation root** in :func:`_make_lead_agent` (see the
``build_tracing_callbacks()`` block that appends to ``config["callbacks"]``).
Every ``create_chat_model(...)`` call inside this module and inside any
middleware reachable from this graph (e.g. ``TitleMiddleware``) MUST pass
``attach_tracing=False``.
Forgetting that flag emits duplicate spans (one rooted at the graph, one at
the model) AND prevents the Langfuse handler's ``propagate_attributes``
path from firing, so ``session_id`` / ``user_id`` never reach the trace.
The four current sites are: bootstrap agent, default agent, summarization
middleware, and the async path inside ``TitleMiddleware``. Any new in-graph
``create_chat_model`` call must add to this list and pass the flag.
"""
from __future__ import annotations
import logging
from typing import TYPE_CHECKING
from langchain.agents import create_agent
from langchain.agents.middleware import AgentMiddleware
@@ -32,7 +9,6 @@ from deerflow.agents.memory.summarization_hook import memory_flush_hook
from deerflow.agents.middlewares.clarification_middleware import ClarificationMiddleware
from deerflow.agents.middlewares.loop_detection_middleware import LoopDetectionMiddleware
from deerflow.agents.middlewares.memory_middleware import MemoryMiddleware
from deerflow.agents.middlewares.safety_finish_reason_middleware import SafetyFinishReasonMiddleware
from deerflow.agents.middlewares.subagent_limit_middleware import SubagentLimitMiddleware
from deerflow.agents.middlewares.summarization_middleware import BeforeSummarizationHook, DeerFlowSummarizationMiddleware
from deerflow.agents.middlewares.title_middleware import TitleMiddleware
@@ -46,12 +22,6 @@ from deerflow.config.app_config import AppConfig, get_app_config
from deerflow.models import create_chat_model
from deerflow.skills.tool_policy import filter_tools_by_skill_allowed_tools
from deerflow.skills.types import Skill
from deerflow.tracing import build_tracing_callbacks
if TYPE_CHECKING:
from langchain.tools import BaseTool
from deerflow.tools.builtins.tool_search import DeferredToolSetup
logger = logging.getLogger(__name__)
@@ -103,14 +73,10 @@ def _create_summarization_middleware(*, app_config: AppConfig | None = None) ->
# Bind "middleware:summarize" tag so RunJournal identifies these LLM calls
# as middleware rather than lead_agent (SummarizationMiddleware is a
# LangChain built-in, so we tag the model at creation time).
# attach_tracing=False because the graph-level RunnableConfig (set in
# ``_make_lead_agent``) already carries tracing callbacks; binding them
# again at the model level would emit duplicate spans and break
# ``session_id`` / ``user_id`` propagation.
if config.model_name:
model = create_chat_model(name=config.model_name, thinking_enabled=False, app_config=resolved_app_config, attach_tracing=False)
model = create_chat_model(name=config.model_name, thinking_enabled=False, app_config=resolved_app_config)
else:
model = create_chat_model(thinking_enabled=False, app_config=resolved_app_config, attach_tracing=False)
model = create_chat_model(thinking_enabled=False, app_config=resolved_app_config)
model = model.with_config(tags=["middleware:summarize"])
# Prepare kwargs
@@ -278,7 +244,6 @@ def _build_middlewares(
custom_middlewares: list[AgentMiddleware] | None = None,
*,
app_config: AppConfig | None = None,
deferred_setup=None,
):
"""Build middleware chain based on runtime configuration.
@@ -327,13 +292,11 @@ def _build_middlewares(
if model_config is not None and model_config.supports_vision:
middlewares.append(ViewImageMiddleware())
# Hide deferred tool schemas from model binding until tool_search promotes them.
# The deferred set + catalog hash come from the build-time setup (assembled
# after tool-policy filtering); promotion is read from graph state.
if deferred_setup is not None and deferred_setup.deferred_names:
# Add DeferredToolFilterMiddleware to hide deferred tool schemas from model binding
if resolved_app_config.tool_search.enabled:
from deerflow.agents.middlewares.deferred_tool_filter_middleware import DeferredToolFilterMiddleware
middlewares.append(DeferredToolFilterMiddleware(deferred_setup.deferred_names, deferred_setup.catalog_hash))
middlewares.append(DeferredToolFilterMiddleware())
# Add SubagentLimitMiddleware to truncate excess parallel task calls
subagent_enabled = cfg.get("subagent_enabled", False)
@@ -350,40 +313,11 @@ def _build_middlewares(
if custom_middlewares:
middlewares.extend(custom_middlewares)
# SafetyFinishReasonMiddleware — suppress tool execution when the provider
# safety-terminated the response. Registered after custom middlewares so
# that LangChain's reverse-order after_model dispatch runs Safety first;
# cleared tool_calls then flow through Loop/Subagent accounting without
# firing extra alarms. See safety_finish_reason_middleware.py docstring.
safety_config = resolved_app_config.safety_finish_reason
if safety_config.enabled:
middlewares.append(SafetyFinishReasonMiddleware.from_config(safety_config))
# ClarificationMiddleware should always be last
middlewares.append(ClarificationMiddleware())
return middlewares
def _assemble_deferred(filtered_tools: list[BaseTool], *, enabled: bool) -> tuple[list[BaseTool], DeferredToolSetup]:
"""Build the final tool list + deferred setup from a policy-filtered list.
Call AFTER tool-policy filtering so the deferred catalog never exposes a
tool the agent is not allowed to use. Fail-closed: if tool_search is enabled
and MCP tools survived filtering but no deferred set was recovered, raise
rather than silently binding their full schemas to the model.
"""
from deerflow.tools.builtins.tool_search import build_deferred_tool_setup
from deerflow.tools.mcp_metadata import is_mcp_tool
deferred_setup = build_deferred_tool_setup(filtered_tools, enabled=enabled)
if enabled and not deferred_setup.deferred_names and any(is_mcp_tool(t) for t in filtered_tools):
raise RuntimeError("tool_search enabled and MCP tools survived policy filtering, but no deferred set was recovered — refusing to bind MCP schemas (fail-closed).")
final_tools = list(filtered_tools)
if deferred_setup.tool_search_tool:
final_tools.append(deferred_setup.tool_search_tool)
return final_tools, deferred_setup
def _available_skill_names(agent_config, is_bootstrap: bool) -> set[str] | None:
if is_bootstrap:
return {"bootstrap"}
@@ -474,36 +408,20 @@ def _make_lead_agent(config: RunnableConfig, *, app_config: AppConfig):
}
)
# Inject tracing callbacks at the graph invocation root so a single LangGraph
# run produces one trace with all node / LLM / tool calls as child spans,
# AND so the Langfuse handler sees ``on_chain_start(parent_run_id=None)`` and
# actually propagates ``langfuse_session_id`` / ``langfuse_user_id`` from
# ``config["metadata"]`` onto the trace. Without root-level attachment the
# model is a nested observation and the handler strips ``langfuse_*`` keys.
tracing_callbacks = build_tracing_callbacks()
if tracing_callbacks:
existing = config.get("callbacks") or []
if not isinstance(existing, list):
existing = list(existing)
config["callbacks"] = [*existing, *tracing_callbacks]
skills_for_tool_policy = _load_enabled_skills_for_tool_policy(available_skills, app_config=resolved_app_config)
if is_bootstrap:
# Special bootstrap agent with minimal prompt for initial custom agent creation flow
raw_tools = get_available_tools(model_name=model_name, subagent_enabled=subagent_enabled, app_config=resolved_app_config) + [setup_agent]
filtered = filter_tools_by_skill_allowed_tools(raw_tools, skills_for_tool_policy)
final_tools, setup = _assemble_deferred(filtered, enabled=resolved_app_config.tool_search.enabled)
tools = get_available_tools(model_name=model_name, subagent_enabled=subagent_enabled, app_config=resolved_app_config) + [setup_agent]
return create_agent(
model=create_chat_model(name=model_name, thinking_enabled=thinking_enabled, app_config=resolved_app_config, attach_tracing=False),
tools=final_tools,
middleware=_build_middlewares(config, model_name=model_name, app_config=resolved_app_config, deferred_setup=setup),
model=create_chat_model(name=model_name, thinking_enabled=thinking_enabled, app_config=resolved_app_config),
tools=filter_tools_by_skill_allowed_tools(tools, skills_for_tool_policy),
middleware=_build_middlewares(config, model_name=model_name, app_config=resolved_app_config),
system_prompt=apply_prompt_template(
subagent_enabled=subagent_enabled,
max_concurrent_subagents=max_concurrent_subagents,
available_skills=set(["bootstrap"]),
app_config=resolved_app_config,
deferred_names=setup.deferred_names,
),
state_schema=ThreadState,
)
@@ -512,20 +430,17 @@ def _make_lead_agent(config: RunnableConfig, *, app_config: AppConfig):
# The default agent (no agent_name) does not see this tool.
extra_tools = [update_agent] if agent_name else []
# Default lead agent (unchanged behavior)
raw_tools = get_available_tools(model_name=model_name, groups=agent_config.tool_groups if agent_config else None, subagent_enabled=subagent_enabled, app_config=resolved_app_config)
filtered = filter_tools_by_skill_allowed_tools(raw_tools + extra_tools, skills_for_tool_policy)
final_tools, setup = _assemble_deferred(filtered, enabled=resolved_app_config.tool_search.enabled)
tools = get_available_tools(model_name=model_name, groups=agent_config.tool_groups if agent_config else None, subagent_enabled=subagent_enabled, app_config=resolved_app_config)
return create_agent(
model=create_chat_model(name=model_name, thinking_enabled=thinking_enabled, reasoning_effort=reasoning_effort, app_config=resolved_app_config, attach_tracing=False),
tools=final_tools,
middleware=_build_middlewares(config, model_name=model_name, agent_name=agent_name, app_config=resolved_app_config, deferred_setup=setup),
model=create_chat_model(name=model_name, thinking_enabled=thinking_enabled, reasoning_effort=reasoning_effort, app_config=resolved_app_config),
tools=filter_tools_by_skill_allowed_tools(tools + extra_tools, skills_for_tool_policy),
middleware=_build_middlewares(config, model_name=model_name, agent_name=agent_name, app_config=resolved_app_config),
system_prompt=apply_prompt_template(
subagent_enabled=subagent_enabled,
max_concurrent_subagents=max_concurrent_subagents,
agent_name=agent_name,
available_skills=set(agent_config.skills) if agent_config and agent_config.skills is not None else None,
app_config=resolved_app_config,
deferred_names=setup.deferred_names,
),
state_schema=ThreadState,
)
backend/packages/harness/deerflow/agents/lead_agent/prompt.py
+25 -18
View File
@@ -542,14 +542,6 @@ combined with a FastAPI gateway for REST API access [citation:FastAPI](https://f
{subagent_reminder}- Skill First: Always load the relevant skill before starting **complex** tasks.
- Progressive Loading: Load resources incrementally as referenced in skills
- Output Files: Final deliverables must be in `/mnt/user-data/outputs`
- File Editing Workflow: When revising an existing file, prefer
`str_replace` over `write_file` it sends only the diff and avoids
re-emitting the whole file (mirrors Claude Code's Edit and Codex's
apply_patch). When writing long new content from scratch, split it
into sections: the first `write_file` call creates the file, then use
`write_file` with append=True to extend it section by section. This
keeps each tool call small and avoids mid-stream chunk-gap timeouts
on oversized single-shot writes. (See issue #3189.)
- Clarity: Be direct and helpful, avoid unnecessary meta-commentary
- Including Images and Mermaid: Images and Mermaid diagrams are always welcomed in the Markdown format, and you're encouraged to use `![Image Description](image_path)\n\n` or "```mermaid" to display images in response or Markdown files
- Multi-task: Better utilize parallel tool calling to call multiple tools at one time for better performance
@@ -686,23 +678,39 @@ SOUL.md or config.yaml — those write into a temporary sandbox/tool workspace a
Rules:
- Always pass the FULL replacement text for `soul` (no patch semantics). Start from your current SOUL above and apply the user's edits.
- Only pass the fields that should change. Omit the others to preserve them.
- Never pass literal strings like `"null"`, `"none"`, or `"undefined"` for unchanged fields.
- Pass `skills=[]` to disable all skills, or omit `skills` to keep the existing whitelist.
- After `update_agent` returns successfully, tell the user the change is persisted and will take effect on the next turn.
</self_update>
"""
def get_deferred_tools_prompt_section(*, deferred_names: frozenset[str] = frozenset()) -> str:
"""Generate <available-deferred-tools> from an explicit deferred-name set.
def get_deferred_tools_prompt_section(*, app_config: AppConfig | None = None) -> str:
"""Generate <available-deferred-tools> block for the system prompt.
Lists only names so the agent knows what exists and can use tool_search to
load them. Returns empty string when there are no deferred tools. The set is
computed at agent build time (after tool-policy filtering) and passed in.
Lists only deferred tool names so the agent knows what exists
and can use tool_search to load them.
Returns empty string when tool_search is disabled or no tools are deferred.
"""
if not deferred_names:
from deerflow.tools.builtins.tool_search import get_deferred_registry
if app_config is None:
try:
from deerflow.config import get_app_config
config = get_app_config()
except Exception:
return ""
else:
config = app_config
if not config.tool_search.enabled:
return ""
names = "\n".join(sorted(deferred_names))
registry = get_deferred_registry()
if not registry:
return ""
names = "\n".join(e.name for e in registry.entries)
return f"<available-deferred-tools>\n{names}\n</available-deferred-tools>"
@@ -764,7 +772,6 @@ def apply_prompt_template(
agent_name: str | None = None,
available_skills: set[str] | None = None,
app_config: AppConfig | None = None,
deferred_names: frozenset[str] = frozenset(),
) -> str:
# Include subagent section only if enabled (from runtime parameter)
n = max_concurrent_subagents
@@ -792,7 +799,7 @@ def apply_prompt_template(
skills_section = get_skills_prompt_section(available_skills, app_config=app_config)
# Get deferred tools section (tool_search)
deferred_tools_section = get_deferred_tools_prompt_section(deferred_names=deferred_names)
deferred_tools_section = get_deferred_tools_prompt_section(app_config=app_config)
# Build ACP agent section only if ACP agents are configured
acp_section = _build_acp_section(app_config=app_config)
backend/packages/harness/deerflow/agents/memory/updater.py
+8 -106
View File
@@ -227,110 +227,6 @@ def _extract_text(content: Any) -> str:
return str(content)
_REQUIRED_MEMORY_UPDATE_TOP_LEVEL_KEYS = frozenset({"user", "history", "newFacts", "factsToRemove"})
def _normalize_memory_update_fact(fact: Any) -> dict[str, Any] | None:
"""Normalize a single fact entry from a model-produced memory update."""
if not isinstance(fact, dict):
return None
raw_content = fact.get("content")
if not isinstance(raw_content, str):
return None
content = raw_content.strip()
if not content:
return None
raw_category = fact.get("category")
category = raw_category.strip() if isinstance(raw_category, str) and raw_category.strip() else "context"
raw_confidence = fact.get("confidence", 0.5)
if isinstance(raw_confidence, bool):
return None
if isinstance(raw_confidence, str):
raw_confidence = raw_confidence.strip()
if not raw_confidence:
return None
try:
raw_confidence = float(raw_confidence)
except ValueError:
return None
elif isinstance(raw_confidence, (int, float)):
raw_confidence = float(raw_confidence)
else:
return None
if not math.isfinite(raw_confidence):
return None
normalized_fact = {
"content": content,
"category": category,
"confidence": raw_confidence,
}
source_error = fact.get("sourceError")
if isinstance(source_error, str):
normalized_source_error = source_error.strip()
if normalized_source_error:
normalized_fact["sourceError"] = normalized_source_error
return normalized_fact
def _normalize_memory_update_data(update_data: dict[str, Any]) -> dict[str, Any]:
"""Coerce parsed memory update data into the shape consumed by _apply_updates."""
user = update_data.get("user")
history = update_data.get("history")
new_facts = update_data.get("newFacts")
facts_to_remove = update_data.get("factsToRemove")
normalized_facts_to_remove = [fact_id for fact_id in facts_to_remove if isinstance(fact_id, str)] if isinstance(facts_to_remove, list) else []
normalized_new_facts = []
dropped_new_fact = not isinstance(new_facts, list)
if isinstance(new_facts, list):
for fact in new_facts:
normalized_fact = _normalize_memory_update_fact(fact)
if normalized_fact is not None:
normalized_new_facts.append(normalized_fact)
else:
dropped_new_fact = True
if normalized_facts_to_remove and dropped_new_fact:
raise json.JSONDecodeError(
"Unsafe partial memory update: factsToRemove with malformed newFacts",
json.dumps(update_data, ensure_ascii=False),
0,
)
return {
"user": user if isinstance(user, dict) else {},
"history": history if isinstance(history, dict) else {},
"newFacts": normalized_new_facts,
"factsToRemove": normalized_facts_to_remove,
}
def _parse_memory_update_response(response_content: Any) -> dict[str, Any]:
"""Parse the first valid memory-update JSON object from an LLM response.
Some providers may wrap JSON in thinking traces, prose, or markdown fences
even when prompted to return JSON only. This parser accepts safely
extractable JSON objects but does not repair truncated or malformed JSON.
"""
response_text = _extract_text(response_content).strip()
decoder = json.JSONDecoder()
for match in re.finditer(r"\{", response_text):
try:
parsed, _end = decoder.raw_decode(response_text[match.start() :])
except json.JSONDecodeError:
continue
if isinstance(parsed, dict) and _REQUIRED_MEMORY_UPDATE_TOP_LEVEL_KEYS.issubset(parsed):
return _normalize_memory_update_data(parsed)
raise json.JSONDecodeError("No valid memory update JSON object found", response_text, 0)
# Matches sentences that describe a file-upload *event* rather than general
# file-related work. Deliberately narrow to avoid removing legitimate facts
# such as "User works with CSV files" or "prefers PDF export".
@@ -442,7 +338,7 @@ class MemoryUpdater:
reinforcement_detected=reinforcement_detected,
)
prompt = MEMORY_UPDATE_PROMPT.format(
current_memory=json.dumps(current_memory, indent=2, ensure_ascii=False),
current_memory=json.dumps(current_memory, indent=2),
conversation=conversation_text,
correction_hint=correction_hint,
)
@@ -457,7 +353,13 @@ class MemoryUpdater:
user_id: str | None = None,
) -> bool:
"""Parse the model response, apply updates, and persist memory."""
update_data = _parse_memory_update_response(response_content)
response_text = _extract_text(response_content).strip()
if response_text.startswith("```"):
lines = response_text.split("\n")
response_text = "\n".join(lines[1:-1] if lines[-1] == "```" else lines[1:])
update_data = json.loads(response_text)
# Deep-copy before in-place mutation so a subsequent save() failure
# cannot corrupt the still-cached original object reference.
updated_memory = self._apply_updates(copy.deepcopy(current_memory), update_data, thread_id)
backend/packages/harness/deerflow/agents/middlewares/dangling_tool_call_middleware.py
+24 -49
View File
@@ -15,7 +15,6 @@ to the end of the message list as before_model + add_messages reducer would do.
import json
import logging
from collections import defaultdict, deque
from collections.abc import Awaitable, Callable
from typing import override
@@ -26,11 +25,6 @@ from langchain_core.messages import ToolMessage
logger = logging.getLogger(__name__)
# Workaround for issue #2894: malformed write_file calls can carry huge Markdown
# payloads in invalid tool-call args. Keep recovery error details short so the
# synthetic ToolMessage does not echo large or malformed content back to the model.
_MAX_RECOVERY_ERROR_DETAIL_LEN = 500
class DanglingToolCallMiddleware(AgentMiddleware[AgentState]):
"""Inserts placeholder ToolMessages for dangling tool calls before model invocation.
@@ -103,68 +97,52 @@ class DanglingToolCallMiddleware(AgentMiddleware[AgentState]):
@staticmethod
def _synthetic_tool_message_content(tool_call: dict) -> str:
if tool_call.get("invalid"):
name = tool_call.get("name")
error = tool_call.get("error")
error_text = error[:_MAX_RECOVERY_ERROR_DETAIL_LEN] if isinstance(error, str) and error else ""
# Workaround for issue #2894: malformed write_file calls can carry huge Markdown
# payloads in invalid tool-call args. Keep recovery guidance actionable without
# echoing large or malformed content back to the model.
if name == "write_file":
details = f" Parser error: {error_text}" if error_text else ""
return (
"[write_file failed before execution: the tool-call arguments were not valid JSON, "
"so no file was written. This often happens when the model tries to write a very "
"large Markdown file in a single tool call, especially when `content` contains "
"unescaped quotes, inline JSON, backslashes, or code fences. Do not retry the same "
"large `write_file` payload for this artifact; provide the report/content directly "
"as normal assistant text in your next response. If a file write is still needed "
f"later, split the file into smaller sections instead of one large payload.{details}]"
)
if error_text:
return f"[Tool call could not be executed because its arguments were invalid: {error_text}]"
if isinstance(error, str) and error:
return f"[Tool call could not be executed because its arguments were invalid: {error}]"
return "[Tool call could not be executed because its arguments were invalid.]"
return "[Tool call was interrupted and did not return a result.]"
def _build_patched_messages(self, messages: list) -> list | None:
"""Return messages with tool results grouped after their tool-call AIMessage.
"""Return a new message list with patches inserted at the correct positions.
This normalizes model-bound causal order before provider serialization while
preserving already-valid transcripts unchanged.
For each AIMessage with dangling tool_calls (no corresponding ToolMessage),
a synthetic ToolMessage is inserted immediately after that AIMessage.
Returns None if no patches are needed.
"""
tool_messages_by_id: dict[str, deque[ToolMessage]] = defaultdict(deque)
# Collect IDs of all existing ToolMessages
existing_tool_msg_ids: set[str] = set()
for msg in messages:
if isinstance(msg, ToolMessage):
tool_messages_by_id[msg.tool_call_id].append(msg)
existing_tool_msg_ids.add(msg.tool_call_id)
tool_call_ids: set[str] = set()
# Check if any patching is needed
needs_patch = False
for msg in messages:
if getattr(msg, "type", None) != "ai":
continue
for tc in self._message_tool_calls(msg):
tc_id = tc.get("id")
if tc_id:
tool_call_ids.add(tc_id)
if tc_id and tc_id not in existing_tool_msg_ids:
needs_patch = True
break
if needs_patch:
break
if not needs_patch:
return None
# Build new list with patches inserted right after each dangling AIMessage
patched: list = []
patched_ids: set[str] = set()
patch_count = 0
for msg in messages:
if isinstance(msg, ToolMessage) and msg.tool_call_id in tool_call_ids:
continue
patched.append(msg)
if getattr(msg, "type", None) != "ai":
continue
for tc in self._message_tool_calls(msg):
tc_id = tc.get("id")
if not tc_id:
continue
tool_msg_queue = tool_messages_by_id.get(tc_id)
existing_tool_msg = tool_msg_queue.popleft() if tool_msg_queue else None
if existing_tool_msg is not None:
patched.append(existing_tool_msg)
else:
if tc_id and tc_id not in existing_tool_msg_ids and tc_id not in patched_ids:
patched.append(
ToolMessage(
content=self._synthetic_tool_message_content(tc),
@@ -173,13 +151,10 @@ class DanglingToolCallMiddleware(AgentMiddleware[AgentState]):
status="error",
)
)
patched_ids.add(tc_id)
patch_count += 1
if patched == messages:
return None
if patch_count:
logger.warning(f"Injecting {patch_count} placeholder ToolMessage(s) for dangling tool calls")
logger.warning(f"Injecting {patch_count} placeholder ToolMessage(s) for dangling tool calls")
return patched
@override
backend/packages/harness/deerflow/agents/middlewares/deferred_tool_filter_middleware.py
+34 -39
View File
@@ -1,15 +1,12 @@
"""Middleware to filter deferred tool schemas from model binding.
When tool_search is enabled, MCP tools are still passed to ToolNode for
execution, but their schemas must NOT be sent to the LLM via bind_tools until
the model has discovered them via tool_search. This middleware removes the
still-deferred tools from request.tools before model binding, and blocks tool
calls to tools that have not been promoted yet.
When tool_search is enabled, MCP tools are registered in the DeferredToolRegistry
and passed to ToolNode for execution, but their schemas should NOT be sent to the
LLM via bind_tools (that's the whole point of deferral — saving context tokens).
The deferred name set and the catalog hash are injected at construction time
(no ContextVar). Promotion state is read from graph state (``state["promoted"]``),
scoped by catalog hash so a stale persisted promotion cannot expose a renamed
or drifted tool.
This middleware intercepts wrap_model_call and removes deferred tools from
request.tools so that model.bind_tools only receives active tool schemas.
The agent discovers deferred tools at runtime via the tool_search tool.
"""
import logging
@@ -27,49 +24,47 @@ logger = logging.getLogger(__name__)
class DeferredToolFilterMiddleware(AgentMiddleware[AgentState]):
"""Hide deferred tool schemas from the bound model until promoted.
"""Remove deferred tools from request.tools before model binding.
ToolNode still holds all tools (including deferred) for execution routing,
but the LLM only sees active tool schemas plus tools that have already been
promoted (recorded in ``state["promoted"]`` under the current catalog hash).
but the LLM only sees active tool schemas deferred tools are discoverable
via tool_search at runtime.
"""
def __init__(self, deferred_names: frozenset[str], catalog_hash: str | None):
super().__init__()
self._deferred = deferred_names
self._catalog_hash = catalog_hash
def _promoted(self, state) -> set[str]:
promoted = (state or {}).get("promoted")
if promoted and promoted.get("catalog_hash") == self._catalog_hash:
return set(promoted.get("names") or [])
return set()
def _hidden(self, state) -> set[str]:
return set(self._deferred) - self._promoted(state)
def _filter_tools(self, request: ModelRequest) -> ModelRequest:
if not self._deferred:
from deerflow.tools.builtins.tool_search import get_deferred_registry
registry = get_deferred_registry()
if not registry:
return request
hide = self._hidden(request.state)
if not hide:
return request
active = [t for t in request.tools if getattr(t, "name", None) not in hide]
if len(active) < len(request.tools):
logger.debug("Filtered %d deferred tool schema(s) from model binding", len(request.tools) - len(active))
return request.override(tools=active)
deferred_names = registry.deferred_names
active_tools = [t for t in request.tools if getattr(t, "name", None) not in deferred_names]
if len(active_tools) < len(request.tools):
logger.debug(f"Filtered {len(request.tools) - len(active_tools)} deferred tool schema(s) from model binding")
return request.override(tools=active_tools)
def _blocked_tool_message(self, request: ToolCallRequest) -> ToolMessage | None:
if not self._deferred:
from deerflow.tools.builtins.tool_search import get_deferred_registry
registry = get_deferred_registry()
if not registry:
return None
name = str(request.tool_call.get("name") or "")
if not name or name not in self._hidden(request.state):
tool_name = str(request.tool_call.get("name") or "")
if not tool_name:
return None
if not registry.contains(tool_name):
return None
tool_call_id = str(request.tool_call.get("id") or "missing_tool_call_id")
return ToolMessage(
content=(f"Error: Tool '{name}' is deferred and has not been promoted yet. Call tool_search first to expose and promote this tool's schema, then retry."),
content=(f"Error: Tool '{tool_name}' is deferred and has not been promoted yet. Call tool_search first to expose and promote this tool's schema, then retry."),
tool_call_id=tool_call_id,
name=name,
name=tool_name,
status="error",
)
backend/packages/harness/deerflow/agents/middlewares/llm_error_handling_middleware.py
+6 -106
View File
@@ -62,41 +62,6 @@ _AUTH_PATTERNS = (
"未授权",
)
# Per-exception retry budget overrides.
#
# Some transient errors are retriable in principle but expensive to retry at
# the default budget. StreamChunkTimeoutError in particular fires after the
# upstream provider has already stalled for `stream_chunk_timeout` seconds
# (typically 120-240s); a full 3-attempt loop can therefore stack 6-12 minutes
# of dead air before surfacing the failure to the user. We keep exactly one
# retry (cheap reconnect that catches genuine transient TCP blips) and then
# fail fast — the same buffered payload is overwhelmingly likely to fail
# again at the upstream provider for the same reason.
#
# Keys are exception class *names* (not classes) so we don't introduce
# import-time coupling on optional dependencies like langchain-openai. The
# value is the absolute max attempt count, NOT additional retries — so a
# value of 2 means "1 first attempt + 1 retry" (the CR-requested
# "keep one retry" behavior).
_RETRY_BUDGET_OVERRIDES: dict[str, int] = {
"StreamChunkTimeoutError": 2,
}
# Exception class names that indicate the upstream stream-chunk watchdog
# fired because the model stalled mid-flight. These deserve a more specific
# user-facing message than the generic "temporarily unavailable" copy,
# because the typical root cause is a long tool-call serialization stalling
# the upstream stream — and the most actionable advice we can give the user
# is "ask for a shorter / split output" rather than "wait and retry".
# Generic connection drops (httpx RemoteProtocolError / ReadError) are
# intentionally excluded: they routinely fire on transient network blips
# with normal payloads, where the "split the work" guidance is misleading.
_STREAM_DROP_EXCEPTIONS: frozenset[str] = frozenset(
{
"StreamChunkTimeoutError",
}
)
class LLMErrorHandlingMiddleware(AgentMiddleware[AgentState]):
"""Retry transient LLM errors and surface graceful assistant messages."""
@@ -118,18 +83,6 @@ class LLMErrorHandlingMiddleware(AgentMiddleware[AgentState]):
self._circuit_state = "closed"
self._circuit_probe_in_flight = False
def _max_attempts_for(self, exc: BaseException) -> int:
"""Return the effective max attempt count for this exception.
Falls back to `self.retry_max_attempts` unless the exception class name
appears in the per-exception override table.
"""
override = _RETRY_BUDGET_OVERRIDES.get(type(exc).__name__)
if override is None:
return self.retry_max_attempts
return min(override, self.retry_max_attempts)
def _check_circuit(self) -> bool:
"""Returns True if circuit is OPEN (fast fail), False otherwise."""
with self._circuit_lock:
@@ -200,7 +153,6 @@ class LLMErrorHandlingMiddleware(AgentMiddleware[AgentState]):
"InternalServerError",
"ReadError", # httpx.ReadError: connection dropped mid-stream
"RemoteProtocolError", # httpx: server closed connection unexpectedly
"StreamChunkTimeoutError", # langchain-openai: chunk gap exceeded stream_chunk_timeout
}:
return True, "transient"
if status_code in _RETRIABLE_STATUS_CODES:
@@ -225,24 +177,6 @@ class LLMErrorHandlingMiddleware(AgentMiddleware[AgentState]):
def _build_circuit_breaker_message(self) -> str:
return "The configured LLM provider is currently unavailable due to continuous failures. Circuit breaker is engaged to protect the system. Please wait a moment before trying again."
def _build_error_fallback_message(
self,
content: str,
*,
error_type: str,
reason: str,
detail: str,
) -> AIMessage:
return AIMessage(
content=content,
additional_kwargs={
"deerflow_error_fallback": True,
"error_type": error_type,
"error_reason": reason,
"error_detail": detail,
},
)
def _build_user_message(self, exc: BaseException, reason: str) -> str:
detail = _extract_error_detail(exc)
if reason == "quota":
@@ -250,31 +184,9 @@ class LLMErrorHandlingMiddleware(AgentMiddleware[AgentState]):
if reason == "auth":
return "The configured LLM provider rejected the request because authentication or access is invalid. Please check the provider credentials and try again."
if reason in {"busy", "transient"}:
# Stream-drop failures (chunk-gap timeout, peer-closed connection,
# raw read error) almost always point at a single oversized
# tool-call payload — the model spent so long serializing JSON
# arguments that the upstream provider buffered and the stream
# gap exceeded `stream_chunk_timeout`. Surfacing this distinct
# cause lets the user split or shorten their next request
# instead of helplessly retrying the same prompt.
if type(exc).__name__ in _STREAM_DROP_EXCEPTIONS:
return (
"The model's streaming response was interrupted before it could "
"finish. This usually happens when a single response or tool call "
"is very large — please ask the assistant to split the work into "
"smaller steps, or shorten the requested output, and try again."
)
return "The configured LLM provider is temporarily unavailable after multiple retries. Please wait a moment and continue the conversation."
return f"LLM request failed: {detail}"
def _build_user_fallback_message(self, exc: BaseException, reason: str) -> AIMessage:
return self._build_error_fallback_message(
self._build_user_message(exc, reason),
error_type=type(exc).__name__,
reason=reason,
detail=_extract_error_detail(exc),
)
def _emit_retry_event(self, attempt: int, wait_ms: int, reason: str) -> None:
try:
from langgraph.config import get_stream_writer
@@ -300,12 +212,7 @@ class LLMErrorHandlingMiddleware(AgentMiddleware[AgentState]):
handler: Callable[[ModelRequest], ModelResponse],
) -> ModelCallResult:
if self._check_circuit():
return self._build_error_fallback_message(
self._build_circuit_breaker_message(),
error_type="CircuitBreakerOpen",
reason="circuit_open",
detail="LLM circuit breaker is open",
)
return AIMessage(content=self._build_circuit_breaker_message())
attempt = 1
while True:
@@ -321,8 +228,7 @@ class LLMErrorHandlingMiddleware(AgentMiddleware[AgentState]):
raise
except Exception as exc:
retriable, reason = self._classify_error(exc)
max_attempts = self._max_attempts_for(exc)
if retriable and attempt < max_attempts:
if retriable and attempt < self.retry_max_attempts:
wait_ms = self._build_retry_delay_ms(attempt, exc)
logger.warning(
"Transient LLM error on attempt %d/%d; retrying in %dms: %s",
@@ -343,7 +249,7 @@ class LLMErrorHandlingMiddleware(AgentMiddleware[AgentState]):
)
if retriable:
self._record_failure()
return self._build_user_fallback_message(exc, reason)
return AIMessage(content=self._build_user_message(exc, reason))
@override
async def awrap_model_call(
@@ -352,12 +258,7 @@ class LLMErrorHandlingMiddleware(AgentMiddleware[AgentState]):
handler: Callable[[ModelRequest], Awaitable[ModelResponse]],
) -> ModelCallResult:
if self._check_circuit():
return self._build_error_fallback_message(
self._build_circuit_breaker_message(),
error_type="CircuitBreakerOpen",
reason="circuit_open",
detail="LLM circuit breaker is open",
)
return AIMessage(content=self._build_circuit_breaker_message())
attempt = 1
while True:
@@ -373,8 +274,7 @@ class LLMErrorHandlingMiddleware(AgentMiddleware[AgentState]):
raise
except Exception as exc:
retriable, reason = self._classify_error(exc)
max_attempts = self._max_attempts_for(exc)
if retriable and attempt < max_attempts:
if retriable and attempt < self.retry_max_attempts:
wait_ms = self._build_retry_delay_ms(attempt, exc)
logger.warning(
"Transient LLM error on attempt %d/%d; retrying in %dms: %s",
@@ -395,7 +295,7 @@ class LLMErrorHandlingMiddleware(AgentMiddleware[AgentState]):
)
if retriable:
self._record_failure()
return self._build_user_fallback_message(exc, reason)
return AIMessage(content=self._build_user_message(exc, reason))
def _matches_any(detail: str, patterns: tuple[str, ...]) -> bool:
backend/packages/harness/deerflow/agents/middlewares/loop_detection_middleware.py
+28 -201
View File
@@ -6,36 +6,10 @@ arguments indefinitely until the recursion limit kills the run.
Detection strategy:
1. After each model response, hash the tool calls (name + args).
2. Track recent hashes in a sliding window.
3. If the same hash appears >= warn_threshold times, queue a
"you are repeating yourself — wrap up" warning for the current
thread/run. The warning is **injected at the next model call** (in
``wrap_model_call``) as a ``HumanMessage`` appended to the message
list, *after* all ToolMessage responses to the previous
AIMessage(tool_calls).
3. If the same hash appears >= warn_threshold times, inject a
"you are repeating yourself — wrap up" system message (once per hash).
4. If it appears >= hard_limit times, strip all tool_calls from the
response so the agent is forced to produce a final text answer.
Why the warning is injected at ``wrap_model_call`` instead of
``after_model``:
``after_model`` fires immediately after the model emits an
``AIMessage`` that may carry ``tool_calls``. The tools node has not
run yet, so no matching ``ToolMessage`` exists in the history. Any
message we add here lands *between* the assistant's tool_calls and
their responses. OpenAI/Moonshot reject the next request with
``"tool_call_ids did not have response messages"`` because their
validators require the assistant's tool_calls to be followed
immediately by tool messages. Anthropic also disallows mid-stream
``SystemMessage``. By deferring the warning to ``wrap_model_call``,
every prior ToolMessage is already present in the request's message
list and the warning is appended at the end pairing intact, no
``AIMessage`` semantics are mutated.
Queued warnings are intentionally transient. If a run ends before the
next model request drains a queued warning, ``after_agent`` drops it
instead of carrying it into a later invocation for the same thread. The
hard-stop path still forces termination when the configured safety limit
is reached.
"""
from __future__ import annotations
@@ -45,14 +19,11 @@ import json
import logging
import threading
from collections import OrderedDict, defaultdict
from collections.abc import Awaitable, Callable
from copy import deepcopy
from typing import TYPE_CHECKING, override
from langchain.agents import AgentState
from langchain.agents.middleware import AgentMiddleware
from langchain.agents.middleware.types import ModelCallResult, ModelRequest, ModelResponse
from langchain_core.messages import HumanMessage
from langgraph.runtime import Runtime
if TYPE_CHECKING:
@@ -67,7 +38,6 @@ _DEFAULT_WINDOW_SIZE = 20 # track last N tool calls
_DEFAULT_MAX_TRACKED_THREADS = 100 # LRU eviction limit
_DEFAULT_TOOL_FREQ_WARN = 30 # warn after 30 calls to the same tool type
_DEFAULT_TOOL_FREQ_HARD_LIMIT = 50 # force-stop after 50 calls to the same tool type
_MAX_PENDING_WARNINGS_PER_RUN = 4
def _normalize_tool_call_args(raw_args: object) -> tuple[dict, str | None]:
@@ -225,12 +195,6 @@ class LoopDetectionMiddleware(AgentMiddleware[AgentState]):
self._warned: dict[str, set[str]] = defaultdict(set)
self._tool_freq: dict[str, dict[str, int]] = defaultdict(lambda: defaultdict(int))
self._tool_freq_warned: dict[str, set[str]] = defaultdict(set)
# Per-thread/run queue of warnings to inject at the next model call.
# Populated by ``after_model`` (detection) and drained by
# ``wrap_model_call`` (injection); see module docstring.
self._pending_warnings: dict[tuple[str, str], list[str]] = defaultdict(list)
self._pending_warning_touch_order: OrderedDict[tuple[str, str], None] = OrderedDict()
self._max_pending_warning_keys = max(1, self.max_tracked_threads * 2)
@classmethod
def from_config(cls, config: LoopDetectionConfig) -> LoopDetectionMiddleware:
@@ -249,20 +213,9 @@ class LoopDetectionMiddleware(AgentMiddleware[AgentState]):
"""Extract thread_id from runtime context for per-thread tracking."""
thread_id = runtime.context.get("thread_id") if runtime.context else None
if thread_id:
return str(thread_id)
return thread_id
return "default"
def _get_run_id(self, runtime: Runtime) -> str:
"""Extract run_id from runtime context for per-run warning scoping."""
run_id = runtime.context.get("run_id") if runtime.context else None
if run_id:
return str(run_id)
return "default"
def _pending_key(self, runtime: Runtime) -> tuple[str, str]:
"""Return the pending-warning key for the current thread/run."""
return self._get_thread_id(runtime), self._get_run_id(runtime)
def _evict_if_needed(self) -> None:
"""Evict least recently used threads if over the limit.
@@ -273,52 +226,8 @@ class LoopDetectionMiddleware(AgentMiddleware[AgentState]):
self._warned.pop(evicted_id, None)
self._tool_freq.pop(evicted_id, None)
self._tool_freq_warned.pop(evicted_id, None)
for key in list(self._pending_warnings):
if key[0] == evicted_id:
self._drop_pending_warning_key_locked(key)
logger.debug("Evicted loop tracking for thread %s (LRU)", evicted_id)
def _drop_pending_warning_key_locked(self, key: tuple[str, str]) -> None:
"""Drop all pending-warning bookkeeping for one thread/run key.
Must be called while holding self._lock.
"""
self._pending_warnings.pop(key, None)
self._pending_warning_touch_order.pop(key, None)
def _touch_pending_warning_key_locked(self, key: tuple[str, str]) -> None:
"""Mark a pending-warning key as recently used.
Must be called while holding self._lock.
"""
self._pending_warning_touch_order[key] = None
self._pending_warning_touch_order.move_to_end(key)
def _prune_pending_warning_state_locked(self, protected_key: tuple[str, str]) -> None:
"""Cap pending-warning state across abnormal or concurrent runs.
Must be called while holding self._lock.
"""
overflow = len(self._pending_warning_touch_order) - self._max_pending_warning_keys
if overflow <= 0:
return
candidates = [key for key in self._pending_warning_touch_order if key != protected_key]
for key in candidates[:overflow]:
self._drop_pending_warning_key_locked(key)
def _queue_pending_warning(self, runtime: Runtime, warning: str) -> None:
"""Queue one transient warning for the current thread/run with caps."""
pending_key = self._pending_key(runtime)
with self._lock:
warnings = self._pending_warnings[pending_key]
if warning not in warnings:
warnings.append(warning)
if len(warnings) > _MAX_PENDING_WARNINGS_PER_RUN:
del warnings[: len(warnings) - _MAX_PENDING_WARNINGS_PER_RUN]
self._touch_pending_warning_key_locked(pending_key)
self._prune_pending_warning_state_locked(protected_key=pending_key)
def _track_and_check(self, state: AgentState, runtime: Runtime) -> tuple[str | None, bool]:
"""Track tool calls and check for loops.
@@ -359,12 +268,6 @@ class LoopDetectionMiddleware(AgentMiddleware[AgentState]):
if len(history) > self.window_size:
history[:] = history[-self.window_size :]
warned_hashes = self._warned.get(thread_id)
if warned_hashes is not None:
warned_hashes.intersection_update(history)
if not warned_hashes:
self._warned.pop(thread_id, None)
count = history.count(call_hash)
tool_names = [tc.get("name", "?") for tc in tool_calls]
@@ -478,10 +381,7 @@ class LoopDetectionMiddleware(AgentMiddleware[AgentState]):
warning, hard_stop = self._track_and_check(state, runtime)
if hard_stop:
# Strip tool_calls from the last AIMessage to force text output.
# Once tool_calls are stripped, the AIMessage no longer requires
# matching ToolMessage responses, so mutating it in place here
# is safe for OpenAI/Moonshot pairing validators.
# Strip tool_calls from the last AIMessage to force text output
messages = state.get("messages", [])
last_msg = messages[-1]
content = self._append_text(last_msg.content, warning or _HARD_STOP_MSG)
@@ -489,48 +389,33 @@ class LoopDetectionMiddleware(AgentMiddleware[AgentState]):
return {"messages": [stripped_msg]}
if warning:
# Defer injection to the next model call. We must NOT alter the
# AIMessage(tool_calls=...) here (would put framework words in
# the model's mouth, polluting downstream consumers like
# MemoryMiddleware), nor insert a separate non-tool message
# (would break OpenAI/Moonshot tool-call pairing because the
# tools node has not produced ToolMessage responses yet). The
# warning is delivered via ``wrap_model_call`` below.
self._queue_pending_warning(runtime, warning)
return None
# WORKAROUND for v2.0-m1 — see #2724.
#
# Append the warning to the AIMessage content instead of
# injecting a separate HumanMessage. Inserting any non-tool
# message between an AIMessage(tool_calls=...) and its
# ToolMessage responses breaks OpenAI/Moonshot strict pairing
# validation ("tool_call_ids did not have response messages")
# because the tools node has not run yet at after_model time.
# tool_calls are preserved so the tools node still executes.
#
# This is a temporary mitigation: mutating an existing
# AIMessage to carry framework-authored text leaks loop-warning
# text into downstream consumers (MemoryMiddleware fact
# extraction, TitleMiddleware, telemetry, model replay) as if
# the model said it. The proper fix is to defer warning
# injection from after_model to wrap_model_call so every prior
# ToolMessage is already in the request — see RFC #2517 (which
# lists "loop intervention does not leave invalid
# tool-call/tool-message state" as acceptance criteria) and
# the prototype on `fix/loop-detection-tool-call-pairing`.
messages = state.get("messages", [])
last_msg = messages[-1]
patched_msg = last_msg.model_copy(update={"content": self._append_text(last_msg.content, warning)})
return {"messages": [patched_msg]}
return None
def _clear_other_run_pending_warnings(self, runtime: Runtime) -> None:
"""Drop stale pending warnings for previous runs in this thread."""
thread_id, current_run_id = self._pending_key(runtime)
with self._lock:
for key in list(self._pending_warnings):
if key[0] == thread_id and key[1] != current_run_id:
self._drop_pending_warning_key_locked(key)
def _clear_current_run_pending_warnings(self, runtime: Runtime) -> None:
"""Drop pending warnings owned by the current thread/run."""
pending_key = self._pending_key(runtime)
with self._lock:
self._drop_pending_warning_key_locked(pending_key)
@staticmethod
def _format_warning_message(warnings: list[str]) -> str:
"""Merge pending warnings into one prompt message."""
deduped = list(dict.fromkeys(warnings))
return "\n\n".join(deduped)
@override
def before_agent(self, state: AgentState, runtime: Runtime) -> dict | None:
self._clear_other_run_pending_warnings(runtime)
return None
@override
async def abefore_agent(self, state: AgentState, runtime: Runtime) -> dict | None:
self._clear_other_run_pending_warnings(runtime)
return None
@override
def after_model(self, state: AgentState, runtime: Runtime) -> dict | None:
return self._apply(state, runtime)
@@ -539,59 +424,6 @@ class LoopDetectionMiddleware(AgentMiddleware[AgentState]):
async def aafter_model(self, state: AgentState, runtime: Runtime) -> dict | None:
return self._apply(state, runtime)
@override
def after_agent(self, state: AgentState, runtime: Runtime) -> dict | None:
self._clear_current_run_pending_warnings(runtime)
return None
@override
async def aafter_agent(self, state: AgentState, runtime: Runtime) -> dict | None:
self._clear_current_run_pending_warnings(runtime)
return None
def _drain_pending_warnings(self, runtime: Runtime) -> list[str]:
"""Pop and return all queued warnings for *runtime*'s thread/run."""
pending_key = self._pending_key(runtime)
with self._lock:
warnings = self._pending_warnings.pop(pending_key, [])
self._pending_warning_touch_order.pop(pending_key, None)
return warnings
def _augment_request(self, request: ModelRequest) -> ModelRequest:
"""Append queued loop warnings (if any) to the outgoing message list.
The warning is placed *after* every existing message, including the
ToolMessage responses to the previous AIMessage(tool_calls). This
keeps ``assistant tool_calls -> tool_messages`` pairing intact for
OpenAI/Moonshot, avoids the Anthropic mid-stream SystemMessage
restriction (we use HumanMessage), and never mutates an existing
AIMessage.
"""
warnings = self._drain_pending_warnings(request.runtime)
if not warnings:
return request
new_messages = [
*request.messages,
HumanMessage(content=self._format_warning_message(warnings), name="loop_warning"),
]
return request.override(messages=new_messages)
@override
def wrap_model_call(
self,
request: ModelRequest,
handler: Callable[[ModelRequest], ModelResponse],
) -> ModelCallResult:
return handler(self._augment_request(request))
@override
async def awrap_model_call(
self,
request: ModelRequest,
handler: Callable[[ModelRequest], Awaitable[ModelResponse]],
) -> ModelCallResult:
return await handler(self._augment_request(request))
def reset(self, thread_id: str | None = None) -> None:
"""Clear tracking state. If thread_id given, clear only that thread."""
with self._lock:
@@ -600,13 +432,8 @@ class LoopDetectionMiddleware(AgentMiddleware[AgentState]):
self._warned.pop(thread_id, None)
self._tool_freq.pop(thread_id, None)
self._tool_freq_warned.pop(thread_id, None)
for key in list(self._pending_warnings):
if key[0] == thread_id:
self._drop_pending_warning_key_locked(key)
else:
self._history.clear()
self._warned.clear()
self._tool_freq.clear()
self._tool_freq_warned.clear()
self._pending_warnings.clear()
self._pending_warning_touch_order.clear()
backend/packages/harness/deerflow/agents/middlewares/safety_finish_reason_middleware.py
-317
View File
@@ -1,317 +0,0 @@
"""Suppress tool execution when the provider safety-terminated the response.
Background see issue bytedance/deer-flow#3028.
Some providers (OpenAI ``finish_reason='content_filter'``, Anthropic
``stop_reason='refusal'``, Gemini ``finish_reason='SAFETY'`` ...) can stop
generation mid-stream while still returning partially-formed ``tool_calls``.
LangChain's tool router treats any AIMessage with a non-empty ``tool_calls``
field as "go execute these", so half-truncated arguments e.g. a markdown
``write_file`` that stops in the middle of a sentence get dispatched as if
they were complete. The agent then sees the truncated file, tries to fix it,
gets filtered again, and loops.
This middleware sits at ``after_model`` and gates that behaviour: when a
configured ``SafetyTerminationDetector`` fires *and* the AIMessage carries
tool calls, we strip the tool calls (both structured and raw provider
payloads), append a user-facing explanation, and stash observability fields
in ``additional_kwargs.safety_termination`` so logs, traces, and SSE
consumers can see what happened.
Hook choice: ``after_model`` (not ``wrap_model_call``) because the response
is a *normal* return not an exception and we want to participate in the
same after-model chain as ``LoopDetectionMiddleware``, with which we share
the same tool-call-suppression mechanic but a different trigger.
Placement: register *after* ``LoopDetectionMiddleware`` in the middleware
list. LangChain factory wires ``after_model`` edges in reverse list order
(``langchain/agents/factory.py:add_edge("model", middleware_w_after_model[-1])``,
then walks ``range(len-1, 0, -1)``), so the *last* registered middleware is
the *first* to observe the model output. Registering Safety after Loop
means Safety sees the raw response first, clears tool calls if it fires,
and Loop then accounts against the cleaned message.
"""
from __future__ import annotations
import logging
from typing import TYPE_CHECKING, override
from langchain.agents import AgentState
from langchain.agents.middleware import AgentMiddleware
from langchain_core.messages import AIMessage
from langgraph.runtime import Runtime
from deerflow.agents.middlewares.safety_termination_detectors import (
SafetyTermination,
SafetyTerminationDetector,
default_detectors,
)
from deerflow.agents.middlewares.tool_call_metadata import clone_ai_message_with_tool_calls
if TYPE_CHECKING:
from deerflow.config.safety_finish_reason_config import SafetyFinishReasonConfig
logger = logging.getLogger(__name__)
_USER_FACING_MESSAGE = (
"The model provider stopped this response with a safety-related signal "
"({reason_field}={reason_value!r}, detector={detector!r}). Any tool "
"calls produced in this turn were suppressed because their arguments "
"may be truncated and unsafe to execute. Please rephrase the request "
"or ask for a narrower output."
)
class SafetyFinishReasonMiddleware(AgentMiddleware[AgentState]):
"""Strip tool_calls from AIMessages flagged by a SafetyTerminationDetector."""
def __init__(self, detectors: list[SafetyTerminationDetector] | None = None) -> None:
super().__init__()
# Copy so caller mutations after construction don't leak into us.
self._detectors: list[SafetyTerminationDetector] = list(detectors) if detectors else default_detectors()
@classmethod
def from_config(cls, config: SafetyFinishReasonConfig) -> SafetyFinishReasonMiddleware:
"""Construct from validated Pydantic config, honouring the
reflection-loaded detector list when provided.
An explicit empty list is intentionally rejected it would silently
disable detection while leaving the middleware in the chain, which
is the worst of both worlds. Use ``enabled: false`` instead.
"""
if config.detectors is None:
return cls()
if not config.detectors:
raise ValueError("safety_finish_reason.detectors must be omitted (use built-ins) or contain at least one entry; use enabled=false to disable the middleware entirely.")
from deerflow.reflection import resolve_variable
detectors: list[SafetyTerminationDetector] = []
for entry in config.detectors:
detector_cls = resolve_variable(entry.use)
kwargs = dict(entry.config) if entry.config else {}
detector = detector_cls(**kwargs)
if not isinstance(detector, SafetyTerminationDetector):
raise TypeError(f"{entry.use} did not produce a SafetyTerminationDetector (got {type(detector).__name__}); ensure it has a `name` attribute and a `detect(message)` method")
detectors.append(detector)
return cls(detectors=detectors)
# ----- detection -------------------------------------------------------
def _detect(self, message: AIMessage) -> SafetyTermination | None:
for detector in self._detectors:
try:
hit = detector.detect(message)
except Exception: # noqa: BLE001 - never let a buggy detector break the agent run
logger.exception("SafetyTerminationDetector %r raised; treating as no-match", getattr(detector, "name", type(detector).__name__))
continue
if hit is not None:
return hit
return None
# ----- message rewriting ----------------------------------------------
@staticmethod
def _append_user_message(content: object, text: str) -> str | list:
"""Append a plain-text explanation to AIMessage content.
Mirrors ``LoopDetectionMiddleware._append_text`` so list-content
responses (Anthropic thinking blocks, vLLM reasoning splits) keep
their structure instead of being string-coerced into a TypeError.
"""
if content is None or content == "":
return text
if isinstance(content, list):
return [*content, {"type": "text", "text": f"\n\n{text}"}]
if isinstance(content, str):
return content + f"\n\n{text}"
return str(content) + f"\n\n{text}"
def _build_suppressed_message(
self,
message: AIMessage,
termination: SafetyTermination,
) -> AIMessage:
suppressed_names = [tc.get("name") or "unknown" for tc in (message.tool_calls or [])]
explanation = _USER_FACING_MESSAGE.format(
reason_field=termination.reason_field,
reason_value=termination.reason_value,
detector=termination.detector,
)
new_content = self._append_user_message(message.content, explanation)
# clone_ai_message_with_tool_calls handles structured tool_calls,
# raw additional_kwargs.tool_calls, and function_call in one shot.
# It only rewrites finish_reason when the old value was "tool_calls",
# which is not our case — content_filter / refusal / SAFETY stay put
# so downstream SSE / converters keep seeing the real provider reason.
cleared = clone_ai_message_with_tool_calls(message, [], content=new_content)
# Re-clone additional_kwargs so we don't accidentally mutate the
# dict returned by clone_ai_message_with_tool_calls (which already
# made a shallow copy, but downstream model_copy still references
# it). Then stamp the observability record.
kwargs = dict(getattr(cleared, "additional_kwargs", None) or {})
kwargs["safety_termination"] = {
"detector": termination.detector,
"reason_field": termination.reason_field,
"reason_value": termination.reason_value,
"suppressed_tool_call_count": len(suppressed_names),
"suppressed_tool_call_names": suppressed_names,
"extras": dict(termination.extras) if termination.extras else {},
}
return cleared.model_copy(update={"additional_kwargs": kwargs})
# ----- observability ---------------------------------------------------
def _emit_event(
self,
termination: SafetyTermination,
suppressed_names: list[str],
runtime: Runtime,
) -> None:
"""Notify SSE consumers (e.g. the web UI) that a tool turn was
suppressed so they can reconcile any "tool starting..." placeholders
already streamed to the user. Failures are logged at debug and
ignored this is a best-effort signal."""
try:
from langgraph.config import get_stream_writer
writer = get_stream_writer()
except Exception: # noqa: BLE001
logger.debug("get_stream_writer unavailable; skipping safety_termination event", exc_info=True)
return
thread_id = None
if runtime is not None and getattr(runtime, "context", None):
thread_id = runtime.context.get("thread_id") if isinstance(runtime.context, dict) else None
try:
writer(
{
"type": "safety_termination",
"detector": termination.detector,
"reason_field": termination.reason_field,
"reason_value": termination.reason_value,
"suppressed_tool_call_count": len(suppressed_names),
"suppressed_tool_call_names": suppressed_names,
"thread_id": thread_id,
}
)
except Exception: # noqa: BLE001
logger.debug("Failed to emit safety_termination stream event", exc_info=True)
def _record_audit_event(
self,
termination: SafetyTermination,
message,
tool_calls: list[dict],
runtime: Runtime,
) -> None:
"""Write a ``middleware:safety_termination`` record to RunEventStore
for post-run auditability.
The custom stream event in ``_emit_event`` is consumed by live SSE
clients and disappears after the run; this event is persisted so an
operator can answer "which runs were safety-suppressed today?" from
a single SQL query without joining the message body. Worker exposes
the run-scoped ``RunJournal`` via ``runtime.context["__run_journal"]``;
absent in unit-test / subagent / no-event-store paths, in which case
we silently skip.
Tool **arguments** are deliberately **not** recorded those are the
very content the provider filtered; persisting them would defeat the
purpose of the safety filter. Names / count / ids are sufficient for
audit and debugging (issue #3028 review).
"""
journal = None
if runtime is not None and getattr(runtime, "context", None):
context = runtime.context
if isinstance(context, dict):
journal = context.get("__run_journal")
if journal is None:
return
suppressed_names = [tc.get("name") or "unknown" for tc in tool_calls]
suppressed_ids = [tc.get("id") for tc in tool_calls if tc.get("id")]
changes = {
"detector": termination.detector,
"reason_field": termination.reason_field,
"reason_value": termination.reason_value,
"suppressed_tool_call_count": len(tool_calls),
"suppressed_tool_call_names": suppressed_names,
"suppressed_tool_call_ids": suppressed_ids,
"message_id": getattr(message, "id", None),
"extras": dict(termination.extras) if termination.extras else {},
}
try:
journal.record_middleware(
tag="safety_termination",
name=type(self).__name__,
hook="after_model",
action="suppress_tool_calls",
changes=changes,
)
except Exception: # noqa: BLE001
# Audit-event persistence must never break agent execution.
logger.debug("Failed to record middleware:safety_termination event", exc_info=True)
# ----- main apply ------------------------------------------------------
def _apply(self, state: AgentState, runtime: Runtime) -> dict | None:
messages = state.get("messages", [])
if not messages:
return None
last = messages[-1]
if not isinstance(last, AIMessage):
return None
# Issue scope: only intervene when there's something to suppress.
# ``content_filter`` without tool_calls is allowed through unchanged
# so the partial text response (if any) reaches the user naturally.
tool_calls = last.tool_calls
if not tool_calls:
return None
termination = self._detect(last)
if termination is None:
return None
patched = self._build_suppressed_message(last, termination)
thread_id = None
if runtime is not None and getattr(runtime, "context", None):
thread_id = runtime.context.get("thread_id") if isinstance(runtime.context, dict) else None
logger.warning(
"Provider safety termination detected — suppressed %d tool call(s)",
len(tool_calls),
extra={
"thread_id": thread_id,
"detector": termination.detector,
"reason_field": termination.reason_field,
"reason_value": termination.reason_value,
"suppressed_tool_call_names": [tc.get("name") for tc in tool_calls],
},
)
self._emit_event(termination, [tc.get("name") or "unknown" for tc in tool_calls], runtime)
self._record_audit_event(termination, last, list(tool_calls), runtime)
return {"messages": [patched]}
# ----- hooks -----------------------------------------------------------
@override
def after_model(self, state: AgentState, runtime: Runtime) -> dict | None:
return self._apply(state, runtime)
@override
async def aafter_model(self, state: AgentState, runtime: Runtime) -> dict | None:
return self._apply(state, runtime)
backend/packages/harness/deerflow/agents/middlewares/safety_termination_detectors.py
-237
View File
@@ -1,237 +0,0 @@
"""Detectors for provider-side safety termination signals.
Different LLM providers signal "I stopped this response for safety reasons"
through different fields with different values. This module defines a small
strategy interface and three built-in detectors that cover the major
providers DeerFlow supports today. New providers (Wenxin, Hunyuan, Bedrock
adapters, in-house gateways, ...) can be added by implementing
``SafetyTerminationDetector`` and wiring it through
``config.yaml: safety_finish_reason.detectors``.
The middleware that consumes these detectors lives in
``safety_finish_reason_middleware.py``.
"""
from __future__ import annotations
from dataclasses import dataclass, field
from typing import Any, Protocol, runtime_checkable
from langchain_core.messages import AIMessage
@dataclass(frozen=True)
class SafetyTermination:
"""A detected safety-related termination signal.
Attributes:
detector: Name of the detector that produced this result. Used for
observability so operators can see which provider rule fired.
reason_field: The message metadata field that carried the signal
(e.g. ``finish_reason``, ``stop_reason``).
reason_value: The actual value of that field
(e.g. ``content_filter``, ``refusal``, ``SAFETY``).
extras: Provider-specific metadata that may help downstream
consumers (e.g. Azure OpenAI content_filter_results, Gemini
safety_ratings). Detectors are free to populate or skip this.
"""
detector: str
reason_field: str
reason_value: str
extras: dict[str, Any] = field(default_factory=dict)
@runtime_checkable
class SafetyTerminationDetector(Protocol):
"""Strategy interface for provider safety termination detection."""
name: str
def detect(self, message: AIMessage) -> SafetyTermination | None:
"""Return a SafetyTermination if *message* indicates provider safety
termination, otherwise return ``None``.
Implementations must be side-effect free and tolerant of missing or
oddly-typed metadata detectors run on every model response.
"""
...
def _get_metadata_value(message: AIMessage, field_name: str) -> str | None:
"""Read a string-typed value from either ``response_metadata`` or
``additional_kwargs``.
LangChain provider adapters are inconsistent about where they stash
provider stop signals. Most modern adapters use ``response_metadata``,
but some legacy / passthrough paths still surface them via
``additional_kwargs``. We check both, in that order, and only accept
string values Pydantic enums or dicts are ignored so we never raise
on malformed inputs.
"""
for container_name in ("response_metadata", "additional_kwargs"):
container = getattr(message, container_name, None) or {}
if not isinstance(container, dict):
continue
value = container.get(field_name)
if isinstance(value, str) and value:
return value
return None
class OpenAICompatibleContentFilterDetector:
"""OpenAI-compatible content_filter signal.
Covers OpenAI, Azure OpenAI, Moonshot/Kimi, DeepSeek, Mistral, vLLM,
Qwen (OpenAI-compatible mode), and any other adapter that follows the
OpenAI ``finish_reason`` convention.
Some Chinese providers ship custom OpenAI-compatible gateways that use
alternative tokens like ``sensitive`` or ``violation``. Extend the set
via the ``finish_reasons`` kwarg in config.
"""
name = "openai_compatible_content_filter"
def __init__(self, finish_reasons: list[str] | tuple[str, ...] | None = None) -> None:
configured = finish_reasons if finish_reasons is not None else ("content_filter",)
self._finish_reasons: frozenset[str] = frozenset(r.lower() for r in configured)
def detect(self, message: AIMessage) -> SafetyTermination | None:
value = _get_metadata_value(message, "finish_reason")
if value is None or value.lower() not in self._finish_reasons:
return None
extras: dict[str, Any] = {}
# Azure OpenAI ships a structured content_filter_results block; carry it
# through so operators can see *what* was filtered without re-tracing.
response_metadata = getattr(message, "response_metadata", None) or {}
if isinstance(response_metadata, dict):
filter_results = response_metadata.get("content_filter_results")
if filter_results:
extras["content_filter_results"] = filter_results
return SafetyTermination(
detector=self.name,
reason_field="finish_reason",
reason_value=value,
extras=extras,
)
class AnthropicRefusalDetector:
"""Anthropic ``stop_reason == "refusal"`` signal.
Anthropic models surface safety refusals via a dedicated ``stop_reason``
rather than ``finish_reason``. See:
https://platform.claude.com/docs/en/test-and-evaluate/strengthen-guardrails/handle-streaming-refusals
"""
name = "anthropic_refusal"
def __init__(self, stop_reasons: list[str] | tuple[str, ...] | None = None) -> None:
configured = stop_reasons if stop_reasons is not None else ("refusal",)
self._stop_reasons: frozenset[str] = frozenset(r.lower() for r in configured)
def detect(self, message: AIMessage) -> SafetyTermination | None:
value = _get_metadata_value(message, "stop_reason")
if value is None or value.lower() not in self._stop_reasons:
return None
return SafetyTermination(
detector=self.name,
reason_field="stop_reason",
reason_value=value,
)
class GeminiSafetyDetector:
"""Gemini / Vertex AI safety-related finish reasons.
Gemini uses the same ``finish_reason`` field as OpenAI but with an
enumerated upper-case taxonomy. The default set covers every Gemini
finish_reason that means "the model stopped because the content/image
tripped a safety, blocklist, recitation, or PII filter" — i.e. cases
where any tool_calls returned alongside are likely truncated/
unreliable. Full enum:
https://docs.cloud.google.com/python/docs/reference/aiplatform/latest/google.cloud.aiplatform_v1.types.Candidate.FinishReason
Intentionally **excluded** from the default set:
- ``STOP`` normal termination.
- ``MAX_TOKENS`` output length truncation, not safety
(same root failure mode as
content_filter, but issue #3028
scopes it out; expose separately if
desired).
- ``LANGUAGE`` / ``NO_IMAGE`` capability mismatches, unrelated to
safety; tool_calls would be absent
anyway.
- ``MALFORMED_FUNCTION_CALL`` /
``UNEXPECTED_TOOL_CALL`` tool-call protocol errors. The
tool_calls are *also* unreliable
here, but the failure category is
distinct from safety filtering;
handle in a dedicated detector to
keep observability records honest.
- ``OTHER`` / ``IMAGE_OTHER`` /
``FINISH_REASON_UNSPECIFIED`` too broad to enable by default;
opt in via ``finish_reasons=`` if
your provider abuses these.
"""
name = "gemini_safety"
_DEFAULT_FINISH_REASONS = (
# Text safety
"SAFETY",
"BLOCKLIST",
"PROHIBITED_CONTENT",
"SPII",
"RECITATION",
# Image safety (multimodal generation)
"IMAGE_SAFETY",
"IMAGE_PROHIBITED_CONTENT",
"IMAGE_RECITATION",
)
def __init__(self, finish_reasons: list[str] | tuple[str, ...] | None = None) -> None:
configured = finish_reasons if finish_reasons is not None else self._DEFAULT_FINISH_REASONS
self._finish_reasons: frozenset[str] = frozenset(r.upper() for r in configured)
def detect(self, message: AIMessage) -> SafetyTermination | None:
value = _get_metadata_value(message, "finish_reason")
if value is None or value.upper() not in self._finish_reasons:
return None
extras: dict[str, Any] = {}
response_metadata = getattr(message, "response_metadata", None) or {}
if isinstance(response_metadata, dict):
# Gemini surfaces per-category scoring under safety_ratings.
ratings = response_metadata.get("safety_ratings")
if ratings:
extras["safety_ratings"] = ratings
return SafetyTermination(
detector=self.name,
reason_field="finish_reason",
reason_value=value,
extras=extras,
)
def default_detectors() -> list[SafetyTerminationDetector]:
"""Built-in detector set used when no custom detectors are configured."""
return [
OpenAICompatibleContentFilterDetector(),
AnthropicRefusalDetector(),
GeminiSafetyDetector(),
]
__all__ = [
"AnthropicRefusalDetector",
"GeminiSafetyDetector",
"OpenAICompatibleContentFilterDetector",
"SafetyTermination",
"SafetyTerminationDetector",
"default_detectors",
]
backend/packages/harness/deerflow/agents/middlewares/summarization_middleware.py
+1 -70
View File
@@ -9,9 +9,8 @@ from typing import Any, Protocol, override, runtime_checkable
from langchain.agents import AgentState
from langchain.agents.middleware import SummarizationMiddleware
from langchain_core.messages import AIMessage, AnyMessage, HumanMessage, RemoveMessage, ToolMessage, get_buffer_string
from langchain_core.messages import AIMessage, AnyMessage, HumanMessage, RemoveMessage, ToolMessage
from langgraph.config import get_config
from langgraph.constants import TAG_NOSTREAM
from langgraph.graph.message import REMOVE_ALL_MESSAGES
from langgraph.runtime import Runtime
@@ -117,74 +116,6 @@ class DeerFlowSummarizationMiddleware(SummarizationMiddleware):
self._preserve_recent_skill_count = max(0, preserve_recent_skill_count)
self._preserve_recent_skill_tokens = max(0, preserve_recent_skill_tokens)
self._preserve_recent_skill_tokens_per_skill = max(0, preserve_recent_skill_tokens_per_skill)
# The summary LLM call runs inside a LangGraph middleware hook, so its token
# stream would otherwise be captured by the messages-tuple stream callback and
# broadcast to the frontend as a phantom AI message. Tag a dedicated model copy
# with TAG_NOSTREAM so the streaming handler skips it.
# Keep self.model untagged so the parent's profile / ls_params inspection still works.
#
# Preserve any tags already bound on the model (e.g. "middleware:summarize" set in
# lead_agent/agent.py for RunJournal attribution): RunnableBinding.with_config does a
# shallow merge that would otherwise overwrite the existing tags list entirely.
existing_tags = list((getattr(self.model, "config", None) or {}).get("tags") or [])
merged_tags = [*existing_tags, TAG_NOSTREAM] if TAG_NOSTREAM not in existing_tags else existing_tags
self._summary_model = self.model.with_config(tags=merged_tags)
@override
def _create_summary(self, messages_to_summarize: list[AnyMessage]) -> str:
return self._summarize_with(messages_to_summarize)
@override
async def _acreate_summary(self, messages_to_summarize: list[AnyMessage]) -> str:
return await self._asummarize_with(messages_to_summarize)
def _summarize_with(self, messages_to_summarize: list[AnyMessage]) -> str:
"""Mirror the parent ``_create_summary`` but invoke the nostream-tagged model.
We do not swap ``self.model`` at the instance level: the agent/middleware is
cached and reused across concurrent runs, so a temporary swap would leak the
``RunnableBinding`` to other coroutines during ``await`` and break parent logic
that inspects the raw model (``profile`` / ``_get_ls_params``).
"""
if not messages_to_summarize:
return "No previous conversation history."
prompt = self._build_summary_prompt(messages_to_summarize)
if prompt is None:
return "Previous conversation was too long to summarize."
try:
response = self._summary_model.invoke(
prompt,
config={"metadata": {"lc_source": "summarization"}},
)
return response.text.strip()
except Exception as e:
return f"Error generating summary: {e!s}"
async def _asummarize_with(self, messages_to_summarize: list[AnyMessage]) -> str:
"""Async counterpart of :meth:`_summarize_with` using the nostream model."""
if not messages_to_summarize:
return "No previous conversation history."
prompt = self._build_summary_prompt(messages_to_summarize)
if prompt is None:
return "Previous conversation was too long to summarize."
try:
response = await self._summary_model.ainvoke(
prompt,
config={"metadata": {"lc_source": "summarization"}},
)
return response.text.strip()
except Exception as e:
return f"Error generating summary: {e!s}"
def _build_summary_prompt(self, messages_to_summarize: list[AnyMessage]) -> str | None:
"""Build the summary prompt, returning ``None`` when trimming leaves nothing."""
trimmed_messages = self._trim_messages_for_summary(messages_to_summarize)
if not trimmed_messages:
return None
# Format messages to avoid token inflation from metadata when str() is called on
# message objects.
formatted_messages = get_buffer_string(trimmed_messages)
return self.summary_prompt.format(messages=formatted_messages).rstrip()
def before_model(self, state: AgentState, runtime: Runtime) -> dict | None:
return self._maybe_summarize(state, runtime)
backend/packages/harness/deerflow/agents/middlewares/title_middleware.py
+1 -5
View File
@@ -160,11 +160,7 @@ class TitleMiddleware(AgentMiddleware[TitleMiddlewareState]):
prompt, user_msg = self._build_title_prompt(state)
try:
# attach_tracing=False because ``_get_runnable_config()`` inherits
# the graph-level RunnableConfig (set in ``_make_lead_agent``) whose
# callbacks already carry tracing handlers; binding them again at
# the model level would emit duplicate spans.
model_kwargs = {"thinking_enabled": False, "attach_tracing": False}
model_kwargs = {"thinking_enabled": False}
if self._app_config is not None:
model_kwargs["app_config"] = self._app_config
if config.model_name:
backend/packages/harness/deerflow/agents/middlewares/todo_middleware.py
+26 -210
View File
@@ -7,26 +7,20 @@ reminder message so the model still knows about the outstanding todo list.
Additionally, this middleware prevents the agent from exiting the loop while
there are still incomplete todo items. When the model produces a final response
(no tool calls) but todos are not yet complete, the middleware queues a reminder
for the next model request and jumps back to the model node to force continued
engagement. The completion reminder is injected via ``wrap_model_call`` instead
of being persisted into graph state as a normal user-visible message.
(no tool calls) but todos are not yet complete, the middleware injects a reminder
and jumps back to the model node to force continued engagement.
"""
from __future__ import annotations
import threading
from collections.abc import Awaitable, Callable
from typing import Any, override
from langchain.agents.middleware import TodoListMiddleware
from langchain.agents.middleware.todo import Todo
from langchain.agents.middleware.types import ModelCallResult, ModelRequest, ModelResponse, hook_config
from langchain.agents.middleware.todo import PlanningState, Todo
from langchain.agents.middleware.types import hook_config
from langchain_core.messages import AIMessage, HumanMessage
from langgraph.runtime import Runtime
from deerflow.agents.thread_state import ThreadState
def _todos_in_messages(messages: list[Any]) -> bool:
"""Return True if any AIMessage in *messages* contains a write_todos tool call."""
@@ -61,51 +55,6 @@ def _format_todos(todos: list[Todo]) -> str:
return "\n".join(lines)
def _format_completion_reminder(todos: list[Todo]) -> str:
"""Format a completion reminder for incomplete todo items."""
incomplete = [t for t in todos if t.get("status") != "completed"]
incomplete_text = "\n".join(f"- [{t.get('status', 'pending')}] {t.get('content', '')}" for t in incomplete)
return (
"<system_reminder>\n"
"You have incomplete todo items that must be finished before giving your final response:\n\n"
f"{incomplete_text}\n\n"
"Please continue working on these tasks. Call `write_todos` to mark items as completed "
"as you finish them, and only respond when all items are done.\n"
"</system_reminder>"
)
_TOOL_CALL_FINISH_REASONS = {"tool_calls", "function_call"}
def _has_tool_call_intent_or_error(message: AIMessage) -> bool:
"""Return True when an AIMessage is not a clean final answer.
Todo completion reminders should only fire when the model has produced a
plain final response. Provider/tool parsing details have moved across
LangChain versions and integrations, so keep all tool-intent/error signals
behind this helper instead of checking one concrete field at the call site.
"""
if message.tool_calls:
return True
if getattr(message, "invalid_tool_calls", None):
return True
# Backward/provider compatibility: some integrations preserve raw or legacy
# tool-call intent in additional_kwargs even when structured tool_calls is
# empty. If this helper changes, update the matching sentinel test
# `TestToolCallIntentOrError.test_langchain_ai_message_tool_fields_are_explicitly_handled`;
# if that test fails after a LangChain upgrade, review this helper so new
# tool-call/error fields are not silently treated as clean final answers.
additional_kwargs = getattr(message, "additional_kwargs", {}) or {}
if additional_kwargs.get("tool_calls") or additional_kwargs.get("function_call"):
return True
response_metadata = getattr(message, "response_metadata", {}) or {}
return response_metadata.get("finish_reason") in _TOOL_CALL_FINISH_REASONS
class TodoMiddleware(TodoListMiddleware):
"""Extends TodoListMiddleware with `write_todos` context-loss detection.
@@ -115,12 +64,10 @@ class TodoMiddleware(TodoListMiddleware):
and injects a reminder message so the model can continue tracking progress.
"""
state_schema = ThreadState
@override
def before_model(
self,
state: ThreadState,
state: PlanningState,
runtime: Runtime,
) -> dict[str, Any] | None:
"""Inject a todo-list reminder when write_todos has left the context window."""
@@ -142,7 +89,6 @@ class TodoMiddleware(TodoListMiddleware):
formatted = _format_todos(todos)
reminder = HumanMessage(
name="todo_reminder",
additional_kwargs={"hide_from_ui": True},
content=(
"<system_reminder>\n"
"Your todo list from earlier is no longer visible in the current context window, "
@@ -158,7 +104,7 @@ class TodoMiddleware(TodoListMiddleware):
@override
async def abefore_model(
self,
state: ThreadState,
state: PlanningState,
runtime: Runtime,
) -> dict[str, Any] | None:
"""Async version of before_model."""
@@ -167,106 +113,12 @@ class TodoMiddleware(TodoListMiddleware):
# Maximum number of completion reminders before allowing the agent to exit.
# This prevents infinite loops when the agent cannot make further progress.
_MAX_COMPLETION_REMINDERS = 2
# Hard cap for per-run reminder bookkeeping in long-lived middleware instances.
_MAX_COMPLETION_REMINDER_KEYS = 4096
def __init__(self, *args: Any, **kwargs: Any) -> None:
super().__init__(*args, **kwargs)
self._lock = threading.Lock()
self._pending_completion_reminders: dict[tuple[str, str], list[str]] = {}
self._completion_reminder_counts: dict[tuple[str, str], int] = {}
self._completion_reminder_touch_order: dict[tuple[str, str], int] = {}
self._completion_reminder_next_order = 0
@staticmethod
def _get_thread_id(runtime: Runtime) -> str:
context = getattr(runtime, "context", None)
thread_id = context.get("thread_id") if context else None
return str(thread_id) if thread_id else "default"
@staticmethod
def _get_run_id(runtime: Runtime) -> str:
context = getattr(runtime, "context", None)
run_id = context.get("run_id") if context else None
return str(run_id) if run_id else "default"
def _pending_key(self, runtime: Runtime) -> tuple[str, str]:
return self._get_thread_id(runtime), self._get_run_id(runtime)
def _touch_completion_reminder_key_locked(self, key: tuple[str, str]) -> None:
self._completion_reminder_next_order += 1
self._completion_reminder_touch_order[key] = self._completion_reminder_next_order
def _completion_reminder_keys_locked(self) -> set[tuple[str, str]]:
keys = set(self._pending_completion_reminders)
keys.update(self._completion_reminder_counts)
keys.update(self._completion_reminder_touch_order)
return keys
def _drop_completion_reminder_key_locked(self, key: tuple[str, str]) -> None:
self._pending_completion_reminders.pop(key, None)
self._completion_reminder_counts.pop(key, None)
self._completion_reminder_touch_order.pop(key, None)
def _prune_completion_reminder_state_locked(self, protected_key: tuple[str, str]) -> None:
keys = self._completion_reminder_keys_locked()
overflow = len(keys) - self._MAX_COMPLETION_REMINDER_KEYS
if overflow <= 0:
return
candidates = [key for key in keys if key != protected_key]
candidates.sort(key=lambda key: self._completion_reminder_touch_order.get(key, 0))
for key in candidates[:overflow]:
self._drop_completion_reminder_key_locked(key)
def _queue_completion_reminder(self, runtime: Runtime, reminder: str) -> None:
key = self._pending_key(runtime)
with self._lock:
self._pending_completion_reminders.setdefault(key, []).append(reminder)
self._completion_reminder_counts[key] = self._completion_reminder_counts.get(key, 0) + 1
self._touch_completion_reminder_key_locked(key)
self._prune_completion_reminder_state_locked(protected_key=key)
def _completion_reminder_count_for_runtime(self, runtime: Runtime) -> int:
key = self._pending_key(runtime)
with self._lock:
return self._completion_reminder_counts.get(key, 0)
def _drain_completion_reminders(self, runtime: Runtime) -> list[str]:
key = self._pending_key(runtime)
with self._lock:
reminders = self._pending_completion_reminders.pop(key, [])
if reminders or key in self._completion_reminder_counts:
self._touch_completion_reminder_key_locked(key)
return reminders
def _clear_other_run_completion_reminders(self, runtime: Runtime) -> None:
thread_id, current_run_id = self._pending_key(runtime)
with self._lock:
for key in self._completion_reminder_keys_locked():
if key[0] == thread_id and key[1] != current_run_id:
self._drop_completion_reminder_key_locked(key)
def _clear_current_run_completion_reminders(self, runtime: Runtime) -> None:
key = self._pending_key(runtime)
with self._lock:
self._drop_completion_reminder_key_locked(key)
@override
def before_agent(self, state: ThreadState, runtime: Runtime) -> dict[str, Any] | None:
self._clear_other_run_completion_reminders(runtime)
return None
@override
async def abefore_agent(self, state: ThreadState, runtime: Runtime) -> dict[str, Any] | None:
self._clear_other_run_completion_reminders(runtime)
return None
@hook_config(can_jump_to=["model"])
@override
def after_model(
self,
state: ThreadState,
state: PlanningState,
runtime: Runtime,
) -> dict[str, Any] | None:
"""Prevent premature agent exit when todo items are still incomplete.
@@ -285,12 +137,10 @@ class TodoMiddleware(TodoListMiddleware):
if base_result is not None:
return base_result
# 2. Only intervene when the agent wants to exit cleanly. Tool-call
# intent or tool-call parse errors should be handled by the tool path
# instead of being masked by todo reminders.
# 2. Only intervene when the agent wants to exit (no tool calls).
messages = state.get("messages") or []
last_ai = next((m for m in reversed(messages) if isinstance(m, AIMessage)), None)
if not last_ai or _has_tool_call_intent_or_error(last_ai):
if not last_ai or last_ai.tool_calls:
return None
# 3. Allow exit when all todos are completed or there are no todos.
@@ -299,65 +149,31 @@ class TodoMiddleware(TodoListMiddleware):
return None
# 4. Enforce a reminder cap to prevent infinite re-engagement loops.
if self._completion_reminder_count_for_runtime(runtime) >= self._MAX_COMPLETION_REMINDERS:
if _completion_reminder_count(messages) >= self._MAX_COMPLETION_REMINDERS:
return None
# 5. Queue a reminder for the next model request and jump back. We must
# not persist this control prompt as a normal HumanMessage, otherwise it
# can leak into user-visible message streams and saved transcripts.
self._queue_completion_reminder(runtime, _format_completion_reminder(todos))
return {"jump_to": "model"}
# 5. Inject a reminder and force the agent back to the model.
incomplete = [t for t in todos if t.get("status") != "completed"]
incomplete_text = "\n".join(f"- [{t.get('status', 'pending')}] {t.get('content', '')}" for t in incomplete)
reminder = HumanMessage(
name="todo_completion_reminder",
content=(
"<system_reminder>\n"
"You have incomplete todo items that must be finished before giving your final response:\n\n"
f"{incomplete_text}\n\n"
"Please continue working on these tasks. Call `write_todos` to mark items as completed "
"as you finish them, and only respond when all items are done.\n"
"</system_reminder>"
),
)
return {"jump_to": "model", "messages": [reminder]}
@override
@hook_config(can_jump_to=["model"])
async def aafter_model(
self,
state: ThreadState,
state: PlanningState,
runtime: Runtime,
) -> dict[str, Any] | None:
"""Async version of after_model."""
return self.after_model(state, runtime)
@staticmethod
def _format_pending_completion_reminders(reminders: list[str]) -> str:
return "\n\n".join(dict.fromkeys(reminders))
def _augment_request(self, request: ModelRequest) -> ModelRequest:
reminders = self._drain_completion_reminders(request.runtime)
if not reminders:
return request
new_messages = [
*request.messages,
HumanMessage(
content=self._format_pending_completion_reminders(reminders),
name="todo_completion_reminder",
additional_kwargs={"hide_from_ui": True},
),
]
return request.override(messages=new_messages)
@override
def wrap_model_call(
self,
request: ModelRequest,
handler: Callable[[ModelRequest], ModelResponse],
) -> ModelCallResult:
return handler(self._augment_request(request))
@override
async def awrap_model_call(
self,
request: ModelRequest,
handler: Callable[[ModelRequest], Awaitable[ModelResponse]],
) -> ModelCallResult:
return await handler(self._augment_request(request))
@override
def after_agent(self, state: ThreadState, runtime: Runtime) -> dict[str, Any] | None:
self._clear_current_run_completion_reminders(runtime)
return None
@override
async def aafter_agent(self, state: ThreadState, runtime: Runtime) -> dict[str, Any] | None:
self._clear_current_run_completion_reminders(runtime)
return None
backend/packages/harness/deerflow/agents/middlewares/tool_error_handling_middleware.py
+1 -13
View File
@@ -77,11 +77,9 @@ def _build_runtime_middlewares(
"""Build shared base middlewares for agent execution."""
from deerflow.agents.middlewares.llm_error_handling_middleware import LLMErrorHandlingMiddleware
from deerflow.agents.middlewares.thread_data_middleware import ThreadDataMiddleware
from deerflow.agents.middlewares.tool_output_budget_middleware import ToolOutputBudgetMiddleware
from deerflow.sandbox.middleware import SandboxMiddleware
middlewares: list[AgentMiddleware] = [
ToolOutputBudgetMiddleware.from_app_config(app_config),
ThreadDataMiddleware(lazy_init=lazy_init),
SandboxMiddleware(lazy_init=lazy_init),
]
@@ -89,7 +87,7 @@ def _build_runtime_middlewares(
if include_uploads:
from deerflow.agents.middlewares.uploads_middleware import UploadsMiddleware
middlewares.insert(2, UploadsMiddleware())
middlewares.insert(1, UploadsMiddleware())
if include_dangling_tool_call_patch:
from deerflow.agents.middlewares.dangling_tool_call_middleware import DanglingToolCallMiddleware
@@ -166,14 +164,4 @@ def build_subagent_runtime_middlewares(
middlewares.append(ViewImageMiddleware())
# Same provider safety-termination guard the lead agent uses — subagents
# are equally exposed to truncated tool_calls returned with
# finish_reason=content_filter (and friends), and the bad call would then
# propagate back to the lead agent via the task tool result.
safety_config = app_config.safety_finish_reason
if safety_config.enabled:
from deerflow.agents.middlewares.safety_finish_reason_middleware import SafetyFinishReasonMiddleware
middlewares.append(SafetyFinishReasonMiddleware.from_config(safety_config))
return middlewares
backend/packages/harness/deerflow/agents/middlewares/tool_output_budget_middleware.py
-489
View File
@@ -1,489 +0,0 @@
"""Middleware that enforces a per-result budget on tool outputs.
Oversized tool results are persisted to disk and replaced with a compact
preview containing a file reference. When disk persistence is
unavailable the middleware falls back to head+tail truncation so the
model context is never blown by a single large tool return.
"""
from __future__ import annotations
import asyncio
import logging
import os
import uuid
from collections.abc import Awaitable, Callable
from dataclasses import replace as dc_replace
from typing import Any, override
from langchain.agents import AgentState
from langchain.agents.middleware import AgentMiddleware
from langchain.agents.middleware.types import ModelCallResult, ModelRequest, ModelResponse
from langchain_core.messages import ToolMessage
from langgraph.prebuilt.tool_node import ToolCallRequest
from langgraph.types import Command
from deerflow.config.tool_output_config import ToolOutputConfig
logger = logging.getLogger(__name__)
def _default_config() -> ToolOutputConfig:
return ToolOutputConfig()
# ---------------------------------------------------------------------------
# Text helpers
# ---------------------------------------------------------------------------
def _message_text(content: Any) -> str | None:
"""Extract a plain-text representation from a ToolMessage content field.
Returns ``None`` for non-string / multimodal content so the caller
can skip budget enforcement (images, structured blocks, etc.).
"""
if isinstance(content, str):
return content
if content is None:
return None
if isinstance(content, list):
pieces: list[str] = []
for part in content:
if isinstance(part, str):
pieces.append(part)
elif isinstance(part, dict) and isinstance(part.get("text"), str):
pieces.append(part["text"])
else:
return None
return "\n".join(pieces) if pieces else None
return None
def _snap_to_line_boundary(text: str, pos: int) -> int:
"""Return *pos* or the nearest preceding newline+1, whichever is closer.
Used so that previews and truncations end on a complete line when
possible. If no newline exists in the second half of ``text[:pos]``
the original *pos* is returned unchanged.
"""
if pos <= 0 or pos >= len(text):
return pos
half = pos // 2
nl = text.rfind("\n", half, pos)
if nl >= 0:
return nl + 1
return pos
# ---------------------------------------------------------------------------
# Disk persistence
# ---------------------------------------------------------------------------
_EXT_MAP: dict[str, str] = {
"bash": "log",
"bash_tool": "log",
"web_fetch": "log",
}
def _sanitize_tool_name(name: str) -> str:
"""Strip path separators and traversal components from a tool name."""
base = os.path.basename(name)
safe = base.replace("..", "").replace("/", "_").replace("\\", "_")
return safe or "unknown"
def _externalize(
content: str,
*,
tool_name: str,
tool_call_id: str,
outputs_path: str,
storage_subdir: str,
) -> str | None:
"""Write *content* to disk and return the virtual path, or ``None`` on failure."""
if os.path.isabs(storage_subdir) or ".." in storage_subdir:
return None
storage_dir = os.path.join(outputs_path, storage_subdir)
try:
os.makedirs(storage_dir, exist_ok=True)
except OSError:
return None
safe_name = _sanitize_tool_name(tool_name)
ext = _EXT_MAP.get(tool_name, "txt")
short_id = uuid.uuid4().hex[:12]
filename = f"{safe_name}-{short_id}.{ext}"
filepath = os.path.join(storage_dir, filename)
if not os.path.abspath(filepath).startswith(os.path.abspath(storage_dir)):
return None
try:
with open(filepath, "w", encoding="utf-8") as f:
f.write(content)
except OSError:
return None
virtual_base = "/mnt/user-data/outputs"
return f"{virtual_base}/{storage_subdir}/{filename}"
# ---------------------------------------------------------------------------
# Preview / fallback builders
# ---------------------------------------------------------------------------
def _build_preview(
content: str,
*,
tool_name: str,
virtual_path: str,
head_chars: int,
tail_chars: int,
) -> str:
"""Build a preview with a file reference for externalized output."""
total = len(content)
head_end = _snap_to_line_boundary(content, min(head_chars, total))
tail_start = max(head_end, total - tail_chars)
tail_start_snapped = _snap_to_line_boundary(content, tail_start)
if tail_start_snapped > head_end:
tail_start = tail_start_snapped
head = content[:head_end]
tail = content[tail_start:] if tail_start < total else ""
omitted = total - len(head) - len(tail)
ref = f"\n\n[Full {tool_name} output saved to {virtual_path} ({total} chars, ~{total // 4} tokens). Use read_file with start_line and end_line to access specific sections. {omitted} chars omitted from this preview.]\n\n"
parts = [head, ref]
if tail:
parts.append(tail)
return "".join(parts)
def _build_fallback(
content: str,
*,
tool_name: str,
max_chars: int,
head_chars: int,
tail_chars: int,
) -> str:
"""Build a head+tail truncation when disk persistence is unavailable.
The returned string is guaranteed to be no longer than *max_chars*.
"""
total = len(content)
if max_chars <= 0 or total <= max_chars:
return content
marker_template = "\n\n[... {n} chars omitted from {tn} output. Persistent storage unavailable. Consider narrowing the query or using more specific parameters.]\n\n"
marker_overhead = len(marker_template.format(n=total, tn=tool_name))
if marker_overhead >= max_chars:
return content[:max_chars]
budget = max_chars - marker_overhead
effective_head = min(head_chars, budget)
effective_tail = min(tail_chars, max(0, budget - effective_head))
head_end = _snap_to_line_boundary(content, min(effective_head, total))
tail_start = max(head_end, total - effective_tail)
tail_start_snapped = _snap_to_line_boundary(content, tail_start)
if tail_start_snapped > head_end:
tail_start = tail_start_snapped
head = content[:head_end]
tail = content[tail_start:] if tail_start < total else ""
omitted = total - len(head) - len(tail)
marker = marker_template.format(n=omitted, tn=tool_name)
parts = [head, marker]
if tail:
parts.append(tail)
return "".join(parts)
# ---------------------------------------------------------------------------
# Core budget logic
# ---------------------------------------------------------------------------
def _resolve_outputs_path(request: ToolCallRequest) -> str | None:
"""Best-effort extraction of the thread outputs path."""
runtime = getattr(request, "runtime", None)
if runtime is None:
return None
state = getattr(runtime, "state", None)
if state is None:
return None
thread_data = state.get("thread_data")
if not isinstance(thread_data, dict):
return None
outputs_path = thread_data.get("outputs_path")
return outputs_path if isinstance(outputs_path, str) else None
def _budget_content(
content: str,
*,
tool_name: str,
tool_call_id: str,
outputs_path: str | None,
config: ToolOutputConfig,
) -> str | None:
"""Apply budget to *content*. Returns ``None`` if no change needed."""
threshold = config.tool_overrides.get(tool_name, config.externalize_min_chars)
if threshold <= 0 and config.fallback_max_chars <= 0:
return None
if len(content) <= threshold and len(content) <= config.fallback_max_chars:
return None
if threshold > 0 and len(content) > threshold and outputs_path:
virtual_path = _externalize(
content,
tool_name=tool_name,
tool_call_id=tool_call_id,
outputs_path=outputs_path,
storage_subdir=config.storage_subdir,
)
if virtual_path is not None:
logger.info(
"Externalized %s output (%d chars) to %s",
tool_name,
len(content),
virtual_path,
)
return _build_preview(
content,
tool_name=tool_name,
virtual_path=virtual_path,
head_chars=config.preview_head_chars,
tail_chars=config.preview_tail_chars,
)
if config.fallback_max_chars > 0 and len(content) > config.fallback_max_chars:
logger.warning(
"Fallback-truncating %s output: %d chars → %d max",
tool_name,
len(content),
config.fallback_max_chars,
)
return _build_fallback(
content,
tool_name=tool_name,
max_chars=config.fallback_max_chars,
head_chars=config.fallback_head_chars,
tail_chars=config.fallback_tail_chars,
)
return None
# ---------------------------------------------------------------------------
# Result patchers
# ---------------------------------------------------------------------------
def _patch_tool_message(msg: ToolMessage, config: ToolOutputConfig, outputs_path: str | None) -> ToolMessage:
"""Apply budget to a single ToolMessage. Returns the original if unchanged."""
tool_name = msg.name or "unknown"
if tool_name in config.exempt_tools:
return msg
text = _message_text(msg.content)
if text is None:
return msg
replacement = _budget_content(
text,
tool_name=tool_name,
tool_call_id=msg.tool_call_id or "",
outputs_path=outputs_path,
config=config,
)
if replacement is None:
return msg
update: dict[str, Any] = {"content": replacement}
if getattr(msg, "response_metadata", None):
update["response_metadata"] = dict(msg.response_metadata)
if getattr(msg, "additional_kwargs", None):
update["additional_kwargs"] = dict(msg.additional_kwargs)
return msg.model_copy(update=update)
def _effective_trigger(tool_name: str, config: ToolOutputConfig) -> int:
"""Smallest content length that could trigger budgeting for *tool_name*.
Mirrors the trigger conditions in :func:`_budget_content` (per-tool
externalize threshold OR global fallback), so the pre-scan never produces
a false negative. Returns ``-1`` when nothing could ever trigger.
"""
candidates: list[int] = []
externalize = config.tool_overrides.get(tool_name, config.externalize_min_chars)
if externalize > 0:
candidates.append(externalize)
if config.fallback_max_chars > 0:
candidates.append(config.fallback_max_chars)
return min(candidates) if candidates else -1
def _tool_message_over_budget(msg: ToolMessage, config: ToolOutputConfig) -> bool:
"""Cheap, per-tool-aware check: is this ToolMessage non-exempt and over its trigger?"""
if (msg.name or "") in config.exempt_tools:
return False
trigger = _effective_trigger(msg.name or "", config)
if trigger < 0:
return False
text = _message_text(msg.content)
return text is not None and len(text) > trigger
def _needs_budget(result: ToolMessage | Command, config: ToolOutputConfig) -> bool:
"""Fast check whether *result* could need budgeting (avoids thread offload for small outputs)."""
if isinstance(result, ToolMessage):
return _tool_message_over_budget(result, config)
update = getattr(result, "update", None)
if isinstance(update, dict):
for msg in update.get("messages", []):
if isinstance(msg, ToolMessage) and _tool_message_over_budget(msg, config):
return True
return False
def _patch_result(result: ToolMessage | Command, config: ToolOutputConfig, outputs_path: str | None) -> ToolMessage | Command:
"""Apply budget to a tool call result (ToolMessage or Command)."""
if isinstance(result, ToolMessage):
return _patch_tool_message(result, config, outputs_path)
update = getattr(result, "update", None)
if not isinstance(update, dict):
return result
messages = update.get("messages")
if not isinstance(messages, list):
return result
new_messages: list[Any] = []
changed = False
for msg in messages:
if isinstance(msg, ToolMessage):
patched = _patch_tool_message(msg, config, outputs_path)
if patched is not msg:
changed = True
new_messages.append(patched)
else:
new_messages.append(msg)
if not changed:
return result
return dc_replace(result, update={**update, "messages": new_messages})
def _patch_model_messages(messages: list[Any], config: ToolOutputConfig) -> list[Any] | None:
"""Apply budget to historical ToolMessages in a model request. Returns ``None`` if unchanged.
A cheap pre-scan bails out before allocating a new list when no historical
ToolMessage exceeds the budget the common case once every result has
already been budgeted at tool-call time, so a long history is not rebuilt
on every model call.
"""
if not any(isinstance(msg, ToolMessage) and _tool_message_over_budget(msg, config) for msg in messages):
return None
updated: list[Any] = []
changed = False
for msg in messages:
if isinstance(msg, ToolMessage):
patched = _patch_tool_message(msg, config, outputs_path=None)
if patched is not msg:
changed = True
updated.append(patched)
else:
updated.append(msg)
return updated if changed else None
# ---------------------------------------------------------------------------
# Middleware class
# ---------------------------------------------------------------------------
class ToolOutputBudgetMiddleware(AgentMiddleware[AgentState]):
"""Enforce per-result budget on tool outputs via externalization or truncation."""
def __init__(self, config: ToolOutputConfig | None = None) -> None:
super().__init__()
self._config = config if config is not None else _default_config()
@classmethod
def from_app_config(cls, app_config: Any) -> ToolOutputBudgetMiddleware:
tool_output = getattr(app_config, "tool_output", None)
if isinstance(tool_output, ToolOutputConfig):
return cls(config=tool_output)
return cls()
# -- tool call hooks ---------------------------------------------------
@override
def wrap_tool_call(
self,
request: ToolCallRequest,
handler: Callable[[ToolCallRequest], ToolMessage | Command],
) -> ToolMessage | Command:
result = handler(request)
if not self._config.enabled:
return result
if not _needs_budget(result, self._config):
return result
outputs_path = _resolve_outputs_path(request)
return _patch_result(result, self._config, outputs_path)
@override
async def awrap_tool_call(
self,
request: ToolCallRequest,
handler: Callable[[ToolCallRequest], Awaitable[ToolMessage | Command]],
) -> ToolMessage | Command:
result = await handler(request)
if not self._config.enabled:
return result
if not _needs_budget(result, self._config):
return result
outputs_path = _resolve_outputs_path(request)
return await asyncio.to_thread(_patch_result, result, self._config, outputs_path)
# -- model call hooks (historical message truncation) ------------------
@override
def wrap_model_call(
self,
request: ModelRequest,
handler: Callable[[ModelRequest], ModelResponse],
) -> ModelCallResult:
if self._config.enabled:
messages = getattr(request, "messages", None)
if isinstance(messages, list):
patched = _patch_model_messages(messages, self._config)
if patched is not None:
request = request.override(messages=patched)
return handler(request)
@override
async def awrap_model_call(
self,
request: ModelRequest,
handler: Callable[[ModelRequest], Awaitable[ModelResponse]],
) -> ModelCallResult:
if self._config.enabled:
messages = getattr(request, "messages", None)
if isinstance(messages, list):
patched = _patch_model_messages(messages, self._config)
if patched is not None:
request = request.override(messages=patched)
return await handler(request)
backend/packages/harness/deerflow/agents/middlewares/uploads_middleware.py
-14
View File
@@ -7,7 +7,6 @@ from typing import NotRequired, override
from langchain.agents import AgentState
from langchain.agents.middleware import AgentMiddleware
from langchain_core.messages import HumanMessage
from langchain_core.runnables import run_in_executor
from langgraph.runtime import Runtime
from deerflow.config.paths import Paths, get_paths
@@ -294,16 +293,3 @@ class UploadsMiddleware(AgentMiddleware[UploadsMiddlewareState]):
"uploaded_files": new_files,
"messages": messages,
}
@override
async def abefore_agent(self, state: UploadsMiddlewareState, runtime: Runtime) -> dict | None:
"""Async hook that offloads the synchronous uploads scan off the event loop.
``before_agent`` performs blocking filesystem IO (directory enumeration,
``stat``, reading sibling ``.md`` outlines). When the graph runs async,
langgraph would otherwise execute the sync hook directly on the event
loop, so it is dispatched to a worker thread via ``run_in_executor``.
``run_in_executor`` copies the current context, so the ``user_id``
contextvar read by ``get_effective_user_id()`` is preserved.
"""
return await run_in_executor(None, self.before_agent, state, runtime)
backend/packages/harness/deerflow/agents/thread_state.py
+1 -41
View File
@@ -45,51 +45,11 @@ def merge_viewed_images(existing: dict[str, ViewedImageData] | None, new: dict[s
return {**existing, **new}
def merge_todos(existing: list | None, new: list | None) -> list | None:
"""Reducer for todos list - keeps the last non-None value.
Semantics:
- If `new` is None (node didn't touch todos), preserve `existing`.
- If `new` is provided (even empty list), it represents an explicit
update and wins over `existing`.
"""
if new is None:
return existing
return new
class PromotedTools(TypedDict):
catalog_hash: str
names: list[str]
def merge_promoted(existing: PromotedTools | None, new: PromotedTools | None) -> PromotedTools | None:
"""Reducer for deferred-tool promotions, scoped by catalog hash.
- new None/empty -> preserve existing (node didn't touch promotions).
- catalog_hash changed -> replace wholesale, dropping stale names (prevents a
persisted bare name from exposing a different tool after catalog drift).
- same catalog_hash -> union names, dedupe, preserve order.
"""
if not new:
return existing
if existing is None or existing.get("catalog_hash") != new["catalog_hash"]:
return {
"catalog_hash": new["catalog_hash"],
"names": list(dict.fromkeys(new["names"])),
}
return {
"catalog_hash": existing["catalog_hash"],
"names": list(dict.fromkeys(existing["names"] + new["names"])),
}
class ThreadState(AgentState):
sandbox: NotRequired[SandboxState | None]
thread_data: NotRequired[ThreadDataState | None]
title: NotRequired[str | None]
artifacts: Annotated[list[str], merge_artifacts]
todos: Annotated[list | None, merge_todos]
todos: NotRequired[list | None]
uploaded_files: NotRequired[list[dict] | None]
viewed_images: Annotated[dict[str, ViewedImageData], merge_viewed_images] # image_path -> {base64, mime_type}
promoted: Annotated[PromotedTools | None, merge_promoted]
backend/packages/harness/deerflow/client.py
+5 -44
View File
@@ -19,7 +19,6 @@ import asyncio
import json
import logging
import mimetypes
import os
import shutil
import tempfile
import uuid
@@ -33,7 +32,7 @@ from langchain.agents.middleware import AgentMiddleware
from langchain_core.messages import AIMessage, HumanMessage, SystemMessage, ToolMessage
from langchain_core.runnables import RunnableConfig
from deerflow.agents.lead_agent.agent import _assemble_deferred, _build_middlewares
from deerflow.agents.lead_agent.agent import _build_middlewares
from deerflow.agents.lead_agent.prompt import apply_prompt_template
from deerflow.agents.thread_state import ThreadState
from deerflow.config.agents_config import AGENT_NAME_PATTERN
@@ -43,7 +42,6 @@ from deerflow.config.paths import get_paths
from deerflow.models import create_chat_model
from deerflow.runtime.user_context import get_effective_user_id
from deerflow.skills.storage import get_or_new_skill_storage
from deerflow.tracing import build_tracing_callbacks, inject_langfuse_metadata
from deerflow.uploads.manager import (
claim_unique_filename,
delete_file_safe,
@@ -125,7 +123,6 @@ class DeerFlowClient:
agent_name: str | None = None,
available_skills: set[str] | None = None,
middlewares: Sequence[AgentMiddleware] | None = None,
environment: str | None = None,
):
"""Initialize the client.
@@ -143,12 +140,6 @@ class DeerFlowClient:
agent_name: Name of the agent to use.
available_skills: Optional set of skill names to make available. If None (default), all scanned skills are available.
middlewares: Optional list of custom middlewares to inject into the agent.
environment: Deployment environment label that ends up in
``langfuse_tags`` (e.g. ``"production"`` / ``"staging"``).
When ``None`` the worker/client falls back to the
``DEER_FLOW_ENV`` or ``ENVIRONMENT`` env vars. Pass an
explicit value for programmatic callers that do not want
env-var coupling.
"""
if config_path is not None:
reload_app_config(config_path)
@@ -165,7 +156,6 @@ class DeerFlowClient:
self._agent_name = agent_name
self._available_skills = set(available_skills) if available_skills is not None else None
self._middlewares = list(middlewares) if middlewares else []
self._environment = environment
# Lazy agent — created on first call, recreated when config changes.
self._agent = None
@@ -237,22 +227,15 @@ class DeerFlowClient:
subagent_enabled = cfg.get("subagent_enabled", False)
max_concurrent_subagents = cfg.get("max_concurrent_subagents", 3)
tools = self._get_tools(model_name=model_name, subagent_enabled=subagent_enabled)
final_tools, deferred_setup = _assemble_deferred(tools, enabled=self._app_config.tool_search.enabled)
kwargs: dict[str, Any] = {
# attach_tracing=False because ``stream()`` injects tracing
# callbacks at the graph invocation root so a single embedded run
# produces one trace with correct session_id / user_id propagation.
# Attaching them again on the model would emit duplicate spans.
"model": create_chat_model(name=model_name, thinking_enabled=thinking_enabled, attach_tracing=False),
"tools": final_tools,
"middleware": _build_middlewares(config, model_name=model_name, agent_name=self._agent_name, custom_middlewares=self._middlewares, deferred_setup=deferred_setup),
"model": create_chat_model(name=model_name, thinking_enabled=thinking_enabled),
"tools": self._get_tools(model_name=model_name, subagent_enabled=subagent_enabled),
"middleware": _build_middlewares(config, model_name=model_name, agent_name=self._agent_name, custom_middlewares=self._middlewares),
"system_prompt": apply_prompt_template(
subagent_enabled=subagent_enabled,
max_concurrent_subagents=max_concurrent_subagents,
agent_name=self._agent_name,
available_skills=self._available_skills,
deferred_names=deferred_setup.deferred_names,
),
"state_schema": ThreadState,
}
@@ -588,28 +571,6 @@ class DeerFlowClient:
thread_id = str(uuid.uuid4())
config = self._get_runnable_config(thread_id, **kwargs)
# Inject tracing callbacks and Langfuse trace metadata at the graph
# invocation root so the embedded client matches the gateway worker's
# behaviour: a single ``stream()`` produces one trace with all node /
# LLM / tool calls nested under it, and the trace carries the reserved
# ``langfuse_session_id`` / ``langfuse_user_id`` keys that the Langfuse
# CallbackHandler lifts onto the root trace's ``sessionId`` / ``userId``.
tracing_callbacks = build_tracing_callbacks()
if tracing_callbacks:
existing_callbacks = list(config.get("callbacks") or [])
config["callbacks"] = [*existing_callbacks, *tracing_callbacks]
configurable = config.get("configurable") or {}
inject_langfuse_metadata(
config,
thread_id=thread_id,
user_id=get_effective_user_id(),
assistant_id=self._agent_name or "lead-agent",
model_name=configurable.get("model_name") or self._model_name,
environment=self._environment or os.environ.get("DEER_FLOW_ENV") or os.environ.get("ENVIRONMENT"),
)
self._ensure_agent(config)
state: dict[str, Any] = {"messages": [HumanMessage(content=message)]}
@@ -1209,7 +1170,7 @@ class DeerFlowClient:
info: dict[str, Any] = {
"filename": dest_name,
"size": dest.stat().st_size,
"size": str(dest.stat().st_size),
"path": str(dest),
"virtual_path": upload_virtual_path(dest_name),
"artifact_url": upload_artifact_url(thread_id, dest_name),
backend/packages/harness/deerflow/community/aio_sandbox/aio_sandbox.py
-99
View File
@@ -1,5 +1,4 @@
import base64
import errno
import logging
import shlex
import threading
@@ -7,14 +6,11 @@ import uuid
from agent_sandbox import Sandbox as AioSandboxClient
from deerflow.config.paths import VIRTUAL_PATH_PREFIX
from deerflow.sandbox.sandbox import Sandbox
from deerflow.sandbox.search import GrepMatch, path_matches, should_ignore_path, truncate_line
logger = logging.getLogger(__name__)
_MAX_DOWNLOAD_SIZE = 100 * 1024 * 1024 # 100 MB
_ERROR_OBSERVATION_SIGNATURE = "'ErrorObservation' object has no attribute 'exit_code'"
@@ -39,63 +35,11 @@ class AioSandbox(Sandbox):
self._client = AioSandboxClient(base_url=base_url, timeout=600)
self._home_dir = home_dir
self._lock = threading.Lock()
self._closed = False
@property
def base_url(self) -> str:
return self._base_url
def close(self) -> None:
"""Best-effort close of the host-side HTTP client owned by this sandbox.
The agent_sandbox SDK is Fern-generated and exposes no ``close()`` /
``__exit__``, so we reach the socket-owning ``httpx.Client`` explicitly
through its attribute chain::
Sandbox._client_wrapper -> SyncClientWrapper
.httpx_client -> Fern HttpClient (a wrapper, NOT httpx.Client)
.httpx_client -> httpx.Client <- the real socket owner
Closing it releases pooled sockets so long-running provider lifecycles
do not accumulate unreclaimed host-side resources (#2872).
Resolution is most-specific-first with graceful degradation: if a future
SDK adds a top-level ``Sandbox.close()`` it is picked up automatically
without changing this code. Idempotent, thread-safe, and non-fatal:
failures during teardown are logged and swallowed so provider/backend
cleanup is never blocked.
"""
with self._lock:
if self._closed:
return
self._closed = True
client = self._client
# Drop the reference under the lock for use-after-close safety: any
# later command on this instance fails loudly instead of reusing a
# half-closed client.
self._client = None
if client is None:
return
# Walk from the real httpx.Client up to the top-level client, picking the
# first object that actually exposes close().
wrapper = getattr(client, "_client_wrapper", None)
fern_http = getattr(wrapper, "httpx_client", None)
real_httpx = getattr(fern_http, "httpx_client", None)
target = next(
(c for c in (real_httpx, fern_http, client) if c is not None and hasattr(c, "close")),
None,
)
if target is None:
logger.debug("AioSandbox %s: no closable client found, nothing to release", self.id)
return
try:
target.close()
except Exception as e:
logger.warning(f"Error closing AioSandbox client for {self.id}: {e}")
@property
def home_dir(self) -> str:
"""Get the home directory inside the sandbox."""
@@ -158,49 +102,6 @@ class AioSandbox(Sandbox):
logger.error(f"Failed to read file in sandbox: {e}")
return f"Error: {e}"
def download_file(self, path: str) -> bytes:
"""Download file bytes from the sandbox.
Raises:
PermissionError: If the path contains '..' traversal segments or is
outside ``VIRTUAL_PATH_PREFIX``.
OSError: If the file cannot be retrieved from the sandbox.
"""
# Reject path traversal before sending to the container API.
# LocalSandbox gets this implicitly via _resolve_path;
# here the path is forwarded verbatim so we must check explicitly.
normalised = path.replace("\\", "/")
for segment in normalised.split("/"):
if segment == "..":
logger.error(f"Refused download due to path traversal: {path}")
raise PermissionError(f"Access denied: path traversal detected in '{path}'")
stripped_path = normalised.lstrip("/")
allowed_prefix = VIRTUAL_PATH_PREFIX.lstrip("/")
if stripped_path != allowed_prefix and not stripped_path.startswith(f"{allowed_prefix}/"):
logger.error("Refused download outside allowed directory: path=%s, allowed_prefix=%s", path, VIRTUAL_PATH_PREFIX)
raise PermissionError(f"Access denied: path must be under '{VIRTUAL_PATH_PREFIX}': '{path}'")
with self._lock:
try:
chunks: list[bytes] = []
total = 0
for chunk in self._client.file.download_file(path=path):
total += len(chunk)
if total > _MAX_DOWNLOAD_SIZE:
raise OSError(
errno.EFBIG,
f"File exceeds maximum download size of {_MAX_DOWNLOAD_SIZE} bytes",
path,
)
chunks.append(chunk)
return b"".join(chunks)
except OSError:
raise
except Exception as e:
logger.error(f"Failed to download file in sandbox: {e}")
raise OSError(f"Failed to download file '{path}' from sandbox: {e}") from e
def list_dir(self, path: str, max_depth: int = 2) -> list[str]:
"""List the contents of a directory in the sandbox.
backend/packages/harness/deerflow/community/aio_sandbox/aio_sandbox_provider.py
+69 -261
View File
@@ -10,7 +10,6 @@ The provider itself handles:
- Mount computation (thread-specific, skills)
"""
import asyncio
import atexit
import hashlib
import logging
@@ -19,7 +18,6 @@ import signal
import threading
import time
import uuid
from concurrent.futures import ThreadPoolExecutor
try:
import fcntl
@@ -34,7 +32,7 @@ from deerflow.sandbox.sandbox import Sandbox
from deerflow.sandbox.sandbox_provider import SandboxProvider
from .aio_sandbox import AioSandbox
from .backend import SandboxBackend, wait_for_sandbox_ready, wait_for_sandbox_ready_async
from .backend import SandboxBackend, wait_for_sandbox_ready
from .local_backend import LocalContainerBackend
from .remote_backend import RemoteSandboxBackend
from .sandbox_info import SandboxInfo
@@ -48,9 +46,6 @@ DEFAULT_CONTAINER_PREFIX = "deer-flow-sandbox"
DEFAULT_IDLE_TIMEOUT = 600 # 10 minutes in seconds
DEFAULT_REPLICAS = 3 # Maximum concurrent sandbox containers
IDLE_CHECK_INTERVAL = 60 # Check every 60 seconds
THREAD_LOCK_EXECUTOR_WORKERS = min(32, (os.cpu_count() or 1) + 4)
_THREAD_LOCK_EXECUTOR = ThreadPoolExecutor(max_workers=THREAD_LOCK_EXECUTOR_WORKERS, thread_name_prefix="sandbox-lock-wait")
atexit.register(_THREAD_LOCK_EXECUTOR.shutdown, wait=False, cancel_futures=True)
def _lock_file_exclusive(lock_file) -> None:
@@ -71,40 +66,6 @@ def _unlock_file(lock_file) -> None:
msvcrt.locking(lock_file.fileno(), msvcrt.LK_UNLCK, 1)
def _open_lock_file(lock_path):
return open(lock_path, "a", encoding="utf-8")
async def _acquire_thread_lock_async(lock: threading.Lock) -> None:
"""Acquire a threading.Lock without polling or using the default executor."""
loop = asyncio.get_running_loop()
acquire_future = loop.run_in_executor(_THREAD_LOCK_EXECUTOR, lock.acquire, True)
try:
acquired = await asyncio.shield(acquire_future)
except asyncio.CancelledError:
acquire_future.add_done_callback(lambda task: _release_cancelled_lock_acquire(lock, task))
raise
if not acquired:
raise RuntimeError("Failed to acquire sandbox thread lock")
def _release_cancelled_lock_acquire(lock: threading.Lock, task: asyncio.Future[bool]) -> None:
"""Release a lock acquired after its awaiting coroutine was cancelled."""
if task.cancelled():
return
try:
acquired = task.result()
except Exception as e:
logger.warning(f"Cancelled sandbox lock acquisition finished with error: {e}")
return
if acquired:
lock.release()
class AioSandboxProvider(SandboxProvider):
"""Sandbox provider that manages containers running the AIO sandbox.
@@ -455,96 +416,6 @@ class AioSandboxProvider(SandboxProvider):
self._thread_locks[thread_id] = threading.Lock()
return self._thread_locks[thread_id]
def _sandbox_id_for_thread(self, thread_id: str | None) -> str:
"""Return deterministic IDs for thread sandboxes and random IDs otherwise."""
return self._deterministic_sandbox_id(thread_id) if thread_id else str(uuid.uuid4())[:8]
def _reuse_in_process_sandbox(self, thread_id: str | None, *, post_lock: bool = False) -> str | None:
"""Reuse an active in-process sandbox for a thread if one is still tracked."""
if thread_id is None:
return None
with self._lock:
if thread_id not in self._thread_sandboxes:
return None
existing_id = self._thread_sandboxes[thread_id]
if existing_id in self._sandboxes:
suffix = " (post-lock check)" if post_lock else ""
logger.info(f"Reusing in-process sandbox {existing_id} for thread {thread_id}{suffix}")
self._last_activity[existing_id] = time.time()
return existing_id
del self._thread_sandboxes[thread_id]
return None
def _reclaim_warm_pool_sandbox(self, thread_id: str | None, sandbox_id: str, *, post_lock: bool = False) -> str | None:
"""Promote a warm-pool sandbox back to active tracking if available."""
if thread_id is None:
return None
with self._lock:
if sandbox_id not in self._warm_pool:
return None
info, _ = self._warm_pool.pop(sandbox_id)
sandbox = AioSandbox(id=sandbox_id, base_url=info.sandbox_url)
self._sandboxes[sandbox_id] = sandbox
self._sandbox_infos[sandbox_id] = info
self._last_activity[sandbox_id] = time.time()
self._thread_sandboxes[thread_id] = sandbox_id
suffix = " (post-lock check)" if post_lock else f" at {info.sandbox_url}"
logger.info(f"Reclaimed warm-pool sandbox {sandbox_id} for thread {thread_id}{suffix}")
return sandbox_id
def _recheck_cached_sandbox(self, thread_id: str, sandbox_id: str) -> str | None:
"""Re-check in-memory caches after acquiring the cross-process file lock."""
return self._reuse_in_process_sandbox(thread_id, post_lock=True) or self._reclaim_warm_pool_sandbox(thread_id, sandbox_id, post_lock=True)
def _register_discovered_sandbox(self, thread_id: str, info: SandboxInfo) -> str:
"""Track a sandbox discovered through the backend."""
sandbox = AioSandbox(id=info.sandbox_id, base_url=info.sandbox_url)
with self._lock:
self._sandboxes[info.sandbox_id] = sandbox
self._sandbox_infos[info.sandbox_id] = info
self._last_activity[info.sandbox_id] = time.time()
self._thread_sandboxes[thread_id] = info.sandbox_id
logger.info(f"Discovered existing sandbox {info.sandbox_id} for thread {thread_id} at {info.sandbox_url}")
return info.sandbox_id
def _register_created_sandbox(self, thread_id: str | None, sandbox_id: str, info: SandboxInfo) -> str:
"""Track a newly-created sandbox in the active maps."""
sandbox = AioSandbox(id=sandbox_id, base_url=info.sandbox_url)
with self._lock:
self._sandboxes[sandbox_id] = sandbox
self._sandbox_infos[sandbox_id] = info
self._last_activity[sandbox_id] = time.time()
if thread_id:
self._thread_sandboxes[thread_id] = sandbox_id
logger.info(f"Created sandbox {sandbox_id} for thread {thread_id} at {info.sandbox_url}")
return sandbox_id
def _replica_count(self) -> tuple[int, int]:
"""Return configured replicas and currently tracked sandbox count."""
replicas = self._config.get("replicas", DEFAULT_REPLICAS)
with self._lock:
total = len(self._sandboxes) + len(self._warm_pool)
return replicas, total
def _log_replicas_soft_cap(self, replicas: int, sandbox_id: str, evicted: str | None) -> None:
"""Log the result of enforcing the warm-pool replica budget."""
if evicted:
logger.info(f"Evicted warm-pool sandbox {evicted} to stay within replicas={replicas}")
return
# All slots are occupied by active sandboxes — proceed anyway and log.
# The replicas limit is a soft cap; we never forcibly stop a container
# that is actively serving a thread.
logger.warning(f"All {replicas} replica slots are in active use; creating sandbox {sandbox_id} beyond the soft limit")
# ── Core: acquire / get / release / shutdown ─────────────────────────
def acquire(self, thread_id: str | None = None) -> str:
@@ -569,23 +440,6 @@ class AioSandboxProvider(SandboxProvider):
else:
return self._acquire_internal(thread_id)
async def acquire_async(self, thread_id: str | None = None) -> str:
"""Acquire a sandbox environment without blocking the event loop.
Mirrors ``acquire()`` while keeping blocking backend operations off the
event loop and using async-native readiness polling for newly created
sandboxes.
"""
if thread_id:
thread_lock = self._get_thread_lock(thread_id)
await _acquire_thread_lock_async(thread_lock)
try:
return await self._acquire_internal_async(thread_id)
finally:
thread_lock.release()
return await self._acquire_internal_async(thread_id)
def _acquire_internal(self, thread_id: str | None) -> str:
"""Internal sandbox acquisition with two-layer consistency.
@@ -594,17 +448,33 @@ class AioSandboxProvider(SandboxProvider):
sandbox_id is deterministic from thread_id so no shared state file
is needed any process can derive the same container name)
"""
cached_id = self._reuse_in_process_sandbox(thread_id)
if cached_id is not None:
return cached_id
# ── Layer 1: In-process cache (fast path) ──
if thread_id:
with self._lock:
if thread_id in self._thread_sandboxes:
existing_id = self._thread_sandboxes[thread_id]
if existing_id in self._sandboxes:
logger.info(f"Reusing in-process sandbox {existing_id} for thread {thread_id}")
self._last_activity[existing_id] = time.time()
return existing_id
else:
del self._thread_sandboxes[thread_id]
# Deterministic ID for thread-specific, random for anonymous
sandbox_id = self._sandbox_id_for_thread(thread_id)
sandbox_id = self._deterministic_sandbox_id(thread_id) if thread_id else str(uuid.uuid4())[:8]
# ── Layer 1.5: Warm pool (container still running, no cold-start) ──
reclaimed_id = self._reclaim_warm_pool_sandbox(thread_id, sandbox_id)
if reclaimed_id is not None:
return reclaimed_id
if thread_id:
with self._lock:
if sandbox_id in self._warm_pool:
info, _ = self._warm_pool.pop(sandbox_id)
sandbox = AioSandbox(id=sandbox_id, base_url=info.sandbox_url)
self._sandboxes[sandbox_id] = sandbox
self._sandbox_infos[sandbox_id] = info
self._last_activity[sandbox_id] = time.time()
self._thread_sandboxes[thread_id] = sandbox_id
logger.info(f"Reclaimed warm-pool sandbox {sandbox_id} for thread {thread_id} at {info.sandbox_url}")
return sandbox_id
# ── Layer 2: Backend discovery + create (protected by cross-process lock) ──
# Use a file lock so that two processes racing to create the same sandbox
@@ -615,26 +485,6 @@ class AioSandboxProvider(SandboxProvider):
return self._create_sandbox(thread_id, sandbox_id)
async def _acquire_internal_async(self, thread_id: str | None) -> str:
"""Async counterpart to ``_acquire_internal``."""
cached_id = self._reuse_in_process_sandbox(thread_id)
if cached_id is not None:
return cached_id
# Deterministic ID for thread-specific, random for anonymous
sandbox_id = self._sandbox_id_for_thread(thread_id)
# ── Layer 1.5: Warm pool (container still running, no cold-start) ──
reclaimed_id = self._reclaim_warm_pool_sandbox(thread_id, sandbox_id)
if reclaimed_id is not None:
return reclaimed_id
# ── Layer 2: Backend discovery + create (protected by cross-process lock) ──
if thread_id:
return await self._discover_or_create_with_lock_async(thread_id, sandbox_id)
return await self._create_sandbox_async(thread_id, sandbox_id)
def _discover_or_create_with_lock(self, thread_id: str, sandbox_id: str) -> str:
"""Discover an existing sandbox or create a new one under a cross-process file lock.
@@ -653,50 +503,40 @@ class AioSandboxProvider(SandboxProvider):
locked = True
# Re-check in-process caches under the file lock in case another
# thread in this process won the race while we were waiting.
cached_id = self._recheck_cached_sandbox(thread_id, sandbox_id)
if cached_id is not None:
return cached_id
with self._lock:
if thread_id in self._thread_sandboxes:
existing_id = self._thread_sandboxes[thread_id]
if existing_id in self._sandboxes:
logger.info(f"Reusing in-process sandbox {existing_id} for thread {thread_id} (post-lock check)")
self._last_activity[existing_id] = time.time()
return existing_id
if sandbox_id in self._warm_pool:
info, _ = self._warm_pool.pop(sandbox_id)
sandbox = AioSandbox(id=sandbox_id, base_url=info.sandbox_url)
self._sandboxes[sandbox_id] = sandbox
self._sandbox_infos[sandbox_id] = info
self._last_activity[sandbox_id] = time.time()
self._thread_sandboxes[thread_id] = sandbox_id
logger.info(f"Reclaimed warm-pool sandbox {sandbox_id} for thread {thread_id} (post-lock check)")
return sandbox_id
# Backend discovery: another process may have created the container.
discovered = self._backend.discover(sandbox_id)
if discovered is not None:
return self._register_discovered_sandbox(thread_id, discovered)
sandbox = AioSandbox(id=discovered.sandbox_id, base_url=discovered.sandbox_url)
with self._lock:
self._sandboxes[discovered.sandbox_id] = sandbox
self._sandbox_infos[discovered.sandbox_id] = discovered
self._last_activity[discovered.sandbox_id] = time.time()
self._thread_sandboxes[thread_id] = discovered.sandbox_id
logger.info(f"Discovered existing sandbox {discovered.sandbox_id} for thread {thread_id} at {discovered.sandbox_url}")
return discovered.sandbox_id
return self._create_sandbox(thread_id, sandbox_id)
finally:
if locked:
_unlock_file(lock_file)
async def _discover_or_create_with_lock_async(self, thread_id: str, sandbox_id: str) -> str:
"""Async counterpart to ``_discover_or_create_with_lock``."""
paths = get_paths()
user_id = get_effective_user_id()
await asyncio.to_thread(paths.ensure_thread_dirs, thread_id, user_id=user_id)
lock_path = paths.thread_dir(thread_id, user_id=user_id) / f"{sandbox_id}.lock"
lock_file = await asyncio.to_thread(_open_lock_file, lock_path)
locked = False
try:
await asyncio.to_thread(_lock_file_exclusive, lock_file)
locked = True
# Re-check in-process caches under the file lock in case another
# thread in this process won the race while we were waiting.
cached_id = self._recheck_cached_sandbox(thread_id, sandbox_id)
if cached_id is not None:
return cached_id
# Backend discovery is sync because local discovery may inspect
# Docker and perform a health check; keep it off the event loop.
discovered = await asyncio.to_thread(self._backend.discover, sandbox_id)
if discovered is not None:
return self._register_discovered_sandbox(thread_id, discovered)
return await self._create_sandbox_async(thread_id, sandbox_id)
finally:
if locked:
await asyncio.to_thread(_unlock_file, lock_file)
await asyncio.to_thread(lock_file.close)
def _evict_oldest_warm(self) -> str | None:
"""Destroy the oldest container in the warm pool to free capacity.
@@ -734,10 +574,18 @@ class AioSandboxProvider(SandboxProvider):
# Enforce replicas: only warm-pool containers count toward eviction budget.
# Active sandboxes are in use by live threads and must not be forcibly stopped.
replicas, total = self._replica_count()
replicas = self._config.get("replicas", DEFAULT_REPLICAS)
with self._lock:
total = len(self._sandboxes) + len(self._warm_pool)
if total >= replicas:
evicted = self._evict_oldest_warm()
self._log_replicas_soft_cap(replicas, sandbox_id, evicted)
if evicted:
logger.info(f"Evicted warm-pool sandbox {evicted} to stay within replicas={replicas}")
else:
# All slots are occupied by active sandboxes — proceed anyway and log.
# The replicas limit is a soft cap; we never forcibly stop a container
# that is actively serving a thread.
logger.warning(f"All {replicas} replica slots are in active use; creating sandbox {sandbox_id} beyond the soft limit")
info = self._backend.create(thread_id, sandbox_id, extra_mounts=extra_mounts or None)
@@ -746,27 +594,16 @@ class AioSandboxProvider(SandboxProvider):
self._backend.destroy(info)
raise RuntimeError(f"Sandbox {sandbox_id} failed to become ready within timeout at {info.sandbox_url}")
return self._register_created_sandbox(thread_id, sandbox_id, info)
sandbox = AioSandbox(id=sandbox_id, base_url=info.sandbox_url)
with self._lock:
self._sandboxes[sandbox_id] = sandbox
self._sandbox_infos[sandbox_id] = info
self._last_activity[sandbox_id] = time.time()
if thread_id:
self._thread_sandboxes[thread_id] = sandbox_id
async def _create_sandbox_async(self, thread_id: str | None, sandbox_id: str) -> str:
"""Async counterpart to ``_create_sandbox``."""
extra_mounts = await asyncio.to_thread(self._get_extra_mounts, thread_id)
# Enforce replicas: only warm-pool containers count toward eviction budget.
# Active sandboxes are in use by live threads and must not be forcibly stopped.
replicas, total = self._replica_count()
if total >= replicas:
evicted = await asyncio.to_thread(self._evict_oldest_warm)
self._log_replicas_soft_cap(replicas, sandbox_id, evicted)
info = await asyncio.to_thread(self._backend.create, thread_id, sandbox_id, extra_mounts=extra_mounts or None)
# Wait for sandbox to be ready without blocking the event loop.
if not await wait_for_sandbox_ready_async(info.sandbox_url, timeout=60):
await asyncio.to_thread(self._backend.destroy, info)
raise RuntimeError(f"Sandbox {sandbox_id} failed to become ready within timeout at {info.sandbox_url}")
return self._register_created_sandbox(thread_id, sandbox_id, info)
logger.info(f"Created sandbox {sandbox_id} for thread {thread_id} at {info.sandbox_url}")
return sandbox_id
def get(self, sandbox_id: str) -> Sandbox | None:
"""Get a sandbox by ID. Updates last activity timestamp.
@@ -790,20 +627,14 @@ class AioSandboxProvider(SandboxProvider):
thread on its next turn without a cold-start. The container will only be
stopped when the replicas limit forces eviction or during shutdown.
The host-side HTTP client owned by the cached ``AioSandbox`` instance is
closed before the instance is dropped (#2872). The warm-pool entry only
stores ``SandboxInfo``, so a fresh ``AioSandbox`` (and a fresh client)
is constructed if the container is later reclaimed.
Args:
sandbox_id: The ID of the sandbox to release.
"""
info = None
sandbox = None
thread_ids_to_remove: list[str] = []
with self._lock:
sandbox = self._sandboxes.pop(sandbox_id, None)
self._sandboxes.pop(sandbox_id, None)
info = self._sandbox_infos.pop(sandbox_id, None)
thread_ids_to_remove = [tid for tid, sid in self._thread_sandboxes.items() if sid == sandbox_id]
for tid in thread_ids_to_remove:
@@ -813,15 +644,6 @@ class AioSandboxProvider(SandboxProvider):
if info and sandbox_id not in self._warm_pool:
self._warm_pool[sandbox_id] = (info, time.time())
if sandbox is not None:
# Defense-in-depth: close() already swallows its own errors; this
# guard only protects against a future close() that misbehaves, so
# host-side client cleanup can never block parking in the warm pool.
try:
sandbox.close()
except Exception as e:
logger.warning(f"Error closing sandbox {sandbox_id} during release: {e}")
logger.info(f"Released sandbox {sandbox_id} to warm pool (container still running)")
def destroy(self, sandbox_id: str) -> None:
@@ -830,19 +652,14 @@ class AioSandboxProvider(SandboxProvider):
Unlike release(), this actually stops the container. Use this for
explicit cleanup, capacity-driven eviction, or shutdown.
The host-side HTTP client owned by the cached ``AioSandbox`` instance is
closed alongside backend/container destruction so no client/socket
resources leak (#2872).
Args:
sandbox_id: The ID of the sandbox to destroy.
"""
info = None
sandbox = None
thread_ids_to_remove: list[str] = []
with self._lock:
sandbox = self._sandboxes.pop(sandbox_id, None)
self._sandboxes.pop(sandbox_id, None)
info = self._sandbox_infos.pop(sandbox_id, None)
thread_ids_to_remove = [tid for tid, sid in self._thread_sandboxes.items() if sid == sandbox_id]
for tid in thread_ids_to_remove:
@@ -854,15 +671,6 @@ class AioSandboxProvider(SandboxProvider):
else:
self._warm_pool.pop(sandbox_id, None)
if sandbox is not None:
# Defense-in-depth: close() already swallows its own errors; this
# guard only protects against a future close() that misbehaves, so
# host-side client cleanup can never block container destruction.
try:
sandbox.close()
except Exception as e:
logger.warning(f"Error closing sandbox {sandbox_id} during destroy: {e}")
if info:
self._backend.destroy(info)
logger.info(f"Destroyed sandbox {sandbox_id}")
backend/packages/harness/deerflow/community/aio_sandbox/backend.py
+1 -31
View File
@@ -2,12 +2,10 @@
from __future__ import annotations
import asyncio
import logging
import time
from abc import ABC, abstractmethod
import httpx
import requests
from .sandbox_info import SandboxInfo
@@ -37,34 +35,6 @@ def wait_for_sandbox_ready(sandbox_url: str, timeout: int = 30) -> bool:
return False
async def wait_for_sandbox_ready_async(sandbox_url: str, timeout: int = 30, poll_interval: float = 1.0) -> bool:
"""Async variant of sandbox readiness polling.
Use this from async runtime paths so sandbox startup waits do not block the
event loop. The synchronous ``wait_for_sandbox_ready`` function remains for
existing synchronous backend/provider call sites.
"""
loop = asyncio.get_running_loop()
deadline = loop.time() + timeout
async with httpx.AsyncClient(timeout=5) as client:
while True:
remaining = deadline - loop.time()
if remaining <= 0:
break
try:
response = await client.get(f"{sandbox_url}/v1/sandbox", timeout=min(5.0, remaining))
if response.status_code == 200:
return True
except httpx.RequestError:
pass
remaining = deadline - loop.time()
if remaining <= 0:
break
await asyncio.sleep(min(poll_interval, remaining))
return False
class SandboxBackend(ABC):
"""Abstract base for sandbox provisioning backends.
@@ -74,7 +44,7 @@ class SandboxBackend(ABC):
"""
@abstractmethod
def create(self, thread_id: str | None, sandbox_id: str, extra_mounts: list[tuple[str, str, bool]] | None = None) -> SandboxInfo:
def create(self, thread_id: str, sandbox_id: str, extra_mounts: list[tuple[str, str, bool]] | None = None) -> SandboxInfo:
"""Create/provision a new sandbox.
Args:
backend/packages/harness/deerflow/community/aio_sandbox/local_backend.py
+1 -1
View File
@@ -241,7 +241,7 @@ class LocalContainerBackend(SandboxBackend):
# ── SandboxBackend interface ──────────────────────────────────────────
def create(self, thread_id: str | None, sandbox_id: str, extra_mounts: list[tuple[str, str, bool]] | None = None) -> SandboxInfo:
def create(self, thread_id: str, sandbox_id: str, extra_mounts: list[tuple[str, str, bool]] | None = None) -> SandboxInfo:
"""Start a new container and return its connection info.
Args:
backend/packages/harness/deerflow/community/aio_sandbox/remote_backend.py
+2 -5
View File
@@ -21,8 +21,6 @@ import logging
import requests
from deerflow.runtime.user_context import get_effective_user_id
from .backend import SandboxBackend
from .sandbox_info import SandboxInfo
@@ -59,7 +57,7 @@ class RemoteSandboxBackend(SandboxBackend):
def create(
self,
thread_id: str | None,
thread_id: str,
sandbox_id: str,
extra_mounts: list[tuple[str, str, bool]] | None = None,
) -> SandboxInfo:
@@ -132,7 +130,7 @@ class RemoteSandboxBackend(SandboxBackend):
logger.warning("Provisioner list_running failed: %s", exc)
return []
def _provisioner_create(self, thread_id: str | None, sandbox_id: str, extra_mounts: list[tuple[str, str, bool]] | None = None) -> SandboxInfo:
def _provisioner_create(self, thread_id: str, sandbox_id: str, extra_mounts: list[tuple[str, str, bool]] | None = None) -> SandboxInfo:
"""POST /api/sandboxes → create Pod + Service."""
try:
resp = requests.post(
@@ -140,7 +138,6 @@ class RemoteSandboxBackend(SandboxBackend):
json={
"sandbox_id": sandbox_id,
"thread_id": thread_id,
"user_id": get_effective_user_id(),
},
timeout=30,
)
backend/packages/harness/deerflow/config/app_config.py
+6 -46
View File
@@ -18,10 +18,8 @@ from deerflow.config.guardrails_config import GuardrailsConfig, load_guardrails_
from deerflow.config.loop_detection_config import LoopDetectionConfig
from deerflow.config.memory_config import MemoryConfig, load_memory_config_from_dict
from deerflow.config.model_config import ModelConfig
from deerflow.config.reload_boundary import format_field_description
from deerflow.config.run_events_config import RunEventsConfig
from deerflow.config.runtime_paths import existing_project_file
from deerflow.config.safety_finish_reason_config import SafetyFinishReasonConfig
from deerflow.config.sandbox_config import SandboxConfig
from deerflow.config.skill_evolution_config import SkillEvolutionConfig
from deerflow.config.skills_config import SkillsConfig
@@ -31,7 +29,6 @@ from deerflow.config.summarization_config import SummarizationConfig, load_summa
from deerflow.config.title_config import TitleConfig, load_title_config_from_dict
from deerflow.config.token_usage_config import TokenUsageConfig
from deerflow.config.tool_config import ToolConfig, ToolGroupConfig
from deerflow.config.tool_output_config import ToolOutputConfig
from deerflow.config.tool_search_config import ToolSearchConfig, load_tool_search_config_from_dict
load_dotenv()
@@ -86,27 +83,15 @@ def apply_logging_level(name: str | None) -> None:
class AppConfig(BaseModel):
"""Config for the DeerFlow application"""
log_level: str = Field(
default="info",
description=format_field_description(
"log_level",
field_doc="Logging level for deerflow and app modules (debug/info/warning/error); third-party libraries are not affected.",
),
)
log_level: str = Field(default="info", description="Logging level for deerflow and app modules (debug/info/warning/error); third-party libraries are not affected")
token_usage: TokenUsageConfig = Field(default_factory=TokenUsageConfig, description="Token usage tracking configuration")
models: list[ModelConfig] = Field(default_factory=list, description="Available models")
sandbox: SandboxConfig = Field(
description=format_field_description(
"sandbox",
field_doc="Sandbox provider configuration (local filesystem or Docker-based aio sandbox).",
),
)
sandbox: SandboxConfig = Field(description="Sandbox configuration")
tools: list[ToolConfig] = Field(default_factory=list, description="Available tools")
tool_groups: list[ToolGroupConfig] = Field(default_factory=list, description="Available tool groups")
skills: SkillsConfig = Field(default_factory=SkillsConfig, description="Skills configuration")
skill_evolution: SkillEvolutionConfig = Field(default_factory=SkillEvolutionConfig, description="Agent-managed skill evolution configuration")
extensions: ExtensionsConfig = Field(default_factory=ExtensionsConfig, description="Extensions configuration (MCP servers and skills state)")
tool_output: ToolOutputConfig = Field(default_factory=ToolOutputConfig, description="Tool output budget protection configuration")
tool_search: ToolSearchConfig = Field(default_factory=ToolSearchConfig, description="Tool search / deferred loading configuration")
title: TitleConfig = Field(default_factory=TitleConfig, description="Automatic title generation configuration")
summarization: SummarizationConfig = Field(default_factory=SummarizationConfig, description="Conversation summarization configuration")
@@ -117,36 +102,11 @@ class AppConfig(BaseModel):
guardrails: GuardrailsConfig = Field(default_factory=GuardrailsConfig, description="Guardrail middleware configuration")
circuit_breaker: CircuitBreakerConfig = Field(default_factory=CircuitBreakerConfig, description="LLM circuit breaker configuration")
loop_detection: LoopDetectionConfig = Field(default_factory=LoopDetectionConfig, description="Loop detection middleware configuration")
safety_finish_reason: SafetyFinishReasonConfig = Field(default_factory=SafetyFinishReasonConfig, description="Provider safety-filter finish_reason interception middleware configuration")
model_config = ConfigDict(extra="allow")
database: DatabaseConfig = Field(
default_factory=DatabaseConfig,
description=format_field_description(
"database",
field_doc="Unified database backend for run/feedback metadata (memory, sqlite, or postgres).",
),
)
run_events: RunEventsConfig = Field(
default_factory=RunEventsConfig,
description=format_field_description(
"run_events",
field_doc="Run-event store backend (memory for dev, db for production queries, jsonl for lightweight single-node persistence).",
),
)
checkpointer: CheckpointerConfig | None = Field(
default=None,
description=format_field_description(
"checkpointer",
field_doc="LangGraph state-persistence checkpointer configuration.",
),
)
stream_bridge: StreamBridgeConfig | None = Field(
default=None,
description=format_field_description(
"stream_bridge",
field_doc="Stream bridge connecting agent workers to SSE endpoints.",
),
)
database: DatabaseConfig = Field(default_factory=DatabaseConfig, description="Unified database backend configuration")
run_events: RunEventsConfig = Field(default_factory=RunEventsConfig, description="Run event storage configuration")
checkpointer: CheckpointerConfig | None = Field(default=None, description="Checkpointer configuration")
stream_bridge: StreamBridgeConfig | None = Field(default=None, description="Stream bridge configuration")
@classmethod
def resolve_config_path(cls, config_path: str | None = None) -> Path:
backend/packages/harness/deerflow/config/extensions_config.py
+20 -41
View File
@@ -5,7 +5,7 @@ import os
from pathlib import Path
from typing import Any, Literal
from pydantic import BaseModel, ConfigDict, Field, model_validator
from pydantic import BaseModel, ConfigDict, Field
from deerflow.config.runtime_paths import existing_project_file
@@ -47,24 +47,6 @@ class McpServerConfig(BaseModel):
description: str = Field(default="", description="Human-readable description of what this MCP server provides")
model_config = ConfigDict(extra="allow")
@model_validator(mode="before")
@classmethod
def _accept_transport_alias(cls, data: Any) -> Any:
"""Accept the MCP-spec ``transport`` field as an alias for ``type``.
The official MCP configuration schema uses ``transport`` to indicate
the transport mechanism (``stdio``/``sse``/``http``). Earlier versions
of this project only honored ``type``, which caused remote SSE/HTTP
servers configured with just ``transport`` to be incorrectly treated as
``stdio`` (the default). This validator normalizes the two so either
spelling works, with ``type`` taking precedence when both are provided.
"""
if isinstance(data, dict):
transport = data.get("transport")
if transport and not data.get("type"):
data = {**data, "type": transport}
return data
class SkillStateConfig(BaseModel):
"""Configuration for a single skill's state."""
@@ -159,7 +141,7 @@ class ExtensionsConfig(BaseModel):
try:
with open(resolved_path, encoding="utf-8") as f:
config_data = json.load(f)
config_data = cls.resolve_env_variables(config_data)
cls.resolve_env_variables(config_data)
return cls.model_validate(config_data)
except json.JSONDecodeError as e:
raise ValueError(f"Extensions config file at {resolved_path} is not valid JSON: {e}") from e
@@ -167,7 +149,7 @@ class ExtensionsConfig(BaseModel):
raise RuntimeError(f"Failed to load extensions config from {resolved_path}: {e}") from e
@classmethod
def resolve_env_variables(cls, config: Any) -> Any:
def resolve_env_variables(cls, config: dict[str, Any]) -> dict[str, Any]:
"""Recursively resolve environment variables in the config.
Environment variables are resolved using the `os.getenv` function. Example: $OPENAI_API_KEY
@@ -178,26 +160,23 @@ class ExtensionsConfig(BaseModel):
Returns:
The config with environment variables resolved.
"""
if isinstance(config, str):
if not config.startswith("$"):
return config
env_value = os.getenv(config[1:])
if env_value is None:
# Unresolved placeholder — store empty string so downstream
# consumers (e.g. MCP servers) don't receive the literal "$VAR"
# token as an actual environment value.
return ""
return env_value
if isinstance(config, dict):
return {key: cls.resolve_env_variables(value) for key, value in config.items()}
if isinstance(config, list):
return [cls.resolve_env_variables(item) for item in config]
if isinstance(config, tuple):
return tuple(cls.resolve_env_variables(item) for item in config)
for key, value in config.items():
if isinstance(value, str):
if value.startswith("$"):
env_value = os.getenv(value[1:])
if env_value is None:
# Unresolved placeholder — store empty string so downstream
# consumers (e.g. MCP servers) don't receive the literal "$VAR"
# token as an actual environment value.
config[key] = ""
else:
config[key] = env_value
else:
config[key] = value
elif isinstance(value, dict):
config[key] = cls.resolve_env_variables(value)
elif isinstance(value, list):
config[key] = [cls.resolve_env_variables(item) if isinstance(item, dict) else item for item in value]
return config
def get_enabled_mcp_servers(self) -> dict[str, McpServerConfig]:
backend/packages/harness/deerflow/config/model_config.py
-10
View File
@@ -32,16 +32,6 @@ class ModelConfig(BaseModel):
description="Extra settings to be passed to the model when thinking is disabled",
)
supports_vision: bool = Field(default_factory=lambda: False, description="Whether the model supports vision/image inputs")
stream_chunk_timeout: float | None = Field(
default=None,
description=(
"Maximum seconds to wait between successive streaming chunks before "
"langchain-openai raises StreamChunkTimeoutError. None means use the "
"factory default (240s for OpenAI-compatible clients). Tune higher for "
"reasoning models with long thinking pauses; lower for latency-sensitive "
"interactive endpoints. Has no effect on non-OpenAI-compatible providers."
),
)
thinking: dict | None = Field(
default_factory=lambda: None,
description=(
backend/packages/harness/deerflow/config/paths.py
-20
View File
@@ -1,4 +1,3 @@
import hashlib
import os
import re
import shutil
@@ -11,8 +10,6 @@ VIRTUAL_PATH_PREFIX = "/mnt/user-data"
_SAFE_THREAD_ID_RE = re.compile(r"^[A-Za-z0-9_\-]+$")
_SAFE_USER_ID_RE = re.compile(r"^[A-Za-z0-9_\-]+$")
_UNSAFE_USER_ID_CHAR_RE = re.compile(r"[^A-Za-z0-9_\-]")
_SAFE_USER_ID_DIGEST_HEX_LEN = 16
def _default_local_base_dir() -> Path:
@@ -34,23 +31,6 @@ def _validate_user_id(user_id: str) -> str:
return user_id
def make_safe_user_id(raw: str) -> str:
"""Normalize an external identity into the user-id charset (``[A-Za-z0-9_-]``).
IM channel ids (Feishu/Slack/Telegram) may contain characters that
:func:`_validate_user_id` rejects. Already-safe ids pass through unchanged;
lossy ones get a short digest suffix so two distinct inputs never share a
storage bucket.
"""
if not raw:
raise ValueError("user_id must be a non-empty string.")
sanitized = _UNSAFE_USER_ID_CHAR_RE.sub("-", raw)
if sanitized == raw:
return raw
digest = hashlib.sha1(raw.encode("utf-8")).hexdigest()[:_SAFE_USER_ID_DIGEST_HEX_LEN]
return f"{sanitized}-{digest}"
def _join_host_path(base: str, *parts: str) -> str:
"""Join host filesystem path segments while preserving native style.
backend/packages/harness/deerflow/config/reload_boundary.py
-104
View File
@@ -1,104 +0,0 @@
"""Single source of truth for the config hot-reload boundary.
Bytedance/deer-flow issue #3144: gateway request dependencies resolve
``AppConfig`` through ``get_app_config()`` on every request, so per-run
fields take effect on the next message without restarting the gateway.
The fields listed in this module are the **infrastructure** subset that
the gateway captures once at startup engines, singletons, IM clients,
the logging handler and that therefore require a process restart to
change at runtime.
The registry covers two kinds of entries:
- Top-level ``AppConfig`` fields (``database``, ``checkpointer``,
``run_events``, ``stream_bridge``, ``sandbox``, ``log_level``). For
these, :func:`format_field_description` produces the standardised
``"startup-only: ..."`` prefix that the matching Pydantic
``Field(description=...)`` carries, so the boundary surfaces in IDE
hover next to the field itself.
- Top-level ``config.yaml`` sections that are not part of the
``AppConfig`` schema (``channels``). These cannot be standardised at
the schema level, so the registry is their only canonical location.
Any future "needs restart" scanner operator tooling, lint hooks, doc
generators should drive off this registry rather than re-parsing
prose.
"""
from __future__ import annotations
from collections.abc import Iterator
#: The standardised prefix every restart-required field description starts
#: with. ``test_reload_boundary`` enforces both directions: registered
#: fields must use this prefix in the schema, and any schema field using
#: this prefix must be in the registry.
STARTUP_ONLY_PREFIX = "startup-only:"
#: Restart-required field paths mapped to the human-readable reason.
#:
#: The reason text is what surfaces in ``Field(description=...)``, so it
#: must explain *what* code captures the snapshot — not just that the
#: field is restart-required — so an operator changing the value knows
#: which subsystem to restart.
STARTUP_ONLY_FIELDS: dict[str, str] = {
"database": ("init_engine_from_config() runs once during langgraph_runtime() startup; the SQLAlchemy engine holds the connection pool and is not rebuilt on config.yaml edits."),
"checkpointer": ("make_checkpointer() binds the persistent checkpointer once at startup, including SQLite WAL / busy_timeout settings."),
"run_events": ("make_run_event_store() picks the memory- vs SQL-backed implementation at startup and is frozen onto app.state.run_events_config to stay paired with the underlying event store."),
"stream_bridge": ("make_stream_bridge() constructs the stream-bridge singleton once during startup."),
"sandbox": ("get_sandbox_provider() caches the provider singleton (``_default_sandbox_provider``); a different ``sandbox.use`` class path only takes effect on next process start."),
"log_level": (
"apply_logging_level() runs only during app.py startup; it sets the deerflow/app logger levels and may lower root handler thresholds so configured messages can propagate. A freshly reloaded AppConfig does not retrigger it."
),
# Not part of the AppConfig Pydantic schema — channel credentials are
# consumed directly by ``start_channel_service()`` once at lifespan
# startup and the live channel clients are not rebuilt on
# config.yaml edits.
"channels": ("start_channel_service() is invoked once during startup; the live IM channel clients (Feishu, Slack, Telegram, DingTalk) are not rebuilt when channels.* changes."),
}
def iter_startup_only_field_paths() -> Iterator[str]:
"""Yield every registered restart-required field path."""
return iter(STARTUP_ONLY_FIELDS)
def is_startup_only_field(field_path: str) -> bool:
"""Return ``True`` when *field_path* is registered as restart-required.
Accepts only top-level paths (``"database"``, ``"sandbox"`` etc.);
nested keys like ``"database.url"`` are not modelled here because the
boundary is per-section, not per-leaf.
"""
return field_path in STARTUP_ONLY_FIELDS
def format_field_description(field_path: str, *, field_doc: str | None = None) -> str:
"""Build the standardised description for a registered field.
Used inside ``AppConfig`` ``Field(description=...)`` so the hover
text in IDEs matches the registry and the drift tests can pin one
side against the other.
Args:
field_path: A registered top-level field path (e.g. ``"log_level"``).
field_doc: Optional human-facing description for the field itself
(allowed values, semantics, etc.). When supplied, it is
appended after the ``startup-only:`` marker block separated by
a blank line so IDE hover shows both the restart-required
reason *and* the field's normal documentation. Composition
keeps the marker as the leading token machine-readable tooling
pivots on while restoring the prose that ``Field(description=)``
used to carry before the registry took over.
Raises:
KeyError: when *field_path* is not registered. This is deliberate
silently returning a placeholder would let a typo bypass
the drift coverage.
"""
reason = STARTUP_ONLY_FIELDS[field_path]
header = f"{STARTUP_ONLY_PREFIX} {reason}"
if field_doc is None:
return header
return f"{header}\n\n{field_doc.strip()}"
backend/packages/harness/deerflow/config/safety_finish_reason_config.py
-47
View File
@@ -1,47 +0,0 @@
"""Configuration for SafetyFinishReasonMiddleware.
Mirrors the shape of GuardrailsConfig: detectors are loaded by class path
through ``deerflow.reflection.resolve_variable`` (same loader the
``guardrails.provider`` config uses) so users can drop in custom provider
detectors without modifying core code.
"""
from __future__ import annotations
from pydantic import BaseModel, Field
class SafetyDetectorConfig(BaseModel):
"""One detector entry under ``safety_finish_reason.detectors``."""
use: str = Field(
description=("Class path of a SafetyTerminationDetector implementation (e.g. 'deerflow.agents.middlewares.safety_termination_detectors:OpenAICompatibleContentFilterDetector')."),
)
config: dict = Field(
default_factory=dict,
description="Constructor kwargs passed to the detector class.",
)
class SafetyFinishReasonConfig(BaseModel):
"""Configuration for the SafetyFinishReasonMiddleware.
The middleware intercepts AIMessages where the provider signaled a
safety-related termination (e.g. OpenAI ``finish_reason='content_filter'``)
while still returning tool calls, and suppresses those tool calls so the
half-truncated arguments never execute.
"""
enabled: bool = Field(
default=True,
description="Master switch for the SafetyFinishReasonMiddleware.",
)
detectors: list[SafetyDetectorConfig] | None = Field(
default=None,
description=(
"Custom detector list. Leave unset (None) to use the built-in "
"set covering OpenAI-compatible content_filter, Anthropic "
"refusal, and Gemini SAFETY/BLOCKLIST/PROHIBITED_CONTENT/SPII/"
"RECITATION. Provide a non-null list to fully override."
),
)
backend/packages/harness/deerflow/config/title_config.py
-13
View File
@@ -51,16 +51,3 @@ def load_title_config_from_dict(config_dict: dict) -> None:
"""Load title configuration from a dictionary."""
global _title_config
_title_config = TitleConfig(**config_dict)
def reset_title_config() -> None:
"""Restore the title configuration to its pristine ``TitleConfig()`` default.
Public API so that tests do not have to reach into the private
``_title_config`` module attribute. ``AppConfig.from_file()`` calls
:func:`load_title_config_from_dict`, which permanently mutates the
singleton; tests that need a clean slate between cases should call
this between tests.
"""
global _title_config
_title_config = TitleConfig()
backend/packages/harness/deerflow/config/tool_output_config.py
-62
View File
@@ -1,62 +0,0 @@
"""Configuration for tool output budget protection."""
from __future__ import annotations
from pydantic import BaseModel, Field
class ToolOutputConfig(BaseModel):
"""Config section for tool-result output budget enforcement.
When a tool returns more than ``externalize_min_chars`` characters,
the full output is persisted to disk and replaced with a compact
preview + file reference. If disk persistence is unavailable the
output falls back to head+tail truncation.
"""
enabled: bool = Field(
default=True,
description="Enable the tool output budget middleware.",
)
externalize_min_chars: int = Field(
default=12_000,
ge=0,
description="Character threshold to trigger disk externalization. Outputs below this pass through unchanged. Set to 0 to disable externalization (fallback truncation still applies when output exceeds fallback_max_chars).",
)
preview_head_chars: int = Field(
default=2_000,
ge=0,
description="Characters to keep from the head of the output in the preview.",
)
preview_tail_chars: int = Field(
default=1_000,
ge=0,
description="Characters to keep from the tail of the output in the preview.",
)
fallback_max_chars: int = Field(
default=30_000,
ge=0,
description="Maximum characters when disk persistence is unavailable. 0 disables fallback truncation.",
)
fallback_head_chars: int = Field(
default=8_000,
ge=0,
description="Head characters for fallback truncation.",
)
fallback_tail_chars: int = Field(
default=3_000,
ge=0,
description="Tail characters for fallback truncation.",
)
storage_subdir: str = Field(
default=".tool-results",
description="Subdirectory under the thread outputs path for persisted tool results.",
)
exempt_tools: list[str] = Field(
default_factory=lambda: ["read_file", "read_file_tool"],
description="Tool names exempt from budget enforcement (prevents persist→read→persist loops).",
)
tool_overrides: dict[str, int] = Field(
default_factory=dict,
description="Per-tool externalize_min_chars overrides. Keys are tool names, values are char thresholds. Use 0 to disable externalization for a specific tool.",
)
backend/packages/harness/deerflow/config/tracing_config.py
-12
View File
@@ -147,15 +147,3 @@ def validate_enabled_tracing_providers() -> None:
def is_tracing_enabled() -> bool:
"""Check if any tracing provider is enabled and fully configured."""
return get_tracing_config().is_configured
def reset_tracing_config() -> None:
"""Discard the cached :class:`TracingConfig` so the next call rebuilds it.
Public API so that tests do not have to reach into the private
``_tracing_config`` module attribute. A future internal rename would
silently break callers that mutate the attribute directly.
"""
global _tracing_config
with _config_lock:
_tracing_config = None
backend/packages/harness/deerflow/mcp/__init__.py
+1 -5
View File
@@ -1,10 +1,6 @@
"""MCP (Model Context Protocol) integration using langchain-mcp-adapters."""
from .cache import (
get_cached_mcp_tools,
initialize_mcp_tools,
reset_mcp_tools_cache,
)
from .cache import get_cached_mcp_tools, initialize_mcp_tools, reset_mcp_tools_cache
from .client import build_server_params, build_servers_config
from .tools import get_mcp_tools
backend/packages/harness/deerflow/mcp/cache.py
+2 -26
View File
@@ -87,7 +87,8 @@ def get_cached_mcp_tools() -> list[BaseTool]:
Also checks if the config file has been modified since last initialization,
and re-initializes if needed. This ensures that changes made through the
Gateway API are reflected in the Gateway-embedded LangGraph runtime.
Gateway API (which runs in a separate process) are reflected in the
LangGraph Server.
Returns:
List of cached MCP tools.
@@ -133,34 +134,9 @@ def reset_mcp_tools_cache() -> None:
"""Reset the MCP tools cache.
This is useful for testing or when you want to reload MCP tools.
Also closes all persistent MCP sessions so they are recreated on
the next tool load.
"""
global _mcp_tools_cache, _cache_initialized, _config_mtime
_mcp_tools_cache = None
_cache_initialized = False
_config_mtime = None
# Close persistent sessions they will be recreated by the next
# get_mcp_tools() call with the (possibly updated) connection config.
#
# close_all_sync() already picks the correct strategy per owning loop:
# * sessions owned by the *current* running loop are only *signalled*
# (their owner task runs __aexit__ once the loop regains control
# this is correct and leak-free, since the loop keeps the task alive),
# * sessions on other threads' loops are torn down deterministically,
# * idle/closed loops are handled or skipped.
# We deliberately do NOT try to synchronously wait for the current running
# loop to finish teardown here: that is a self-deadlock (the loop can only
# run the teardown after this synchronous call returns control to it).
try:
from deerflow.mcp.session_pool import get_session_pool
get_session_pool().close_all_sync()
except Exception:
logger.debug("Could not close MCP session pool on cache reset", exc_info=True)
from deerflow.mcp.session_pool import reset_session_pool
reset_session_pool()
logger.info("MCP tools cache reset")
backend/packages/harness/deerflow/mcp/session_pool.py
-455
View File
@@ -1,455 +0,0 @@
"""Persistent MCP session pool for stateful tool calls.
When MCP tools are loaded via langchain-mcp-adapters with ``session=None``,
each tool call creates a new MCP session. For stateful servers like Playwright,
this means browser state (opened pages, filled forms) is lost between calls.
This module provides a session pool that maintains persistent MCP sessions,
scoped by ``(server_name, scope_key)`` typically scope_key is the thread_id
so that consecutive tool calls share the same session and server-side state.
Sessions are evicted in LRU order when the pool reaches capacity.
Lifecycle model (owner task)
----------------------------
An MCP ``ClientSession`` is implemented on top of an ``anyio`` task group, and
anyio enforces that a cancel scope must be exited from the *same task* that
entered it. Calling ``cm.__aexit__`` from any task other than the one that ran
``cm.__aenter__`` raises::
RuntimeError: Attempted to exit cancel scope in a different task than it
was entered in
The sync-tool path (``make_sync_tool_wrapper``) drives each call through a fresh
``asyncio.run`` event loop, so a session entered while answering one call would
otherwise be exited while answering another from a different task and crash
(GitHub issue #3379).
To make this impossible, every pooled session is owned by a dedicated
``_run_session`` task. That task enters the context manager, hands the live
session back to the caller, and then *waits* on a close event. All shutdown
paths only ever **signal** that event; the owner task performs ``__aexit__``
itself, guaranteeing enter and exit always happen in the same task.
"""
from __future__ import annotations
import asyncio
import logging
import threading
from collections import OrderedDict
from typing import Any
from mcp import ClientSession
logger = logging.getLogger(__name__)
class MCPSessionPool:
"""Manages persistent MCP sessions scoped by ``(server_name, scope_key)``."""
MAX_SESSIONS = 256
SESSION_CLOSE_TIMEOUT = 5.0 # seconds to wait when closing a session on a foreign loop
def __init__(self) -> None:
# Each entry: (session, owning_loop, owner_task, close_event).
self._entries: OrderedDict[
tuple[str, str],
tuple[
ClientSession,
asyncio.AbstractEventLoop,
asyncio.Task[Any],
asyncio.Event,
],
] = OrderedDict()
# In-flight creations, keyed by (server, scope). Lets concurrent callers
# on the same loop share a single creation instead of each spawning a
# duplicate session. Value: (loop, ready_future, owner_task, close_event).
self._inflight: dict[
tuple[str, str],
tuple[
asyncio.AbstractEventLoop,
asyncio.Future[ClientSession],
asyncio.Task[Any],
asyncio.Event,
],
] = {}
# threading.Lock is not bound to any event loop, so it is safe to
# acquire from both async paths and sync/worker-thread paths.
self._lock = threading.Lock()
# ------------------------------------------------------------------
# Session owner task
# ------------------------------------------------------------------
async def _run_session(
self,
connection: dict[str, Any],
ready: asyncio.Future[ClientSession],
close_evt: asyncio.Event,
) -> None:
"""Own a single MCP session for its entire lifetime.
Enters the session context manager, initializes it, publishes the live
session via ``ready``, then blocks until ``close_evt`` is set. The
context manager is *always* exited from this task, satisfying anyio's
cancel-scope same-task requirement.
"""
from langchain_mcp_adapters.sessions import create_session
cm = create_session(connection)
try:
session = await cm.__aenter__()
except BaseException as e:
# Never entered the cancel scope, so there is nothing to exit.
if not ready.done():
ready.set_exception(e)
return
# The context manager is now entered. From here on __aexit__ MUST run in
# this task — on init failure, on cancellation, or on the close signal —
# to satisfy anyio's same-task cancel-scope requirement and to avoid
# leaking the session/subprocess.
try:
await session.initialize()
if not ready.done():
ready.set_result(session)
await close_evt.wait()
except BaseException as e:
if not ready.done():
ready.set_exception(e)
finally:
try:
await cm.__aexit__(None, None, None)
except Exception:
logger.warning("Error closing MCP session", exc_info=True)
async def get_session(
self,
server_name: str,
scope_key: str,
connection: dict[str, Any],
) -> ClientSession:
"""Get or create a persistent MCP session.
If an existing session was created in a different (or closed) event
loop, it is evicted and replaced with a fresh one owned by a task on
the current loop.
Args:
server_name: MCP server name.
scope_key: Isolation key (typically thread_id).
connection: Connection configuration for ``create_session``.
Returns:
An initialized ``ClientSession``.
"""
key = (server_name, scope_key)
current_loop = asyncio.get_running_loop()
# Phase 1: inspect/mutate the registry under the thread lock (no awaits).
# Decide one of three outcomes atomically: return an existing session,
# join an in-flight creation, or become the creator for this key.
# Each item: (loop, owner_task, close_event, cancel). ``cancel`` is True
# for in-flight creations, whose owner may be blocked inside
# ``initialize()`` where close_evt cannot wake it — it must be cancelled.
evicted: list[tuple[asyncio.AbstractEventLoop, asyncio.Task[Any], asyncio.Event, bool]] = []
join: asyncio.Future[ClientSession] | None = None
ready: asyncio.Future[ClientSession] | None = None
close_evt: asyncio.Event | None = None
task: asyncio.Task[Any] | None = None
with self._lock:
if key in self._entries:
session, loop, ent_task, ent_close = self._entries[key]
if loop is current_loop and not loop.is_closed():
self._entries.move_to_end(key)
return session
# Session belongs to a different/closed event loop evict it.
self._entries.pop(key)
evicted.append((loop, ent_task, ent_close, False))
inflight = self._inflight.get(key)
if inflight is not None and inflight[0] is current_loop and not inflight[0].is_closed():
# Another caller on this loop is already creating the session;
# wait for the same result instead of building a duplicate.
join = inflight[1]
else:
if inflight is not None:
# Stale in-flight creation owned by a different/closed loop.
# Drop the record and tear its owner down; because that owner
# may be blocked inside initialize() (where close_evt cannot
# wake it), it must be cancelled. We then create a fresh
# session here.
self._inflight.pop(key)
evicted.append((inflight[0], inflight[2], inflight[3], True))
# Become the creator: publish an in-flight record before any
# await so concurrent callers join us instead of racing.
ready = current_loop.create_future()
close_evt = asyncio.Event()
task = current_loop.create_task(self._run_session(connection, ready, close_evt))
self._inflight[key] = (current_loop, ready, task, close_evt)
# Evict LRU entries when at capacity.
while len(self._entries) >= self.MAX_SESSIONS:
oldest_key, (_, loop, ent_task, ent_close) = next(iter(self._entries.items()))
self._entries.pop(oldest_key)
evicted.append((loop, ent_task, ent_close, False))
# Phase 2: shut down evicted sessions/creations. Same-loop owners are
# awaited so they finish deterministically; foreign-loop owners are
# routed to their own loop. In every case the owner task — never this
# one — runs __aexit__. In-flight owners are cancelled (cancel=True) so a
# blocking initialize() cannot leave them hung.
for loop, ent_task, ent_close, cancel in evicted:
if loop is current_loop and not loop.is_closed():
await self._shutdown(ent_close, ent_task, cancel)
elif cancel:
await self._shutdown_entry(loop, ent_task, ent_close, cancel=True)
else:
self._signal_close(loop, ent_close)
# Phase 2b: a concurrent creation for this key is already in progress on
# this loop — share its result rather than create a duplicate session.
if join is not None:
return await asyncio.shield(join)
assert ready is not None and close_evt is not None and task is not None
# Phase 3: wait for our owner task to publish the initialized session.
try:
session = await asyncio.shield(ready)
except BaseException:
# Two distinct cases reach here:
#
# 1. The owner task failed (e.g. connect/initialize error) and
# reported it via ready.set_exception(). It is *already* in its
# finally block running cm.__aexit__ in its own task, so we must
# NOT cancel it — doing so would interrupt that cleanup. We only
# wait for it to finish unwinding.
# 2. This call itself was cancelled (CancelledError). Because of the
# shield, `ready` is still pending and the owner task is alive and
# blocked. We signal close and cancel it so it exits the cancel
# scope in its own task, then wait for it to finish.
#
# The session is never registered yet, so nobody else can close it;
# waiting here guarantees we never leak a session or owner task.
owner_already_failed = ready.done() and not ready.cancelled() and ready.exception() is not None
if not owner_already_failed:
close_evt.set()
task.cancel()
try:
await asyncio.shield(task)
except BaseException:
logger.debug("Owner task ended during get_session unwind", exc_info=True)
with self._lock:
if self._inflight.get(key) == (current_loop, ready, task, close_evt):
self._inflight.pop(key)
raise
# Phase 4: promote the in-flight creation to a registered entry — but
# only if our in-flight record is still the live one. A concurrent
# close_* / close_all may have removed it while we were initializing; in
# that case we must NOT resurrect the session into _entries. Instead we
# own the teardown: signal our owner task and wait for it to run
# __aexit__ in its own task, then surface the cancellation.
with self._lock:
still_ours = self._inflight.get(key) == (current_loop, ready, task, close_evt)
if still_ours:
self._inflight.pop(key)
self._entries[key] = (session, current_loop, task, close_evt)
if not still_ours:
await self._shutdown(close_evt, task)
raise asyncio.CancelledError("MCP session pool was closed while the session was being created")
logger.info("Created persistent MCP session for %s/%s", server_name, scope_key)
return session
# ------------------------------------------------------------------
# Cleanup helpers
# ------------------------------------------------------------------
@staticmethod
def _signal_close(loop: asyncio.AbstractEventLoop, close_evt: asyncio.Event) -> None:
"""Ask an owner task to shut down without waiting.
``asyncio.Event.set`` is not thread-safe, so it is scheduled on the
owning loop. A closed loop means the owner task is already gone.
"""
if loop.is_closed():
return
try:
loop.call_soon_threadsafe(close_evt.set)
except RuntimeError:
# Loop was closed between the is_closed() check and now.
pass
async def _shutdown(
self,
close_evt: asyncio.Event,
task: asyncio.Task[Any],
cancel: bool = False,
) -> None:
"""Signal an owner task and wait for it to finish (runs on its loop).
``cancel=True`` is used for in-flight creations: the owner task may be
blocked inside ``initialize()`` where ``close_evt`` cannot wake it, so it
must be cancelled. Its ``finally`` block still runs ``__aexit__`` in its
own task, satisfying anyio's same-task cancel-scope requirement.
"""
close_evt.set()
if cancel:
task.cancel()
try:
await task
except (Exception, asyncio.CancelledError):
logger.debug("Owner task ended during shutdown", exc_info=True)
async def _shutdown_entry(
self,
loop: asyncio.AbstractEventLoop,
task: asyncio.Task[Any],
close_evt: asyncio.Event,
cancel: bool = False,
) -> None:
"""Shut down one entry, routing the close to its owning loop."""
if loop.is_closed():
return
current_loop = asyncio.get_running_loop()
if loop is current_loop:
await self._shutdown(close_evt, task, cancel)
elif loop.is_running():
future = asyncio.run_coroutine_threadsafe(self._shutdown(close_evt, task, cancel), loop)
try:
await asyncio.wrap_future(future)
except Exception:
logger.warning("Error closing MCP session on owning loop", exc_info=True)
else:
# Owning loop exists but is neither the current loop nor running.
# We are inside an async context here, so run_until_complete() would
# raise "Cannot run the event loop while another loop is running";
# and the loop may belong to another thread, where driving it from
# here is unsafe. This branch is not expected in practice — a
# session's owning loop is either the long-lived gateway loop (which
# is running) or a short-lived asyncio.run loop (which is closed and
# caught above). Fall back to a best-effort thread-safe signal so the
# owner task tears down if/when its loop runs again.
logger.warning("Owning loop for MCP session is idle; signalling close best-effort. Session may leak until the loop runs again.")
self._signal_close(loop, close_evt)
if cancel:
try:
loop.call_soon_threadsafe(task.cancel)
except RuntimeError:
pass
async def close_scope(self, scope_key: str) -> None:
"""Close all sessions for a given scope (e.g. thread_id)."""
with self._lock:
keys = [k for k in self._entries if k[1] == scope_key]
entries = [(self._entries.pop(k)) for k in keys]
inflight_keys = [k for k in self._inflight if k[1] == scope_key]
inflight = [self._inflight.pop(k) for k in inflight_keys]
for _session, loop, task, close_evt in entries:
await self._shutdown_entry(loop, task, close_evt)
for loop, _ready, task, close_evt in inflight:
await self._shutdown_entry(loop, task, close_evt, cancel=True)
async def close_server(self, server_name: str) -> None:
"""Close all sessions for a given server."""
with self._lock:
keys = [k for k in self._entries if k[0] == server_name]
entries = [(self._entries.pop(k)) for k in keys]
inflight_keys = [k for k in self._inflight if k[0] == server_name]
inflight = [self._inflight.pop(k) for k in inflight_keys]
for _session, loop, task, close_evt in entries:
await self._shutdown_entry(loop, task, close_evt)
for loop, _ready, task, close_evt in inflight:
await self._shutdown_entry(loop, task, close_evt, cancel=True)
async def close_all(self) -> None:
"""Close every managed session."""
with self._lock:
entries = list(self._entries.values())
self._entries.clear()
inflight = list(self._inflight.values())
self._inflight.clear()
for _session, loop, task, close_evt in entries:
await self._shutdown_entry(loop, task, close_evt)
for loop, _ready, task, close_evt in inflight:
await self._shutdown_entry(loop, task, close_evt, cancel=True)
def close_all_sync(self) -> None:
"""Close all sessions on their owning event loops (synchronous).
Each session is closed by its owner task on the loop it was created in,
avoiding cross-loop and cross-task errors. Safe to call from any thread
without an active event loop.
Closing semantics differ by where the owning loop runs:
* Owning loop is idle, or running on another thread this call blocks
until teardown completes (or ``SESSION_CLOSE_TIMEOUT`` elapses).
* Owning loop is the one currently running on *this* thread we cannot
block on it without deadlocking, so teardown is only *signalled* here
and completes asynchronously once control returns to that loop. The
caller must therefore keep that loop running afterwards; if it stops
the loop immediately, the owner task's ``__aexit__`` may not run. When
a deterministic close is required from inside a running loop, ``await
close_all()`` instead.
"""
with self._lock:
entries = list(self._entries.values())
self._entries.clear()
inflight = list(self._inflight.values())
self._inflight.clear()
# Entries are initialized (gentle close_evt path). In-flight creations
# may be blocked mid-init, so they are cancelled to unblock teardown.
owners = [(loop, task, close_evt, False) for _s, loop, task, close_evt in entries]
owners += [(loop, task, close_evt, True) for loop, _r, task, close_evt in inflight]
try:
current_running_loop = asyncio.get_running_loop()
except RuntimeError:
current_running_loop = None
for loop, task, close_evt, cancel in owners:
if loop.is_closed():
continue
try:
if loop is current_running_loop:
# We are executing inside this loop's thread, so synchronously
# waiting on run_coroutine_threadsafe(...).result() would
# deadlock until timeout. Signal the owner task directly and
# let it finish once this synchronous call returns control to
# the running loop.
close_evt.set()
if cancel:
task.cancel()
elif loop.is_running():
# Schedule the shutdown on the owning loop from this thread.
future = asyncio.run_coroutine_threadsafe(self._shutdown(close_evt, task, cancel), loop)
future.result(timeout=self.SESSION_CLOSE_TIMEOUT)
else:
loop.run_until_complete(self._shutdown(close_evt, task, cancel))
except Exception:
logger.debug("Error closing MCP session during sync close", exc_info=True)
# ------------------------------------------------------------------
# Module-level singleton
# ------------------------------------------------------------------
_pool: MCPSessionPool | None = None
_pool_lock = threading.Lock()
def get_session_pool() -> MCPSessionPool:
"""Return the global session-pool singleton."""
global _pool
if _pool is None:
with _pool_lock:
if _pool is None:
_pool = MCPSessionPool()
return _pool
def reset_session_pool() -> None:
"""Reset the singleton (for tests)."""
global _pool
_pool = None
backend/packages/harness/deerflow/mcp/tools.py
+8 -208
View File
@@ -1,192 +1,21 @@
"""Load MCP tools using langchain-mcp-adapters with stdio session pooling."""
from __future__ import annotations
"""Load MCP tools using langchain-mcp-adapters."""
import logging
from collections.abc import Mapping
from typing import Any
from langchain_core.tools import BaseTool, StructuredTool
from langgraph.config import get_config
from langchain_core.tools import BaseTool
from deerflow.config.extensions_config import ExtensionsConfig
from deerflow.mcp.client import build_servers_config
from deerflow.mcp.oauth import build_oauth_tool_interceptor, get_initial_oauth_headers
from deerflow.mcp.session_pool import get_session_pool
from deerflow.reflection import resolve_variable
from deerflow.tools.sync import make_sync_tool_wrapper
from deerflow.tools.types import Runtime
logger = logging.getLogger(__name__)
def _extract_thread_id(runtime: Runtime | None) -> str:
"""Extract thread_id from the injected tool runtime or LangGraph config."""
if runtime is not None:
tid = runtime.context.get("thread_id") if runtime.context else None
if tid is not None:
return str(tid)
config = runtime.config or {}
tid = config.get("configurable", {}).get("thread_id")
if tid is not None:
return str(tid)
try:
tid = get_config().get("configurable", {}).get("thread_id")
return str(tid) if tid is not None else "default"
except RuntimeError:
return "default"
def _convert_call_tool_result(call_tool_result: Any) -> Any:
"""Convert an MCP CallToolResult to the LangChain ``content_and_artifact`` format.
Implements the same conversion logic as the adapter without relying on
the private ``langchain_mcp_adapters.tools._convert_call_tool_result`` symbol.
"""
from langchain_core.messages import ToolMessage
from langchain_core.messages.content import create_file_block, create_image_block, create_text_block
from langchain_core.tools import ToolException
from mcp.types import EmbeddedResource, ImageContent, ResourceLink, TextContent, TextResourceContents
# Pass ToolMessage through directly (interceptor short-circuit).
if isinstance(call_tool_result, ToolMessage):
return call_tool_result, None
# Pass LangGraph Command through directly when langgraph is installed.
try:
from langgraph.types import Command
if isinstance(call_tool_result, Command):
return call_tool_result, None
except ImportError:
# langgraph is optional; if unavailable, continue with standard MCP content conversion.
pass
# Convert MCP content blocks to LangChain content blocks.
lc_content = []
for item in call_tool_result.content:
if isinstance(item, TextContent):
lc_content.append(create_text_block(text=item.text))
elif isinstance(item, ImageContent):
lc_content.append(create_image_block(base64=item.data, mime_type=item.mimeType))
elif isinstance(item, ResourceLink):
mime = item.mimeType or None
if mime and mime.startswith("image/"):
lc_content.append(create_image_block(url=str(item.uri), mime_type=mime))
else:
lc_content.append(create_file_block(url=str(item.uri), mime_type=mime))
elif isinstance(item, EmbeddedResource):
from mcp.types import BlobResourceContents
res = item.resource
if isinstance(res, TextResourceContents):
lc_content.append(create_text_block(text=res.text))
elif isinstance(res, BlobResourceContents):
mime = res.mimeType or None
if mime and mime.startswith("image/"):
lc_content.append(create_image_block(base64=res.blob, mime_type=mime))
else:
lc_content.append(create_file_block(base64=res.blob, mime_type=mime))
else:
lc_content.append(create_text_block(text=str(res)))
else:
lc_content.append(create_text_block(text=str(item)))
if call_tool_result.isError:
error_parts = [item["text"] for item in lc_content if isinstance(item, dict) and item.get("type") == "text"]
raise ToolException("\n".join(error_parts) if error_parts else str(lc_content))
artifact = None
if call_tool_result.structuredContent is not None:
artifact = {"structured_content": call_tool_result.structuredContent}
return lc_content, artifact
def _make_session_pool_tool(
tool: BaseTool,
server_name: str,
connection: dict[str, Any],
tool_interceptors: list[Any] | None = None,
) -> BaseTool:
"""Wrap an MCP tool so it reuses a persistent session from the pool.
Replaces the per-call session creation with pool-managed sessions scoped
by ``(server_name, thread_id)``. This ensures stateful MCP servers (e.g.
Playwright) keep their state across tool calls within the same thread.
The configured ``tool_interceptors`` (OAuth, custom) are preserved and
applied on every call before invoking the pooled session.
"""
# Strip the server-name prefix to recover the original MCP tool name.
original_name = tool.name
prefix = f"{server_name}_"
if original_name.startswith(prefix):
original_name = original_name[len(prefix) :]
pool = get_session_pool()
async def call_with_persistent_session(
runtime: Runtime | None = None,
**arguments: Any,
) -> Any:
thread_id = _extract_thread_id(runtime)
session = await pool.get_session(server_name, thread_id, connection)
if tool_interceptors:
from langchain_mcp_adapters.interceptors import MCPToolCallRequest
async def base_handler(request: MCPToolCallRequest) -> Any:
# Preserve interceptor-injected headers for stdio MCP calls by
# forwarding them through MCP call meta.
call_kwargs: dict[str, Any] = {}
if request.headers:
if isinstance(request.headers, Mapping):
call_kwargs["meta"] = {"headers": dict(request.headers)}
else:
logger.warning("Ignoring MCP interceptor headers with unsupported type: %s", type(request.headers).__name__)
return await session.call_tool(request.name, request.args, **call_kwargs)
handler = base_handler
for interceptor in reversed(tool_interceptors):
outer = handler
async def wrapped(req: Any, _i: Any = interceptor, _h: Any = outer) -> Any:
return await _i(req, _h)
handler = wrapped
request = MCPToolCallRequest(
name=original_name,
args=arguments,
server_name=server_name,
runtime=runtime,
)
call_tool_result = await handler(request)
else:
call_tool_result = await session.call_tool(original_name, arguments)
return _convert_call_tool_result(call_tool_result)
return StructuredTool(
name=tool.name,
description=tool.description,
args_schema=tool.args_schema,
coroutine=call_with_persistent_session,
response_format="content_and_artifact",
metadata=tool.metadata,
)
async def get_mcp_tools() -> list[BaseTool]:
"""Get all tools from enabled MCP servers.
Tools using stdio transport are wrapped with persistent-session logic so
consecutive calls within the same thread reuse the same MCP session.
HTTP/SSE tools are returned unwrapped to avoid cross-task TaskGroup
cleanup errors.
Returns:
List of LangChain tools from all enabled MCP servers.
"""
@@ -221,7 +50,7 @@ async def get_mcp_tools() -> list[BaseTool]:
existing_headers["Authorization"] = auth_header
servers_config[server_name]["headers"] = existing_headers
tool_interceptors: list[Any] = []
tool_interceptors = []
oauth_interceptor = build_oauth_tool_interceptor(extensions_config)
if oauth_interceptor is not None:
tool_interceptors.append(oauth_interceptor)
@@ -245,49 +74,20 @@ async def get_mcp_tools() -> list[BaseTool]:
elif interceptor is not None:
logger.warning(f"Builder {interceptor_path} returned non-callable {type(interceptor).__name__}; skipping")
except Exception as e:
logger.warning(
f"Failed to load MCP interceptor {interceptor_path}: {e}",
exc_info=True,
)
logger.warning(f"Failed to load MCP interceptor {interceptor_path}: {e}", exc_info=True)
client = MultiServerMCPClient(
servers_config,
tool_interceptors=tool_interceptors,
tool_name_prefix=True,
)
client = MultiServerMCPClient(servers_config, tool_interceptors=tool_interceptors, tool_name_prefix=True)
# Get all tools from all servers (discovers tool definitions via
# temporary sessions the persistent-session wrapping is applied below).
# Get all tools from all servers
tools = await client.get_tools()
logger.info(f"Successfully loaded {len(tools)} tool(s) from MCP servers")
# Wrap each tool with persistent-session logic.
# Only pool stdio sessions. HTTP/SSE transports use anyio TaskGroups
# internally which cannot be closed from a different async task, so
# pooling them causes RuntimeError on cleanup (see #3203).
wrapped_tools: list[BaseTool] = []
for tool in tools:
tool_server: str | None = None
for name in servers_config:
if tool.name.startswith(f"{name}_"):
tool_server = name
break
if tool_server is not None:
transport = servers_config[tool_server].get("transport", "stdio")
if transport == "stdio":
wrapped_tools.append(_make_session_pool_tool(tool, tool_server, servers_config[tool_server], tool_interceptors))
else:
wrapped_tools.append(tool)
else:
wrapped_tools.append(tool)
# Patch tools to support sync invocation, as deerflow client streams synchronously
for tool in wrapped_tools:
for tool in tools:
if getattr(tool, "func", None) is None and getattr(tool, "coroutine", None) is not None:
tool.func = make_sync_tool_wrapper(tool.coroutine, tool.name)
return wrapped_tools
return tools
except Exception as e:
logger.error(f"Failed to load MCP tools: {e}", exc_info=True)
backend/packages/harness/deerflow/models/assistant_payload_replay.py
-124
View File
@@ -1,124 +0,0 @@
"""Helpers for replaying provider-specific assistant message fields.
Several provider adapters need to preserve fields that LangChain stores on the
original ``AIMessage`` but drops when serializing request payloads. This module
keeps the assistant-message matching logic shared while letting each provider
decide which fields to restore.
"""
from __future__ import annotations
import json
from collections.abc import Callable, Sequence
from typing import Any
from langchain_core.messages import AIMessage, BaseMessage
AssistantPayloadRestorer = Callable[[dict[str, Any], AIMessage], None]
def restore_assistant_payloads(
payload_messages: Sequence[dict[str, Any]],
original_messages: Sequence[BaseMessage],
restore: AssistantPayloadRestorer,
) -> None:
"""Restore provider-specific fields onto serialized assistant payloads."""
if len(payload_messages) == len(original_messages):
for payload_msg, orig_msg in zip(payload_messages, original_messages):
if payload_msg.get("role") == "assistant" and isinstance(orig_msg, AIMessage):
restore(payload_msg, orig_msg)
return
ai_messages = [m for m in original_messages if isinstance(m, AIMessage)]
assistant_payloads = [m for m in payload_messages if m.get("role") == "assistant"]
used_ai_indexes: set[int] = set()
for ordinal, payload_msg in enumerate(assistant_payloads):
ai_msg = _match_ai_message(payload_msg, ai_messages, used_ai_indexes, ordinal)
if ai_msg is not None:
restore(payload_msg, ai_msg)
def restore_additional_kwargs_field(payload_msg: dict[str, Any], orig_msg: AIMessage, field_name: str) -> None:
"""Copy a provider-specific ``additional_kwargs`` field onto a payload message."""
value = orig_msg.additional_kwargs.get(field_name)
if value is not None:
payload_msg[field_name] = value
def restore_reasoning_content(payload_msg: dict[str, Any], orig_msg: AIMessage) -> None:
"""Copy provider reasoning content onto a serialized assistant payload."""
restore_additional_kwargs_field(payload_msg, orig_msg, "reasoning_content")
def _match_ai_message(
payload_msg: dict[str, Any],
ai_messages: Sequence[AIMessage],
used_ai_indexes: set[int],
fallback_ordinal: int,
) -> AIMessage | None:
payload_key = _assistant_signature(payload_msg)
if payload_key is not None:
matches = [index for index, ai_msg in enumerate(ai_messages) if index not in used_ai_indexes and _ai_signature(ai_msg) == payload_key]
if len(matches) == 1:
used_ai_indexes.add(matches[0])
return ai_messages[matches[0]]
fallback_index = _next_unused_index_at_or_after(len(ai_messages), used_ai_indexes, fallback_ordinal)
if fallback_index is not None:
used_ai_indexes.add(fallback_index)
return ai_messages[fallback_index]
return None
def _next_unused_index_at_or_after(count: int, used_ai_indexes: set[int], start: int) -> int | None:
"""Return the next unused AI index at or after ``start``.
Scanning forward from the payload's ordinal preserves the positional bias of
the previous behaviour while still recovering when serialization drops or
reorders messages so the exact ordinal index is already taken. It does not
wrap to earlier indexes because those messages may be represented by payload
entries that were already dropped.
"""
if count == 0 or start >= count:
return None
for index in range(start, count):
if index not in used_ai_indexes:
return index
return None
def _assistant_signature(payload_msg: dict[str, Any]) -> tuple[str, str] | None:
return _signature(
payload_msg.get("content"),
_tool_call_ids(payload_msg.get("tool_calls") or []),
)
def _ai_signature(message: AIMessage) -> tuple[str, str] | None:
tool_calls = message.tool_calls or message.additional_kwargs.get("tool_calls") or []
return _signature(message.content, _tool_call_ids(tool_calls))
def _signature(content: Any, tool_call_ids: tuple[str, ...]) -> tuple[str, str] | None:
if content in (None, "") and not tool_call_ids:
return None
return (_stable_repr(content), "|".join(tool_call_ids))
def _stable_repr(value: Any) -> str:
try:
return json.dumps(value, sort_keys=True, ensure_ascii=False)
except TypeError:
return repr(value)
def _tool_call_ids(tool_calls: Sequence[Any]) -> tuple[str, ...]:
ids: list[str] = []
for tool_call in tool_calls:
if isinstance(tool_call, dict):
call_id = tool_call.get("id")
if isinstance(call_id, str) and call_id:
ids.append(call_id)
return tuple(ids)
backend/packages/harness/deerflow/models/factory.py
+6 -53
View File
@@ -47,56 +47,11 @@ def _enable_stream_usage_by_default(model_use_path: str, model_settings_from_con
model_settings_from_config["stream_usage"] = True
# Default chunk-gap budget for OpenAI-compatible streaming responses.
#
# langchain-openai raises ``StreamChunkTimeoutError`` after this many seconds
# without receiving a chunk. Its own default is 60s, which is too aggressive for
# reasoning models (DeepSeek-R1, Doubao-thinking, GPT-5) whose first chunk can
# legitimately take 90~150s. We default to 240s so the streaming layer rarely
# trips on long thinking pauses; the LLMErrorHandlingMiddleware still retries
# (budget=2) if a real stall happens. Users can override per-model in config.yaml.
_DEFAULT_STREAM_CHUNK_TIMEOUT_SECONDS: float = 240.0
def _apply_stream_chunk_timeout_default(model_use_path: str, model_settings_from_config: dict) -> None:
"""Inject a generous ``stream_chunk_timeout`` for OpenAI-compatible clients.
The ``stream_chunk_timeout`` kwarg is specific to ``langchain_openai:ChatOpenAI``
and is rejected by other providers' constructors as an unexpected keyword
argument. Behaviour:
* OpenAI-compatible path: an explicit value in ``config.yaml`` is preserved.
An explicit ``null`` is dropped upstream by ``model_dump(exclude_none=True)``
and therefore treated as "unset", so the default is injected.
* Non-OpenAI path: drop the key so it is never forwarded to an incompatible
constructor (which would raise ``TypeError: unexpected keyword argument``).
"""
if model_use_path != "langchain_openai:ChatOpenAI":
model_settings_from_config.pop("stream_chunk_timeout", None)
return
if "stream_chunk_timeout" in model_settings_from_config:
return
model_settings_from_config["stream_chunk_timeout"] = _DEFAULT_STREAM_CHUNK_TIMEOUT_SECONDS
def create_chat_model(name: str | None = None, thinking_enabled: bool = False, *, app_config: AppConfig | None = None, attach_tracing: bool = True, **kwargs) -> BaseChatModel:
def create_chat_model(name: str | None = None, thinking_enabled: bool = False, *, app_config: AppConfig | None = None, **kwargs) -> BaseChatModel:
"""Create a chat model instance from the config.
Args:
name: The name of the model to create. If None, the first model in the config will be used.
thinking_enabled: Enable the model's extended-thinking mode when supported.
app_config: Explicit application config; falls back to the cached global if omitted.
attach_tracing: When True (default), attach tracing callbacks (Langfuse,
LangSmith) directly to the model instance. Standalone callers anything
that invokes the model outside a LangGraph run that already wires tracing
at the invocation root (``MemoryUpdater``, ad-hoc utilities, etc.) keep
this default so the model-level callback still produces traces. Callers
that already attach tracing at the graph root (``make_lead_agent``, the
in-graph ``TitleMiddleware``) MUST pass ``attach_tracing=False``; otherwise
the same LLM call emits duplicate spans (one rooted at the graph, one at
the model) and ``session_id`` / ``user_id`` metadata never reach the trace
because the model becomes a nested observation whose ``langfuse_*`` keys
get stripped.
Returns:
A chat model instance.
@@ -160,7 +115,6 @@ def create_chat_model(name: str | None = None, thinking_enabled: bool = False, *
model_settings_from_config.pop("reasoning_effort", None)
_enable_stream_usage_by_default(model_config.use, model_settings_from_config)
_apply_stream_chunk_timeout_default(model_config.use, model_settings_from_config)
# For Codex Responses API models: map thinking mode to reasoning_effort
from deerflow.models.openai_codex_provider import CodexChatModel
@@ -195,10 +149,9 @@ def create_chat_model(name: str | None = None, thinking_enabled: bool = False, *
model_instance = model_class(**kwargs, **model_settings_from_config)
if attach_tracing:
callbacks = build_tracing_callbacks()
if callbacks:
existing_callbacks = model_instance.callbacks or []
model_instance.callbacks = [*existing_callbacks, *callbacks]
logger.debug(f"Tracing attached to model '{name}' with providers={len(callbacks)}")
callbacks = build_tracing_callbacks()
if callbacks:
existing_callbacks = model_instance.callbacks or []
model_instance.callbacks = [*existing_callbacks, *callbacks]
logger.debug(f"Tracing attached to model '{name}' with providers={len(callbacks)}")
return model_instance
backend/packages/harness/deerflow/models/patched_deepseek.py
+21 -7
View File
@@ -10,10 +10,9 @@ on all assistant messages when thinking mode is enabled.
from typing import Any
from langchain_core.language_models import LanguageModelInput
from langchain_core.messages import AIMessage
from langchain_deepseek import ChatDeepSeek
from deerflow.models.assistant_payload_replay import restore_assistant_payloads, restore_reasoning_content
class PatchedChatDeepSeek(ChatDeepSeek):
"""ChatDeepSeek with proper reasoning_content preservation.
@@ -50,10 +49,25 @@ class PatchedChatDeepSeek(ChatDeepSeek):
# Call parent to get the base payload
payload = super()._get_request_payload(input_, stop=stop, **kwargs)
restore_assistant_payloads(
payload.get("messages", []),
original_messages,
restore_reasoning_content,
)
# Match payload messages with original messages to restore reasoning_content
payload_messages = payload.get("messages", [])
# The payload messages and original messages should be in the same order
# Iterate through both and match by position
if len(payload_messages) == len(original_messages):
for payload_msg, orig_msg in zip(payload_messages, original_messages):
if payload_msg.get("role") == "assistant" and isinstance(orig_msg, AIMessage):
reasoning_content = orig_msg.additional_kwargs.get("reasoning_content")
if reasoning_content is not None:
payload_msg["reasoning_content"] = reasoning_content
else:
# Fallback: match by counting assistant messages
ai_messages = [m for m in original_messages if isinstance(m, AIMessage)]
assistant_payloads = [(i, m) for i, m in enumerate(payload_messages) if m.get("role") == "assistant"]
for (idx, payload_msg), ai_msg in zip(assistant_payloads, ai_messages):
reasoning_content = ai_msg.additional_kwargs.get("reasoning_content")
if reasoning_content is not None:
payload_messages[idx]["reasoning_content"] = reasoning_content
return payload
backend/packages/harness/deerflow/models/patched_mimo.py
-140
View File
@@ -1,140 +0,0 @@
"""Patched ChatOpenAI adapter for Xiaomi MiMo reasoning_content replay.
MiMo's OpenAI-compatible API returns ``reasoning_content`` in thinking mode and
requires that value to be replayed on historical assistant messages in
multi-turn agent conversations. Standard ``langchain_openai.ChatOpenAI`` drops
that provider-specific field, which can cause HTTP 400 errors once tool calls
enter the conversation history.
"""
from __future__ import annotations
from collections.abc import Mapping
from typing import Any
from langchain_core.language_models import LanguageModelInput
from langchain_core.messages import AIMessage, AIMessageChunk
from langchain_core.outputs import ChatGeneration, ChatGenerationChunk, ChatResult
from langchain_openai import ChatOpenAI
from deerflow.models.assistant_payload_replay import restore_assistant_payloads, restore_reasoning_content
_MISSING = object()
def _extract_reasoning_content(value: Any) -> str | object:
"""Return reasoning_content from a dict/Pydantic object, preserving empty strings."""
if isinstance(value, Mapping):
if "reasoning_content" in value and value["reasoning_content"] is not None:
return value["reasoning_content"]
return _MISSING
reasoning = getattr(value, "reasoning_content", _MISSING)
if reasoning is not _MISSING and reasoning is not None:
return reasoning
model_extra = getattr(value, "model_extra", None)
if isinstance(model_extra, Mapping) and "reasoning_content" in model_extra and model_extra["reasoning_content"] is not None:
return model_extra["reasoning_content"]
return _MISSING
def _with_reasoning_content(message: AIMessage | AIMessageChunk, reasoning: str) -> AIMessage | AIMessageChunk:
additional_kwargs = dict(message.additional_kwargs)
if additional_kwargs.get("reasoning_content") != reasoning:
additional_kwargs["reasoning_content"] = reasoning
return message.model_copy(update={"additional_kwargs": additional_kwargs})
def _get_typed_choice_message(response: Any, index: int) -> Any:
choices = getattr(response, "choices", None)
if choices is None:
return None
try:
return choices[index].message
except (AttributeError, IndexError, TypeError):
return None
class PatchedChatMiMo(ChatOpenAI):
"""ChatOpenAI with ``reasoning_content`` preservation for MiMo thinking mode."""
@classmethod
def is_lc_serializable(cls) -> bool:
return True
@property
def lc_secrets(self) -> dict[str, str]:
return {"api_key": "MIMO_API_KEY", "openai_api_key": "MIMO_API_KEY"}
def _get_request_payload(
self,
input_: LanguageModelInput,
*,
stop: list[str] | None = None,
**kwargs: Any,
) -> dict:
original_messages = self._convert_input(input_).to_messages()
payload = super()._get_request_payload(input_, stop=stop, **kwargs)
restore_assistant_payloads(
payload.get("messages", []),
original_messages,
restore_reasoning_content,
)
return payload
def _convert_chunk_to_generation_chunk(
self,
chunk: dict,
default_chunk_class: type,
base_generation_info: dict | None,
) -> ChatGenerationChunk | None:
generation_chunk = super()._convert_chunk_to_generation_chunk(
chunk,
default_chunk_class,
base_generation_info,
)
if generation_chunk is None:
return None
choices = chunk.get("choices", [])
if choices:
delta = choices[0].get("delta") or {}
reasoning = _extract_reasoning_content(delta)
if reasoning is not _MISSING and isinstance(generation_chunk.message, AIMessageChunk):
generation_chunk = ChatGenerationChunk(
message=_with_reasoning_content(generation_chunk.message, reasoning),
generation_info=generation_chunk.generation_info,
)
return generation_chunk
def _create_chat_result(
self,
response: dict | Any,
generation_info: dict | None = None,
) -> ChatResult:
result = super()._create_chat_result(response, generation_info)
response_dict = response if isinstance(response, dict) else response.model_dump()
choices = response_dict.get("choices", [])
patched_generations: list[ChatGeneration] | None = None
for index, generation in enumerate(result.generations):
choice = choices[index] if index < len(choices) else {}
choice_message = choice.get("message", {}) if isinstance(choice, Mapping) else {}
reasoning = _extract_reasoning_content(choice_message)
if reasoning is _MISSING and not isinstance(response, dict):
reasoning = _extract_reasoning_content(_get_typed_choice_message(response, index))
message = generation.message
if reasoning is not _MISSING and isinstance(message, AIMessage):
if patched_generations is None:
patched_generations = list(result.generations)
patched_generations[index] = ChatGeneration(
message=_with_reasoning_content(message, reasoning),
generation_info=generation.generation_info,
)
return ChatResult(generations=patched_generations or result.generations, llm_output=result.llm_output)
backend/packages/harness/deerflow/models/patched_openai.py
+12 -3
View File
@@ -27,8 +27,6 @@ from langchain_core.language_models import LanguageModelInput
from langchain_core.messages import AIMessage
from langchain_openai import ChatOpenAI
from deerflow.models.assistant_payload_replay import restore_assistant_payloads
class PatchedChatOpenAI(ChatOpenAI):
"""ChatOpenAI with ``thought_signature`` preservation for Gemini thinking via OpenAI gateway.
@@ -77,7 +75,18 @@ class PatchedChatOpenAI(ChatOpenAI):
# Obtain the base payload from the parent implementation.
payload = super()._get_request_payload(input_, stop=stop, **kwargs)
restore_assistant_payloads(payload.get("messages", []), original_messages, _restore_tool_call_signatures)
payload_messages = payload.get("messages", [])
if len(payload_messages) == len(original_messages):
for payload_msg, orig_msg in zip(payload_messages, original_messages):
if payload_msg.get("role") == "assistant" and isinstance(orig_msg, AIMessage):
_restore_tool_call_signatures(payload_msg, orig_msg)
else:
# Fallback: match assistant-role entries positionally against AIMessages.
ai_messages = [m for m in original_messages if isinstance(m, AIMessage)]
assistant_payloads = [(i, m) for i, m in enumerate(payload_messages) if m.get("role") == "assistant"]
for (_, payload_msg), ai_msg in zip(assistant_payloads, ai_messages):
_restore_tool_call_signatures(payload_msg, ai_msg)
return payload
backend/packages/harness/deerflow/persistence/feedback/sql.py
+1 -3
View File
@@ -13,7 +13,6 @@ from sqlalchemy.ext.asyncio import AsyncSession, async_sessionmaker
from deerflow.persistence.feedback.model import FeedbackRow
from deerflow.runtime.user_context import AUTO, _AutoSentinel, resolve_user_id
from deerflow.utils.time import coerce_iso
class FeedbackRepository:
@@ -25,8 +24,7 @@ class FeedbackRepository:
d = row.to_dict()
val = d.get("created_at")
if isinstance(val, datetime):
# SQLite drops tzinfo on read; normalize via ``coerce_iso`` so output is always tz-aware.
d["created_at"] = coerce_iso(val)
d["created_at"] = val.isoformat()
return d
async def create(
backend/packages/harness/deerflow/persistence/run/sql.py
+25 -107
View File
@@ -17,7 +17,6 @@ from sqlalchemy.ext.asyncio import AsyncSession, async_sessionmaker
from deerflow.persistence.run.model import RunRow
from deerflow.runtime.runs.store.base import RunStore
from deerflow.runtime.user_context import AUTO, _AutoSentinel, resolve_user_id
from deerflow.utils.time import coerce_iso
class RunRepository(RunStore):
@@ -69,13 +68,11 @@ class RunRepository(RunStore):
# Remap JSON columns to match RunStore interface
d["metadata"] = d.pop("metadata_json", {})
d["kwargs"] = d.pop("kwargs_json", {})
# Convert datetime to ISO string for consistency with MemoryRunStore.
# SQLite drops tzinfo on read despite ``DateTime(timezone=True)`` —
# ``coerce_iso`` normalizes naive datetimes as UTC.
# Convert datetime to ISO string for consistency with MemoryRunStore
for key in ("created_at", "updated_at"):
val = d.get(key)
if isinstance(val, datetime):
d[key] = coerce_iso(val)
d[key] = val.isoformat()
return d
async def put(
@@ -94,35 +91,25 @@ class RunRepository(RunStore):
created_at=None,
follow_up_to_run_id=None,
):
"""Insert or update a run row.
``RunManager`` retries ``put`` after transient SQLite failures. Making
this operation idempotent prevents a successful-but-unacknowledged first
commit from turning the retry into a primary-key failure.
"""
resolved_user_id = resolve_user_id(user_id, method_name="RunRepository.put")
now = datetime.now(UTC)
created = datetime.fromisoformat(created_at) if created_at else now
values = {
"thread_id": thread_id,
"assistant_id": assistant_id,
"user_id": resolved_user_id,
"model_name": self._normalize_model_name(model_name),
"status": status,
"multitask_strategy": multitask_strategy,
"metadata_json": self._safe_json(metadata) or {},
"kwargs_json": self._safe_json(kwargs) or {},
"error": error,
"follow_up_to_run_id": follow_up_to_run_id,
"updated_at": now,
}
row = RunRow(
run_id=run_id,
thread_id=thread_id,
assistant_id=assistant_id,
user_id=resolved_user_id,
model_name=self._normalize_model_name(model_name),
status=status,
multitask_strategy=multitask_strategy,
metadata_json=self._safe_json(metadata) or {},
kwargs_json=self._safe_json(kwargs) or {},
error=error,
follow_up_to_run_id=follow_up_to_run_id,
created_at=datetime.fromisoformat(created_at) if created_at else now,
updated_at=now,
)
async with self._sf() as session:
row = await session.get(RunRow, run_id)
if row is None:
session.add(RunRow(run_id=run_id, created_at=created, **values))
else:
for key, value in values.items():
setattr(row, key, value)
session.add(row)
await session.commit()
async def get(
@@ -156,18 +143,12 @@ class RunRepository(RunStore):
result = await session.execute(stmt)
return [self._row_to_dict(r) for r in result.scalars()]
async def update_status(self, run_id, status, *, error=None) -> bool:
async def update_status(self, run_id, status, *, error=None):
values: dict[str, Any] = {"status": status, "updated_at": datetime.now(UTC)}
if error is not None:
values["error"] = error
async with self._sf() as session:
result = await session.execute(update(RunRow).where(RunRow.run_id == run_id).values(**values))
await session.commit()
return result.rowcount != 0
async def update_model_name(self, run_id, model_name):
async with self._sf() as session:
await session.execute(update(RunRow).where(RunRow.run_id == run_id).values(model_name=self._normalize_model_name(model_name), updated_at=datetime.now(UTC)))
await session.execute(update(RunRow).where(RunRow.run_id == run_id).values(**values))
await session.commit()
async def delete(
@@ -198,26 +179,6 @@ class RunRepository(RunStore):
result = await session.execute(stmt)
return [self._row_to_dict(r) for r in result.scalars()]
async def list_inflight(self, *, before=None):
"""Return persisted active runs for startup recovery."""
if before is None:
before_dt = datetime.now(UTC)
elif isinstance(before, datetime):
before_dt = before
else:
before_dt = datetime.fromisoformat(before)
stmt = (
select(RunRow)
.where(
RunRow.status.in_(("pending", "running")),
RunRow.created_at <= before_dt,
)
.order_by(RunRow.created_at.asc())
)
async with self._sf() as session:
result = await session.execute(stmt)
return [self._row_to_dict(r) for r in result.scalars()]
async def update_run_completion(
self,
run_id: str,
@@ -234,11 +195,8 @@ class RunRepository(RunStore):
last_ai_message: str | None = None,
first_human_message: str | None = None,
error: str | None = None,
) -> bool:
"""Update status + token usage + convenience fields on run completion.
Returns ``False`` when no run row matched the requested ``run_id``.
"""
) -> None:
"""Update status + token usage + convenience fields on run completion."""
values: dict[str, Any] = {
"status": status,
"total_input_tokens": total_input_tokens,
@@ -258,52 +216,12 @@ class RunRepository(RunStore):
if error is not None:
values["error"] = error
async with self._sf() as session:
result = await session.execute(update(RunRow).where(RunRow.run_id == run_id).values(**values))
await session.commit()
return result.rowcount != 0
async def update_run_progress(
self,
run_id: str,
*,
total_input_tokens: int | None = None,
total_output_tokens: int | None = None,
total_tokens: int | None = None,
llm_call_count: int | None = None,
lead_agent_tokens: int | None = None,
subagent_tokens: int | None = None,
middleware_tokens: int | None = None,
message_count: int | None = None,
last_ai_message: str | None = None,
first_human_message: str | None = None,
) -> None:
"""Update token usage + convenience fields while a run is still active."""
values: dict[str, Any] = {"updated_at": datetime.now(UTC)}
optional_counters = {
"total_input_tokens": total_input_tokens,
"total_output_tokens": total_output_tokens,
"total_tokens": total_tokens,
"llm_call_count": llm_call_count,
"lead_agent_tokens": lead_agent_tokens,
"subagent_tokens": subagent_tokens,
"middleware_tokens": middleware_tokens,
"message_count": message_count,
}
for key, value in optional_counters.items():
if value is not None:
values[key] = value
if last_ai_message is not None:
values["last_ai_message"] = last_ai_message[:2000]
if first_human_message is not None:
values["first_human_message"] = first_human_message[:2000]
async with self._sf() as session:
await session.execute(update(RunRow).where(RunRow.run_id == run_id, RunRow.status == "running").values(**values))
await session.execute(update(RunRow).where(RunRow.run_id == run_id).values(**values))
await session.commit()
async def aggregate_tokens_by_thread(self, thread_id: str, *, include_active: bool = False) -> dict[str, Any]:
async def aggregate_tokens_by_thread(self, thread_id: str) -> dict[str, Any]:
"""Aggregate token usage via a single SQL GROUP BY query."""
statuses = ("success", "error", "running") if include_active else ("success", "error")
_completed = RunRow.status.in_(statuses)
_completed = RunRow.status.in_(("success", "error"))
_thread = RunRow.thread_id == thread_id
model_name = func.coalesce(RunRow.model_name, "unknown")

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