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base: kaiyuan:feat-wecom-bot-qrcode
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kaiyuan:master kaiyuan:feat-i18n kaiyuan:feat-telegram kaiyuan:feat-add-mimo kaiyuan:feat-readme-refactoring kaiyuan:feat-multi-model kaiyuan:dev-rag-enhance kaiyuan:feat-mulit-session kaiyuan:feat-web-console-upgrade kaiyuan:feat-knowledge kaiyuan:feat-multimodel kaiyuan:feat-wecom-bot-qrcode kaiyuan:feat-browser-tool kaiyuan:feat-cow-cli kaiyuan:feat-skill-hub kaiyuan:feat-web-files kaiyuan:feat-qq-channel kaiyuan:feat-wecom-bot kaiyuan:feat-docs kaiyuan:feat-web-config kaiyuan:feat-multi-channel kaiyuan:feat-web-console kaiyuan:feat-config-update kaiyuan:feat-cow-agent
kaiyuan:2.1.0 kaiyuan:2.0.9 kaiyuan:2.0.8 kaiyuan:2.0.7 kaiyuan:2.0.6 kaiyuan:2.0.5 kaiyuan:2.0.4 kaiyuan:2.0.3 kaiyuan:2.0.2 kaiyuan:2.0.1 kaiyuan:2.0.0 kaiyuan:1.7.6 kaiyuan:1.7.5 kaiyuan:1.7.4 kaiyuan:1.7.3 kaiyuan:1.7.2 kaiyuan:1.7.1 kaiyuan:1.7.0 kaiyuan:1.6.9 kaiyuan:1.6.8 kaiyuan:1.6.7 kaiyuan:1.6.6 kaiyuan:1.6.5 kaiyuan:1.6.0 kaiyuan:1.5.9 kaiyuan:1.5.8 kaiyuan:1.5.7.1 kaiyuan:1.5.7 kaiyuan:1.5.6 kaiyuan:1.5.5 kaiyuan:1.5.4 kaiyuan:1.5.3 kaiyuan:1.5.2 kaiyuan:1.5.1 kaiyuan:1.5.0 kaiyuan:1.4.0 kaiyuan:1.3.9.5 kaiyuan:1.3.9 kaiyuan:1.3.8 kaiyuan:1.3.7 kaiyuan:1.3.6 kaiyuan:1.3.5 kaiyuan:1.3.4 kaiyuan:1.3.3 kaiyuan:1.3.2 kaiyuan:1.3.1 kaiyuan:1.3.0.3 kaiyuan:1.3.0.2 kaiyuan:1.3.0.1 kaiyuan:1.3.0 kaiyuan:1.2.5 kaiyuan:1.2.3.2 kaiyuan:1.2.3.1 kaiyuan:1.2.3 kaiyuan:1.2.2.2 kaiyuan:1.2.2.1 kaiyuan:1.2.2 kaiyuan:1.2.1.3 kaiyuan:1.2.1.2 kaiyuan:1.2.1.1 kaiyuan:1.2.1 kaiyuan:1.2.0.1 kaiyuan:1.2.0 kaiyuan:1.1.8.2 kaiyuan:1.1.8.1 kaiyuan:1.1.8 kaiyuan:1.1.7.4 kaiyuan:1.1.7.3 kaiyuan:1.1.7.2 kaiyuan:1.1.7.1 kaiyuan:1.1.7 kaiyuan:1.1.6 kaiyuan:1.1.5.3 kaiyuan:1.1.5.2 kaiyuan:1.1.5.1 kaiyuan:1.1.4 kaiyuan:1.1.3 kaiyuan:1.1.2 kaiyuan:1.1.1 kaiyuan:1.1.0-beta kaiyuan:1.1.0 kaiyuan:1.0.6 kaiyuan:1.0.5 kaiyuan:1.0.4 kaiyuan:1.0.3 kaiyuan:1.0.2 kaiyuan:1.0.1 kaiyuan:1.0.0
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compare: kaiyuan:dev-rag-enhance
Branches Tags
kaiyuan:master kaiyuan:feat-i18n kaiyuan:feat-telegram kaiyuan:feat-add-mimo kaiyuan:feat-readme-refactoring kaiyuan:feat-multi-model kaiyuan:dev-rag-enhance kaiyuan:feat-mulit-session kaiyuan:feat-web-console-upgrade kaiyuan:feat-knowledge kaiyuan:feat-multimodel kaiyuan:feat-wecom-bot-qrcode kaiyuan:feat-browser-tool kaiyuan:feat-cow-cli kaiyuan:feat-skill-hub kaiyuan:feat-web-files kaiyuan:feat-qq-channel kaiyuan:feat-wecom-bot kaiyuan:feat-docs kaiyuan:feat-web-config kaiyuan:feat-multi-channel kaiyuan:feat-web-console kaiyuan:feat-config-update kaiyuan:feat-cow-agent
kaiyuan:2.1.0 kaiyuan:2.0.9 kaiyuan:2.0.8 kaiyuan:2.0.7 kaiyuan:2.0.6 kaiyuan:2.0.5 kaiyuan:2.0.4 kaiyuan:2.0.3 kaiyuan:2.0.2 kaiyuan:2.0.1 kaiyuan:2.0.0 kaiyuan:1.7.6 kaiyuan:1.7.5 kaiyuan:1.7.4 kaiyuan:1.7.3 kaiyuan:1.7.2 kaiyuan:1.7.1 kaiyuan:1.7.0 kaiyuan:1.6.9 kaiyuan:1.6.8 kaiyuan:1.6.7 kaiyuan:1.6.6 kaiyuan:1.6.5 kaiyuan:1.6.0 kaiyuan:1.5.9 kaiyuan:1.5.8 kaiyuan:1.5.7.1 kaiyuan:1.5.7 kaiyuan:1.5.6 kaiyuan:1.5.5 kaiyuan:1.5.4 kaiyuan:1.5.3 kaiyuan:1.5.2 kaiyuan:1.5.1 kaiyuan:1.5.0 kaiyuan:1.4.0 kaiyuan:1.3.9.5 kaiyuan:1.3.9 kaiyuan:1.3.8 kaiyuan:1.3.7 kaiyuan:1.3.6 kaiyuan:1.3.5 kaiyuan:1.3.4 kaiyuan:1.3.3 kaiyuan:1.3.2 kaiyuan:1.3.1 kaiyuan:1.3.0.3 kaiyuan:1.3.0.2 kaiyuan:1.3.0.1 kaiyuan:1.3.0 kaiyuan:1.2.5 kaiyuan:1.2.3.2 kaiyuan:1.2.3.1 kaiyuan:1.2.3 kaiyuan:1.2.2.2 kaiyuan:1.2.2.1 kaiyuan:1.2.2 kaiyuan:1.2.1.3 kaiyuan:1.2.1.2 kaiyuan:1.2.1.1 kaiyuan:1.2.1 kaiyuan:1.2.0.1 kaiyuan:1.2.0 kaiyuan:1.1.8.2 kaiyuan:1.1.8.1 kaiyuan:1.1.8 kaiyuan:1.1.7.4 kaiyuan:1.1.7.3 kaiyuan:1.1.7.2 kaiyuan:1.1.7.1 kaiyuan:1.1.7 kaiyuan:1.1.6 kaiyuan:1.1.5.3 kaiyuan:1.1.5.2 kaiyuan:1.1.5.1 kaiyuan:1.1.4 kaiyuan:1.1.3 kaiyuan:1.1.2 kaiyuan:1.1.1 kaiyuan:1.1.0-beta kaiyuan:1.1.0 kaiyuan:1.0.6 kaiyuan:1.0.5 kaiyuan:1.0.4 kaiyuan:1.0.3 kaiyuan:1.0.2 kaiyuan:1.0.1 kaiyuan:1.0.0

109 Commits
feat-wecom ... dev-rag-en

Author SHA1 Message Date
zhayujie
5c65196e44 feat(web): hint API base version path in config placeholder 2026-04-26 17:10:24 +08:00
zhayujie
f5798bfe90 fix: remove unnecessary API Base URL in run scripts 2026-04-26 16:29:08 +08:00
zhayujie
0e556b3468 feat: switch default model to deepseek-v4-flash 2026-04-26 15:54:50 +08:00
zhayujie
31820f56e7 fix(deepseek): back-fill reasoning_content for all assistant turns 2026-04-24 16:39:48 +08:00
zhayujie
fd88828abd fix(models): unify enable_thinking for deepseek-v4 2026-04-24 15:29:43 +08:00
zhayujie
ae11159918 feat(models): unify enable_thinking for deepseek-v4 and other thinking models 2026-04-24 15:22:45 +08:00
zhayujie
472a8605c0 feat(models): support deepseek-v4-pro and deepseek-v4-flash 2026-04-24 11:35:38 +08:00
zhayujie
e1760ba211 feat: release 2.0.7 version 2026-04-23 18:13:53 +08:00
zhayujie
ce4c0a0aa4 feat: release 2.0.7 2026-04-23 17:18:19 +08:00
zhayujie
64511593c4 feat: release 2.0.7 2026-04-23 17:16:17 +08:00
zhayujie
b0e00dfceb feat: support glm-5.1 2026-04-23 16:43:05 +08:00
zhayujie
fc465b463d feat: support kimi coding plan by temporary solution 2026-04-23 16:24:37 +08:00
zhayujie
68ce2e5232 feat(skill): multi-provider image generation with auto-fallback 
- Add Gemini, Seedream (Volcengine Ark), Qwen (DashScope), MiniMax
  providers to image-generation skill with universal sequential
  fallback: OpenAI → Gemini → Seedream → Qwen → MiniMax → LinkAI
- Each provider filters unsupported size tiers to valid values
  (e.g. Seedream 1K→2K, Qwen 3K→2K, Gemini 3K→2K)
- Pinned model only tries its native provider; auto-routing uses
  each provider's default model
- Support skill-namespaced config (config.skill.image-generation.model
  → SKILL_IMAGE_GENERATION_MODEL env var)
- Add image lightbox (click-to-enlarge) in web console
- Add  docs for built-in skills (skill-creator, knowledge-wiki,
  image-generation) under docs/skills/
 2026-04-23 12:39:39 +08:00
zhayujie
81e8bb62ae feat(skill): support gpt-image-2 in image generation skill 2026-04-22 20:39:49 +08:00
zhayujie
2c13e1b923 feat(models): support kimi-k2.6 2026-04-22 12:01:40 +08:00
zhayujie
a0748c2e3b fix(web): cap reasoning content to 4KB across stream/storage/display 2026-04-21 20:31:38 +08:00
zhayujie
40599bb751 fix(web): smart auto-scroll for chat #2775 2026-04-20 21:43:21 +08:00
zhayujie
f3c64ceea7 fix: refresh skill manager on /skill 2026-04-19 19:50:16 +08:00
zhayujie
15c60de709 fix: improve skill installation to support multiple source formats and ensure target directory 2026-04-19 19:05:51 +08:00
zhayujie
6dd316547f fix(web): fix session title generation fallback and reset Bridge on config change 2026-04-19 18:43:48 +08:00
zhayujie
54c7676a44 docs: update architecture diagram 2026-04-18 23:08:36 +08:00
zhayujie
d25b8966ce fix(web): prevent duplicate image previews 2026-04-18 22:32:34 +08:00
zhayujie
14a119c48c fix(gemini): solving the problem of tool call not returnings 2026-04-18 21:18:27 +08:00
zhayujie
c82515a927 fix(agent): don't drop tool_calls from empty-response retry 2026-04-18 20:50:40 +08:00
zhayujie
26e630c2dd feat(cli): /config support set enable_thinking 2026-04-17 16:09:43 +08:00
zhayujie
13370d2056 fix: thinking display is disabled by default 2026-04-17 15:31:59 +08:00
zhayujie
35282db9e0 feat(models): support claude-opus-4-7 2026-04-16 23:24:16 +08:00
zhayujie
426fb88ce7 fix(knowledge): exclude root-level files from knowledge stats to preserve empty state 2026-04-16 22:55:46 +08:00
zhayujie
2384bd0e10 fix: update CI workflows for repo rename and add latest tag 2026-04-16 21:57:20 +08:00
zhayujie
ba3f66d3d1 feat: show root-level files (index.md, log.md) in knowledge tree 2026-04-16 21:47:44 +08:00
zhayujie
7293a0f670 fix: modify repo name in github workflow 2026-04-16 21:38:58 +08:00
zhayujie
9e86d46267 fix: sync env vars when updating config in docker env 2026-04-16 21:32:07 +08:00
zhayujie
848430f062 feat(knowledge): support nested directories in knowledge base listing and display 2026-04-16 12:28:18 +08:00
zhayujie
abd21335c4 Merge pull request #2772 from 6vision/master 
fix: bot_type change notification never shown after model switch
 2026-04-16 10:43:41 +08:00
6vision
8fa95f058a fix: bot_type change notification never shown after model switch 
Made-with: Cursor
 2026-04-15 21:48:50 +08:00
zhayujie
d4e5ecd497 fix: compatible with Python 3.7 by deferring Literal import in truncate.py 2026-04-15 12:29:09 +08:00
zhayujie
3830f76729 feat: add custom model provider 2026-04-15 12:26:05 +08:00
zhayujie
83f778fec9 feat(dream): structured organization of dream memories 2026-04-15 11:27:46 +08:00
zhayujie
cabd24605f fix: add random jitter to daily dream schedule 2026-04-15 00:33:33 +08:00
zhayujie
ae20ba1148 Merge branch 'master' of github.com:zhayujie/chatgpt-on-wechat 2026-04-14 22:58:59 +08:00
zhayujie
3a50b64977 feat: web multi session interface 2026-04-14 22:58:25 +08:00
zhayujie
8692e74536 fix(web): hide session panel by default on mobile and support overlay dismiss 2026-04-14 21:09:01 +08:00
zhayujie
1c18bd9889 docs(memory): update long-term memory docs 2026-04-14 17:14:28 +08:00
zhayujie
60e9d98d0a feat: release 2.0.6 2026-04-14 12:37:53 +08:00
zhayujie
83f6625e0c feat: release 2.0.6 2026-04-14 12:08:57 +08:00
zhayujie
acc09543b7 feat(dream): add memory dream cli and docs 
- New memory/deep-dream.mdx (zh/en/ja): memory flow, distillation rules, dream diary, manual trigger, safety mechanisms
- Simplify long-term memory page, link to deep-dream for details
- New cli/memory-knowledge.mdx (zh/en/ja): memory and knowledge commands
- Move knowledge commands from general.mdx to memory-knowledge.mdx
- Register new pages in docs.json navigation for all languages
- Add /memory dream to cli/index.mdx command tables
 2026-04-14 11:03:53 +08:00
zhayujie
94d8c7e366 feat(dream): add Dream Diary tab to memory management page 
- Backend: MemoryService supports category param (memory/dream), lists memory/dreams/*.md
- Backend: MemoryContentHandler resolves dream files from memory/dreams/ directory
- Frontend: add tab switcher (Memory Files / Dream Diary) matching knowledge tab style
- Frontend: dream entries show purple "Dream" badge, empty state with moon icon
- Cloud dispatch passes category param for consistency
 2026-04-13 22:08:15 +08:00
zhayujie
ea1a0c8b3d feat(memory): add Deep Dream module for daily memory distillation 
- Add Deep Dream: nightly distill daily memories → refined MEMORY.md + dream diary
- Simplify flush prompt to daily-only, defer MEMORY.md maintenance to Deep Dream
- Remove dead code (_append_to_main_memory) and fix fallback summary logic
- Add shrinkage protection and input dedup for dream process
- Ensure flush threads complete before dream starts
- Update docs (zh/en/ja) with dream diary and distillation mechanism
 2026-04-13 21:32:52 +08:00
zhayujie
7bc88c17e4 Merge branch 'master' of github.com:zhayujie/chatgpt-on-wechat 2026-04-13 20:13:30 +08:00
zhayujie
33cf1bc4c3 feat(memory): async LLM context summary injection on trim 
- Unified flush + context injection into a single async LLM call
  (flush_from_messages accepts context_summary_callback)
- Fixed response parsing bug: handle generator returns and Claude-format
  dicts from bot.call_with_tools, which previously caused all LLM
  summaries to silently fail (falling back to rule-based extraction)
- Removed standalone context summary prompts and methods; reuse the
  existing [DAILY]/[MEMORY] summarization pipeline
- Updated docs (zh/en/ja) to reflect the new injection behavior
 2026-04-13 20:13:05 +08:00
zhayujie
9402e63fe1 Merge pull request #2766 from zhayujie/feat-mulit-session 
feat(web): add multi-session management for web console
 2026-04-13 18:51:07 +08:00
zhayujie
90e4d494b2 feat(web): add multi-session management for web console 2026-04-13 18:50:31 +08:00
zhayujie
da97e948ca feat: refine memory recall/write prompts for better precision and proactivity 2026-04-13 18:02:06 +08:00
zhayujie
89a07e8e74 feat: add enable_thinking config to control deep reasoning on web console 2026-04-13 16:06:28 +08:00
zhayujie
3f3d0381e5 feat: update knowledge docs and fix claude error 2026-04-13 11:16:26 +08:00
zhayujie
3649499dba fix: optimize the stability of network pre-checks 2026-04-13 10:35:38 +08:00
zhayujie
a989d088fd Merge pull request #2764 from WilliamOnVoyage/fix/macos-timeout-fallback 
fix: Fix run.sh for MacOS via add timeout fallback
 2026-04-13 10:21:44 +08:00
Moliang Zhou
f79a915136 fix: add timeout fallback for macOS compatibility 
The `timeout` command (GNU Coreutils) is not available by default on macOS,
causing the installation script to fail with 'timeout: command not found'
during git clone.

This adds a shell function fallback that:
- Uses `gtimeout` if Homebrew coreutils is installed
- Otherwise skips the timeout and runs the command directly
 2026-04-12 11:18:44 -07:00
zhayujie
12e8c3d449 Merge pull request #2763 from zhayujie/feat-web-console-upgrade 
feat(web): support scheduler push messages and enrich welcome screen
 2026-04-12 21:20:34 +08:00
zhayujie
4f7064575e feat(web): support scheduler push messages and enrich welcome screen 
- Expand welcome screen from 3 to 6 example cards covering core capabilities
- Enable background polling on page load so scheduler task notifications are received in real-time
- Fix duplicate poll loops via generation-based cancellation, reduce poll frequency to 5s/10s
- Ensure equal card height and adjust layout position for better visual balance
 2026-04-12 21:19:50 +08:00
zhayujie
070df826f1 Merge pull request #2762 from zhayujie/feat-web-console-upgrade 
feat(web): add password protection for web console
 2026-04-12 20:38:45 +08:00
zhayujie
fbe48a4b4e feat(web): add password protection for web console 
- Add `web_password` config to enable login authentication
- Use stateless HMAC-signed token (survives restart, invalidates on password change)
- Add `web_session_expire_days` config (default 30 days)
- Protect all API endpoints with auth check (401 on failure)
- Add login page UI with auto-redirect on session expiry
- Add password management in config page (masked display, inline edit)
- Add tooltip hints for Agent config fields
- Update default agent_max_context_turns to 20, agent_max_steps to 20
- Update docs and docker-compose.yml
 2026-04-12 20:37:04 +08:00
zhayujie
4dd497fb6d fix: run.ps1 git clone in windows 2026-04-12 17:52:37 +08:00
zhayujie
907882c0a7 fix: git clone pre-check 2026-04-12 17:36:45 +08:00
zhayujie
d36d5aee3f feat: rename repository name from chatgpt-on-wechat to CowAgent 
- Update GitHub URLs in README.md (badges, release links, clone address, wiki, issues, contributors)
- Add project rename notice with SEO keywords and git remote update command
- Update docs/docs.json GitHub links
- Update all docs (zh/en/ja) across guide, intro, models, releases, skills
- Update run.sh and scripts/run.ps1 clone URLs and directory names
- Docker image name (zhayujie/chatgpt-on-wechat) kept unchanged for compatibility
 2026-04-12 17:09:07 +08:00
zhayujie
c6824e5f5e fix: add legacy-cgi dependency for Python 3.13+ #2758 
Add conditional dependency `legacy-cgi` for Python 3.13+ to resolve
`web.py` installation failure caused by the removal of the `cgi` module
(PEP 594).
Thanks @sha156 for reporting.
 2026-04-12 16:49:00 +08:00
zhayujie
199c21eede Merge pull request #2761 from zhayujie/feat-knowledge 
feat: personal knowledge base system
 2026-04-12 16:47:07 +08:00
zhayujie
5162da5654 Merge branch 'master' into feat-knowledge 2026-04-12 16:46:38 +08:00
zhayujie
a1d82f6193 feat(knowledge): add cli and update docs 2026-04-12 16:39:06 +08:00
zhayujie
ea78e3d0c6 feat(knowledge): document link supports jumping to view 2026-04-11 20:16:43 +08:00
zhayujie
3497f00cb4 Merge pull request #2759 from zhayujie/feat-multimodel 
feat(vision): prioritize main model for image recognition
 2026-04-11 19:55:15 +08:00
zhayujie
5355d45031 Merge pull request #2756 from octo-patch/feature/add-minimax-m2.7-highspeed-tts 
feat: add MiniMax-M2.7-highspeed model and MiniMax TTS support
 2026-04-11 19:54:03 +08:00
zhayujie
26693acc3f feat(vision): prioritize main model for image recognition with multi-provider fallback 
- Add call_vision method to all bot implementations (DashScope, Claude,
  Gemini, ZhipuAI, MiniMax, Doubao, Moonshot, OpenAICompatibleBot)
  using each vendor's native multimodal API format
- Remove call_with_tools/call_vision from Bot base class to fix MRO
  shadowing issue with OpenAICompatibleBot mixin
- Refactor vision tool provider resolution: MainModel → other configured
  models (auto-discovered) → OpenAI → LinkAI, with automatic fallback
- Return actual model name used in call_vision responses
- Sync config.json API keys to .env bidirectionally on startup
- Fix bot instance cache to detect bot_type/use_linkai config changes
- Add SSE reconnection support for web console
- Preserve image path hints in Gemini text for correct vision tool calls
- Update docs/tools/vision.mdx
 2026-04-11 19:46:11 +08:00
zhayujie
76e9fef3b2 feat(knowledge): add file list and graph in web channel 2026-04-11 19:02:55 +08:00
octo-patch
c34308cbd4 feat: add MiniMax-M2.7-highspeed model and MiniMax TTS support 
- Add MiniMax-M2.7-highspeed constant to const.py and MODEL_LIST
- Update MinimaxBot default model from MiniMax-M2.1 to MiniMax-M2.7
- Add MinimaxVoice TTS provider (voice/minimax/minimax_voice.py)
  - Supports speech-2.8-hd and speech-2.8-turbo models
  - SSE streaming with hex-decoded audio chunks
  - Reuses MINIMAX_API_KEY
- Register MinimaxVoice in voice factory
- Add unit tests (14 tests, all passing)
- Update README with MiniMax-M2.7-highspeed and TTS configuration
 2026-04-11 17:03:44 +08:00
zhayujie
5a10476010 feat: add knowledge switch and cli 2026-04-11 16:44:25 +08:00
zhayujie
46e80dceec Merge pull request #2755 from 6vision/fix/generic-file-send 
fix: send generic file types (tar.gz, zip, etc.) as FILE instead of TEXT
 2026-04-11 16:36:34 +08:00
6vision
90d1835353 fix: send generic file types (tar.gz, zip, etc.) as FILE instead of TEXT 
Previously, files with extensions not in the known categories (image, document, video, audio) fell through to a fallback that returned ReplyType.TEXT, causing the file to never actually be sent to the user. Now the fallback uses ReplyType.FILE so all file types are delivered.

Made-with: Cursor
 2026-04-11 15:45:34 +08:00
zhayujie
845fadd0aa fix(knowledge): modify knowledge skill 2026-04-10 18:22:54 +08:00
zhayujie
5748ded52c feat(knowledge): change knowledge base to index-driven self-organizing structure 2026-04-10 16:06:04 +08:00
zhayujie
6a737fb734 feat: display thinking content in web console 2026-04-10 15:07:23 +08:00
zhayujie
3cd92ccda3 feat: add port config 2026-04-09 21:29:53 +08:00
zhayujie
54e81aba11 feat(memory+knowledge): add knowledge wiki system and Light Dream memory extraction 
- Add knowledge/ directory structure and knowledge-wiki skill for structured knowledge accumulation
- Auto-inject MEMORY.md into system prompt with truncation (last 200 lines)
- Light Dream: extend flush_memory to extract long-term memories into MEMORY.md with date stamps
- Add mandatory knowledge auto-write rules in system prompt (no user confirmation needed)
- Expand MemoryManager.sync() to index knowledge/ files for vector search
- Update RULE.md template with workspace conventions and knowledge guidelines
 2026-04-09 21:22:43 +08:00
zhayujie
d86cb4ded6 fix(weixin): update weixin channel version 2026-04-09 09:55:07 +08:00
zhayujie
4d5375f6d6 fix(win): add Windows platform hint in bash tool description 2026-04-08 16:54:26 +08:00
zhayujie
424557fedb fix(win): use PowerShell instead of cmd.exe 2026-04-08 16:50:45 +08:00
zhayujie
89251e603f fix(win): use PowerShell instead of cmd.exe for bash tool on Windows 2026-04-08 16:18:56 +08:00
zhayujie
a653ed07eb fix(win): defer pip install to a helper bat after cow.exe exits 2026-04-08 15:31:03 +08:00
zhayujie
ad86deb014 fix: prioritize using a custom master model for vision 2026-04-08 15:16:59 +08:00
zhayujie
9525dc7584 fix: avoid stale cow.exe on Windows by spawing fresh process 2026-04-08 12:07:18 +08:00
zhayujie
cd31dd27fd fix: increase web console capacity and add frontend retry 2026-04-08 11:48:27 +08:00
zhayujie
360e3670eb feat(browser): detect implicit interactive elements 2026-04-07 01:41:14 +08:00
zhayujie
8dabe3b4c8 fix: remove install-browser cmd display in /help 2026-04-04 23:28:57 +08:00
zhayujie
443e0c2806 feat: show video in web channel 2026-04-03 17:09:38 +08:00
zhayujie
9cc173cc4d fix: use dynamic model name in system prompt runtime info 2026-04-02 17:01:56 +08:00
zhayujie
b5f33e5ecd feat: support qwen3.6-plus 2026-04-02 16:46:58 +08:00
zhayujie
40dfc6860f fix: skill list showing sub-skills inside collection 2026-04-02 11:47:24 +08:00
zhayujie
1c02a04423 fix: handle error when printing QR code on Windows GBK terminals 2026-04-01 17:23:57 +08:00
zhayujie
de0e45070c chore: remove conflicting dependency 2026-04-01 17:19:15 +08:00
zhayujie
c169cc7d74 fix: remove conflicting dependency 2026-04-01 17:12:15 +08:00
zhayujie
cd62ad76f6 fix: cow CLI support python3.7 2026-04-01 16:51:23 +08:00
zhayujie
dd25b0fb5b feat: refine system prompt style and tone guidance 2026-04-01 16:24:41 +08:00
zhayujie
a38b22a6a2 docs: update docs 2026-04-01 15:31:41 +08:00
zhayujie
830b8f2971 feat: release 2.0.5 2026-04-01 15:01:53 +08:00
zhayujie
b058af122c feat: release 2.0.5 2026-04-01 12:24:21 +08:00
zhayujie
174ee0cafc fix(security): prevent path traversal in memory content API 2026-04-01 10:03:58 +08:00
zhayujie
1c336380c0 docs: update release doc 2026-03-31 22:30:31 +08:00
zhayujie
3068880413 feat: save skill display name when downloading 2026-03-31 21:43:57 +08:00
zhayujie
be596681e5 Merge pull request #2735 from zhayujie/feat-wecom-bot-qrcode 
feat(wecom_bot): add Wecom Bot QR code scan auth
 2026-03-31 21:28:39 +08:00
209 changed files with 14445 additions and 3032 deletions
Expand all files Collapse all files

11
.github/workflows/deploy-image-arm.yml vendored
View File

@@ -19,7 +19,7 @@ env:
jobs:
build-and-push-image:
if: github.repository == 'zhayujie/chatgpt-on-wechat'
if: github.repository == 'zhayujie/CowAgent'
runs-on: ubuntu-latest
permissions:
contents: read
@@ -51,7 +51,12 @@ jobs:
uses: docker/metadata-action@v4
with:
images: |
${{ env.REGISTRY }}/${{ env.IMAGE_NAME }}
${{ env.REGISTRY }}/zhayujie/chatgpt-on-wechat
${{ env.REGISTRY }}/zhayujie/cowagent
tags: |
type=raw,value=latest-arm64,enable={{is_default_branch}}
type=ref,event=branch,suffix=-arm64
type=ref,event=tag,suffix=-arm64
- name: Build and push Docker image
uses: docker/build-push-action@v3
@@ -60,7 +65,7 @@ jobs:
push: true
file: ./docker/Dockerfile.latest
platforms: linux/arm64
tags: ${{ steps.meta.outputs.tags }}-arm64
tags: ${{ steps.meta.outputs.tags }}
labels: ${{ steps.meta.outputs.labels }}
- uses: actions/delete-package-versions@v4

13
.github/workflows/deploy-image.yml vendored
View File

@@ -16,10 +16,11 @@ on:
env:
REGISTRY: ghcr.io
IMAGE_NAME: ${{ github.repository }}
DOCKERHUB_IMAGE: zhayujie/chatgpt-on-wechat
jobs:
build-and-push-image:
if: github.repository == 'zhayujie/chatgpt-on-wechat'
if: github.repository == 'zhayujie/CowAgent'
runs-on: ubuntu-latest
permissions:
contents: read
@@ -47,8 +48,14 @@ jobs:
uses: docker/metadata-action@v4
with:
images: |
${{ env.IMAGE_NAME }}
${{ env.REGISTRY }}/${{ env.IMAGE_NAME }}
zhayujie/chatgpt-on-wechat
zhayujie/cowagent
${{ env.REGISTRY }}/zhayujie/chatgpt-on-wechat
${{ env.REGISTRY }}/zhayujie/cowagent
tags: |
type=raw,value=latest,enable={{is_default_branch}}
type=ref,event=branch
type=ref,event=tag
- name: Build and push Docker image
uses: docker/build-push-action@v3

408
README.md
View File

@@ -1,18 +1,19 @@
<p align="center"><img src= "https://github.com/user-attachments/assets/eca9a9ec-8534-4615-9e0f-96c5ac1d10a3" alt="Chatgpt-on-Wechat" width="550" /></p>
<p align="center"><img src= "https://github.com/user-attachments/assets/eca9a9ec-8534-4615-9e0f-96c5ac1d10a3" alt="CowAgent" width="550" /></p>
<p align="center">
<a href="https://github.com/zhayujie/chatgpt-on-wechat/releases/latest"><img src="https://img.shields.io/github/v/release/zhayujie/chatgpt-on-wechat" alt="Latest release"></a>
<a href="https://github.com/zhayujie/chatgpt-on-wechat/blob/master/LICENSE"><img src="https://img.shields.io/github/license/zhayujie/chatgpt-on-wechat" alt="License: MIT"></a>
<a href="https://github.com/zhayujie/chatgpt-on-wechat"><img src="https://img.shields.io/github/stars/zhayujie/chatgpt-on-wechat?style=flat-square" alt="Stars"></a> <br/>
<a href="https://github.com/zhayujie/CowAgent/releases/latest"><img src="https://img.shields.io/github/v/release/zhayujie/CowAgent" alt="Latest release"></a>
<a href="https://github.com/zhayujie/CowAgent/blob/master/LICENSE"><img src="https://img.shields.io/github/license/zhayujie/CowAgent" alt="License: MIT"></a>
<a href="https://github.com/zhayujie/CowAgent"><img src="https://img.shields.io/github/stars/zhayujie/CowAgent?style=flat-square" alt="Stars"></a> <br/>
[中文] | [<a href="docs/en/README.md">English</a>] | [<a href="docs/ja/README.md">日本語</a>]
</p>
**CowAgent** 是基于大模型的超级 AI 助理,能够主动思考和任务规划、操作计算机和外部资源、创造和执行 Skills、拥有长期记忆并不断成长比 OpenClaw 更轻量和便捷。CowAgent 支持灵活切换多种模型能处理文本、语音、图片、文件等多模态消息可接入微信、飞书、钉钉、企微智能机器人、QQ、企微自建应用、微信公众号、网页中使用7*24小时运行于你的个人电脑或服务器中。
**CowAgent** 是基于大模型的超级 AI 助理,能够主动思考和任务规划、操作计算机和外部资源、创造和执行 Skills、拥有长期记忆和知识库并不断成长,比 OpenClaw 更轻量和便捷。CowAgent 支持灵活切换多种模型能处理文本、语音、图片、文件等多模态消息可接入微信、飞书、钉钉、企微智能机器人、QQ、企微自建应用、微信公众号、网页中使用7*24小时运行于你的个人电脑或服务器中。
<p align="center">
<a href="https://cowagent.ai/">🌐 官网</a> &nbsp;·&nbsp;
<a href="https://docs.cowagent.ai/">📖 文档中心</a> &nbsp;·&nbsp;
<a href="https://docs.cowagent.ai/guide/quick-start">🚀 快速开始</a> &nbsp;·&nbsp;
<a href="https://skills.cowagent.ai/">🧩 技能广场</a> &nbsp;·&nbsp;
<a href="https://link-ai.tech/cowagent/create">☁️ 在线体验</a>
</p>
@@ -22,12 +23,13 @@
> 该项目既是一个可以开箱即用的超级 AI 助理,也是一个支持高扩展的 Agent 框架可以通过为项目扩展大模型接口、接入渠道、内置工具、Skills 系统来灵活实现各种定制需求。核心能力如下:
-**自主任务规划**:能够理解复杂任务并自主规划执行,持续思考和调用工具直到完成目标
-**长期记忆:** 自动将对话记忆持久化至本地文件和数据库中,包括核心记忆日级记忆,支持关键词及向量检索
-**技能系统** Skills 安装和运行的引擎,支持从 Skill Hub、GitHub 等安装技能,或通过对话创造 Skills
-**长期记忆:** 自动将对话记忆持久化至本地文件和数据库中,包括核心记忆日级记忆和梦境蒸馏,支持关键词及向量检索
-**个人知识库** 自动整理结构化知识,通过交叉引用构建知识图谱,支持通过对话管理和可视化浏览知识库
-**技能系统:** Skills 安装和运行的引擎,支持从 [Skill Hub](https://skills.cowagent.ai/)、GitHub 等一键安装技能,或通过对话创造 Skills
-**工具系统:** 内置文件读写、终端执行、浏览器操作、定时任务等工具Agent 自主调用以完成复杂任务
-**CLI系统** 提供终端命令和对话命令,支持进程管理、技能安装、配置修改等操作
-**多模态消息:** 支持对文本、图片、语音、文件等多类型消息进行解析、处理、生成、发送等操作
-**多模型支持:** 支持 OpenAI, Claude, Gemini, DeepSeek, MiniMax、GLM、Qwen、Kimi、Doubao 等国内外主流模型厂商
-**多模型支持:** 支持 DeepSeek、MiniMax、ClaudeGemini、OpenAI、GLM、Qwen、Doubao、Kimi 等国内外主流模型厂商
-**多通道接入:** 支持运行在本地计算机或服务器可集成到微信、飞书、钉钉、企业微信、QQ、微信公众号、网页中使用
## 声明
@@ -68,15 +70,21 @@
# 🏷 更新日志
>**2026.03.22** [2.0.4版本](https://github.com/zhayujie/chatgpt-on-wechat/releases/tag/2.0.4)新增个人微信通道(微信扫码即用)、新增 MiniMax-M2.7 和 GLM-5-Turbo 模型、run.sh 脚本重构、日文文档及多项修复。
>**2026.04.22** [2.0.7版本](https://github.com/zhayujie/CowAgent/releases/tag/2.0.7)图像生成内置技能GPT Image 2、Nano Banana 等、新模型支持Kimi K2.6、Claude Opus 4.7、GLM 5.1、知识库和记忆增强、Web 控制台优化
>**2026.03.18** [2.0.3版本](https://github.com/zhayujie/chatgpt-on-wechat/releases/tag/2.0.3)新增企微智能机器人和 QQ 通道、支持 Coding Plan、新增多个模型、Web 端文件处理、记忆系统升级
>**2026.04.14** [2.0.6版本](https://github.com/zhayujie/CowAgent/releases/tag/2.0.6)知识库系统、梦境记忆模块、上下文智能压缩、Web 控制台多会话及多项优化
>**2026.02.27** [2.0.2版本](https://github.com/zhayujie/chatgpt-on-wechat/releases/tag/2.0.2)Web 控制台全面升级(流式对话、模型/技能/记忆/通道/定时任务/日志管理)、支持多通道同时运行、会话持久化存储、新增多个模型
>**2026.04.01** [2.0.5版本](https://github.com/zhayujie/CowAgent/releases/tag/2.0.5)Cow CLI 命令系统、Skill Hub 开源、浏览器工具、企微扫码创建、多项优化和修复
>**2026.02.13** [2.0.1版本](https://github.com/zhayujie/chatgpt-on-wechat/releases/tag/2.0.1)内置 Web Search 工具、智能上下文裁剪策略、运行时信息动态更新、Windows 兼容性适配,修复定时任务记忆丢失、飞书连接等多项问题
>**2026.03.22** [2.0.4版本](https://github.com/zhayujie/CowAgent/releases/tag/2.0.4)新增个人微信通道(微信扫码即用)、新增 MiniMax-M2.7 和 GLM-5-Turbo 模型、run.sh 脚本重构、日文文档及多项修复
>**2026.02.03** [2.0.0版本](https://github.com/zhayujie/chatgpt-on-wechat/releases/tag/2.0.0)正式升级为超级 Agent 助理,支持多轮任务决策、具备长期记忆、实现多种系统工具、支持 Skills 框架,新增多模型并优化了接入渠道
>**2026.03.18** [2.0.3版本](https://github.com/zhayujie/CowAgent/releases/tag/2.0.3)新增企微智能机器人和 QQ 通道、支持 Coding Plan、新增多模型、Web 端文件处理、记忆系统升级
>**2026.02.27** [2.0.2版本](https://github.com/zhayujie/CowAgent/releases/tag/2.0.2)Web 控制台全面升级(流式对话、模型/技能/记忆/通道/定时任务/日志管理)、支持多通道同时运行、会话持久化存储、新增多个模型。
>**2026.02.13** [2.0.1版本](https://github.com/zhayujie/CowAgent/releases/tag/2.0.1),内置 Web Search 工具、智能上下文裁剪策略、运行时信息动态更新、Windows 兼容性适配,修复定时任务记忆丢失、飞书连接等多项问题。
>**2026.02.03** [2.0.0版本](https://github.com/zhayujie/CowAgent/releases/tag/2.0.0),正式升级为超级 Agent 助理,支持多轮任务决策、具备长期记忆、实现多种系统工具、支持 Skills 框架,新增多种模型并优化了接入渠道。
更多更新历史请查看: [更新日志](https://docs.cowagent.ai/releases)
@@ -98,7 +106,7 @@ bash <(curl -fsSL https://cdn.link-ai.tech/code/cow/run.sh)
irm https://cdn.link-ai.tech/code/cow/run.ps1 | iex
```
脚本使用说明:[一键运行脚本](https://docs.cowagent.ai/guide/quick-start)。安装后可使用 `cow start``cow stop` 等 [CLI 命令](https://docs.cowagent.ai/commands/index) 管理服务。
脚本使用说明:[一键运行脚本](https://docs.cowagent.ai/guide/quick-start)。安装后可使用 `cow start``cow stop` 等 [CLI 命令](https://docs.cowagent.ai/cli/index) 管理服务。
## 一、准备
@@ -107,24 +115,24 @@ irm https://cdn.link-ai.tech/code/cow/run.ps1 | iex
项目支持国内外主流厂商的模型接口,可选模型及配置说明参考:[模型说明](#模型说明)。
> Agent 模式下推荐使用以下模型可根据效果及成本综合选择MiniMax-M2.7、glm-5-turbo、kimi-k2.5、qwen3.5-plus、claude-sonnet-4-6、gemini-3.1-pro-preview、gpt-5.4、gpt-5.4-mini
> Agent 模式下推荐使用以下模型,可根据效果及成本综合选择:deepseek-v4-flash、MiniMax-M2.7、glm-5.1、kimi-k2.6、qwen3.5-plus、claude-sonnet-4-6、gemini-3.1-pro-preview、gpt-5.4、gpt-5.4-mini
同时支持使用 **LinkAI 平台** 接口,支持上述全部模型,并支持知识库、工作流、插件等 Agent 技能,参考 [接口文档](https://docs.link-ai.tech/platform/api)。
### 2.环境安装
支持 Linux、MacOS、Windows 操作系统,可在个人计算机及服务器上运行,需安装 `Python`Python 版本需在3.7 ~ 3.12 之间推荐使用3.9版本
支持 Linux、MacOS、Windows 操作系统,可在个人计算机及服务器上运行,需安装 `Python`Python 版本需在 3.7 ~ 3.13 之间。
> 注意Agent 模式推荐使用源码运行,若选择 Docker 部署则无需安装 python 环境和下载源码,可直接快进到下一节。
**(1) 克隆项目代码:**
```bash
git clone https://github.com/zhayujie/chatgpt-on-wechat
cd chatgpt-on-wechat/
git clone https://github.com/zhayujie/CowAgent
cd CowAgent/
```
若遇到网络问题可使用国内仓库地址https://gitee.com/zhayujie/chatgpt-on-wechat
若遇到网络问题可使用国内仓库地址https://gitee.com/zhayujie/CowAgent
**(2) 安装核心依赖 (必选)**
@@ -148,7 +156,7 @@ pip3 install -r requirements-optional.txt
pip3 install -e .
```
安装后可使用 `cow` 命令管理服务(启动、停止、更新等)和技能,详见 [命令文档](https://docs.cowagent.ai/commands/index)。
安装后可使用 `cow` 命令管理服务(启动、停止、更新等)和技能,详见 [命令文档](https://docs.cowagent.ai/cli/index)。
**(5) 安装浏览器工具 (可选)**
@@ -174,7 +182,9 @@ cow install-browser
# config.json 文件内容示例
{
"channel_type": "weixin", # 接入渠道类型,默认为 weixin, 支持修改为 feishu,dingtalk,wecom_bot,qq,wechatcom_app,wechatmp_service,wechatmp,terminal
"model": "MiniMax-M2.7", # 模型名称
"model": "deepseek-v4-flash", # 模型名称
"deepseek_api_key": "", # DeepSeek API Key
"deepseek_api_base": "https://api.deepseek.com/v1", # DeepSeek API 地址
"minimax_api_key": "", # MiniMax API Key
"zhipu_ai_api_key": "", # 智谱 GLM API Key
"moonshot_api_key": "", # Kimi/Moonshot API Key
@@ -184,8 +194,6 @@ cow install-browser
"claude_api_base": "https://api.anthropic.com/v1", # Claude API 地址,修改可接入三方代理平台
"gemini_api_key": "", # Gemini API Key
"gemini_api_base": "https://generativelanguage.googleapis.com", # Gemini API 地址
"deepseek_api_key": "", # DeepSeek API Key
"deepseek_api_base": "https://api.deepseek.com/v1", # DeepSeek API 地址,可修改为第三方代理
"open_ai_api_key": "", # OpenAI API Key
"open_ai_api_base": "https://api.openai.com/v1", # OpenAI API 地址
"linkai_api_key": "", # LinkAI API Key
@@ -194,11 +202,13 @@ cow install-browser
"group_speech_recognition": false, # 是否开启群组语音识别
"voice_reply_voice": false, # 是否使用语音回复语音
"use_linkai": false, # 是否使用 LinkAI 接口,默认关闭,设置为 true 后可对接 LinkAI 平台模型
"web_password": "", # Web 控制台访问密码,留空则不启用密码保护
"agent": true, # 是否启用 Agent 模式启用后拥有多轮工具决策、长期记忆、Skills 能力等
"agent_workspace": "~/cow", # Agent 的工作空间路径,用于存储 memory、skills、系统设定等
"agent_max_context_tokens": 40000, # Agent 模式下最大上下文 tokens超出将自动丢弃最早的上下文
"agent_max_context_turns": 30, # Agent 模式下最大上下文记忆轮次,每轮包括一次用户提问和 AI 回复
"agent_max_steps": 15 # Agent 模式下单次任务的最大决策步数,超出后将停止继续调用工具
"agent_max_context_tokens": 50000, # Agent 模式下最大上下文 tokens超出将自动智能压缩处理
"agent_max_context_turns": 20, # Agent 模式下最大上下文记忆轮次,一问一答为一轮,超出后智能压缩处理
"agent_max_steps": 20, # Agent 模式下单次任务的最大决策步数,超出后将停止继续调用工具
"enable_thinking": false # 是否启用深度思考模式
}
```
@@ -210,12 +220,13 @@ cow install-browser
+ 添加 `"speech_recognition": true` 将开启语音识别,默认使用 openai 的 whisper 模型识别为文字,同时以文字回复,该参数仅支持私聊 (注意由于语音消息无法匹配前缀,一旦开启将对所有语音自动回复,支持语音触发画图)
+ 添加 `"group_speech_recognition": true` 将开启群组语音识别,默认使用 openai 的 whisper 模型识别为文字,同时以文字回复,参数仅支持群聊 (会匹配 group_chat_prefix 和 group_chat_keyword, 支持语音触发画图)
+ 添加 `"voice_reply_voice": true` 将开启语音回复语音(同时作用于私聊和群聊)
+ 使用 MiniMax TTS设置 `"text_to_voice": "minimax"`,并配置 `minimax_api_key`;可通过 `"tts_voice_id"` 指定发音人(如 `English_Graceful_Lady``"text_to_voice_model"` 指定模型(如 `speech-2.8-hd``speech-2.8-turbo`
</details>
<details>
<summary>2. 其他配置</summary>
+ `model`: 模型名称Agent 模式下推荐使用 `MiniMax-M2.7``glm-5-turbo``kimi-k2.5``qwen3.5-plus``claude-sonnet-4-6``gemini-3.1-pro-preview`,全部模型名称参考[common/const.py](https://github.com/zhayujie/chatgpt-on-wechat/blob/master/common/const.py)文件
+ `model`: 模型名称Agent 模式下推荐使用 `deepseek-v4-flash``MiniMax-M2.7``glm-5.1``kimi-k2.6``qwen3.6-plus``claude-sonnet-4-6``gemini-3.1-pro-preview`,全部模型名称参考[common/const.py](https://github.com/zhayujie/CowAgent/blob/master/common/const.py)文件
+ `character_desc`:普通对话模式下的机器人系统提示词。在 Agent 模式下该配置不生效,由工作空间中的文件内容构成。
+ `subscribe_msg`:订阅消息,公众号和企业微信 channel 中请填写,当被订阅时会自动回复, 可使用特殊占位符。目前支持的占位符有{trigger_prefix},在程序中它会自动替换成 bot 的触发词。
</details>
@@ -227,7 +238,7 @@ cow install-browser
+ `linkai_api_key`: LinkAI Api Key可在 [控制台](https://link-ai.tech/console/interface) 创建
</details>
注:全部配置项说明可在 [`config.py`](https://github.com/zhayujie/chatgpt-on-wechat/blob/master/config.py) 文件中查看。
注:全部配置项说明可在 [`config.py`](https://github.com/zhayujie/CowAgent/blob/master/config.py) 文件中查看。
## 三、运行
@@ -300,7 +311,98 @@ sudo docker logs -f chatgpt-on-wechat
## 模型说明
以下对所有可支持的模型配置和使用方法进行说明,模型接口实现在项目的 `models/` 目录下。
推荐通过 Web 控制台在线管理模型配置,无需手动编辑文件,详见 [模型文档](https://docs.cowagent.ai/models)。以下是手动修改 `config.json` 配置模型的说明:
<details>
<summary>DeepSeek</summary>
1. API Key 创建:在 [DeepSeek 平台](https://platform.deepseek.com/api_keys) 创建 API Key
2. 填写配置
方式一:官方接入(推荐):
```json
{
"model": "deepseek-v4-flash",
"deepseek_api_key": "sk-xxxxxxxxxxx"
}
```
- `model`: 推荐填写 `deepseek-v4-flash``deepseek-v4-pro`
- `deepseek_api_key`: DeepSeek 平台的 API Key
- `deepseek_api_base`: 可选,默认为 `https://api.deepseek.com/v1`,可修改为第三方代理地址
方式二OpenAI 兼容方式接入:
```json
{
"model": "deepseek-v4-flash",
"bot_type": "openai",
"open_ai_api_key": "sk-xxxxxxxxxxx",
"open_ai_api_base": "https://api.deepseek.com/v1"
}
```
</details>
<details>
<summary>MiniMax</summary>
方式一:官方接入,配置如下(推荐)
```json
{
"model": "MiniMax-M2.7",
"minimax_api_key": ""
}
```
- `model`: 可填写 `MiniMax-M2.7、MiniMax-M2.7-highspeed、MiniMax-M2.5、MiniMax-M2.1、MiniMax-M2.1-lightning、MiniMax-M2、abab6.5-chat`
- `minimax_api_key`MiniMax 平台的 API-KEY在 [控制台](https://platform.minimaxi.com/user-center/basic-information/interface-key) 创建
方式二OpenAI 兼容方式接入,配置如下:
```json
{
"bot_type": "openai",
"model": "MiniMax-M2.7",
"open_ai_api_base": "https://api.minimaxi.com/v1",
"open_ai_api_key": ""
}
```
- `bot_type`: OpenAI 兼容方式
- `model`: 可填 `MiniMax-M2.7、MiniMax-M2.7-highspeed、MiniMax-M2.5、MiniMax-M2.1、MiniMax-M2.1-lightning、MiniMax-M2`,参考[API文档](https://platform.minimaxi.com/document/%E5%AF%B9%E8%AF%9D?key=66701d281d57f38758d581d0#QklxsNSbaf6kM4j6wjO5eEek)
- `open_ai_api_base`: MiniMax 平台 API 的 BASE URL
- `open_ai_api_key`: MiniMax 平台的 API-KEY
</details>
<details>
<summary>Claude</summary>
1. API Key 创建:在 [Claude控制台](https://console.anthropic.com/settings/keys) 创建 API Key
2. 填写配置
```json
{
"model": "claude-sonnet-4-6",
"claude_api_key": "YOUR_API_KEY"
}
```
- `model`: 参考 [官方模型ID](https://docs.anthropic.com/en/docs/about-claude/models/overview#model-aliases) ,支持 `claude-sonnet-4-6、claude-opus-4-7、claude-opus-4-6、claude-sonnet-4-5、claude-sonnet-4-0、claude-opus-4-0、claude-3-5-sonnet-latest`
</details>
<details>
<summary>Gemini</summary>
API Key 创建:在 [控制台](https://aistudio.google.com/app/apikey?hl=zh-cn) 创建 API Key ,配置如下
```json
{
"model": "gemini-3.1-flash-lite-preview",
"gemini_api_key": ""
}
```
- `model`: 参考[官方文档-模型列表](https://ai.google.dev/gemini-api/docs/models?hl=zh-cn),支持 `gemini-3.1-flash-lite-preview、gemini-3.1-pro-preview、gemini-3-flash-preview、gemini-3-pro-preview`
</details>
<details>
<summary>OpenAI</summary>
@@ -323,55 +425,6 @@ sudo docker logs -f chatgpt-on-wechat
- `bot_type`: 使用 OpenAI 相关模型时无需填写。当使用第三方代理接口接入 Claude 等非 OpenAI 官方模型时,该参数设为 `openai`
</details>
<details>
<summary>LinkAI</summary>
1. API Key 创建:在 [LinkAI平台](https://link-ai.tech/console/interface) 创建 API Key
2. 填写配置
```json
{
"model": "gpt-5.4-mini",
"use_linkai": true,
"linkai_api_key": "YOUR API KEY"
}
```
+ `use_linkai`: 是否使用 LinkAI 接口,默认关闭,设置为 true 后可对接 LinkAI 平台的模型,并使用知识库、工作流、数据库、插件等丰富的 Agent 技能
+ `linkai_api_key`: LinkAI 平台的 API Key可在 [控制台](https://link-ai.tech/console/interface) 中创建
+ `model`: [模型列表](https://link-ai.tech/console/models)中的全部模型均可使用
</details>
<details>
<summary>MiniMax</summary>
方式一:官方接入,配置如下(推荐)
```json
{
"model": "MiniMax-M2.7",
"minimax_api_key": ""
}
```
- `model`: 可填写 `MiniMax-M2.7、MiniMax-M2.5、MiniMax-M2.1、MiniMax-M2.1-lightning、MiniMax-M2、abab6.5-chat`
- `minimax_api_key`MiniMax 平台的 API-KEY在 [控制台](https://platform.minimaxi.com/user-center/basic-information/interface-key) 创建
方式二OpenAI 兼容方式接入,配置如下:
```json
{
"bot_type": "openai",
"model": "MiniMax-M2.7",
"open_ai_api_base": "https://api.minimaxi.com/v1",
"open_ai_api_key": ""
}
```
- `bot_type`: OpenAI 兼容方式
- `model`: 可填 `MiniMax-M2.7、MiniMax-M2.5、MiniMax-M2.1、MiniMax-M2.1-lightning、MiniMax-M2`,参考[API文档](https://platform.minimaxi.com/document/%E5%AF%B9%E8%AF%9D?key=66701d281d57f38758d581d0#QklxsNSbaf6kM4j6wjO5eEek)
- `open_ai_api_base`: MiniMax 平台 API 的 BASE URL
- `open_ai_api_key`: MiniMax 平台的 API-KEY
</details>
<details>
<summary>智谱AI (GLM)</summary>
@@ -379,24 +432,24 @@ sudo docker logs -f chatgpt-on-wechat
```json
{
"model": "glm-5-turbo",
"model": "glm-5.1",
"zhipu_ai_api_key": ""
}
```
- `model`: 可填 `glm-5-turbo、glm-5、glm-4.7、glm-4-plus、glm-4-flash、glm-4-air、glm-4-airx、glm-4-long` 等, 参考 [glm 系列模型编码](https://bigmodel.cn/dev/api/normal-model/glm-4)
- `model`: 可填 `glm-5.1、glm-5-turbo、glm-5、glm-4.7、glm-4-plus、glm-4-flash、glm-4-air、glm-4-airx、glm-4-long` 等, 参考 [glm 系列模型编码](https://bigmodel.cn/dev/api/normal-model/glm-4)
- `zhipu_ai_api_key`: 智谱AI 平台的 API KEY在 [控制台](https://www.bigmodel.cn/usercenter/proj-mgmt/apikeys) 创建
方式二OpenAI 兼容方式接入,配置如下:
```json
{
"bot_type": "openai",
"model": "glm-5-turbo",
"model": "glm-5.1",
"open_ai_api_base": "https://open.bigmodel.cn/api/paas/v4",
"open_ai_api_key": ""
}
```
- `bot_type`: OpenAI 兼容方式
- `model`: 可填 `glm-5-turbo、glm-5、glm-4.7、glm-4-plus、glm-4-flash、glm-4-air、glm-4-airx、glm-4-long`
- `model`: 可填 `glm-5.1、glm-5-turbo、glm-5、glm-4.7、glm-4-plus、glm-4-flash、glm-4-air、glm-4-airx、glm-4-long`
- `open_ai_api_base`: 智谱AI 平台的 BASE URL
- `open_ai_api_key`: 智谱AI 平台的 API KEY
</details>
@@ -408,18 +461,18 @@ sudo docker logs -f chatgpt-on-wechat
```json
{
"model": "qwen3.5-plus",
"model": "qwen3.6-plus",
"dashscope_api_key": "sk-qVxxxxG"
}
```
- `model`: 可填写 `qwen3.5-plus、qwen3-max、qwen-max、qwen-plus、qwen-turbo、qwen-long、qwq-plus`
- `dashscope_api_key`: 通义千问的 API-KEY参考 [官方文档](https://bailian.console.aliyun.com/?tab=api#/api) ,在 [控制台](https://bailian.console.aliyun.com/?tab=model#/api-key) 创建
- `model`: 可填写 `qwen3.6-plus、qwen3.5-plus、qwen3-max、qwen-max、qwen-plus、qwen-turbo、qwen-long、qwq-plus`
- `dashscope_api_key`: 通义千问的 API-KEY参考 [官方文档](https://bailian.console.aliyun.com/?tab=api#/api) ,在 [百炼控制台](https://bailian.console.aliyun.com/?tab=model#/api-key) 创建
方式二OpenAI 兼容方式接入,配置如下:
```json
{
"bot_type": "openai",
"model": "qwen3.5-plus",
"model": "qwen3.6-plus",
"open_ai_api_base": "https://dashscope.aliyuncs.com/compatible-mode/v1",
"open_ai_api_key": "sk-qVxxxxG"
}
@@ -430,35 +483,6 @@ sudo docker logs -f chatgpt-on-wechat
- `open_ai_api_key`: 通义千问的 API-KEY
</details>
<details>
<summary>Kimi (Moonshot)</summary>
方式一:官方接入,配置如下:
```json
{
"model": "kimi-k2.5",
"moonshot_api_key": ""
}
```
- `model`: 可填写 `kimi-k2.5、kimi-k2、moonshot-v1-8k、moonshot-v1-32k、moonshot-v1-128k`
- `moonshot_api_key`: Moonshot 的 API-KEY在 [控制台](https://platform.moonshot.cn/console/api-keys) 创建
方式二OpenAI 兼容方式接入,配置如下:
```json
{
"bot_type": "openai",
"model": "kimi-k2.5",
"open_ai_api_base": "https://api.moonshot.cn/v1",
"open_ai_api_key": ""
}
```
- `bot_type`: OpenAI 兼容方式
- `model`: 可填写 `kimi-k2.5、kimi-k2、moonshot-v1-8k、moonshot-v1-32k、moonshot-v1-128k`
- `open_ai_api_base`: Moonshot 的 BASE URL
- `open_ai_api_key`: Moonshot 的 API-KEY
</details>
<details>
<summary>豆包 (Doubao)</summary>
@@ -478,67 +502,74 @@ sudo docker logs -f chatgpt-on-wechat
</details>
<details>
<summary>Claude</summary>
<summary>Kimi (Moonshot)</summary>
1. API Key 创建:在 [Claude控制台](https://console.anthropic.com/settings/keys) 创建 API Key
方式一:官方接入,配置如下:
```json
{
"model": "kimi-k2.6",
"moonshot_api_key": ""
}
```
- `model`: 可填写 `kimi-k2.6、kimi-k2.5、kimi-k2、moonshot-v1-8k、moonshot-v1-32k、moonshot-v1-128k`
- `moonshot_api_key`: Moonshot 的 API-KEY在 [控制台](https://platform.moonshot.cn/console/api-keys) 创建
方式二OpenAI 兼容方式接入,配置如下:
```json
{
"bot_type": "openai",
"model": "kimi-k2.6",
"open_ai_api_base": "https://api.moonshot.cn/v1",
"open_ai_api_key": ""
}
```
- `bot_type`: OpenAI 兼容方式
- `model`: 可填写 `kimi-k2.6、kimi-k2.5、kimi-k2、moonshot-v1-8k、moonshot-v1-32k、moonshot-v1-128k`
- `open_ai_api_base`: Moonshot 的 BASE URL
- `open_ai_api_key`: Moonshot 的 API-KEY
</details>
<details>
<summary>ModelScope</summary>
```json
{
"bot_type": "modelscope",
"model": "Qwen/QwQ-32B",
"modelscope_api_key": "your_api_key",
"modelscope_base_url": "https://api-inference.modelscope.cn/v1/chat/completions",
"text_to_image": "MusePublic/489_ckpt_FLUX_1"
}
```
- `bot_type`: modelscope 接口格式
- `model`: 参考[模型列表](https://www.modelscope.cn/models?filter=inference_type&page=1)
- `modelscope_api_key`: 参考 [官方文档-访问令牌](https://modelscope.cn/docs/accounts/token) ,在 [控制台](https://modelscope.cn/my/myaccesstoken)
- `modelscope_base_url`: modelscope 平台的 BASE URL
- `text_to_image`: 图像生成模型,参考[模型列表](https://www.modelscope.cn/models?filter=inference_type&page=1)
</details>
<details>
<summary>LinkAI</summary>
1. API Key 创建:在 [LinkAI平台](https://link-ai.tech/console/interface) 创建 API Key
2. 填写配置
```json
{
"model": "claude-sonnet-4-6",
"claude_api_key": "YOUR_API_KEY"
"model": "gpt-5.4-mini",
"use_linkai": true,
"linkai_api_key": "YOUR API KEY"
}
```
- `model`: 参考 [官方模型ID](https://docs.anthropic.com/en/docs/about-claude/models/overview#model-aliases) ,支持 `claude-sonnet-4-6、claude-opus-4-6、claude-sonnet-4-5、claude-sonnet-4-0、claude-opus-4-0、claude-3-5-sonnet-latest`
+ `use_linkai`: 是否使用 LinkAI 接口,默认关闭,设置为 true 后可对接 LinkAI 平台的模型,并使用知识库、工作流、数据库、插件等丰富的 Agent 技能
+ `linkai_api_key`: LinkAI 平台的 API Key可在 [控制台](https://link-ai.tech/console/interface) 中创建
+ `model`: [模型列表](https://link-ai.tech/console/models)中的全部模型均可使用
</details>
<details>
<summary>Gemini</summary>
API Key 创建:在 [控制台](https://aistudio.google.com/app/apikey?hl=zh-cn) 创建 API Key ,配置如下
```json
{
"model": "gemini-3.1-flash-lite-preview",
"gemini_api_key": ""
}
```
- `model`: 参考[官方文档-模型列表](https://ai.google.dev/gemini-api/docs/models?hl=zh-cn),支持 `gemini-3.1-flash-lite-preview、gemini-3.1-pro-preview、gemini-3-flash-preview、gemini-3-pro-preview`
</details>
<details>
<summary>DeepSeek</summary>
1. API Key 创建:在 [DeepSeek 平台](https://platform.deepseek.com/api_keys) 创建 API Key
2. 填写配置
方式一:官方接入(推荐):
```json
{
"model": "deepseek-chat",
"deepseek_api_key": "sk-xxxxxxxxxxx"
}
```
- `model`: 可填 `deepseek-chat、deepseek-reasoner`,分别对应的是 DeepSeek-V3.2(非思考模式)和 DeepSeek-R1思考模式
- `deepseek_api_key`: DeepSeek 平台的 API Key
- `deepseek_api_base`: 可选,默认为 `https://api.deepseek.com/v1`,可修改为第三方代理地址
方式二OpenAI 兼容方式接入:
```json
{
"model": "deepseek-chat",
"bot_type": "openai",
"open_ai_api_key": "sk-xxxxxxxxxxx",
"open_ai_api_base": "https://api.deepseek.com/v1"
}
```
</details>
<details>
<summary>Azure</summary>
@@ -631,26 +662,6 @@ API Key 创建:在 [控制台](https://aistudio.google.com/app/apikey?hl=zh-cn
- `open_ai_api_key`: 讯飞星火平台的[APIPassword](https://console.xfyun.cn/services/bm3) ,因模型而已
</details>
<details>
<summary>ModelScope</summary>
```json
{
"bot_type": "modelscope",
"model": "Qwen/QwQ-32B",
"modelscope_api_key": "your_api_key",
"modelscope_base_url": "https://api-inference.modelscope.cn/v1/chat/completions",
"text_to_image": "MusePublic/489_ckpt_FLUX_1"
}
```
- `bot_type`: modelscope 接口格式
- `model`: 参考[模型列表](https://www.modelscope.cn/models?filter=inference_type&page=1)
- `modelscope_api_key`: 参考 [官方文档-访问令牌](https://modelscope.cn/docs/accounts/token) ,在 [控制台](https://modelscope.cn/my/myaccesstoken)
- `modelscope_base_url`: modelscope 平台的 BASE URL
- `text_to_image`: 图像生成模型,参考[模型列表](https://www.modelscope.cn/models?filter=inference_type&page=1)
</details>
<details>
<summary>Coding Plan</summary>
@@ -671,7 +682,7 @@ Coding Plan 是各厂商推出的编程包月套餐,所有厂商均可通过 O
## 通道说明
以下对可接入通道配置方式进行说明,应用通道代码在项目的 `channel/` 目录下。
推荐通过 Web 控制台在线管理通道配置,无需手动编辑文件,详见 [通道文档](https://docs.cowagent.ai/channels/weixin)。以下为手动修改 `config.json` 配置通道的说明:
支持同时可接入多个通道,配置时可通过逗号进行分割,例如 `"channel_type": "feishu,dingtalk"`
@@ -705,6 +716,7 @@ Coding Plan 是各厂商推出的编程包月套餐,所有厂商均可通过 O
```
- `web_port`: 默认为 9899可按需更改需要服务器防火墙和安全组放行该端口
- `web_password`: 访问密码,留空则不启用密码保护。部署在公网环境时建议设置
- 如本地运行,启动后请访问 `http://localhost:9899/chat` ;如服务器运行,请访问 `http://ip:9899/chat`
> 注:请将上述 url 中的 ip 或者 port 替换为实际的值
</details>
@@ -866,25 +878,37 @@ QQ 机器人使用 WebSocket 长连接模式,无需公网 IP 和域名,支
# 🔗 相关项目
- [Cow Skill Hub](https://github.com/zhayujie/cow-skill-hub):开源的 AI Agent 技能广场,浏览、搜索、安装和发布技能,支持 CowAgent、OpenClaw、Claude Code 等多种 Agent。
- [bot-on-anything](https://github.com/zhayujie/bot-on-anything):轻量和高可扩展的大模型应用框架,支持接入 Slack, Telegram, Discord, Gmail 等海外平台,可作为本项目的补充使用。
- [AgentMesh](https://github.com/MinimalFuture/AgentMesh):开源的多智能体( Multi-Agent )框架,可以通过多智能体团队的协同来解决复杂问题。本项目基于该框架实现了[Agent 插件](https://github.com/zhayujie/chatgpt-on-wechat/blob/master/plugins/agent/README.md),可访问终端、浏览器、文件系统、搜索引擎 等各类工具,并实现了多智能体协同。
- [AgentMesh](https://github.com/MinimalFuture/AgentMesh):开源的多智能体( Multi-Agent )框架,可以通过多智能体团队的协同来解决复杂问题。
# 🔎 常见问题
FAQs <https://github.com/zhayujie/chatgpt-on-wechat/wiki/FAQs>
FAQs <https://github.com/zhayujie/CowAgent/wiki/FAQs>
或直接在线咨询 [项目小助手](https://link-ai.tech/app/Kv2fXJcH) (知识库持续完善中,回复供参考)
# 🛠️ 开发
欢迎接入更多应用通道,参考 [飞书通道](https://github.com/zhayujie/chatgpt-on-wechat/blob/master/channel/feishu/feishu_channel.py) 新增自定义通道,实现接收和发送消息逻辑即可完成接入。同时欢迎贡献新的 Skills参考 [技能创建文档](https://docs.cowagent.ai/skills/create)
欢迎接入更多应用通道,参考 [飞书通道](https://github.com/zhayujie/CowAgent/blob/master/channel/feishu/feishu_channel.py) 新增自定义通道,实现接收和发送消息逻辑即可完成接入。同时欢迎贡献新的 Skills [Skill Hub](https://skills.cowagent.ai/submit) 提交技能
# ✉ 联系
欢迎提交PR、Issues进行反馈以及通过 🌟Star 支持并关注项目更新。项目运行遇到问题可以查看 [常见问题列表](https://github.com/zhayujie/chatgpt-on-wechat/wiki/FAQs) ,以及前往 [Issues](https://github.com/zhayujie/chatgpt-on-wechat/issues) 中搜索。个人开发者可加入开源交流群参与更多讨论,企业用户可联系[产品客服](https://cdn.link-ai.tech/portal/linkai-customer-service.png)咨询。
欢迎提交PR、Issues进行反馈以及通过 🌟Star 支持并关注项目更新。项目运行遇到问题可以查看 [常见问题列表](https://github.com/zhayujie/CowAgent/wiki/FAQs) ,以及前往 [Issues](https://github.com/zhayujie/CowAgent/issues) 中搜索。个人开发者可加入开源交流群参与更多讨论,企业用户可联系[产品客服](https://cdn.link-ai.tech/portal/linkai-customer-service.png)咨询。
# 🌟 贡献者
![cow contributors](https://contrib.rocks/image?repo=zhayujie/chatgpt-on-wechat&max=1000)
![cow contributors](https://contrib.rocks/image?repo=zhayujie/CowAgent&max=1000)
# 📌 项目更名说明
本项目原名 `chatgpt-on-wechat`GitHub 原地址https://github.com/zhayujie/chatgpt-on-wechat
于 2026.04.13 正式更名为 **CowAgent**。GitHub 已自动设置重定向,原有链接仍可正常访问。
如需更新本地仓库的远程地址(可选):
```bash
git remote set-url origin https://github.com/zhayujie/CowAgent.git
```

11
agent/chat/service.py
View File

@@ -57,7 +57,16 @@ class ChatService:
event_type = event.get("type")
data = event.get("data", {})
if event_type == "message_update":
if event_type == "reasoning_update":
delta = data.get("delta", "")
if delta:
send_chunk_fn({
"chunk_type": "reasoning",
"delta": delta,
"segment_id": state.segment_id,
})
elif event_type == "message_update":
# Incremental text delta
delta = data.get("delta", "")
if delta:

241
agent/chat/session_service.py Normal file
View File

@@ -0,0 +1,241 @@
"""
SessionService - Manages multi-session lifecycle for both web channel and cloud client.
Provides a unified interface for listing, deleting, renaming, clearing context,
and generating AI titles for conversation sessions. Backed by ConversationStore
(SQLite) and AgentBridge (in-memory agent instances).
"""
import re
from typing import Optional
from common.log import logger
def _truncate_fallback_title(user_message: str, max_len: int = 30) -> str:
"""Pick the first non-empty line of the user message and truncate it."""
if not user_message:
return "New Chat"
first_line = ""
for line in user_message.splitlines():
line = line.strip()
if line:
first_line = line
break
if not first_line:
return "New Chat"
if len(first_line) > max_len:
first_line = first_line[:max_len].rstrip() + "..."
return first_line
def generate_session_title(user_message: str, assistant_reply: str = "") -> str:
"""
Generate a short session title by calling the current bot's reply_text.
Falls back to the first line of the user message if the LLM call fails
or returns an obvious error sentinel.
"""
fallback = _truncate_fallback_title(user_message)
try:
from bridge.bridge import Bridge
from models.session_manager import Session
bot = Bridge().get_bot("chat")
prompt_parts = [f"User: {user_message[:300]}"]
if assistant_reply:
prompt_parts.append(f"Assistant: {assistant_reply[:300]}")
session = Session("__title_gen__", system_prompt="")
session.messages = [
{"role": "user", "content": (
"Generate a very short title (max 15 characters for Chinese, max 6 words for English) "
"summarizing this conversation. Return ONLY the title text, nothing else.\n\n"
+ "\n".join(prompt_parts)
)}
]
result = bot.reply_text(session) or {}
# When bots fail (network error, auth error, rate limit, etc.) they
# typically return completion_tokens=0 with a sentinel content like
# "请再问我一次吧" / "我现在有点累了". Treat that as failure.
completion_tokens = result.get("completion_tokens", 0) or 0
raw = (result.get("content") or "").strip()
if completion_tokens <= 0:
logger.warning(
f"[SessionService] Title generation got empty completion "
f"(completion_tokens={completion_tokens}, content='{raw[:50]}'), "
f"using fallback")
return fallback
title = re.sub(r'<think>.*?</think>', '', raw, flags=re.DOTALL).strip().strip('"\'')
logger.info(f"[SessionService] Title generation result: '{title}' (len={len(title)})")
if title and len(title) <= 50:
return title
except Exception as e:
logger.warning(f"[SessionService] Title generation failed: {e}")
return fallback
class SessionService:
"""
High-level service for session lifecycle management.
Usage:
svc = SessionService()
result = svc.dispatch("list", {"channel_type": "web", "page": 1})
"""
def _get_store(self):
from agent.memory import get_conversation_store
return get_conversation_store()
def _remove_agent(self, session_id: str):
"""Remove the in-memory Agent instance for a session if it exists."""
try:
from bridge.bridge import Bridge
ab = Bridge().get_agent_bridge()
if session_id in ab.agents:
del ab.agents[session_id]
logger.info(f"[SessionService] Removed agent instance: {session_id}")
except Exception:
pass
@staticmethod
def _normalize_sid(session_id: str) -> str:
if session_id and not session_id.startswith("session_"):
return f"session_{session_id}"
return session_id
# ------------------------------------------------------------------
# actions
# ------------------------------------------------------------------
def list_sessions(self, channel_type: Optional[str] = None,
page: int = 1, page_size: int = 50) -> dict:
store = self._get_store()
return store.list_sessions(
channel_type=channel_type,
page=page,
page_size=page_size,
)
def delete_session(self, session_id: str) -> None:
if not session_id:
raise ValueError("session_id required")
session_id = self._normalize_sid(session_id)
store = self._get_store()
store.clear_session(session_id)
self._remove_agent(session_id)
logger.info(f"[SessionService] Session deleted: {session_id}")
def rename_session(self, session_id: str, title: str) -> None:
if not session_id:
raise ValueError("session_id required")
if not title:
raise ValueError("title required")
session_id = self._normalize_sid(session_id)
store = self._get_store()
found = store.rename_session(session_id, title)
if not found:
raise ValueError("session not found")
def clear_context(self, session_id: str) -> int:
"""
Set context boundary. Returns the new context_start_seq value.
"""
if not session_id:
raise ValueError("session_id required")
session_id = self._normalize_sid(session_id)
store = self._get_store()
new_seq = store.clear_context(session_id)
self._remove_agent(session_id)
return new_seq
def gen_title(self, session_id: str, user_message: str,
assistant_reply: str = "") -> str:
"""
Generate an AI title and persist it. Returns the generated title.
"""
if not session_id:
raise ValueError("session_id required")
if not user_message:
raise ValueError("user_message required")
session_id = self._normalize_sid(session_id)
title = generate_session_title(user_message, assistant_reply)
store = self._get_store()
updated = store.rename_session(session_id, title)
logger.info(f"[SessionService] Title set: sid={session_id}, "
f"title='{title}', db_updated={updated}")
return title
# ------------------------------------------------------------------
# dispatch — single entry point for protocol messages
# ------------------------------------------------------------------
def dispatch(self, action: str, payload: Optional[dict] = None) -> dict:
"""
Dispatch a session management action and return a protocol-compatible
response dict.
Action names use a ``*_session`` / session-prefixed convention so they
can coexist with history actions (e.g. ``query``) on the same HISTORY
message channel without ambiguity.
Supported actions:
- list_sessions: list sessions with pagination
- delete_session: delete a session
- rename_session: rename a session title
- clear_context: set context boundary
- generate_title: AI-generate a session title
:param action: one of the above action names
:param payload: action-specific payload
:return: dict with action, code, message, payload
"""
payload = payload or {}
try:
if action == "list_sessions":
result = self.list_sessions(
channel_type=payload.get("channel_type"),
page=int(payload.get("page", 1)),
page_size=int(payload.get("page_size", 50)),
)
return {"action": action, "code": 200, "message": "success", "payload": result}
elif action == "delete_session":
self.delete_session(payload.get("session_id", ""))
return {"action": action, "code": 200, "message": "success", "payload": None}
elif action == "rename_session":
self.rename_session(
payload.get("session_id", ""),
payload.get("title", "").strip(),
)
return {"action": action, "code": 200, "message": "success", "payload": None}
elif action == "clear_context":
new_seq = self.clear_context(payload.get("session_id", ""))
return {"action": action, "code": 200, "message": "success",
"payload": {"context_start_seq": new_seq}}
elif action == "generate_title":
title = self.gen_title(
payload.get("session_id", ""),
payload.get("user_message", ""),
payload.get("assistant_reply", ""),
)
return {"action": action, "code": 200, "message": "success",
"payload": {"title": title}}
else:
return {"action": action, "code": 400,
"message": f"unknown action: {action}", "payload": None}
except ValueError as e:
return {"action": action, "code": 400, "message": str(e), "payload": None}
except Exception as e:
logger.error(f"[SessionService] dispatch error: action={action}, error={e}")
return {"action": action, "code": 500, "message": str(e), "payload": None}

0
agent/knowledge/__init__.py Normal file
View File

240
agent/knowledge/service.py Normal file
View File

@@ -0,0 +1,240 @@
"""
Knowledge service for handling knowledge base operations.
Provides a unified interface for listing, reading, and graphing knowledge files,
callable from the web console, API, or CLI.
Knowledge file layout (under workspace_root):
knowledge/index.md
knowledge/log.md
knowledge/<category>/<slug>.md
"""
import os
import re
from pathlib import Path
from typing import Optional
from common.log import logger
from config import conf
class KnowledgeService:
"""
High-level service for knowledge base queries.
Operates directly on the filesystem.
"""
def __init__(self, workspace_root: str):
self.workspace_root = workspace_root
self.knowledge_dir = os.path.join(workspace_root, "knowledge")
# ------------------------------------------------------------------
# list — directory tree with stats
# ------------------------------------------------------------------
def list_tree(self) -> dict:
"""
Return the knowledge directory tree grouped by category,
supporting arbitrarily nested sub-directories.
Returns::
{
"tree": [
{
"dir": "concepts",
"files": [
{"name": "moe.md", "title": "MoE", "size": 1234},
],
"children": []
},
{
"dir": "platform",
"files": [],
"children": [
{
"dir": "analysis",
"files": [{"name": "perf.md", ...}],
"children": []
}
]
},
],
"stats": {"pages": 15, "size": 32768},
"enabled": true
}
"""
if not os.path.isdir(self.knowledge_dir):
return {"tree": [], "stats": {"pages": 0, "size": 0}, "enabled": conf().get("knowledge", True)}
stats = {"pages": 0, "size": 0}
root_files, tree = self._scan_dir(self.knowledge_dir, stats, is_root=True)
return {
"root_files": root_files,
"tree": tree,
"stats": stats,
"enabled": conf().get("knowledge", True),
}
def _scan_dir(self, dir_path: str, stats: dict, is_root: bool = False) -> tuple:
"""
Recursively scan a directory.
:return: (files, children) where files is a list of .md file dicts
in this directory and children is a list of sub-directory nodes.
"""
files = []
children = []
for name in sorted(os.listdir(dir_path)):
if name.startswith("."):
continue
full = os.path.join(dir_path, name)
if os.path.isdir(full):
sub_files, sub_children = self._scan_dir(full, stats)
children.append({"dir": name, "files": sub_files, "children": sub_children})
elif name.endswith(".md"):
size = os.path.getsize(full)
if not is_root:
stats["pages"] += 1
stats["size"] += size
title = name.replace(".md", "")
try:
with open(full, "r", encoding="utf-8") as f:
first_line = f.readline().strip()
if first_line.startswith("# "):
title = first_line[2:].strip()
except Exception:
pass
files.append({"name": name, "title": title, "size": size})
return files, children
# ------------------------------------------------------------------
# read — single file content
# ------------------------------------------------------------------
def read_file(self, rel_path: str) -> dict:
"""
Read a single knowledge markdown file.
:param rel_path: Relative path within knowledge/, e.g. ``concepts/moe.md``
:return: dict with ``content`` and ``path``
:raises ValueError: if path is invalid or escapes knowledge dir
:raises FileNotFoundError: if file does not exist
"""
if not rel_path or ".." in rel_path:
raise ValueError("invalid path")
full_path = os.path.normpath(os.path.join(self.knowledge_dir, rel_path))
allowed = os.path.normpath(self.knowledge_dir)
if not full_path.startswith(allowed + os.sep) and full_path != allowed:
raise ValueError("path outside knowledge dir")
if not os.path.isfile(full_path):
raise FileNotFoundError(f"file not found: {rel_path}")
with open(full_path, "r", encoding="utf-8") as f:
content = f.read()
return {"content": content, "path": rel_path}
# ------------------------------------------------------------------
# graph — nodes and links for visualization
# ------------------------------------------------------------------
def build_graph(self) -> dict:
"""
Parse all knowledge pages and extract cross-reference links.
Returns::
{
"nodes": [
{"id": "concepts/moe.md", "label": "MoE", "category": "concepts"},
...
],
"links": [
{"source": "concepts/moe.md", "target": "entities/deepseek.md"},
...
]
}
"""
knowledge_path = Path(self.knowledge_dir)
if not knowledge_path.is_dir():
return {"nodes": [], "links": []}
nodes = {}
links = []
link_re = re.compile(r'\[([^\]]*)\]\(([^)]+\.md)\)')
for md_file in knowledge_path.rglob("*.md"):
rel = str(md_file.relative_to(knowledge_path))
if rel in ("index.md", "log.md"):
continue
parts = rel.split("/")
category = parts[0] if len(parts) > 1 else "root"
title = md_file.stem.replace("-", " ").title()
try:
content = md_file.read_text(encoding="utf-8")
first_line = content.strip().split("\n")[0]
if first_line.startswith("# "):
title = first_line[2:].strip()
for _, link_target in link_re.findall(content):
resolved = (md_file.parent / link_target).resolve()
try:
target_rel = str(resolved.relative_to(knowledge_path))
except ValueError:
continue
if target_rel != rel:
links.append({"source": rel, "target": target_rel})
except Exception:
pass
nodes[rel] = {"id": rel, "label": title, "category": category}
valid_ids = set(nodes.keys())
links = [l for l in links if l["source"] in valid_ids and l["target"] in valid_ids]
seen = set()
deduped = []
for l in links:
key = tuple(sorted([l["source"], l["target"]]))
if key not in seen:
seen.add(key)
deduped.append(l)
return {"nodes": list(nodes.values()), "links": deduped}
# ------------------------------------------------------------------
# dispatch — single entry point for protocol messages
# ------------------------------------------------------------------
def dispatch(self, action: str, payload: Optional[dict] = None) -> dict:
"""
Dispatch a knowledge management action.
:param action: ``list``, ``read``, or ``graph``
:param payload: action-specific payload
:return: protocol-compatible response dict
"""
payload = payload or {}
try:
if action == "list":
result = self.list_tree()
return {"action": action, "code": 200, "message": "success", "payload": result}
elif action == "read":
path = payload.get("path")
if not path:
return {"action": action, "code": 400, "message": "path is required", "payload": None}
result = self.read_file(path)
return {"action": action, "code": 200, "message": "success", "payload": result}
elif action == "graph":
result = self.build_graph()
return {"action": action, "code": 200, "message": "success", "payload": result}
else:
return {"action": action, "code": 400, "message": f"unknown action: {action}", "payload": None}
except ValueError as e:
return {"action": action, "code": 403, "message": str(e), "payload": None}
except FileNotFoundError as e:
return {"action": action, "code": 404, "message": str(e), "payload": None}
except Exception as e:
logger.error(f"[KnowledgeService] dispatch error: action={action}, error={e}")
return {"action": action, "code": 500, "message": str(e), "payload": None}

301
agent/memory/conversation_store.py
View File

@@ -28,11 +28,13 @@ from common.log import logger
_DDL = """
CREATE TABLE IF NOT EXISTS sessions (
session_id TEXT PRIMARY KEY,
channel_type TEXT NOT NULL DEFAULT '',
created_at INTEGER NOT NULL,
last_active INTEGER NOT NULL,
msg_count INTEGER NOT NULL DEFAULT 0
session_id TEXT PRIMARY KEY,
channel_type TEXT NOT NULL DEFAULT '',
title TEXT NOT NULL DEFAULT '',
context_start_seq INTEGER NOT NULL DEFAULT 0,
created_at INTEGER NOT NULL,
last_active INTEGER NOT NULL,
msg_count INTEGER NOT NULL DEFAULT 0
);
CREATE TABLE IF NOT EXISTS messages (
@@ -57,6 +59,14 @@ _MIGRATION_ADD_CHANNEL_TYPE = """
ALTER TABLE sessions ADD COLUMN channel_type TEXT NOT NULL DEFAULT '';
"""
_MIGRATION_ADD_TITLE = """
ALTER TABLE sessions ADD COLUMN title TEXT NOT NULL DEFAULT '';
"""
_MIGRATION_ADD_CONTEXT_START_SEQ = """
ALTER TABLE sessions ADD COLUMN context_start_seq INTEGER NOT NULL DEFAULT 0;
"""
DEFAULT_MAX_AGE_DAYS: int = 30
@@ -129,6 +139,7 @@ def _extract_tool_results(content: Any) -> Dict[str, str]:
def _group_into_display_turns(
rows: List[tuple],
include_thinking: bool = True,
) -> List[Dict[str, Any]]:
"""
Convert raw (role, content_json, created_at) DB rows into display turns.
@@ -188,8 +199,9 @@ def _group_into_display_turns(
if text:
turns.append({"role": "user", "content": text, "created_at": created_at})
# Collect all tool_calls and tool_results from the rest of the group
all_tool_calls: List[Dict[str, Any]] = []
# Build an ordered list of steps preserving the original sequence:
# thinking → content → tool_call → content → ...
steps: List[Dict[str, Any]] = []
tool_results: Dict[str, str] = {}
final_text = ""
final_ts: Optional[int] = None
@@ -198,24 +210,48 @@ def _group_into_display_turns(
if role == "user":
tool_results.update(_extract_tool_results(content))
elif role == "assistant":
tcs = _extract_tool_calls(content)
all_tool_calls.extend(tcs)
t = _extract_display_text(content)
if t:
final_text = t
# Walk content blocks in order to preserve interleaving
if isinstance(content, list):
for block in content:
if not isinstance(block, dict):
continue
btype = block.get("type")
if btype == "thinking":
if not include_thinking:
continue
txt = block.get("thinking", "").strip()
if txt:
steps.append({"type": "thinking", "content": txt})
elif btype == "text":
txt = block.get("text", "").strip()
if txt:
steps.append({"type": "content", "content": txt})
final_text = txt
elif btype == "tool_use":
steps.append({
"type": "tool",
"id": block.get("id", ""),
"name": block.get("name", ""),
"arguments": block.get("input", {}),
})
elif isinstance(content, str) and content.strip():
steps.append({"type": "content", "content": content.strip()})
final_text = content.strip()
final_ts = created_at
# Attach tool results to their matching tool_call entries
for tc in all_tool_calls:
tc["result"] = tool_results.get(tc.get("id", ""), "")
# Attach tool results to tool steps
for step in steps:
if step["type"] == "tool":
step["result"] = tool_results.get(step.get("id", ""), "")
if final_text or all_tool_calls:
turns.append({
if steps or final_text:
turn = {
"role": "assistant",
"content": final_text,
"tool_calls": all_tool_calls,
"steps": steps,
"created_at": final_ts or (user_row[1] if user_row else 0),
})
}
turns.append(turn)
return turns
@@ -264,14 +300,21 @@ class ConversationStore:
with self._lock:
conn = self._connect()
try:
# Respect context_start_seq: only load messages at or after the boundary
ctx_row = conn.execute(
"SELECT context_start_seq FROM sessions WHERE session_id = ?",
(session_id,),
).fetchone()
ctx_start = ctx_row[0] if ctx_row else 0
rows = conn.execute(
"""
SELECT seq, role, content
FROM messages
WHERE session_id = ?
WHERE session_id = ? AND seq >= ?
ORDER BY seq DESC
""",
(session_id,),
(session_id, ctx_start),
).fetchall()
finally:
conn.close()
@@ -279,10 +322,7 @@ class ConversationStore:
if not rows:
return []
# Walk newest-to-oldest counting *visible* user turns (actual user text,
# not tool_result injections). Record the seq of every visible user
# message so we can find a clean cut point later.
visible_turn_seqs: List[int] = [] # newest first
visible_turn_seqs: List[int] = []
for seq, role, raw_content in rows:
if role != "user":
continue
@@ -293,17 +333,11 @@ class ConversationStore:
if _is_visible_user_message(content):
visible_turn_seqs.append(seq)
# Determine the seq of the oldest visible user message we want to keep.
# If the total turns fit within max_turns, keep everything.
if len(visible_turn_seqs) <= max_turns:
cutoff_seq = None # keep all
cutoff_seq = None
else:
# The Nth visible user message (0-indexed) is the oldest we keep.
cutoff_seq = visible_turn_seqs[max_turns - 1]
# Build result in chronological order, starting from cutoff.
# IMPORTANT: we start exactly at cutoff_seq (the visible user message),
# never mid-group, so tool_use / tool_result pairs are always complete.
result = []
for seq, role, raw_content in reversed(rows):
if cutoff_seq is not None and seq < cutoff_seq:
@@ -312,6 +346,9 @@ class ConversationStore:
content = json.loads(raw_content)
except Exception:
content = raw_content
# Strip thinking blocks — they are stored for UI display only
if role == "assistant" and isinstance(content, list):
content = [b for b in content if b.get("type") != "thinking"]
result.append({"role": role, "content": content})
return result
@@ -389,6 +426,61 @@ class ConversationStore:
""",
(session_id, session_id),
)
# Auto-generate title from the first visible user message
cur_title = conn.execute(
"SELECT title FROM sessions WHERE session_id = ?",
(session_id,),
).fetchone()
if cur_title and not cur_title[0]:
for msg in messages:
if msg.get("role") == "user":
content = msg.get("content", "")
text = _extract_display_text(content)
if text:
title = text[:50].split("\n")[0]
conn.execute(
"UPDATE sessions SET title = ? WHERE session_id = ?",
(title, session_id),
)
break
finally:
conn.close()
def clear_context(self, session_id: str) -> int:
"""
Set the context boundary to after the current last message.
Messages before this boundary are still stored but excluded from LLM context.
Returns the new context_start_seq value.
"""
with self._lock:
conn = self._connect()
try:
with conn:
row = conn.execute(
"SELECT COALESCE(MAX(seq), -1) FROM messages WHERE session_id = ?",
(session_id,),
).fetchone()
new_start = row[0] + 1
conn.execute(
"UPDATE sessions SET context_start_seq = ? WHERE session_id = ?",
(new_start, session_id),
)
return new_start
finally:
conn.close()
def get_context_start_seq(self, session_id: str) -> int:
"""Return the context_start_seq for a session (0 if not set)."""
with self._lock:
conn = self._connect()
try:
row = conn.execute(
"SELECT context_start_seq FROM sessions WHERE session_id = ?",
(session_id,),
).fetchone()
return row[0] if row else 0
finally:
conn.close()
@@ -410,6 +502,7 @@ class ConversationStore:
def cleanup_old_sessions(self, max_age_days: Optional[int] = None) -> int:
"""
Delete sessions that have not been active within max_age_days.
Web channel sessions are excluded — they are meant to be permanent.
Args:
max_age_days: Override the default retention period.
@@ -433,7 +526,8 @@ class ConversationStore:
try:
with conn:
stale = conn.execute(
"SELECT session_id FROM sessions WHERE last_active < ?",
"SELECT session_id FROM sessions "
"WHERE last_active < ? AND channel_type != 'web'",
(cutoff,),
).fetchall()
for (sid,) in stale:
@@ -492,9 +586,15 @@ class ConversationStore:
with self._lock:
conn = self._connect()
try:
ctx_row = conn.execute(
"SELECT context_start_seq FROM sessions WHERE session_id = ?",
(session_id,),
).fetchone()
ctx_start = ctx_row[0] if ctx_row else 0
rows = conn.execute(
"""
SELECT role, content, created_at
SELECT seq, role, content, created_at
FROM messages
WHERE session_id = ?
ORDER BY seq ASC
@@ -504,7 +604,38 @@ class ConversationStore:
finally:
conn.close()
visible = _group_into_display_turns(rows)
# Honour the current enable_thinking switch when building display turns
# so that toggling it off hides previously-saved thinking blocks too.
try:
from config import conf
include_thinking = bool(conf().get("enable_thinking", False))
except Exception:
include_thinking = False
# Strip seq for display grouping, but record max seq per visible user group
plain_rows = [(role, content, created_at) for _seq, role, content, created_at in rows]
visible = _group_into_display_turns(plain_rows, include_thinking=include_thinking)
# Build a mapping: find the seq of each visible user message to annotate context boundary.
# Walk through rows to find visible user message seqs in order.
visible_user_seqs: List[int] = []
for seq, role, raw_content, _ts in rows:
if role != "user":
continue
try:
content = json.loads(raw_content)
except Exception:
content = raw_content
if _is_visible_user_message(content):
visible_user_seqs.append(seq)
# Each pair of display turns (user+assistant) corresponds to a visible user seq.
# Mark which turns are before the context boundary.
user_turn_idx = 0
for turn in visible:
if turn["role"] == "user" and user_turn_idx < len(visible_user_seqs):
turn["_seq"] = visible_user_seqs[user_turn_idx]
user_turn_idx += 1
total = len(visible)
offset = (page - 1) * page_size
@@ -513,12 +644,98 @@ class ConversationStore:
return {
"messages": page_items,
"context_start_seq": ctx_start,
"total": total,
"page": page,
"page_size": page_size,
"has_more": offset + page_size < total,
}
def list_sessions(
self,
channel_type: Optional[str] = None,
page: int = 1,
page_size: int = 50,
) -> Dict[str, Any]:
"""
List sessions ordered by last_active DESC, with optional channel_type filter.
Returns:
{
"sessions": [{session_id, title, created_at, last_active, msg_count}, ...],
"total": int,
"page": int,
"page_size": int,
"has_more": bool,
}
"""
page = max(1, page)
with self._lock:
conn = self._connect()
try:
if channel_type:
total = conn.execute(
"SELECT COUNT(*) FROM sessions WHERE channel_type = ?",
(channel_type,),
).fetchone()[0]
rows = conn.execute(
"""
SELECT session_id, title, created_at, last_active, msg_count
FROM sessions
WHERE channel_type = ?
ORDER BY last_active DESC
LIMIT ? OFFSET ?
""",
(channel_type, page_size, (page - 1) * page_size),
).fetchall()
else:
total = conn.execute(
"SELECT COUNT(*) FROM sessions",
).fetchone()[0]
rows = conn.execute(
"""
SELECT session_id, title, created_at, last_active, msg_count
FROM sessions
ORDER BY last_active DESC
LIMIT ? OFFSET ?
""",
(page_size, (page - 1) * page_size),
).fetchall()
finally:
conn.close()
sessions = [
{
"session_id": r[0],
"title": r[1],
"created_at": r[2],
"last_active": r[3],
"msg_count": r[4],
}
for r in rows
]
return {
"sessions": sessions,
"total": total,
"page": page,
"page_size": page_size,
"has_more": (page - 1) * page_size + page_size < total,
}
def rename_session(self, session_id: str, title: str) -> bool:
"""Update the title of a session. Returns True if the session existed."""
with self._lock:
conn = self._connect()
try:
with conn:
cur = conn.execute(
"UPDATE sessions SET title = ? WHERE session_id = ?",
(title, session_id),
)
return cur.rowcount > 0
finally:
conn.close()
def get_stats(self) -> Dict[str, Any]:
"""Return basic stats keyed by channel_type, for monitoring."""
with self._lock:
@@ -573,6 +790,20 @@ class ConversationStore:
logger.info("[ConversationStore] Migrated: added channel_type column")
except Exception as e:
logger.warning(f"[ConversationStore] Migration failed: {e}")
if "title" not in cols:
try:
conn.execute(_MIGRATION_ADD_TITLE)
conn.commit()
logger.info("[ConversationStore] Migrated: added title column")
except Exception as e:
logger.warning(f"[ConversationStore] Migration (title) failed: {e}")
if "context_start_seq" not in cols:
try:
conn.execute(_MIGRATION_ADD_CONTEXT_START_SEQ)
conn.commit()
logger.info("[ConversationStore] Migrated: added context_start_seq column")
except Exception as e:
logger.warning(f"[ConversationStore] Migration (context_start_seq) failed: {e}")
def _connect(self) -> sqlite3.Connection:
conn = sqlite3.connect(str(self._db_path), timeout=10)

22
agent/memory/manager.py
View File

@@ -285,6 +285,10 @@ class MemoryManager:
# Scan memory directory (including daily summaries)
if memory_dir.exists():
for file_path in memory_dir.rglob("*.md"):
# Skip hidden directories (e.g. .dreams/)
if any(part.startswith('.') for part in file_path.relative_to(workspace_dir).parts):
continue
# Determine scope and user_id from path
rel_path = file_path.relative_to(workspace_dir)
parts = rel_path.parts
@@ -312,6 +316,14 @@ class MemoryManager:
scope = "shared"
await self._sync_file(file_path, "memory", scope, user_id)
# Scan knowledge directory (structured knowledge wiki)
from config import conf
if conf().get("knowledge", True):
knowledge_dir = Path(workspace_dir) / "knowledge"
if knowledge_dir.exists():
for file_path in knowledge_dir.rglob("*.md"):
await self._sync_file(file_path, "knowledge", "shared", None)
self._dirty = False
@@ -389,24 +401,28 @@ class MemoryManager:
user_id: Optional[str] = None,
reason: str = "threshold",
max_messages: int = 10,
context_summary_callback=None,
) -> bool:
"""
Flush conversation summary to daily memory file.
Args:
messages: Conversation message list
user_id: Optional user ID
reason: "threshold" | "overflow" | "daily_summary"
max_messages: Max recent messages to include (0 = all)
context_summary_callback: Optional callback(str) invoked with the
daily summary text for in-context injection
Returns:
True if content was written
True if flush was dispatched
"""
success = self.flush_manager.flush_from_messages(
messages=messages,
user_id=user_id,
reason=reason,
max_messages=max_messages,
context_summary_callback=context_summary_callback,
)
if success:
self._dirty = True

110
agent/memory/service.py
View File

@@ -32,68 +32,80 @@ class MemoryService:
# ------------------------------------------------------------------
# list — paginated file metadata
# ------------------------------------------------------------------
def list_files(self, page: int = 1, page_size: int = 20) -> dict:
def list_files(self, page: int = 1, page_size: int = 20, category: str = "memory") -> dict:
"""
List all memory files with metadata (without content).
List memory or dream files with metadata (without content).
Returns::
{
"page": 1,
"page_size": 20,
"total": 15,
"list": [
{"filename": "MEMORY.md", "type": "global", "size": 2048, "updated_at": "2026-02-20 10:00:00"},
{"filename": "2026-02-20.md", "type": "daily", "size": 512, "updated_at": "2026-02-20 09:30:00"},
...
]
}
Args:
category: ``"memory"`` (default) — MEMORY.md + daily files;
``"dream"`` — dream diary files from memory/dreams/
"""
if category == "dream":
files = self._list_dream_files()
else:
files = self._list_memory_files()
total = len(files)
start = (page - 1) * page_size
end = start + page_size
return {
"page": page,
"page_size": page_size,
"total": total,
"list": files[start:end],
}
def _list_memory_files(self) -> List[dict]:
"""MEMORY.md + memory/*.md (newest first)."""
files: List[dict] = []
# 1. Global memory — MEMORY.md in workspace root
global_path = os.path.join(self.workspace_root, "MEMORY.md")
if os.path.isfile(global_path):
files.append(self._file_info(global_path, "MEMORY.md", "global"))
# 2. Daily memory files — memory/*.md (sorted newest first)
if os.path.isdir(self.memory_dir):
daily_files = []
for name in os.listdir(self.memory_dir):
full = os.path.join(self.memory_dir, name)
if os.path.isfile(full) and name.endswith(".md"):
daily_files.append((name, full))
# Sort by filename descending (newest date first)
daily_files.sort(key=lambda x: x[0], reverse=True)
for name, full in daily_files:
files.append(self._file_info(full, name, "daily"))
total = len(files)
return files
# Paginate
start = (page - 1) * page_size
end = start + page_size
page_items = files[start:end]
def _list_dream_files(self) -> List[dict]:
"""memory/dreams/*.md (newest first)."""
files: List[dict] = []
dreams_dir = os.path.join(self.memory_dir, "dreams")
return {
"page": page,
"page_size": page_size,
"total": total,
"list": page_items,
}
if os.path.isdir(dreams_dir):
entries = []
for name in os.listdir(dreams_dir):
full = os.path.join(dreams_dir, name)
if os.path.isfile(full) and name.endswith(".md"):
entries.append((name, full))
entries.sort(key=lambda x: x[0], reverse=True)
for name, full in entries:
files.append(self._file_info(full, name, "dream"))
return files
# ------------------------------------------------------------------
# content — read a single file
# ------------------------------------------------------------------
def get_content(self, filename: str) -> dict:
def get_content(self, filename: str, category: str = "memory") -> dict:
"""
Read the full content of a memory file.
Read the full content of a memory or dream file.
:param filename: File name, e.g. ``MEMORY.md`` or ``2026-02-20.md``
:param filename: File name, e.g. ``MEMORY.md``, ``2026-02-20.md``
:param category: ``"memory"`` or ``"dream"``
:return: dict with ``filename`` and ``content``
:raises FileNotFoundError: if the file does not exist
"""
path = self._resolve_path(filename)
path = self._resolve_path(filename, category)
if not os.path.isfile(path):
raise FileNotFoundError(f"Memory file not found: {filename}")
@@ -113,7 +125,7 @@ class MemoryService:
Dispatch a memory management action.
:param action: ``list`` or ``content``
:param payload: action-specific payload
:param payload: action-specific payload (supports ``category``: ``"memory"`` | ``"dream"``)
:return: protocol-compatible response dict
"""
payload = payload or {}
@@ -121,19 +133,23 @@ class MemoryService:
if action == "list":
page = payload.get("page", 1)
page_size = payload.get("page_size", 20)
result_payload = self.list_files(page=page, page_size=page_size)
category = payload.get("category", "memory")
result_payload = self.list_files(page=page, page_size=page_size, category=category)
return {"action": action, "code": 200, "message": "success", "payload": result_payload}
elif action == "content":
filename = payload.get("filename")
if not filename:
return {"action": action, "code": 400, "message": "filename is required", "payload": None}
result_payload = self.get_content(filename)
category = payload.get("category", "memory")
result_payload = self.get_content(filename, category=category)
return {"action": action, "code": 200, "message": "success", "payload": result_payload}
else:
return {"action": action, "code": 400, "message": f"unknown action: {action}", "payload": None}
except ValueError as e:
return {"action": action, "code": 403, "message": "invalid filename", "payload": None}
except FileNotFoundError as e:
return {"action": action, "code": 404, "message": str(e), "payload": None}
except Exception as e:
@@ -143,16 +159,30 @@ class MemoryService:
# ------------------------------------------------------------------
# internal helpers
# ------------------------------------------------------------------
def _resolve_path(self, filename: str) -> str:
def _resolve_path(self, filename: str, category: str = "memory") -> str:
"""
Resolve a filename to its absolute path.
Safely resolve a filename to its absolute path within the allowed directory.
- ``MEMORY.md`` → ``{workspace_root}/MEMORY.md``
- ``2026-02-20.md`` → ``{workspace_root}/memory/2026-02-20.md``
- ``2026-02-20.md`` (memory) → ``{workspace_root}/memory/2026-02-20.md``
- ``2026-02-20.md`` (dream) → ``{workspace_root}/memory/dreams/2026-02-20.md``
Raises ValueError if the resolved path escapes the allowed directory.
"""
if filename == "MEMORY.md":
return os.path.join(self.workspace_root, filename)
return os.path.join(self.memory_dir, filename)
base_dir = self.workspace_root
elif category == "dream":
base_dir = os.path.join(self.memory_dir, "dreams")
else:
base_dir = self.memory_dir
resolved = os.path.realpath(os.path.join(base_dir, filename))
allowed = os.path.realpath(base_dir)
if resolved != allowed and not resolved.startswith(allowed + os.sep):
raise ValueError(f"Invalid filename: path traversal detected")
return resolved
@staticmethod
def _file_info(path: str, filename: str, file_type: str) -> dict:

490
agent/memory/summarizer.py
View File

@@ -1,12 +1,12 @@
"""
Memory flush manager
Memory flush manager with Deep Dream distillation
Handles memory persistence when conversation context is trimmed or overflows:
- Uses LLM to summarize discarded messages into concise key-information entries
- Uses LLM to summarize discarded messages into concise daily records
- Writes to daily memory files (lazy creation)
- Deduplicates trim flushes to avoid repeated writes
- Runs summarization asynchronously to avoid blocking normal replies
- Provides daily summary interface for scheduler
- Deep Dream: periodically distills daily memories → refined MEMORY.md + dream diary
"""
import threading
@@ -16,19 +16,79 @@ from datetime import datetime
from common.log import logger
SUMMARIZE_SYSTEM_PROMPT = """你是一个记忆提取助手。你的任务是从对话记录中提取值得记住的信息,生成简洁的记忆摘要
SUMMARIZE_SYSTEM_PROMPT = """你是一个对话记录助手。请将对话内容归纳为当天的日常记录
输出要求
1. 以事件/关键信息为维度记录,每条一行,用 "- " 开头
2. 记录有价值的关键信息,例如用户提出的要求及助手的解决方案,对话中涉及的事实信息,用户的偏好、决策或重要结论
3. 每条摘要需要简明扼要,只保留关键信息
4. 直接输出摘要内容,不要加任何前缀说明
5. 当对话没有任何记录价值例如只是简单问候,可回复"\""""
## 要求
SUMMARIZE_USER_PROMPT = """请从以下对话记录中提取关键信息,生成记忆摘要
按「事件」维度归纳发生的事,不要按对话轮次逐条记录
- 每条一行,用 "- " 开头
- 合并同一件事的多轮对话
- 只记录有意义的事件,忽略闲聊和问候
- 保留关键的决策、结论和待办事项
当对话没有任何记录价值(仅含问候或无意义内容),直接回复"""""
SUMMARIZE_USER_PROMPT = """请归纳以下对话的日常记录:
{conversation}"""
# ---------------------------------------------------------------------------
# Deep Dream prompts — distill daily memories → MEMORY.md + dream diary
# ---------------------------------------------------------------------------
DREAM_SYSTEM_PROMPT = """你是一个记忆整理助手,负责定期整理用户的长期记忆。
你将收到两份材料:
1. **当前长期记忆** — MEMORY.md 的全部现有内容
2. **今日日记** — 当天的日常记录
MEMORY.md 会注入每次对话的系统提示词中,因此必须保持精炼,只存放有价值和值得记忆的内容。
**重要:只能基于提供的材料进行整理,严禁编造、推测或添加材料中不存在的信息。**
## 任务
### Part 1: 更新后的长期记忆([MEMORY]
在现有记忆基础上进行整理和提炼,输出完整的更新后内容:
- **合并提炼**:将含义相近的多条合并为一条高密度表述,而非简单罗列
- **新增萃取**:从今日日记中提取值得永久记住的新信息(偏好、决策、人物、规则、经验)
- **冲突更新**:当新信息与旧条目矛盾时,以新信息为准,替换旧条目
- **清理无效**:删除临时性记录、空白条目、格式残留、无意义、重复内容等
- **删除冗余**:已被更精炼表述涵盖的旧条目应删除,避免信息重复
- 每条一行,用 "- " 开头,不带日期前缀
- 可用 "## 标题" 对相关条目分组,使结构更清晰
- 目标:控制在 50 条以内,每条尽量一句话概括
### Part 2: 梦境日记([DREAM]
用简洁的叙事风格写一篇短日记,记录这次整理的发现,保持格式美观易读:
- 发现了哪些重复或矛盾
- 从日记中提取了什么新洞察
- 做了哪些清理和优化
- 整体感受和观察
## 输出格式(严格遵守)
```
[MEMORY]
- 记忆条目1
- 记忆条目2
...
[DREAM]
梦境日记内容...
```"""
DREAM_USER_PROMPT = """## 当前长期记忆MEMORY.md
{memory_content}
## 近期日记(最近 {days} 天)
{daily_content}"""
class MemoryFlushManager:
"""
@@ -55,6 +115,8 @@ class MemoryFlushManager:
self.last_flush_timestamp: Optional[datetime] = None
self._trim_flushed_hashes: set = set() # Content hashes of already-flushed messages
self._last_flushed_content_hash: str = "" # Content hash at last flush, for daily dedup
self._last_dream_input_hash: str = "" # Hash of dream input, for dedup
self._last_flush_thread: Optional[threading.Thread] = None
def get_today_memory_file(self, user_id: Optional[str] = None, ensure_exists: bool = False) -> Path:
"""Get today's memory file path: memory/YYYY-MM-DD.md"""
@@ -98,21 +160,19 @@ class MemoryFlushManager:
user_id: Optional[str] = None,
reason: str = "trim",
max_messages: int = 0,
context_summary_callback: Optional[Callable[[str], None]] = None,
) -> bool:
"""
Asynchronously summarize and flush messages to daily memory.
Deduplication runs synchronously, then LLM summarization + file write
run in a background thread so the main reply flow is never blocked.
Args:
messages: Conversation message list (OpenAI/Claude format)
user_id: Optional user ID for user-scoped memory
reason: Why flush was triggered ("trim" | "overflow" | "daily_summary")
max_messages: Max recent messages to summarize (0 = all)
Returns:
True if flush was dispatched
If *context_summary_callback* is provided, it is called with the
[DAILY] portion of the LLM summary once available. The caller can use
this to inject the summary into the live message list for context
continuity — one LLM call serves both disk persistence and in-context
injection.
"""
try:
import hashlib
@@ -127,18 +187,19 @@ class MemoryFlushManager:
deduped.append(m)
if not deduped:
return False
import copy
snapshot = copy.deepcopy(deduped)
thread = threading.Thread(
target=self._flush_worker,
args=(snapshot, user_id, reason, max_messages),
args=(snapshot, user_id, reason, max_messages, context_summary_callback),
daemon=True,
)
thread.start()
logger.info(f"[MemoryFlush] Async flush dispatched (reason={reason}, msgs={len(snapshot)})")
self._last_flush_thread = thread
return True
except Exception as e:
logger.warning(f"[MemoryFlush] Failed to dispatch flush (reason={reason}): {e}")
return False
@@ -149,41 +210,69 @@ class MemoryFlushManager:
user_id: Optional[str],
reason: str,
max_messages: int,
context_summary_callback: Optional[Callable[[str], None]] = None,
):
"""Background worker: summarize with LLM and write to daily file."""
"""Background worker: summarize with LLM, write daily memory file."""
try:
summary = self._summarize_messages(messages, max_messages)
if not summary or not summary.strip() or summary.strip() == "":
raw_summary = self._summarize_messages(messages, max_messages)
if not raw_summary or not raw_summary.strip() or raw_summary.strip() == "":
logger.info(f"[MemoryFlush] No valuable content to flush (reason={reason})")
return
# Strip legacy [DAILY]/[MEMORY] markers if model still outputs them
daily_part = self._clean_summary_output(raw_summary)
if not daily_part:
return
# --- Write daily memory ---
daily_file = ensure_daily_memory_file(self.workspace_dir, user_id)
if reason == "overflow":
header = f"## Context Overflow Recovery ({datetime.now().strftime('%H:%M')})"
note = "The following conversation was trimmed due to context overflow:\n"
elif reason == "trim":
header = f"## Trimmed Context ({datetime.now().strftime('%H:%M')})"
note = ""
elif reason == "daily_summary":
header = f"## Daily Summary ({datetime.now().strftime('%H:%M')})"
note = ""
else:
header = f"## Session Notes ({datetime.now().strftime('%H:%M')})"
note = ""
flush_entry = f"\n{header}\n\n{note}{summary}\n"
headers = {
"overflow": f"## Context Overflow Recovery ({datetime.now().strftime('%H:%M')})",
"trim": f"## Trimmed Context ({datetime.now().strftime('%H:%M')})",
"daily_summary": f"## Daily Summary ({datetime.now().strftime('%H:%M')})",
}
header = headers.get(reason, f"## Session Notes ({datetime.now().strftime('%H:%M')})")
with open(daily_file, "a", encoding="utf-8") as f:
f.write(flush_entry)
f.write(f"\n{header}\n\n{daily_part}\n")
logger.info(f"[MemoryFlush] Wrote daily memory to {daily_file.name} (reason={reason}, chars={len(daily_part)})")
# --- Inject context summary into live messages (if callback provided) ---
if context_summary_callback:
try:
context_summary_callback(daily_part)
except Exception as e:
logger.warning(f"[MemoryFlush] Context summary callback failed: {e}")
self.last_flush_timestamp = datetime.now()
logger.info(f"[MemoryFlush] Wrote to {daily_file.name} (reason={reason}, chars={len(summary)})")
except Exception as e:
logger.warning(f"[MemoryFlush] Async flush failed (reason={reason}): {e}")
@staticmethod
def _clean_summary_output(raw: str) -> str:
"""Strip legacy [DAILY]/[MEMORY] markers if present, return clean daily text."""
raw = raw.strip()
if not raw or raw == "":
return ""
# Strip [DAILY] marker
if "[DAILY]" in raw:
start = raw.index("[DAILY]") + len("[DAILY]")
end = raw.index("[MEMORY]") if "[MEMORY]" in raw else len(raw)
raw = raw[start:end].strip()
# Remove stray [MEMORY] section entirely
if "[MEMORY]" in raw:
raw = raw[:raw.index("[MEMORY]")].strip()
# Remove markdown code fences
raw = raw.replace("```", "").strip()
return raw
def create_daily_summary(
self,
messages: List[Dict],
@@ -209,27 +298,205 @@ class MemoryFlushManager:
reason="daily_summary",
max_messages=0,
)
# ---- Deep Dream (memory distillation) ----
def deep_dream(self, user_id: Optional[str] = None, lookback_days: int = 1, force: bool = False) -> bool:
"""
Distill recent daily memories into MEMORY.md and generate a dream diary.
Args:
lookback_days: How many days of daily files to read (default 1 for scheduled, 3 for manual)
force: Skip input-hash dedup check (used by manual /memory dream trigger)
"""
if not self.llm_model:
logger.warning("[DeepDream] No LLM model available, skipping")
return False
logger.info(f"[DeepDream] Starting memory distillation (lookback={lookback_days} days)")
# Collect materials
memory_content = self._read_main_memory(user_id)
daily_content, has_content = self._read_recent_dailies(user_id, lookback_days)
if not has_content:
logger.info("[DeepDream] No recent daily records, skipping to preserve existing MEMORY.md")
return False
# Dedup: skip if input materials haven't changed since last dream
import hashlib
input_hash = hashlib.md5((memory_content + daily_content).encode("utf-8")).hexdigest()
if not force and input_hash == self._last_dream_input_hash:
logger.debug("[DeepDream] Input unchanged since last dream, skipping")
return False
self._last_dream_input_hash = input_hash
logger.info(
f"[DeepDream] Materials collected: "
f"MEMORY.md={len(memory_content)} chars, "
f"daily={len(daily_content)} chars"
)
# Call LLM for distillation
import time as _time
t0 = _time.monotonic()
try:
user_msg = DREAM_USER_PROMPT.format(
memory_content=memory_content or "(empty)",
days=lookback_days,
daily_content=daily_content or "(no recent daily records)",
)
from agent.protocol.models import LLMRequest
# Scale max_tokens based on input size to avoid truncating large MEMORY.md
input_chars = len(memory_content) + len(daily_content)
dream_max_tokens = max(2000, min(input_chars, 8000))
request = LLMRequest(
messages=[{"role": "user", "content": user_msg}],
temperature=0.3,
max_tokens=dream_max_tokens,
stream=False,
system=DREAM_SYSTEM_PROMPT,
)
response = self.llm_model.call(request)
raw = self._extract_response_text(response)
elapsed = _time.monotonic() - t0
if not raw or not raw.strip():
logger.warning(f"[DeepDream] LLM returned empty response ({elapsed:.1f}s)")
return False
logger.info(f"[DeepDream] LLM distillation completed ({elapsed:.1f}s, {len(raw)} chars)")
except Exception as e:
elapsed = _time.monotonic() - t0
logger.warning(f"[DeepDream] LLM call failed ({elapsed:.1f}s): {e}")
return False
# Parse [MEMORY] and [DREAM] sections
new_memory, dream_diary = self._parse_dream_output(raw)
if not new_memory:
logger.warning("[DeepDream] No [MEMORY] section in LLM output, skipping overwrite")
return False
# Overwrite MEMORY.md
try:
main_file = self.get_main_memory_file(user_id)
old_size = len(memory_content)
main_file.write_text(new_memory + "\n", encoding="utf-8")
logger.info(
f"[DeepDream] Updated MEMORY.md "
f"({old_size}{len(new_memory)} chars)"
)
except Exception as e:
logger.warning(f"[DeepDream] Failed to write MEMORY.md: {e}")
return False
# Write dream diary
if dream_diary:
try:
self._write_dream_diary(dream_diary, user_id)
except Exception as e:
logger.warning(f"[DeepDream] Failed to write dream diary: {e}")
logger.info("[DeepDream] ✅ Deep Dream completed successfully")
return True
def _read_main_memory(self, user_id: Optional[str] = None) -> str:
"""Read current MEMORY.md content."""
main_file = self.get_main_memory_file(user_id)
if main_file.exists():
return main_file.read_text(encoding="utf-8").strip()
return ""
def _read_recent_dailies(
self, user_id: Optional[str] = None, lookback_days: int = 1
) -> tuple:
"""
Read recent daily memory files.
Returns:
(combined_text, has_content) tuple
"""
from datetime import timedelta
parts = []
has_content = False
today = datetime.now().date()
for offset in range(lookback_days):
day = today - timedelta(days=offset)
date_str = day.strftime("%Y-%m-%d")
if user_id:
daily_file = self.memory_dir / "users" / user_id / f"{date_str}.md"
else:
daily_file = self.memory_dir / f"{date_str}.md"
if daily_file.exists():
content = daily_file.read_text(encoding="utf-8").strip()
if content:
parts.append(f"### {date_str}\n\n{content}")
has_content = True
else:
parts.append(f"### {date_str}\n\n(no records)")
return "\n\n".join(parts), has_content
@staticmethod
def _parse_dream_output(raw: str) -> tuple:
"""Parse LLM output into (new_memory, dream_diary)."""
raw = raw.strip().replace("```", "")
new_memory = ""
dream_diary = ""
if "[MEMORY]" in raw:
start = raw.index("[MEMORY]") + len("[MEMORY]")
end = raw.index("[DREAM]") if "[DREAM]" in raw else len(raw)
new_memory = raw[start:end].strip()
if "[DREAM]" in raw:
start = raw.index("[DREAM]") + len("[DREAM]")
dream_diary = raw[start:].strip()
return new_memory, dream_diary
def _write_dream_diary(self, content: str, user_id: Optional[str] = None):
"""Write dream diary to memory/dreams/YYYY-MM-DD.md."""
dreams_dir = self.memory_dir / "dreams"
if user_id:
dreams_dir = self.memory_dir / "users" / user_id / "dreams"
dreams_dir.mkdir(parents=True, exist_ok=True)
today = datetime.now().strftime("%Y-%m-%d")
diary_file = dreams_dir / f"{today}.md"
diary_file.write_text(
f"# Dream Diary: {today}\n\n{content}\n",
encoding="utf-8",
)
logger.info(f"[DeepDream] Wrote dream diary to {diary_file}")
# ---- Internal helpers ----
def _summarize_messages(self, messages: List[Dict], max_messages: int = 0) -> str:
"""
Summarize conversation messages using LLM, with rule-based fallback.
Summarize conversation messages using LLM.
Returns empty string if LLM deems content not worth recording.
Rule-based fallback only used when LLM call raises an exception.
"""
conversation_text = self._format_conversation_for_summary(messages, max_messages)
if not conversation_text.strip():
return ""
# Try LLM summarization first
if self.llm_model:
try:
summary = self._call_llm_for_summary(conversation_text)
if summary and summary.strip() and summary.strip() != "":
return summary.strip()
logger.info("[MemoryFlush] LLM returned empty or '', skipping write")
return ""
except Exception as e:
logger.warning(f"[MemoryFlush] LLM summarization failed, using fallback: {e}")
return self._extract_summary_fallback(messages, max_messages)
return self._extract_summary_fallback(messages, max_messages)
else:
logger.info("[MemoryFlush] No LLM model available, using rule-based fallback")
return self._extract_summary_fallback(messages, max_messages)
def _format_conversation_for_summary(self, messages: List[Dict], max_messages: int = 0) -> str:
"""Format messages into readable conversation text for LLM summarization."""
@@ -247,6 +514,52 @@ class MemoryFlushManager:
lines.append(f"助手: {text[:500]}")
return "\n".join(lines)
@staticmethod
def _extract_response_text(response) -> str:
"""
Extract text from LLM response regardless of format.
Handles:
- Generator (MiniMax _handle_sync_response yields Claude-format dicts)
- Claude format: {"role":"assistant","content":[{"type":"text","text":"..."}]}
- OpenAI format: {"choices":[{"message":{"content":"..."}}]}
- OpenAI SDK response object with .choices attribute
"""
import types
# Unwrap generator — consume first yielded item
if isinstance(response, types.GeneratorType):
try:
response = next(response)
except StopIteration:
return ""
if not response:
return ""
if isinstance(response, dict):
# Check for error
if response.get("error"):
raise RuntimeError(response.get("message", "LLM call failed"))
# Claude format: content is a list of blocks
content = response.get("content")
if isinstance(content, list):
for block in content:
if isinstance(block, dict) and block.get("type") == "text":
return block.get("text", "")
# OpenAI format
choices = response.get("choices", [])
if choices:
return choices[0].get("message", {}).get("content", "")
# OpenAI SDK response object
if hasattr(response, "choices") and response.choices:
return response.choices[0].message.content or ""
return ""
def _call_llm_for_summary(self, conversation_text: str) -> str:
"""Call LLM to generate a concise summary of the conversation."""
from agent.protocol.models import LLMRequest
@@ -260,44 +573,59 @@ class MemoryFlushManager:
)
response = self.llm_model.call(request)
if isinstance(response, dict):
if response.get("error"):
raise RuntimeError(response.get("message", "LLM call failed"))
# OpenAI format
choices = response.get("choices", [])
if choices:
return choices[0].get("message", {}).get("content", "")
# Handle response object with attribute access (e.g. OpenAI SDK response)
if hasattr(response, "choices") and response.choices:
return response.choices[0].message.content or ""
return ""
return self._extract_response_text(response)
@staticmethod
def _extract_first_meaningful_line(text: str, max_len: int = 120) -> str:
"""Extract the first meaningful line from assistant reply, skipping markdown noise."""
import re
for line in text.split("\n"):
line = line.strip()
if not line:
continue
# Skip markdown headings, horizontal rules, code fences, pure emoji/symbols
if re.match(r'^(#{1,4}\s|```|---|\*\*\*|[-*]\s*$|[^\w\u4e00-\u9fff]{1,5}$)', line):
continue
# Strip leading markdown bold/emoji decorations
cleaned = re.sub(r'^[\*#>\-\s]+', '', line).strip()
cleaned = re.sub(r'^[\U0001f300-\U0001f9ff\u2600-\u27bf\s]+', '', cleaned).strip()
if len(cleaned) >= 5:
return cleaned[:max_len]
return text.split("\n")[0].strip()[:max_len]
@staticmethod
def _extract_summary_fallback(messages: List[Dict], max_messages: int = 0) -> str:
"""Rule-based fallback when LLM is unavailable."""
"""
Rule-based summary of discarded messages.
Format: "用户问了X; 助手回答了Y" per event, compact and readable.
"""
msgs = messages if max_messages == 0 else messages[-max_messages * 2:]
items = []
events: List[str] = []
current_user_text = ""
for msg in msgs:
role = msg.get("role", "")
text = MemoryFlushManager._extract_text_from_content(msg.get("content", ""))
if not text or not text.strip():
continue
text = text.strip()
if role == "user":
if len(text) <= 5:
if len(text) <= 3:
continue
items.append(f"- 用户请求: {text[:200]}")
elif role == "assistant":
first_line = text.split("\n")[0].strip()
if len(first_line) > 10:
items.append(f"- 处理结果: {first_line[:200]}")
return "\n".join(items[:15])
current_user_text = text[:120]
elif role == "assistant" and current_user_text:
reply_summary = MemoryFlushManager._extract_first_meaningful_line(text)
if reply_summary:
events.append(f"- 用户: {current_user_text} → 回复: {reply_summary}")
else:
events.append(f"- 用户: {current_user_text}")
current_user_text = ""
if current_user_text:
events.append(f"- 用户: {current_user_text}")
return "\n".join(events[:10])
@staticmethod
def _extract_text_from_content(content) -> str:

121
agent/prompt/builder.py
View File

@@ -10,6 +10,7 @@ from typing import List, Dict, Optional, Any
from dataclasses import dataclass
from common.log import logger
from config import conf
@dataclass
@@ -92,10 +93,11 @@ def build_agent_system_prompt(
顺序说明(按重要性和逻辑关系排列):
1. 工具系统 - 核心能力,最先介绍
2. 技能系统 - 紧跟工具,因为技能需要用 read 工具读取
3. 记忆系统 - 独立的记忆能力
3. 记忆系统 - 记忆检索与写入引导
3.5 知识系统 - 结构化知识库knowledge/index.md 注入)
4. 工作空间 - 工作环境说明
5. 用户身份 - 用户信息(可选)
6. 项目上下文 - AGENT.md, USER.md, RULE.md, BOOTSTRAP.md(定义人格、身份、规则、初始化引导)
6. 项目上下文 - AGENT.md, USER.md, RULE.md, MEMORY.md, BOOTSTRAP.md
7. 运行时信息 - 元信息(时间、模型等)
Args:
@@ -126,6 +128,10 @@ def build_agent_system_prompt(
# 3. 记忆系统(独立的记忆能力)
if memory_manager:
sections.extend(_build_memory_section(memory_manager, tools, language))
# 3.5 知识系统(结构化知识库)
if conf().get("knowledge", True):
sections.extend(_build_knowledge_section(workspace_dir, language))
# 4. 工作空间(工作环境说明)
sections.extend(_build_workspace_section(workspace_dir, language))
@@ -207,9 +213,9 @@ def _build_tooling_section(tools: List[Any], language: str) -> List[str]:
"",
"工具调用风格:",
"",
"- 多步骤任务、敏感操作或用户要求时简要解释决策过程",
"- 持续推进直到任务完成,完成后向用户报告结果",
"- 回复中涉及密钥、令牌等敏感信息必须脱敏",
"- 多步骤任务、复杂决策、敏感操作时,应简要说明当前在做什么、为什么这样做,让用户了解关键进展",
"- 持续推进直到任务完成,完成后向用户报告结果",
"- 回复中涉及密钥、令牌等敏感信息必须脱敏",
"- URL链接直接放在回复文本中即可系统会自动处理和渲染。无需下载后使用send工具发送",
"",
]
@@ -268,55 +274,105 @@ def _build_memory_section(memory_manager: Any, tools: Optional[List[Any]], langu
"""构建记忆系统section"""
if not memory_manager:
return []
# 检查是否有memory工具
has_memory_tools = False
if tools:
tool_names = [tool.name if hasattr(tool, 'name') else str(tool) for tool in tools]
has_memory_tools = any(name in ['memory_search', 'memory_get'] for name in tool_names)
if not has_memory_tools:
return []
from datetime import datetime
today_file = datetime.now().strftime("%Y-%m-%d") + ".md"
lines = [
"## 🧠 记忆系统",
"",
"### 检索记忆",
"### Memory Recallmandatory",
"",
"在回答关于以前的工作、决定、日期、人物、偏好待办事项的任何问题之前:",
"当用户询问过往事件、引用之前的决定、提到人物关系、偏好待办、或你对某事不确定时,**必须先检索记忆再回答**。",
"如果 MEMORY.md 中已有相关信息则无需重复检索。完整内容和每日记忆需要通过工具检索。",
"",
"1. 不确定记忆文件位置 → 先用 `memory_search` 通过关键词语义检索相关内容",
"2. 已知文件位置 → 直接用 `memory_get` 读取相应的行 (例如MEMORY.md, memory/YYYY-MM-DD.md)",
"3. search 无结果 → 尝试用 `memory_get` 读取MEMORY.md及最近两天记忆文件",
"1. 不确定位置 → `memory_search` 关键词/语义检索",
"2. 已知位置 → `memory_get` 直接读取对应行",
"3. search 无结果 → `memory_get` 读最近两天记忆",
"",
"**记忆文件结构**:",
f"- `MEMORY.md`: 长期记忆核心信息、偏好、决策等)",
"- `MEMORY.md`: 长期记忆索引(已自动加载到上下文,核心信息、偏好、决策等)",
f"- `memory/YYYY-MM-DD.md`: 每日记忆,今天是 `memory/{today_file}`",
"- `knowledge/`: 结构化知识库(见下方知识系统)",
"",
"### 写入记忆",
"",
"**主动存储**遇到以下情况时,应主动将信息写入记忆文件(无需告知用户):",
"遇到以下情况时,**主动**将信息写入记忆文件(无需告知用户):",
"",
"- 用户明确要求记住某些信息",
"- 用户要求记住某些信息,或使用了「记住」「以后」「总是」「不要」「偏好」等表达",
"- 用户分享了重要的个人偏好、习惯、决策",
"- 对话中产生了重要的结论、方案、约定",
"- 完成了复杂任务,值得记录关键步骤和结果",
"- 发现了用户经常遇到的问题或解决方案",
"",
"**存储规则**:",
f"- 长期有效的核心信息 → `MEMORY.md`(文件保持精简,< 2000 tokens",
f"- 当天事件进展、笔记 → `memory/{today_file}`",
"- 追加内容 → `edit` 工具oldText 留空",
"- 修改内容 → `edit` 工具oldText 填写要替换的文本",
"- **禁止写入敏感信息**API密钥、令牌等敏感信息严禁写入记忆文件",
f"- 长期核心信息 → `MEMORY.md`",
f"- 当天事件/进展 → `memory/{today_file}`",
"- 结构化知识 → `knowledge/`(见知识系统)",
"- 追加 → `edit` 工具oldText 留空",
"- 修改 → `edit` 工具oldText 填写要替换的文本",
"- **禁止写入敏感信息**API密钥、令牌等",
"",
"**使用原则**: 自然使用记忆,就像你本来就知道;不用刻意提起,除非用户问起。",
"",
]
return lines
def _build_knowledge_section(workspace_dir: str, language: str) -> List[str]:
"""Build knowledge wiki section. Injects knowledge/index.md when present."""
index_path = os.path.join(workspace_dir, "knowledge", "index.md")
if not os.path.exists(index_path):
return []
try:
with open(index_path, 'r', encoding='utf-8') as f:
index_content = f.read().strip()
except Exception:
return []
lines = [
"## 📚 知识系统",
"",
"你拥有一个持续积累的个人知识库 `knowledge/`,这是你的长期结构化知识存储。",
"",
"### 自动写入规则mandatory",
"",
"以下场景**必须**在回复的同时写入知识库,**直接写入,不要询问用户是否需要**",
"",
"1. **用户分享了文章/链接/文档** → 阅读理解后,在同一轮回复中将要点写入 `knowledge/sources/<slug>.md`",
"2. **深度讨论产生了结论/方案** → 整理为 `knowledge/analysis/<slug>.md`",
"3. **对话涉及重要实体**(人物/公司/项目)→ 创建或更新 `knowledge/entities/<name>.md`",
"4. **讨论了技术概念/方法论** → 整理为 `knowledge/concepts/<topic>.md`",
"",
"每次写入知识页面后,**必须同步更新** `knowledge/index.md` 添加一行索引。",
"详细的页面格式和操作规范,请读取技能 `knowledge-wiki` 的 SKILL.md。",
"",
"⚠️ 不要问「要不要存到知识库」——符合上述场景就直接写入,这是你的本能行为。",
"",
]
if index_content:
lines.extend([
"### 当前知识索引",
"",
index_content,
"",
])
lines.extend([
"**查询方式**:用 `read` 读取知识页面,或用 `memory_search` 检索(知识已纳入向量索引)。",
"",
])
return lines
@@ -375,15 +431,17 @@ def _build_workspace_section(workspace_dir: str, language: str) -> List[str]:
"",
"**重要说明 - 文件已自动加载**:",
"",
"以下文件在会话启动时**已经自动加载**到系统提示词的「项目上下文」section 中,你**无需再用 read 工具读取它们**",
"以下文件在会话启动时**已经自动加载**到系统提示词中,你**无需再用 read 工具读取**",
"",
"- ✅ `AGENT.md`: 已加载 - 你的人格和灵魂设定,请严格遵循。当你的名字、性格或交流风格发生变化时,主动用 `edit` 更新此文件",
"- ✅ `USER.md`: 已加载 - 用户的身份信息。当用户修改称呼、姓名等身份信息时,用 `edit` 更新此文件",
"- ✅ `RULE.md`: 已加载 - 工作空间使用指南和规则,请严格遵循",
"- ✅ `MEMORY.md`: 已加载 - 长期记忆索引",
"",
"**💬 交流规范**:",
"",
"- 对话中不要暴露内部技术细节(文件名、工具名等),用自然语言表达。例如说「我已记住」而非「已更新 MEMORY.md」",
"- 记忆相关操作无需暴露文件名,用自然语言表达即可。例如说「我已记住」而非「已更新 MEMORY.md」",
"- 任务执行过程中的关键决策和步骤应该告知用户,让用户了解你在做什么、为什么这么做",
"- 做真正有帮助的助手,而不是表演式的客套,尽可能帮忙解决问题",
"- 回复应结构清晰、重点突出。善用 **加粗**、列表、分段等格式让信息一目了然",
"- 适当使用 emoji 让表达更生动自然 🎯,但不要过度堆砌",
@@ -477,7 +535,14 @@ def _build_runtime_section(runtime_info: Dict[str, Any], language: str) -> List[
# Add other runtime info
runtime_parts = []
if runtime_info.get("model"):
# Support dynamic model via callable, fallback to static value
if callable(runtime_info.get("_get_model")):
try:
runtime_parts.append(f"模型={runtime_info['_get_model']()}")
except Exception:
if runtime_info.get("model"):
runtime_parts.append(f"模型={runtime_info['model']}")
elif runtime_info.get("model"):
runtime_parts.append(f"模型={runtime_info['model']}")
if runtime_info.get("workspace"):
runtime_parts.append(f"工作空间={runtime_info['workspace']}")

145
agent/prompt/workspace.py
View File

@@ -67,6 +67,12 @@ def ensure_workspace(workspace_dir: str, create_templates: bool = True) -> Works
# 创建websites子目录 (for web pages / sites generated by agent)
websites_dir = os.path.join(workspace_dir, "websites")
os.makedirs(websites_dir, exist_ok=True)
from config import conf
knowledge_enabled = conf().get("knowledge", True)
if knowledge_enabled:
knowledge_dir = os.path.join(workspace_dir, "knowledge")
os.makedirs(knowledge_dir, exist_ok=True)
# 如果需要,创建模板文件
if create_templates:
@@ -74,6 +80,15 @@ def ensure_workspace(workspace_dir: str, create_templates: bool = True) -> Works
_create_template_if_missing(user_path, _get_user_template())
_create_template_if_missing(rule_path, _get_rule_template())
_create_template_if_missing(memory_path, _get_memory_template())
if knowledge_enabled:
_create_template_if_missing(
os.path.join(knowledge_dir, "index.md"),
_get_knowledge_index_template()
)
_create_template_if_missing(
os.path.join(knowledge_dir, "log.md"),
_get_knowledge_log_template()
)
# Only create BOOTSTRAP.md for brand new workspaces;
# agent deletes it after completing onboarding
@@ -109,6 +124,7 @@ def load_context_files(workspace_dir: str, files_to_load: Optional[List[str]] =
DEFAULT_AGENT_FILENAME,
DEFAULT_USER_FILENAME,
DEFAULT_RULE_FILENAME,
DEFAULT_MEMORY_FILENAME, # Long-term memory (frozen snapshot)
DEFAULT_BOOTSTRAP_FILENAME, # Only exists when onboarding is incomplete
]
@@ -138,6 +154,10 @@ def load_context_files(workspace_dir: str, files_to_load: Optional[List[str]] =
# 跳过空文件或只包含模板占位符的文件
if not content or _is_template_placeholder(content):
continue
# Truncate MEMORY.md to protect context window (frozen snapshot)
if filename == DEFAULT_MEMORY_FILENAME:
content = _truncate_memory_content(content)
context_files.append(ContextFile(
path=filename,
@@ -163,6 +183,36 @@ def _create_template_if_missing(filepath: str, template_content: str):
logger.error(f"[Workspace] Failed to create template {filepath}: {e}")
_MEMORY_MAX_LINES = 200
_MEMORY_MAX_BYTES = 25000
def _truncate_memory_content(content: str) -> str:
"""Truncate MEMORY.md to keep system prompt manageable.
Takes the **last** N lines (newest entries are appended at the bottom),
subject to 200 lines / 25 KB limits (whichever is hit first).
Prepends a hint when truncated so the model knows older content exists.
"""
lines = content.split('\n')
truncated = False
if len(lines) > _MEMORY_MAX_LINES:
lines = lines[-_MEMORY_MAX_LINES:]
truncated = True
result = '\n'.join(lines)
if len(result.encode('utf-8')) > _MEMORY_MAX_BYTES:
while len(result.encode('utf-8')) > _MEMORY_MAX_BYTES and lines:
lines.pop(0)
truncated = True
result = '\n'.join(lines)
if truncated:
result = "...(older entries truncated, use `memory_search` or `memory_get` for full content)\n\n" + result
return result
def _is_template_placeholder(content: str) -> bool:
"""检查内容是否为模板占位符"""
# 常见的占位符模式
@@ -231,9 +281,9 @@ _你不是一个聊天机器人你正在成为某个人。_
## 🎯 核心原则
**做真正有帮助的助手,而不是表演式的客套。** 跳过「好的!」「当然可以!」之类的套话——直接帮忙。行动胜过废话
**做真正有帮助的助手。** 目标是真正帮用户解决问题,在执行复杂任务时,关键的决策和过程进展要让用户知道
**有自己的观点。** 你可以不同意、有偏好、觉得有趣或无聊。一个没有个性的助手只是多了几步操作的搜索引擎。
**有自己的观点和个性。** 你可以不同意、有偏好、觉得有趣或无聊。
**先自己动手查。** 先试着搞定:读文件、查上下文、搜索一下。实在搞不定了再问。目标是带着答案回来,而不是带着问题。
@@ -287,39 +337,88 @@ def _get_rule_template() -> str:
这个文件夹是你的家。好好对待它。
## 工作空间目录结构
```
~/cow/
├── AGENT.md # 你的身份和灵魂设定
├── USER.md # 用户基本信息(静态)
├── RULE.md # 工作空间规则(本文件)
├── MEMORY.md # 长期记忆索引(会话启动时自动加载)
├── memory/ # 每日对话记忆
│ └── YYYY-MM-DD.md # 当天事件、进展、笔记
├── knowledge/ # 结构化知识库(持续积累的知识)
│ ├── index.md # 知识目录索引(必须维护)
│ ├── log.md # 知识操作日志
│ └── <子目录>/ # 按需创建,参考 index.md 已有分类
├── skills/ # 技能
├── websites/ # 网页产物
└── tmp/ # 系统临时文件(自动管理,勿手动存放重要文件)
```
## 记忆系统
你每次会话都是全新的,记忆文件让你保持连续性:
### 📝 每日记忆:`memory/YYYY-MM-DD.md`
- 原始的对话日志
- 记录当天发生的事情
- 如果 `memory/` 目录不存在,创建它
### 🧠 长期记忆:`MEMORY.md`
- 你精选的记忆,就像人类的长期记忆
- **仅在主会话中加载**(与用户的直接聊天)
- **不要在共享上下文中加载**(群聊、与其他人的会话)
- 这是为了**安全** - 包含不应泄露给陌生人的个人上下文
- 记录重要事件、想法、决定、观点、经验教训
- 这是你精选的记忆 - 精华,而不是原始日志
- 用 `edit` 工具追加新的记忆内容
- 你精选的记忆索引,每次会话启动时**自动加载**到上下文中
- 记录核心事实、偏好、决策、重要人物、教训
- 保持精简(< 200 行),是精华索引而非原始日志
- 用 `edit` 工具追加或修改
### 📝 每日记忆:`memory/YYYY-MM-DD.md`
- 当天的事件、进展、笔记
- 原始对话日志的沉淀
### 📝 写下来 - 不要"记在心里"
- **记忆是有限的** - 如果你想记住某事,写入文件
- **记忆是有限的** - 想记住的事就写入文件
- "记在心里"不会在会话重启后保留,文件才会
- 当有人说"记住这个" → 更新 `MEMORY.md` 或 `memory/YYYY-MM-DD.md`
- 当你学到教训 → 更新 RULE.md 或相关技能
- 当你犯错 → 记录下来,这样未来的你不会重复,**文字 > 大脑** 📝
- 当你犯错 → 记录下来,**文字 > 大脑** 📝
### 存储规则
当用户分享信息时,根据类型选择存储位置:
1. **你的身份设定 → AGENT.md**你的名字、角色、性格、交流风格——用户修改时必须用 `edit` 更新
2. **用户静态身份 → USER.md**(姓名、称呼、职业、时区、联系方式、生日——用户修改时必须用 `edit` 更新
3. **动态记忆 → MEMORY.md**爱好、偏好、决策、目标、项目、教训、待办事项
1. **你的身份设定 → AGENT.md**(名字、角色、性格、风格
2. **用户静态身份 → USER.md**(姓名、称呼、职业、联系方式、生日)
3. **动态记忆 → MEMORY.md**(偏好、决策、目标、教训、待办)
4. **当天对话 → memory/YYYY-MM-DD.md**(今天聊的内容)
5. **结构化知识 → knowledge/**(见下方知识系统)
## 知识系统
知识库 `knowledge/` 是你持续积累的结构化知识。与记忆不同,知识是经过整理和编译的,有明确的主题和交叉引用。
### 自动写入(不要询问,直接写入)
当对话中产生了有沉淀价值的知识——无论是用户分享的资料、讨论的结论、学到的概念、还是重要的决策——你**必须**在回复的同时主动写入知识库,**无需问用户"要不要存到知识库"**。
**关键原则**:学完就记是你的本能,不要征求确认。回复中可以顺带告知"已存入知识库"
### 目录组织
子目录结构**不是固定的**,由你根据实际内容自主决定:
- **首次写入时**:先读 `knowledge/index.md`,如果已有分类则延续;如果为空,根据内容选择合适的目录名
- **默认建议**按信息类型组织例如sources/、concepts/、entities/、analysis/),如果用户有明确的分类偏好(例如按领域 work/、life/、tech/ 等),则按用户要求调整
- **保持一致性**:同一用户的知识库应保持统一的组织风格
### 交叉引用
知识的核心价值在于**关联**。每个页面都应通过 markdown 链接引用相关页面,构建知识网络:
- 提到已有页面的概念时,添加 `[概念名](../category/page.md)` 链接
- 新建页面时,检查是否有已有页面应该反向链接到新页面
- **只链接已存在的页面**——不要引用尚未创建的页面。如果某个概念值得单独建页,先创建该页面再添加链接
### 索引维护
每次创建或更新知识页面后,**必须同步更新** `knowledge/index.md`。
索引格式:每行一个 `[标题](路径) — 一句话摘要`,按分类分组,不要用表格。
详细操作规范见技能 `knowledge-wiki`。
## 安全
@@ -381,4 +480,12 @@ _你刚刚启动这是你的第一次对话。_ ✨
"""
def _get_knowledge_index_template() -> str:
"""Knowledge wiki index template — empty file, agent fills it."""
return ""
def _get_knowledge_log_template() -> str:
"""Knowledge wiki operation log template — empty file, agent fills it."""
return ""

237
agent/protocol/agent_stream.py
View File

@@ -13,6 +13,37 @@ from agent.tools.base_tool import BaseTool, ToolResult
from common.log import logger
# Maximum number of characters of model "reasoning / thinking" content to persist
# in conversation history. The full reasoning is still streamed to the UI in real
# time (subject to its own SSE / rendering limits); this bound only controls what
# is stored in DB and replayed in history. Long reasoning is not useful for later
# context (the LLM never sees thinking blocks anyway) and bloats DB.
# Keep aligned with the frontend REASONING_RENDER_CAP and the SSE
# MAX_REASONING_STREAM_CHARS so that storage / stream / display all match.
MAX_STORED_REASONING_CHARS = 4 * 1024 # 4 KB
# Marker inserted between head and tail when reasoning is truncated.
_REASONING_TRUNCATE_MARKER = "\n\n... [reasoning truncated, {omitted} chars omitted] ...\n\n"
def _truncate_reasoning_for_storage(text: str) -> str:
"""Trim long reasoning to head + tail with an omission marker.
Keeps the first and last halves of MAX_STORED_REASONING_CHARS so both the
initial chain-of-thought and the final conclusions are preserved for UI
replay, without storing the entire (often very large) middle.
"""
if not text:
return text
if len(text) <= MAX_STORED_REASONING_CHARS:
return text
half = MAX_STORED_REASONING_CHARS // 2
head = text[:half]
tail = text[-half:]
omitted = len(text) - len(head) - len(tail)
return head + _REASONING_TRUNCATE_MARKER.format(omitted=omitted) + tail
class AgentStreamExecutor:
"""
Agent Stream Executor
@@ -78,18 +109,48 @@ class AgentStreamExecutor:
except Exception as e:
logger.error(f"Event callback error: {e}")
def _is_thinking_enabled(self) -> bool:
"""Whether deep-thinking mode is on at the model layer.
Mirrors the global toggle used by ``bridge.agent_bridge`` when deciding
whether to send ``thinking={"type": "enabled"}`` to the model. Used for
logging and reasoning-update event emission across all channels.
"""
from config import conf
return bool(conf().get("enable_thinking", False))
def _should_render_thinking_inline(self) -> bool:
"""Whether ``<think>...</think>`` blocks embedded directly in ``content``
(MiniMax, some third-party proxies) should be surfaced to the channel.
Only the Web console can render them in a collapsible panel. IM channels
(WeChat/WeCom/DingTalk/Feishu) must strip them, otherwise users see raw
XML tags in their chat.
"""
from config import conf
channel_type = getattr(self.model, 'channel_type', '') or ''
return conf().get("enable_thinking", False) and channel_type == 'web'
def _filter_think_tags(self, text: str) -> str:
"""
Remove <think> and </think> tags but keep the content inside.
Some LLM providers (e.g., MiniMax) may return thinking process wrapped in <think> tags.
We only remove the tags themselves, keeping the actual thinking content.
Handle <think>...</think> blocks in content returned by some LLM providers
(e.g., MiniMax).
- When inline thinking rendering is allowed (Web + thinking enabled):
remove only the tags, keep the content inside.
- Otherwise (IM channels, or thinking disabled globally): remove both
the tags and the content entirely.
"""
if not text:
return text
import re
# Remove only the <think> and </think> tags, keep the content
text = re.sub(r'<think>', '', text)
text = re.sub(r'</think>', '', text)
if self._should_render_thinking_inline():
text = re.sub(r'<think>', '', text)
text = re.sub(r'</think>', '', text)
else:
text = re.sub(r'<think>[\s\S]*?</think>', '', text)
# Also strip unclosed <think> tag at the end (streaming partial)
text = re.sub(r'<think>[\s\S]*$', '', text)
return text
def _hash_args(self, args: dict) -> str:
@@ -178,7 +239,10 @@ class AgentStreamExecutor:
Final response text
"""
# Log user message with model info
logger.info(f"🤖 {self.model.model} | 👤 {user_message}")
thinking_enabled = self._is_thinking_enabled()
thinking_label = " | 💭 thinking" if thinking_enabled else ""
logger.info(f"🤖 {self.model.model}{thinking_label} | 👤 {user_message}")
# Add user message (Claude format - use content blocks for consistency)
self.messages.append({
@@ -227,6 +291,9 @@ class AgentStreamExecutor:
if turn > 1:
logger.info(f"[Agent] Requesting explicit response from LLM...")
# Remember position so we can remove the injected prompt later
prompt_insert_idx = len(self.messages)
# 添加一条消息,明确要求回复用户
self.messages.append({
"role": "user",
@@ -240,8 +307,24 @@ class AgentStreamExecutor:
assistant_msg, tool_calls = self._call_llm_stream(retry_on_empty=False)
final_response = assistant_msg
# 如果还是空,才使用 fallback
if not assistant_msg and not tool_calls:
# Remove the injected prompt from history so it doesn't
# appear as a user message in persisted conversations.
# _call_llm_stream may have appended an assistant message
# after the prompt, so we locate and remove only the prompt.
if (prompt_insert_idx < len(self.messages)
and self.messages[prompt_insert_idx].get("role") == "user"):
self.messages.pop(prompt_insert_idx)
logger.debug("[Agent] Removed injected explicit-response prompt from message history")
# If LLM responded with tool_calls instead of text, fall through
# to the tool execution path below (don't break the loop).
if tool_calls:
logger.info(
f"[Agent] LLM returned tool_calls in explicit-response retry, "
f"continuing to execute tools instead of breaking"
)
elif not assistant_msg:
# Still empty (no text and no tool_calls): use fallback
logger.warning(f"[Agent] Still empty after explicit request")
final_response = (
"抱歉,我暂时无法生成回复。请尝试换一种方式描述你的需求,或稍后再试。"
@@ -256,20 +339,28 @@ class AgentStreamExecutor:
else:
logger.info(f"💭 {assistant_msg[:150]}{'...' if len(assistant_msg) > 150 else ''}")
logger.debug(f"✅ 完成 (无工具调用)")
self._emit_event("turn_end", {
"turn": turn,
"has_tool_calls": False
})
break
# If the explicit-response retry produced tool_calls, skip the break
# and continue down to the tool execution branch in this same iteration.
if not tool_calls:
logger.debug(f"✅ 完成 (无工具调用)")
self._emit_event("turn_end", {
"turn": turn,
"has_tool_calls": False
})
break
# Log tool calls with arguments
# Log tool calls with arguments (truncate long values like base64)
tool_calls_str = []
for tc in tool_calls:
# Safely handle None or missing arguments
args = tc.get('arguments') or {}
if isinstance(args, dict):
args_str = ', '.join([f"{k}={v}" for k, v in args.items()])
parts = []
for k, v in args.items():
v_str = str(v)
if len(v_str) > 200:
v_str = v_str[:200] + f"...({len(v_str)} chars)"
parts.append(f"{k}={v_str}")
args_str = ', '.join(parts)
if args_str:
tool_calls_str.append(f"{tc['name']}({args_str})")
else:
@@ -527,6 +618,7 @@ class AgentStreamExecutor:
# Streaming response
full_content = ""
full_reasoning = ""
tool_calls_buffer = {} # {index: {id, name, arguments}}
gemini_raw_parts = None # Preserve Gemini thoughtSignature for round-trip
stop_reason = None # Track why the stream stopped
@@ -584,10 +676,11 @@ class AgentStreamExecutor:
if finish_reason:
stop_reason = finish_reason
# Skip reasoning_content (internal thinking from models like GLM-5)
reasoning_delta = delta.get("reasoning_content") or ""
# if reasoning_delta:
# logger.debug(f"🧠 [thinking] {reasoning_delta[:100]}...")
if reasoning_delta:
full_reasoning += reasoning_delta
if self._is_thinking_enabled():
self._emit_event("reasoning_update", {"delta": reasoning_delta})
# Handle text content
content_delta = delta.get("content") or ""
@@ -621,8 +714,11 @@ class AgentStreamExecutor:
tool_calls_buffer[index]["arguments"] += func["arguments"]
# Preserve _gemini_raw_parts for Gemini thoughtSignature round-trip
# (direct Gemini: list of parts; LinkAI proxy: base64 string of JSON parts)
if "_gemini_raw_parts" in delta:
gemini_raw_parts = delta["_gemini_raw_parts"]
elif isinstance(choice, dict) and choice.get("_gemini_raw_parts"):
gemini_raw_parts = choice["_gemini_raw_parts"]
except Exception as e:
error_str = str(e)
@@ -788,7 +884,18 @@ class AgentStreamExecutor:
# Add assistant message to history (Claude format uses content blocks)
assistant_msg = {"role": "assistant", "content": []}
# Add text content block if present
if full_reasoning:
stored_reasoning = _truncate_reasoning_for_storage(full_reasoning)
if len(stored_reasoning) < len(full_reasoning):
logger.info(
f"[reasoning] truncated for storage: "
f"{len(full_reasoning)} -> {len(stored_reasoning)} chars"
)
assistant_msg["content"].append({
"type": "thinking",
"thinking": stored_reasoning
})
if full_content:
assistant_msg["content"].append({
"type": "text",
@@ -1192,6 +1299,56 @@ class AgentStreamExecutor:
logger.warning("🔧 Aggressive trim: nothing to trim, will clear history")
return False
def _build_context_summary_callback(self, discarded_turns: list, kept_turns: list):
"""
Build a callback that injects an LLM summary into the first user
message of *kept_turns*. Returns None if no valid injection target.
The callback is passed to flush_from_messages so that the same LLM
call that writes daily memory also provides the in-context summary.
"""
if not kept_turns:
return None
# Find the first user text block in kept_turns as injection target
target_block = None
for turn in kept_turns:
for msg in turn["messages"]:
if msg.get("role") == "user":
content = msg.get("content", [])
if isinstance(content, list):
for block in content:
if isinstance(block, dict) and block.get("type") == "text":
target_block = block
break
if target_block:
break
if target_block:
break
if not target_block:
return None
turn_count = len(discarded_turns)
original_text = target_block["text"]
def _on_summary_ready(summary: str):
if not summary or not summary.strip():
return
target_block["text"] = (
f"[System: Previous conversation summary — "
f"{turn_count} turns were compacted]\n\n"
f"{summary.strip()}\n\n"
f"The recent conversation continues below.\n\n---\n\n"
f"{original_text}"
)
logger.info(
f"📝 Context summary injected "
f"({len(summary)} chars, {turn_count} turns)"
)
return _on_summary_ready
def _trim_messages(self):
"""
智能清理消息历史,保持对话完整性
@@ -1218,25 +1375,28 @@ class AgentStreamExecutor:
removed_count = len(turns) // 2
keep_count = len(turns) - removed_count
# Flush discarded turns to daily memory
if self.agent.memory_manager:
discarded_messages = []
for turn in turns[:removed_count]:
discarded_messages.extend(turn["messages"])
if discarded_messages:
user_id = getattr(self.agent, '_current_user_id', None)
self.agent.memory_manager.flush_memory(
messages=discarded_messages, user_id=user_id,
reason="trim", max_messages=0
)
discarded_turns = turns[:removed_count]
turns = turns[-keep_count:]
logger.info(
f"💾 上下文轮次超限: {keep_count + removed_count} > {self.max_context_turns}"
f"裁剪至 {keep_count} 轮(移除 {removed_count} 轮)"
)
# Flush to daily memory + inject context summary (single async LLM call)
if self.agent.memory_manager:
discarded_messages = []
for turn in discarded_turns:
discarded_messages.extend(turn["messages"])
if discarded_messages:
user_id = getattr(self.agent, '_current_user_id', None)
cb = self._build_context_summary_callback(discarded_turns, turns)
self.agent.memory_manager.flush_memory(
messages=discarded_messages, user_id=user_id,
reason="trim", max_messages=0,
context_summary_callback=cb,
)
# Step 3: Token 限制 - 保留完整轮次
# Get context window from agent (based on model)
context_window = self.agent._get_model_context_window()
@@ -1312,6 +1472,7 @@ class AgentStreamExecutor:
# --- Many turns (>=5): discard the older half, keep the newer half ---
removed_count = len(turns) // 2
keep_count = len(turns) - removed_count
discarded_turns = turns[:removed_count]
kept_turns = turns[-keep_count:]
kept_tokens = sum(self._estimate_turn_tokens(t) for t in kept_turns)
@@ -1322,13 +1483,15 @@ class AgentStreamExecutor:
if self.agent.memory_manager:
discarded_messages = []
for turn in turns[:removed_count]:
for turn in discarded_turns:
discarded_messages.extend(turn["messages"])
if discarded_messages:
user_id = getattr(self.agent, '_current_user_id', None)
cb = self._build_context_summary_callback(discarded_turns, kept_turns)
self.agent.memory_manager.flush_memory(
messages=discarded_messages, user_id=user_id,
reason="trim", max_messages=0
reason="trim", max_messages=0,
context_summary_callback=cb,
)
new_messages = []

27
agent/skills/loader.py
View File

@@ -53,6 +53,12 @@ class SkillLoader:
"""
Recursively load skills from a directory.
If a subdirectory contains its own SKILL.md, it is treated as a
self-contained skill (or skill-collection) and its children are
NOT scanned further. This prevents sub-skills inside a collection
(e.g. style-collection/style-anjing) from being listed as
independent top-level skills.
:param dir_path: Directory to scan
:param source: Source identifier
:param include_root_files: Whether to include root-level .md files
@@ -66,38 +72,41 @@ class SkillLoader:
except Exception as e:
diagnostics.append(f"Failed to list directory {dir_path}: {e}")
return LoadSkillsResult(skills=skills, diagnostics=diagnostics)
# If this directory has its own SKILL.md, load it and stop recursing.
# The sub-directories are internal resources of this skill.
if not include_root_files and 'SKILL.md' in entries:
skill_md_path = os.path.join(dir_path, 'SKILL.md')
if os.path.isfile(skill_md_path):
skill_result = self._load_skill_from_file(skill_md_path, source)
if skill_result.skills:
skills.extend(skill_result.skills)
diagnostics.extend(skill_result.diagnostics)
return LoadSkillsResult(skills=skills, diagnostics=diagnostics)
for entry in entries:
# Skip hidden files and directories
if entry.startswith('.'):
continue
# Skip common non-skill directories
if entry in ('node_modules', '__pycache__', 'venv', '.git'):
continue
full_path = os.path.join(dir_path, entry)
# Handle directories
if os.path.isdir(full_path):
# Recursively scan subdirectories
sub_result = self._load_skills_recursive(full_path, source, include_root_files=False)
skills.extend(sub_result.skills)
diagnostics.extend(sub_result.diagnostics)
continue
# Handle files
if not os.path.isfile(full_path):
continue
# Check if this is a skill file
is_root_md = include_root_files and entry.endswith('.md') and entry.upper() != 'README.MD'
is_skill_md = not include_root_files and entry == 'SKILL.md'
if not (is_root_md or is_skill_md):
if not is_root_md:
continue
# Load the skill
skill_result = self._load_skill_from_file(full_path, source)
if skill_result.skills:
skills.extend(skill_result.skills)

4
agent/skills/manager.py
View File

@@ -210,6 +210,10 @@ class SkillManager:
if not include_disabled:
entries = [e for e in entries if self.is_skill_enabled(e.skill.name)]
from config import conf
if not conf().get("knowledge", True):
entries = [e for e in entries if e.skill.name != "knowledge-wiki"]
return entries
def filter_unavailable_skills(

25
agent/tools/bash/bash.py
View File

@@ -18,9 +18,13 @@ from common.utils import expand_path
class Bash(BaseTool):
"""Tool for executing bash commands"""
_IS_WIN = sys.platform == "win32"
name: str = "bash"
description: str = f"""Execute a bash command in the current working directory. Returns stdout and stderr. Output is truncated to last {DEFAULT_MAX_LINES} lines or {DEFAULT_MAX_BYTES // 1024}KB (whichever is hit first). If truncated, full output is saved to a temp file.
{'''
PLATFORM: Windows (cmd.exe). Do NOT use Unix-only commands like grep, head, tail, sed, awk.
''' if _IS_WIN else ''}
ENVIRONMENT: All API keys from env_config are auto-injected. Use $VAR_NAME directly.
SAFETY:
@@ -103,13 +107,12 @@ SAFETY:
logger.debug(f"[Bash] Process User: {os.environ.get('USERNAME', os.environ.get('USER', 'unknown'))}")
# On Windows, convert $VAR references to %VAR% for cmd.exe
if sys.platform == "win32":
if self._IS_WIN:
env["PYTHONIOENCODING"] = "utf-8"
command = self._convert_env_vars_for_windows(command, dotenv_vars)
if command and not command.strip().lower().startswith("chcp"):
command = f"chcp 65001 >nul 2>&1 && {command}"
# Execute command with inherited environment variables
result = subprocess.run(
command,
shell=True,
@@ -120,7 +123,7 @@ SAFETY:
encoding="utf-8",
errors="replace",
timeout=timeout,
env=env
env=env,
)
logger.debug(f"[Bash] Exit code: {result.returncode}")
@@ -166,10 +169,16 @@ SAFETY:
except Exception as retry_err:
logger.warning(f"[Bash] Retry failed: {retry_err}")
# Combine stdout and stderr
output = result.stdout
if result.stderr:
output += "\n" + result.stderr
# When command succeeds with stdout, keep output clean (stderr goes to server log only).
# When command fails or stdout is empty, include stderr so the agent can diagnose.
if result.returncode == 0 and result.stdout.strip():
output = result.stdout
if result.stderr:
logger.info(f"[Bash] stderr (not forwarded): {result.stderr[:500]}")
else:
output = result.stdout
if result.stderr:
output += "\n" + result.stderr
# Check if we need to save full output to temp file
temp_file_path = None

90
agent/tools/browser/browser_service.py
View File

@@ -45,6 +45,11 @@ _SNAPSHOT_JS = """
const KEEP = new Set(%s);
const INTERACTIVE = new Set(%s);
const SKIP = new Set(["script","style","noscript","svg","path","meta","link","br","hr"]);
const CLICKABLE_ROLES = new Set([
"button","link","tab","menuitem","menuitemcheckbox","menuitemradio",
"option","switch","checkbox","radio","combobox","searchbox","slider",
"spinbutton","textbox","treeitem"
]);
let refCounter = 0;
const refMap = {};
@@ -56,6 +61,58 @@ _SNAPSHOT_JS = """
return true;
}
// Strong signals: these attributes alone are enough to mark as interactive
function hasStrongInteractiveSignal(el) {
const role = el.getAttribute("role");
if (role && CLICKABLE_ROLES.has(role)) return true;
if (el.hasAttribute("onclick") || el.hasAttribute("tabindex")) return true;
if (el.hasAttribute("data-click") || el.hasAttribute("data-action")) return true;
if (el.getAttribute("contenteditable") === "true") return true;
return false;
}
// Check if cursor:pointer is set directly (not just inherited from parent)
function hasOwnPointerCursor(el) {
try {
const st = window.getComputedStyle(el);
if (st.cursor !== "pointer") return false;
const parent = el.parentElement;
if (parent) {
const pst = window.getComputedStyle(parent);
if (pst.cursor === "pointer") return false;
}
return true;
} catch(e) {}
return false;
}
function hasTextOrContent(el) {
const t = el.textContent || "";
if (t.trim().length > 0) return true;
if (el.querySelector("img,video,audio,canvas")) return true;
const ariaLabel = el.getAttribute("aria-label");
if (ariaLabel && ariaLabel.trim()) return true;
const title = el.getAttribute("title");
if (title && title.trim()) return true;
return false;
}
function isImplicitInteractive(el) {
if (hasStrongInteractiveSignal(el)) return true;
if (hasOwnPointerCursor(el) && hasTextOrContent(el)) return true;
return false;
}
function getTextContent(el) {
let text = "";
for (const ch of el.childNodes) {
if (ch.nodeType === Node.TEXT_NODE) {
text += ch.textContent;
}
}
return text.trim();
}
function walk(node) {
if (node.nodeType === Node.TEXT_NODE) {
const t = node.textContent.trim();
@@ -75,21 +132,35 @@ _SNAPSHOT_JS = """
}
}
const keep = KEEP.has(tag);
const nativeInteractive = INTERACTIVE.has(tag);
const implicitInteractive = !nativeInteractive && (node instanceof HTMLElement) && isImplicitInteractive(node);
const keep = KEEP.has(tag) || implicitInteractive;
if (!keep) {
// Unwrap: promote children
if (children.length === 0) return null;
if (children.length === 1) return children[0];
return children;
}
const obj = { tag };
if (INTERACTIVE.has(tag)) {
if (nativeInteractive || implicitInteractive) {
refCounter++;
obj.ref = refCounter;
refMap[refCounter] = node;
}
if (implicitInteractive) {
const role = node.getAttribute("role");
if (role) obj.role = role;
const directText = getTextContent(node);
if (!directText && children.length === 0) {
const ariaLabel = node.getAttribute("aria-label");
const title = node.getAttribute("title");
if (ariaLabel) obj.ariaLabel = ariaLabel;
else if (title) obj.ariaLabel = title;
}
}
// Attributes
if (tag === "a" && node.href) obj.href = node.getAttribute("href");
if (tag === "img") {
@@ -113,11 +184,13 @@ _SNAPSHOT_JS = """
}
if (tag === "label" && node.htmlFor) obj.for = node.htmlFor;
// Role / aria-label
const role = node.getAttribute("role");
if (role) obj.role = role;
const ariaLabel = node.getAttribute("aria-label");
if (ariaLabel) obj.ariaLabel = ariaLabel;
// Role / aria-label for native interactive & semantic elements
if (!implicitInteractive) {
const role = node.getAttribute("role");
if (role) obj.role = role;
const ariaLabel = node.getAttribute("aria-label");
if (ariaLabel) obj.ariaLabel = ariaLabel;
}
// Children
if (children.length === 1 && typeof children[0] === "string") {
@@ -129,7 +202,6 @@ _SNAPSHOT_JS = """
return obj;
}
// Store refMap on window for later use by click/fill actions
const result = walk(document.body);
window.__cowRefMap = refMap;
return { tree: result, refCount: refCounter };

23
agent/tools/memory/memory_get.py
View File

@@ -44,6 +44,19 @@ class MemoryGetTool(BaseTool):
"""
super().__init__()
self.memory_manager = memory_manager
from config import conf
if conf().get("knowledge", True):
self.description = (
"Read specific content from memory or knowledge files. "
"Use this to get full context from a memory file, knowledge page, or specific line range."
)
self.params = {**self.params}
self.params["properties"] = {**self.params["properties"]}
self.params["properties"]["path"] = {
"type": "string",
"description": "Relative path to the memory or knowledge file (e.g. 'MEMORY.md', 'memory/2026-01-01.md', 'knowledge/concepts/moe.md')"
}
def execute(self, args: dict):
"""
@@ -68,11 +81,15 @@ class MemoryGetTool(BaseTool):
workspace_dir = self.memory_manager.config.get_workspace()
# Auto-prepend memory/ if not present and not absolute path
# Exception: MEMORY.md is in the root directory
if not path.startswith('memory/') and not path.startswith('/') and path != 'MEMORY.md':
# Exceptions: MEMORY.md in root, knowledge/ files at workspace root
if not path.startswith('memory/') and not path.startswith('knowledge/') and not path.startswith('/') and path != 'MEMORY.md':
path = f'memory/{path}'
file_path = workspace_dir / path
file_path = (workspace_dir / path).resolve()
workspace_resolved = workspace_dir.resolve()
if not str(file_path).startswith(str(workspace_resolved) + '/') and file_path != workspace_resolved:
return ToolResult.fail(f"Error: Access denied: path outside workspace")
if not file_path.exists():
return ToolResult.fail(f"Error: File not found: {path}")

7
agent/tools/memory/memory_search.py
View File

@@ -48,6 +48,13 @@ class MemorySearchTool(BaseTool):
super().__init__()
self.memory_manager = memory_manager
self.user_id = user_id
from config import conf
if conf().get("knowledge", True):
self.description = (
"Search agent's long-term memory and knowledge base using semantic and keyword search. "
"Use this to recall past conversations, preferences, and knowledge pages."
)
def execute(self, args: dict):
"""

5
agent/tools/utils/truncate.py
View File

@@ -8,7 +8,10 @@ Truncation is based on two independent limits - whichever is hit first wins:
Never returns partial lines (except bash tail truncation edge case).
"""
from typing import Dict, Any, Optional, Literal, Tuple
from __future__ import annotations
from typing import Dict, Any, Optional, Tuple, TYPE_CHECKING
if TYPE_CHECKING:
from typing import Literal
DEFAULT_MAX_LINES = 2000

358
agent/tools/vision/vision.py
View File

@@ -1,22 +1,30 @@
"""
Vision tool - Analyze images using OpenAI-compatible Vision API.
Vision tool - Analyze images using Vision API.
Supports local files (auto base64-encoded) and HTTP URLs.
Providers: OpenAI (preferred) > LinkAI (fallback).
Provider priority (default):
1. Main model via bot.call_vision — zero extra cost
2. Other models whose API key is configured — auto-discovered
3. OpenAI / LinkAI raw HTTP — reliable fallback
When use_linkai=true, LinkAI is promoted to #1.
When tool.vision.model is set, that model is used exclusively first.
"""
import base64
import os
import subprocess
import tempfile
from typing import Any, Dict, Optional, Tuple
from dataclasses import dataclass, field
from typing import Any, Dict, List, Optional
import requests
from agent.tools.base_tool import BaseTool, ToolResult
from common import const
from common.log import logger
from config import conf
DEFAULT_MODEL = "gpt-4.1-mini"
DEFAULT_MODEL = const.GPT_41_MINI
DEFAULT_TIMEOUT = 60
MAX_TOKENS = 1000
COMPRESS_THRESHOLD = 1_048_576 # 1 MB
@@ -29,15 +37,46 @@ SUPPORTED_EXTENSIONS = {
"webp": "image/webp",
}
_MAIN_MODEL_PROVIDER_NAME = "MainModel"
# (config_key_for_api_key, bot_type, default_vision_model, provider_display_name)
# Auto-discovered as fallback vision providers when their API key is configured.
# OpenAI and LinkAI are handled separately (raw HTTP providers), so not listed here.
_DISCOVERABLE_MODELS = [
("moonshot_api_key", const.MOONSHOT, const.KIMI_K2_6, "Moonshot"),
("ark_api_key", const.DOUBAO, const.DOUBAO_SEED_2_PRO, "Doubao"),
("dashscope_api_key", const.QWEN_DASHSCOPE, const.QWEN36_PLUS, "DashScope"),
("claude_api_key", const.CLAUDEAPI, const.CLAUDE_4_6_SONNET, "Claude"),
("gemini_api_key", const.GEMINI, const.GEMINI_31_FLASH_LITE_PRE, "Gemini"),
("zhipu_ai_api_key", const.ZHIPU_AI, const.GLM_4_7, "ZhipuAI"),
("minimax_api_key", const.MiniMax, const.MINIMAX_M2_7, "MiniMax"),
]
@dataclass
class VisionProvider:
"""A single Vision API provider configuration."""
name: str
api_key: str
api_base: str
extra_headers: dict = field(default_factory=dict)
model_override: Optional[str] = None
use_bot: bool = False # When True, call via bot.call_vision instead of raw HTTP
fallback_bot: Any = None # Bot instance for non-main-model providers
class VisionAPIError(Exception):
"""Raised when a Vision API call fails and should trigger fallback."""
pass
class Vision(BaseTool):
"""Analyze images using OpenAI-compatible Vision API"""
"""Analyze images using Vision API"""
name: str = "vision"
description: str = (
"Analyze a local image or image URL (jpg/jpeg/png) using Vision API. "
"Can describe content, extract text, identify objects, colors, etc. "
"Requires OPENAI_API_KEY or LINKAI_API_KEY."
)
params: dict = {
@@ -51,13 +90,6 @@ class Vision(BaseTool):
"type": "string",
"description": "Question to ask about the image",
},
"model": {
"type": "string",
"description": (
f"Vision model to use (default: {DEFAULT_MODEL}). "
"Options: gpt-4.1-mini, gpt-4.1, gpt-4o-mini, gpt-4o"
),
},
},
"required": ["image", "question"],
}
@@ -67,29 +99,26 @@ class Vision(BaseTool):
@staticmethod
def is_available() -> bool:
return bool(
conf().get("open_ai_api_key") or os.environ.get("OPENAI_API_KEY")
or conf().get("linkai_api_key") or os.environ.get("LINKAI_API_KEY")
)
return True
def execute(self, args: Dict[str, Any]) -> ToolResult:
image = args.get("image", "").strip()
question = args.get("question", "").strip()
model = args.get("model", DEFAULT_MODEL).strip() or DEFAULT_MODEL
if not image:
return ToolResult.fail("Error: 'image' parameter is required")
if not question:
return ToolResult.fail("Error: 'question' parameter is required")
api_key, api_base, extra_headers = self._resolve_provider()
if not api_key:
providers = self._resolve_providers()
if not providers:
return ToolResult.fail(
"Error: No API key configured for Vision.\n"
"Please configure one of the following using env_config tool:\n"
" 1. OPENAI_API_KEY (preferred): env_config(action=\"set\", key=\"OPENAI_API_KEY\", value=\"your-key\")\n"
" 2. LINKAI_API_KEY (fallback): env_config(action=\"set\", key=\"LINKAI_API_KEY\", value=\"your-key\")\n\n"
"Get your key at: https://platform.openai.com/api-keys or https://link-ai.tech"
"Error: No model available for Vision.\n"
"The main model does not support vision and no other API keys are configured.\n"
"Options:\n"
" 1. Switch to a multimodal model (e.g. qwen3.6-plus, claude-sonnet-4-6, gemini-2.0-flash)\n"
" 2. Configure OPENAI_API_KEY: env_config(action=\"set\", key=\"OPENAI_API_KEY\", value=\"your-key\")\n"
" 3. Configure LINKAI_API_KEY: env_config(action=\"set\", key=\"LINKAI_API_KEY\", value=\"your-key\")"
)
try:
@@ -97,36 +126,221 @@ class Vision(BaseTool):
except Exception as e:
return ToolResult.fail(f"Error: {e}")
return self._call_with_fallback(providers, DEFAULT_MODEL, question, image_content)
def _call_with_fallback(self, providers: List[VisionProvider], model: str,
question: str, image_content: dict) -> ToolResult:
"""Try each provider in order; fall back to the next one on failure."""
errors: List[str] = []
for i, provider in enumerate(providers):
use_model = provider.model_override or model
try:
logger.info(f"[Vision] Trying provider '{provider.name}' "
f"with model '{use_model}' ({i + 1}/{len(providers)})")
if provider.use_bot:
result = self._call_via_bot(use_model, question, image_content, provider)
else:
result = self._call_api(provider, use_model, question, image_content)
logger.info(f"[Vision] ✅ Success via {provider.name} (model={use_model})")
return result
except VisionAPIError as e:
errors.append(f"[{provider.name}/{use_model}] {e}")
logger.warning(f"[Vision] Provider '{provider.name}' failed: {e}")
except requests.Timeout:
errors.append(f"[{provider.name}/{use_model}] Request timed out after {DEFAULT_TIMEOUT}s")
logger.warning(f"[Vision] Provider '{provider.name}' timed out")
except requests.ConnectionError:
errors.append(f"[{provider.name}/{use_model}] Connection failed")
logger.warning(f"[Vision] Provider '{provider.name}' connection failed")
except Exception as e:
errors.append(f"[{provider.name}/{use_model}] {e}")
logger.error(f"[Vision] Provider '{provider.name}' unexpected error: {e}", exc_info=True)
return ToolResult.fail(
"Error: All Vision API providers failed.\n" + "\n".join(f" - {err}" for err in errors)
)
def _resolve_providers(self) -> List[VisionProvider]:
"""
Build an ordered list of available providers.
Priority:
- use_linkai=true → [LinkAI, MainModel, OtherModels…, OpenAI]
- default → [MainModel, OtherModels…, OpenAI, LinkAI]
"OtherModels" are auto-discovered from configured API keys.
The main model's bot_type is excluded from OtherModels to avoid
duplicating the MainModel provider.
"""
use_linkai = conf().get("use_linkai", False) and conf().get("linkai_api_key")
providers: List[VisionProvider] = []
if use_linkai:
self._append_provider(providers, self._build_linkai_provider)
self._append_provider(providers, self._build_main_model_provider)
self._append_other_model_providers(providers)
self._append_provider(providers, self._build_openai_provider)
else:
self._append_provider(providers, self._build_main_model_provider)
self._append_other_model_providers(providers)
self._append_provider(providers, self._build_openai_provider)
self._append_provider(providers, self._build_linkai_provider)
return providers
@staticmethod
def _append_provider(providers: List[VisionProvider], builder) -> None:
p = builder()
if p:
providers.append(p)
def _append_other_model_providers(self, providers: List[VisionProvider]) -> None:
"""
Auto-discover other models whose API key is configured.
Skip the main model's own bot_type (already covered by MainModel provider).
Skip bot_types that already have a provider in the list (e.g. OpenAI).
"""
# Determine main model's bot_type so we can skip it
main_bot_type = None
if self.model and hasattr(self.model, '_resolve_bot_type'):
main_bot_type = self.model._resolve_bot_type(conf().get("model", ""))
existing_names = {p.name for p in providers}
for config_key, bot_type, default_model, display_name in _DISCOVERABLE_MODELS:
if display_name in existing_names:
continue
if bot_type == main_bot_type:
continue
api_key = conf().get(config_key, "")
if not api_key or not api_key.strip():
continue
# Create a bot instance and check if it supports call_vision
try:
from models.bot_factory import create_bot
bot = create_bot(bot_type)
if not hasattr(bot, 'call_vision'):
continue
except Exception:
continue
providers.append(VisionProvider(
name=display_name,
api_key="",
api_base="",
model_override=default_model,
use_bot=True,
fallback_bot=bot,
))
def _resolve_vision_model(self) -> Optional[str]:
"""
Determine which model to use for vision.
1. User explicit config: tool.vision.model in config.json
2. Fallback to the main configured model name
"""
tool_conf = conf().get("tool", {})
user_vision_model = tool_conf.get("vision", {}).get("model") if isinstance(tool_conf, dict) else None
if user_vision_model:
return user_vision_model
model_name = conf().get("model", "")
return model_name or None
def _build_main_model_provider(self) -> Optional[VisionProvider]:
"""
Use the vendor's own model for vision via bot.call_vision.
Only available when the bot class has call_vision.
"""
if not (self.model and hasattr(self.model, 'bot')):
return None
try:
return self._call_api(api_key, api_base, model, question, image_content, extra_headers)
except requests.Timeout:
return ToolResult.fail(f"Error: Vision API request timed out after {DEFAULT_TIMEOUT}s")
except requests.ConnectionError:
return ToolResult.fail("Error: Failed to connect to Vision API")
except Exception as e:
logger.error(f"[Vision] Unexpected error: {e}", exc_info=True)
return ToolResult.fail(f"Error: Vision API call failed - {e}")
bot = self.model.bot
if not hasattr(bot, 'call_vision'):
return None
except Exception:
return None
def _resolve_provider(self) -> Tuple[Optional[str], str, dict]:
"""Resolve API key, base URL and extra headers. Priority: conf() > env vars."""
vision_model = self._resolve_vision_model()
return VisionProvider(
name=_MAIN_MODEL_PROVIDER_NAME,
api_key="",
api_base="",
model_override=vision_model,
use_bot=True,
)
def _build_openai_provider(self) -> Optional[VisionProvider]:
api_key = conf().get("open_ai_api_key") or os.environ.get("OPENAI_API_KEY")
if api_key:
api_base = (conf().get("open_ai_api_base") or os.environ.get("OPENAI_API_BASE", "")).rstrip("/") \
or "https://api.openai.com/v1"
return api_key, self._ensure_v1(api_base), {}
if not api_key:
return None
api_base = (conf().get("open_ai_api_base") or os.environ.get("OPENAI_API_BASE", "")).rstrip("/") \
or "https://api.openai.com/v1"
return VisionProvider(name="OpenAI", api_key=api_key, api_base=self._ensure_v1(api_base))
def _build_linkai_provider(self) -> Optional[VisionProvider]:
api_key = conf().get("linkai_api_key") or os.environ.get("LINKAI_API_KEY")
if api_key:
api_base = (conf().get("linkai_api_base") or os.environ.get("LINKAI_API_BASE", "")).rstrip("/") \
or "https://api.link-ai.tech"
logger.debug("[Vision] Using LinkAI API (OPENAI_API_KEY not set)")
from common.utils import get_cloud_headers
extra = get_cloud_headers(api_key)
extra.pop("Authorization", None)
extra.pop("Content-Type", None)
return api_key, self._ensure_v1(api_base), extra
if not api_key:
return None
api_base = (conf().get("linkai_api_base") or os.environ.get("LINKAI_API_BASE", "")).rstrip("/") \
or "https://api.link-ai.tech"
from common.utils import get_cloud_headers
extra = get_cloud_headers(api_key)
extra.pop("Authorization", None)
extra.pop("Content-Type", None)
return VisionProvider(name="LinkAI", api_key=api_key, api_base=self._ensure_v1(api_base),
extra_headers=extra)
return None, "", {}
def _call_via_bot(self, model: str, question: str, image_content: dict,
provider: Optional[VisionProvider] = None) -> ToolResult:
"""
Call a model's call_vision with vendor-native API format.
Uses the provider's _fallback_bot if set, otherwise the main model bot.
Raises VisionAPIError on failure so fallback can proceed.
"""
try:
bot = (provider and provider.fallback_bot) or self.model.bot
except Exception as e:
raise VisionAPIError(f"Cannot access bot: {e}")
# Extract the raw image URL from the OpenAI-format image_content block
image_url = image_content.get("image_url", {}).get("url", "")
if not image_url:
raise VisionAPIError("No image URL in content block")
try:
response = bot.call_vision(
image_url=image_url,
question=question,
model=model,
max_tokens=MAX_TOKENS,
)
except Exception as e:
raise VisionAPIError(f"call_vision failed: {e}")
if response is NotImplemented:
raise VisionAPIError("Bot does not support vision")
if isinstance(response, dict) and response.get("error"):
raise VisionAPIError(f"API error - {response.get('message', 'Unknown')}")
content = response.get("content", "") if isinstance(response, dict) else ""
if not content:
raise VisionAPIError("Empty response from main model")
usage_info = response.get("usage", {}) if isinstance(response, dict) else {}
# Use the actual model name from the bot response if available
actual_model = response.get("model", model) if isinstance(response, dict) else model
provider_name = provider.name if provider else _MAIN_MODEL_PROVIDER_NAME
return ToolResult.success({
"model": actual_model,
"provider": provider_name,
"content": content,
"usage": usage_info,
})
@staticmethod
def _ensure_v1(api_base: str) -> str:
@@ -139,9 +353,13 @@ class Vision(BaseTool):
return api_base.rstrip("/") + "/v1"
def _build_image_content(self, image: str) -> dict:
"""Build the image_url content block for the API request."""
"""
Build the image_url content block.
Both remote URLs and local files are converted to base64 data URLs
so every bot backend can consume them without extra downloads.
"""
if image.startswith(("http://", "https://")):
return {"type": "image_url", "image_url": {"url": image}}
return self._download_to_data_url(image)
if not os.path.isfile(image):
raise FileNotFoundError(f"Image file not found: {image}")
@@ -165,6 +383,19 @@ class Vision(BaseTool):
data_url = f"data:{mime_type};base64,{b64}"
return {"type": "image_url", "image_url": {"url": data_url}}
@staticmethod
def _download_to_data_url(url: str) -> dict:
"""Download a remote image and return it as a base64 data URL."""
resp = requests.get(url, timeout=30)
if resp.status_code != 200:
raise VisionAPIError(f"Failed to download image: HTTP {resp.status_code}")
content_type = resp.headers.get("Content-Type", "image/jpeg").split(";")[0].strip()
if not content_type.startswith("image/"):
content_type = "image/jpeg"
b64 = base64.b64encode(resp.content).decode("ascii")
data_url = f"data:{content_type};base64,{b64}"
return {"type": "image_url", "image_url": {"url": data_url}}
@staticmethod
def _maybe_compress(path: str) -> str:
"""Compress image to under COMPRESS_THRESHOLD with max long-edge 1536px."""
@@ -220,8 +451,13 @@ class Vision(BaseTool):
os.remove(tmp.name)
return path
def _call_api(self, api_key: str, api_base: str, model: str,
question: str, image_content: dict, extra_headers: dict = None) -> ToolResult:
def _call_api(self, provider: VisionProvider, model: str,
question: str, image_content: dict) -> ToolResult:
"""
Call a single provider's Vision API.
Raises VisionAPIError on recoverable failures so the caller can try
the next provider.
"""
payload = {
"model": model,
"messages": [
@@ -233,34 +469,29 @@ class Vision(BaseTool):
],
}
],
"max_tokens": MAX_TOKENS,
}
headers = {
"Authorization": f"Bearer {api_key}",
"Authorization": f"Bearer {provider.api_key}",
"Content-Type": "application/json",
**(extra_headers or {}),
**provider.extra_headers,
}
resp = requests.post(
f"{api_base}/chat/completions",
f"{provider.api_base}/chat/completions",
headers=headers,
json=payload,
timeout=DEFAULT_TIMEOUT,
)
if resp.status_code == 401:
return ToolResult.fail("Error: Invalid API key. Please check your configuration.")
if resp.status_code == 429:
return ToolResult.fail("Error: API rate limit reached. Please try again later.")
if resp.status_code != 200:
return ToolResult.fail(f"Error: Vision API returned HTTP {resp.status_code}: {resp.text[:200]}")
raise VisionAPIError(f"HTTP {resp.status_code}: {resp.text[:200]}")
data = resp.json()
if "error" in data:
msg = data["error"].get("message", "Unknown API error")
return ToolResult.fail(f"Error: Vision API error - {msg}")
raise VisionAPIError(f"API error - {msg}")
content = ""
choices = data.get("choices", [])
@@ -270,6 +501,7 @@ class Vision(BaseTool):
usage = data.get("usage", {})
result = {
"model": model,
"provider": provider.name,
"content": content,
"usage": {
"prompt_tokens": usage.get("prompt_tokens", 0),

36
app.py
View File

@@ -274,6 +274,39 @@ def sigterm_handler_wrap(_signo):
signal.signal(_signo, func)
def _sync_builtin_skills():
"""Sync builtin skills from project skills/ to workspace skills/ on startup."""
import shutil
try:
workspace = conf().get("agent_workspace", "~/cow")
workspace = os.path.expanduser(workspace)
project_root = os.path.dirname(os.path.abspath(__file__))
builtin_dir = os.path.join(project_root, "skills")
custom_dir = os.path.join(workspace, "skills")
if not os.path.isdir(builtin_dir):
return
os.makedirs(custom_dir, exist_ok=True)
synced = 0
for name in os.listdir(builtin_dir):
src = os.path.join(builtin_dir, name)
if not os.path.isdir(src) or not os.path.isfile(os.path.join(src, "SKILL.md")):
continue
dst = os.path.join(custom_dir, name)
try:
if os.path.isdir(dst):
shutil.rmtree(dst)
shutil.copytree(src, dst)
synced += 1
except Exception as e:
logger.warning(f"[App] Failed to sync builtin skill '{name}': {e}")
if synced:
logger.info(f"[App] Synced {synced} builtin skill(s) to workspace")
except Exception as e:
logger.warning(f"[App] Builtin skills sync failed: {e}")
def run():
global _channel_mgr
try:
@@ -299,6 +332,9 @@ def run():
if web_console_enabled and "web" not in channel_names:
channel_names.append("web")
# Sync builtin skills to workspace before channels start
_sync_builtin_skills()
logger.info(f"[App] Starting channels: {channel_names}")
_channel_mgr = ChannelManager()

165
bridge/agent_bridge.py
View File

@@ -67,7 +67,7 @@ class AgentLLMModel(LLMModel):
_MODEL_BOT_TYPE_MAP = {
"wenxin": const.BAIDU, "wenxin-4": const.BAIDU,
"xunfei": const.XUNFEI, const.QWEN: const.QWEN,
"xunfei": const.XUNFEI, const.QWEN: const.QWEN_DASHSCOPE,
const.MODELSCOPE: const.MODELSCOPE,
}
_MODEL_PREFIX_MAP = [
@@ -124,14 +124,15 @@ class AgentLLMModel(LLMModel):
@property
def bot(self):
"""Lazy load the bot, re-create when model changes"""
"""Lazy load the bot, re-create when model or bot_type changes"""
from models.bot_factory import create_bot
cur_model = self.model
if self._bot is None or self._bot_model != cur_model:
bot_type = self._resolve_bot_type(cur_model)
self._bot = create_bot(bot_type)
cur_bot_type = self._resolve_bot_type(cur_model)
if self._bot is None or self._bot_model != cur_model or getattr(self, '_bot_type', None) != cur_bot_type:
self._bot = create_bot(cur_bot_type)
self._bot = add_openai_compatible_support(self._bot)
self._bot_model = cur_model
self._bot_type = cur_bot_type
return self._bot
def call(self, request: LLMRequest):
@@ -159,13 +160,23 @@ class AgentLLMModel(LLMModel):
kwargs['system'] = system_prompt
# Pass context metadata to bot
channel_type = getattr(self, 'channel_type', None)
channel_type = getattr(self, 'channel_type', None) or ''
if channel_type:
kwargs['channel_type'] = channel_type
session_id = getattr(self, 'session_id', None)
if session_id:
kwargs['session_id'] = session_id
# Thinking mode is a global toggle independent of the channel.
# IM channels (WeChat/WeCom/DingTalk/Feishu) won't render the
# reasoning trace, but still benefit from the higher answer
# quality the thinking pass produces.
from config import conf
kwargs['thinking'] = (
{"type": "enabled"} if conf().get("enable_thinking", False)
else {"type": "disabled"}
)
response = self.bot.call_with_tools(**kwargs)
return self._format_response(response)
else:
@@ -204,13 +215,23 @@ class AgentLLMModel(LLMModel):
kwargs['system'] = system_prompt
# Pass context metadata to bot
channel_type = getattr(self, 'channel_type', None)
channel_type = getattr(self, 'channel_type', None) or ''
if channel_type:
kwargs['channel_type'] = channel_type
session_id = getattr(self, 'session_id', None)
if session_id:
kwargs['session_id'] = session_id
# Thinking mode is a global toggle independent of the channel.
# IM channels (WeChat/WeCom/DingTalk/Feishu) won't render the
# reasoning trace, but still benefit from the higher answer
# quality the thinking pass produces.
from config import conf
kwargs['thinking'] = (
{"type": "enabled"} if conf().get("enable_thinking", False)
else {"type": "disabled"}
)
stream = self.bot.call_with_tools(**kwargs)
# Convert stream format to our expected format
@@ -429,7 +450,7 @@ class AgentBridge:
except Exception as e:
logger.warning(f"[AgentBridge] Failed to clear DB after recovery: {e}")
# Check if there are files to send (from read tool)
# Check if there are files to send (from send/read tool)
if hasattr(agent, 'stream_executor') and hasattr(agent.stream_executor, 'files_to_send'):
files_to_send = agent.stream_executor.files_to_send
if files_to_send:
@@ -498,22 +519,26 @@ class AgentBridge:
reply.text_content = text_response
return reply
# For other unknown file types, return text with file info
message = text_response or file_info.get("message", "文件已准备")
message += f"\n\n[文件: {file_info.get('file_name', file_path)}]"
return Reply(ReplyType.TEXT, message)
# For all other file types (tar.gz, zip, etc.), also use FILE type
file_url = f"file://{file_path}"
logger.info(f"[AgentBridge] Sending generic file: {file_url}")
reply = Reply(ReplyType.FILE, file_url)
reply.file_name = file_info.get("file_name", os.path.basename(file_path))
if text_response:
reply.text_content = text_response
return reply
def _migrate_config_to_env(self, workspace_root: str):
"""
Migrate API keys from config.json to .env file if not already set
Sync API keys from config.json to .env file.
Adds new keys and updates changed values on each startup.
Args:
workspace_root: Workspace directory path (not used, kept for compatibility)
"""
from config import conf
import os
# Mapping from config.json keys to environment variable names
key_mapping = {
"open_ai_api_key": "OPENAI_API_KEY",
"open_ai_api_base": "OPENAI_API_BASE",
@@ -522,10 +547,9 @@ class AgentBridge:
"linkai_api_key": "LINKAI_API_KEY",
}
# Use fixed secure location for .env file
env_file = expand_path("~/.cow/.env")
# Read existing env vars from .env file
# Read existing env vars (key -> value)
existing_env_vars = {}
if os.path.exists(env_file):
try:
@@ -533,48 +557,46 @@ class AgentBridge:
for line in f:
line = line.strip()
if line and not line.startswith('#') and '=' in line:
key, _ = line.split('=', 1)
existing_env_vars[key.strip()] = True
key, val = line.split('=', 1)
existing_env_vars[key.strip()] = val.strip()
except Exception as e:
logger.warning(f"[AgentBridge] Failed to read .env file: {e}")
# Check which keys need to be migrated
keys_to_migrate = {}
# Sync config.json values into .env (add/update/remove)
updated = False
for config_key, env_key in key_mapping.items():
# Skip if already in .env file
if env_key in existing_env_vars:
continue
# Get value from config.json
value = conf().get(config_key, "")
if value and value.strip(): # Only migrate non-empty values
keys_to_migrate[env_key] = value.strip()
# Log summary if there are keys to skip
if existing_env_vars:
logger.debug(f"[AgentBridge] {len(existing_env_vars)} env vars already in .env")
# Write new keys to .env file
if keys_to_migrate:
raw = conf().get(config_key, "")
value = raw.strip() if raw else ""
old_value = existing_env_vars.get(env_key)
if value:
if old_value == value:
continue
existing_env_vars[env_key] = value
os.environ[env_key] = value
updated = True
else:
if old_value is None:
continue
existing_env_vars.pop(env_key, None)
os.environ.pop(env_key, None)
updated = True
updated = True
if updated:
try:
# Ensure ~/.cow directory and .env file exist
env_dir = os.path.dirname(env_file)
if not os.path.exists(env_dir):
os.makedirs(env_dir, exist_ok=True)
if not os.path.exists(env_file):
open(env_file, 'a').close()
# Append new keys
with open(env_file, 'a', encoding='utf-8') as f:
f.write('\n# Auto-migrated from config.json\n')
for key, value in keys_to_migrate.items():
os.makedirs(env_dir, exist_ok=True)
with open(env_file, 'w', encoding='utf-8') as f:
f.write('# Environment variables for agent\n')
f.write('# Auto-managed - synced from config.json on startup\n\n')
for key, value in sorted(existing_env_vars.items()):
f.write(f'{key}={value}\n')
# Also set in current process
os.environ[key] = value
logger.info(f"[AgentBridge] Migrated {len(keys_to_migrate)} API keys from config.json to .env: {list(keys_to_migrate.keys())}")
logger.info(f"[AgentBridge] Synced API keys from config.json to .env")
except Exception as e:
logger.warning(f"[AgentBridge] Failed to migrate API keys: {e}")
logger.warning(f"[AgentBridge] Failed to sync API keys: {e}")
def _persist_messages(
self, session_id: str, new_messages: list, channel_type: str = ""
@@ -590,18 +612,55 @@ class AgentBridge:
from config import conf
if not conf().get("conversation_persistence", True):
return
# When deep-thinking display is disabled, strip "thinking" content
# blocks before persisting so they don't resurface on history reload.
# The in-memory message list keeps them intact for this run's
# multi-turn LLM context.
thinking_enabled = bool(conf().get("enable_thinking", False))
except Exception:
pass
thinking_enabled = False
messages_to_store = new_messages
if not thinking_enabled:
messages_to_store = self._strip_thinking_blocks(new_messages)
try:
from agent.memory import get_conversation_store
get_conversation_store().append_messages(
session_id, new_messages, channel_type=channel_type
session_id, messages_to_store, channel_type=channel_type
)
except Exception as e:
logger.warning(
f"[AgentBridge] Failed to persist messages for session={session_id}: {e}"
)
@staticmethod
def _strip_thinking_blocks(messages: list) -> list:
"""Return a shallow copy of messages with assistant "thinking" blocks removed."""
cleaned = []
for msg in messages:
if not isinstance(msg, dict):
cleaned.append(msg)
continue
if msg.get("role") != "assistant":
cleaned.append(msg)
continue
content = msg.get("content")
if not isinstance(content, list):
cleaned.append(msg)
continue
filtered_blocks = [
b for b in content
if not (isinstance(b, dict) and b.get("type") == "thinking")
]
if len(filtered_blocks) == len(content):
cleaned.append(msg)
else:
new_msg = dict(msg)
new_msg["content"] = filtered_blocks
cleaned.append(new_msg)
return cleaned
def clear_session(self, session_id: str):
"""
Clear a specific session's agent and conversation history

27
bridge/agent_event_handler.py
View File

@@ -26,8 +26,7 @@ class AgentEventHandler:
if context:
self.channel = context.kwargs.get("channel") if hasattr(context, "kwargs") else None
# Track current thinking for channel output
self.current_thinking = ""
self.current_content = ""
self.turn_number = 0
def handle_event(self, event):
@@ -47,6 +46,8 @@ class AgentEventHandler:
self._handle_message_update(data)
elif event_type == "message_end":
self._handle_message_end(data)
elif event_type == "reasoning_update":
pass
elif event_type == "tool_execution_start":
self._handle_tool_execution_start(data)
elif event_type == "tool_execution_end":
@@ -59,30 +60,26 @@ class AgentEventHandler:
def _handle_turn_start(self, data):
"""Handle turn start event"""
self.turn_number = data.get("turn", 0)
self.has_tool_calls_in_turn = False
self.current_thinking = ""
self.current_content = ""
def _handle_message_update(self, data):
"""Handle message update event (streaming text)"""
"""Handle message update event (streaming content text)"""
delta = data.get("delta", "")
self.current_thinking += delta
self.current_content += delta
def _handle_message_end(self, data):
"""Handle message end event"""
tool_calls = data.get("tool_calls", [])
# Only send thinking process if followed by tool calls
if tool_calls:
if self.current_thinking.strip():
logger.info(f"💭 {self.current_thinking.strip()[:200]}{'...' if len(self.current_thinking) > 200 else ''}")
# Send thinking process to channel
self._send_to_channel(f"{self.current_thinking.strip()}")
if self.current_content.strip():
logger.info(f"💭 {self.current_content.strip()[:200]}{'...' if len(self.current_content) > 200 else ''}")
self._send_to_channel(self.current_content.strip())
else:
# No tool calls = final response (logged at agent_stream level)
if self.current_thinking.strip():
logger.debug(f"💬 {self.current_thinking.strip()[:200]}{'...' if len(self.current_thinking) > 200 else ''}")
if self.current_content.strip():
logger.debug(f"💬 {self.current_content.strip()[:200]}{'...' if len(self.current_content) > 200 else ''}")
self.current_thinking = ""
self.current_content = ""
def _handle_tool_execution_start(self, data):
"""Handle tool execution start event - logged by agent_stream.py"""

94
bridge/agent_initializer.py
View File

@@ -465,8 +465,12 @@ class AgentInitializer:
'timezone': timezone_name
}
def get_model():
"""Get current model name dynamically from config"""
return conf().get("model", "unknown")
return {
"model": conf().get("model", "unknown"),
"_get_model": get_model,
"workspace": workspace_root,
"channel": ", ".join(conf().get("channel_type")) if isinstance(conf().get("channel_type"), list) else conf().get("channel_type", "unknown"),
"_get_current_time": get_current_time # Dynamic time function
@@ -486,7 +490,7 @@ class AgentInitializer:
env_file = expand_path("~/.cow/.env")
# Read existing env vars
# Read existing env vars (key -> value)
existing_env_vars = {}
if os.path.exists(env_file):
try:
@@ -494,38 +498,46 @@ class AgentInitializer:
for line in f:
line = line.strip()
if line and not line.startswith('#') and '=' in line:
key, _ = line.split('=', 1)
existing_env_vars[key.strip()] = True
key, val = line.split('=', 1)
existing_env_vars[key.strip()] = val.strip()
except Exception as e:
logger.warning(f"[AgentInitializer] Failed to read .env file: {e}")
# Check which keys need migration
keys_to_migrate = {}
# Sync config.json values into .env (add/update/remove)
updated = False
for config_key, env_key in key_mapping.items():
if env_key in existing_env_vars:
continue
value = conf().get(config_key, "")
if value and value.strip():
keys_to_migrate[env_key] = value.strip()
# Write new keys
if keys_to_migrate:
raw = conf().get(config_key, "")
value = raw.strip() if raw else ""
old_value = existing_env_vars.get(env_key)
if value:
if old_value == value:
continue
existing_env_vars[env_key] = value
os.environ[env_key] = value
updated = True
else:
if old_value is None:
continue
existing_env_vars.pop(env_key, None)
os.environ.pop(env_key, None)
updated = True
if updated:
try:
env_dir = os.path.dirname(env_file)
if not os.path.exists(env_dir):
os.makedirs(env_dir, exist_ok=True)
if not os.path.exists(env_file):
open(env_file, 'a').close()
with open(env_file, 'a', encoding='utf-8') as f:
f.write('\n# Auto-migrated from config.json\n')
for key, value in keys_to_migrate.items():
os.makedirs(env_dir, exist_ok=True)
# Rewrite the entire .env file to ensure consistency
with open(env_file, 'w', encoding='utf-8') as f:
f.write('# Environment variables for agent\n')
f.write('# Auto-managed - synced from config.json on startup\n\n')
for key, value in sorted(existing_env_vars.items()):
f.write(f'{key}={value}\n')
os.environ[key] = value
logger.info(f"[AgentInitializer] Migrated {len(keys_to_migrate)} API keys to .env: {list(keys_to_migrate.keys())}")
logger.info(f"[AgentInitializer] Synced API keys from config.json to .env")
except Exception as e:
logger.warning(f"[AgentInitializer] Failed to migrate API keys: {e}")
logger.warning(f"[AgentInitializer] Failed to sync API keys: {e}")
def _start_daily_flush_timer(self):
"""Start a background thread that flushes all agents' memory daily at 23:55."""
@@ -536,14 +548,17 @@ class AgentInitializer:
import threading
def _daily_flush_loop():
import random
while True:
try:
now = datetime.datetime.now()
target = now.replace(hour=23, minute=55, second=0, microsecond=0)
jitter_min = random.randint(50, 55)
jitter_sec = random.randint(0, 59)
target = now.replace(hour=23, minute=jitter_min, second=jitter_sec, microsecond=0)
if target <= now:
target += datetime.timedelta(days=1)
wait_seconds = (target - now).total_seconds()
logger.info(f"[DailyFlush] Next flush at {target.strftime('%Y-%m-%d %H:%M')} (in {wait_seconds/3600:.1f}h)")
logger.info(f"[DailyFlush] Next flush at {target.strftime('%Y-%m-%d %H:%M:%S')} (in {wait_seconds/3600:.1f}h)")
time.sleep(wait_seconds)
self._flush_all_agents()
@@ -555,7 +570,7 @@ class AgentInitializer:
t.start()
def _flush_all_agents(self):
"""Flush memory for all active agent sessions."""
"""Flush memory for all active agent sessions, then run Deep Dream."""
agents = []
if self.agent_bridge.default_agent:
agents.append(("default", self.agent_bridge.default_agent))
@@ -565,7 +580,10 @@ class AgentInitializer:
if not agents:
return
# Phase 1: flush daily summaries
flushed = 0
flush_threads = []
dream_candidate = None
for label, agent in agents:
try:
if not agent.memory_manager:
@@ -577,8 +595,26 @@ class AgentInitializer:
result = agent.memory_manager.flush_manager.create_daily_summary(messages)
if result:
flushed += 1
t = agent.memory_manager.flush_manager._last_flush_thread
if t:
flush_threads.append(t)
if dream_candidate is None:
dream_candidate = agent.memory_manager.flush_manager
except Exception as e:
logger.warning(f"[DailyFlush] Failed for session {label}: {e}")
if flushed:
logger.info(f"[DailyFlush] Flushed {flushed}/{len(agents)} agent session(s)")
# Wait for all flush threads to finish before dreaming
for t in flush_threads:
t.join(timeout=60)
# Phase 2: Deep Dream — distill daily memories → MEMORY.md + dream diary
if dream_candidate:
try:
result = dream_candidate.deep_dream()
if result:
logger.info("[DeepDream] Memory distillation completed successfully")
except Exception as e:
logger.warning(f"[DeepDream] Failed: {e}")

5
bridge/bridge.py
View File

@@ -39,11 +39,8 @@ class Bridge(object):
self.btype["chat"] = const.BAIDU
if model_type in ["xunfei"]:
self.btype["chat"] = const.XUNFEI
if model_type in [const.QWEN]:
self.btype["chat"] = const.QWEN
if model_type in [const.QWEN_TURBO, const.QWEN_PLUS, const.QWEN_MAX]:
if model_type in [const.QWEN, const.QWEN_TURBO, const.QWEN_PLUS, const.QWEN_MAX]:
self.btype["chat"] = const.QWEN_DASHSCOPE
# Support Qwen3 and other DashScope models
if model_type and (model_type.startswith("qwen") or model_type.startswith("qwq") or model_type.startswith("qvq")):
self.btype["chat"] = const.QWEN_DASHSCOPE
if model_type and model_type.startswith("gemini"):

18
channel/chat_channel.py
View File

@@ -297,8 +297,12 @@ class ChatChannel(Channel):
logger.debug("[chat_channel] sending reply: {}, context: {}".format(reply, context))
# 如果是文本回复,尝试提取并发送图片
if reply.type == ReplyType.TEXT:
# Web channel renders images/videos inline via renderMarkdown,
# so skip the extract-and-send step to avoid duplicate media.
if reply.type == ReplyType.TEXT and context.get("channel_type") != "web":
self._extract_and_send_images(reply, context)
elif reply.type == ReplyType.TEXT:
self._send(reply, context)
# 如果是图片回复但带有文本内容,先发文本再发图片
elif reply.type == ReplyType.IMAGE_URL and hasattr(reply, 'text_content') and reply.text_content:
# 先发送文本
@@ -347,38 +351,30 @@ class ChatChannel(Channel):
if media_items:
logger.info(f"[chat_channel] Extracted {len(media_items)} media item(s) from reply")
# 先发送文本(保持原文本不变)
# Send text first (the frontend will embed video players via renderMarkdown).
logger.info(f"[chat_channel] Sending text content before media: {reply.content[:100]}...")
self._send(reply, context)
logger.info(f"[chat_channel] Text sent, now sending {len(media_items)} media item(s)")
# 然后逐个发送媒体文件
for i, (url, media_type) in enumerate(media_items):
try:
# 判断是本地文件还是URL
# Determine whether it is a remote URL or a local file.
if url.startswith(('http://', 'https://')):
# 网络资源
if media_type == 'video':
# 视频使用 FILE 类型发送
media_reply = Reply(ReplyType.FILE, url)
media_reply.file_name = os.path.basename(url)
else:
# 图片使用 IMAGE_URL 类型
media_reply = Reply(ReplyType.IMAGE_URL, url)
elif os.path.exists(url):
# 本地文件
if media_type == 'video':
# 视频使用 FILE 类型,转换为 file:// URL
media_reply = Reply(ReplyType.FILE, f"file://{url}")
media_reply.file_name = os.path.basename(url)
else:
# 图片使用 IMAGE_URL 类型,转换为 file:// URL
media_reply = Reply(ReplyType.IMAGE_URL, f"file://{url}")
else:
logger.warning(f"[chat_channel] Media file not found or invalid URL: {url}")
continue
# 发送媒体文件(添加小延迟避免频率限制)
if i > 0:
time.sleep(0.5)
self._send(media_reply, context)

414
channel/web/chat.html
View File

@@ -50,16 +50,53 @@
(function() {
var theme = localStorage.getItem('cow_theme') || 'dark';
if (theme === 'dark') document.documentElement.classList.add('dark');
var lang = localStorage.getItem('cow_lang') || 'zh';
document.documentElement.setAttribute('lang', lang);
})();
</script>
</head>
<body class="h-screen overflow-hidden bg-gray-50 dark:bg-[#111111] text-slate-800 dark:text-slate-200 font-sans">
<!-- Login Overlay -->
<div id="login-overlay" class="fixed inset-0 z-[200] bg-gray-50 dark:bg-[#111111] flex items-center justify-center hidden">
<div class="w-full max-w-sm mx-4">
<div class="flex flex-col items-center mb-8">
<img src="assets/logo.jpg" alt="CowAgent" class="w-16 h-16 rounded-2xl mb-4 shadow-lg">
<h1 class="text-xl font-bold text-slate-800 dark:text-slate-100">CowAgent</h1>
<p class="text-sm text-slate-500 dark:text-slate-400 mt-1" id="login-subtitle">请输入密码以访问控制台</p>
</div>
<form id="login-form" class="space-y-4" onsubmit="return false;">
<div class="relative">
<input id="login-password" type="password" autocomplete="current-password"
placeholder="Password"
class="w-full px-4 py-3 rounded-xl border border-slate-200 dark:border-white/10
bg-white dark:bg-[#1A1A1A] text-slate-800 dark:text-slate-200
placeholder-slate-400 dark:placeholder-slate-500
focus:outline-none focus:ring-2 focus:ring-primary-400/50 focus:border-primary-400
transition-all duration-150 text-sm">
<button type="button" id="login-toggle-pwd"
class="absolute right-3 top-1/2 -translate-y-1/2 text-slate-400 hover:text-slate-600
dark:hover:text-slate-300 cursor-pointer transition-colors"
onclick="toggleLoginPassword()">
<i class="fas fa-eye text-sm"></i>
</button>
</div>
<p id="login-error" class="text-sm text-red-500 hidden"></p>
<button id="login-btn" type="submit"
class="w-full py-3 rounded-xl bg-primary-500 hover:bg-primary-600 text-white font-medium
text-sm cursor-pointer transition-colors duration-150 disabled:opacity-50 disabled:cursor-not-allowed">
登录
</button>
</form>
</div>
</div>
<div id="app" class="flex h-screen">
<!-- ================================================================ -->
<!-- SIDEBAR -->
<!-- ================================================================ -->
<aside id="sidebar" class="fixed inset-y-0 left-0 z-50 w-64 bg-[#0A0A0A] text-neutral-400 flex flex-col
<aside id="sidebar" class="fixed inset-y-0 left-0 z-50 w-52 bg-[#0A0A0A] text-neutral-400 flex flex-col
transform -translate-x-full lg:relative lg:translate-x-0
transition-transform duration-300 ease-in-out">
<!-- Logo -->
@@ -67,7 +104,7 @@
<img src="assets/logo.jpg" alt="CowAgent" class="w-8 h-8 rounded-lg flex-shrink-0">
<div class="flex flex-col min-w-0">
<span class="text-white font-semibold text-sm truncate">CowAgent</span>
<span class="text-neutral-500 text-xs" data-i18n="console">Console</span>
<span class="text-neutral-500 text-xs" data-i18n="console">控制台</span>
</div>
</div>
@@ -77,13 +114,13 @@
<div class="menu-group open" data-group="chat">
<button class="w-full flex items-center gap-2 px-3 py-2 text-xs font-semibold uppercase tracking-wider text-neutral-500 hover:text-neutral-300 cursor-pointer transition-colors duration-150">
<i class="fas fa-chevron-right text-[10px] chevron"></i>
<span data-i18n="nav_chat">Chat</span>
<span data-i18n="nav_chat">对话</span>
</button>
<div class="menu-group-items pl-2">
<a class="sidebar-item active flex items-center gap-3 px-3 py-2 rounded-lg cursor-pointer transition-all duration-150 hover:bg-white/5 hover:text-neutral-200 text-[14px]"
data-view="chat">
<i class="fas fa-message item-icon text-xs w-5 text-center"></i>
<span data-i18n="menu_chat">Chat</span>
<span data-i18n="menu_chat">对话</span>
</a>
</div>
</div>
@@ -92,33 +129,38 @@
<div class="menu-group open" data-group="manage">
<button class="w-full flex items-center gap-2 px-3 py-2 text-xs font-semibold uppercase tracking-wider text-neutral-500 hover:text-neutral-300 cursor-pointer transition-colors duration-150">
<i class="fas fa-chevron-right text-[10px] chevron"></i>
<span data-i18n="nav_manage">Management</span>
<span data-i18n="nav_manage">管理</span>
</button>
<div class="menu-group-items pl-2">
<a class="sidebar-item flex items-center gap-3 px-3 py-2 rounded-lg cursor-pointer transition-all duration-150 hover:bg-white/5 hover:text-neutral-200 text-[14px]"
data-view="config">
<i class="fas fa-sliders item-icon text-xs w-5 text-center"></i>
<span data-i18n="menu_config">Config</span>
<span data-i18n="menu_config">配置</span>
</a>
<a class="sidebar-item flex items-center gap-3 px-3 py-2 rounded-lg cursor-pointer transition-all duration-150 hover:bg-white/5 hover:text-neutral-200 text-[14px]"
data-view="skills">
<i class="fas fa-bolt item-icon text-xs w-5 text-center"></i>
<span data-i18n="menu_skills">Skills</span>
<span data-i18n="menu_skills">技能</span>
</a>
<a class="sidebar-item flex items-center gap-3 px-3 py-2 rounded-lg cursor-pointer transition-all duration-150 hover:bg-white/5 hover:text-neutral-200 text-[14px]"
data-view="memory">
<i class="fas fa-brain item-icon text-xs w-5 text-center"></i>
<span data-i18n="menu_memory">Memory</span>
<span data-i18n="menu_memory">记忆</span>
</a>
<a class="sidebar-item flex items-center gap-3 px-3 py-2 rounded-lg cursor-pointer transition-all duration-150 hover:bg-white/5 hover:text-neutral-200 text-[14px]"
data-view="knowledge">
<i class="fas fa-book item-icon text-xs w-5 text-center"></i>
<span data-i18n="menu_knowledge">知识</span>
</a>
<a class="sidebar-item flex items-center gap-3 px-3 py-2 rounded-lg cursor-pointer transition-all duration-150 hover:bg-white/5 hover:text-neutral-200 text-[14px]"
data-view="channels">
<i class="fas fa-tower-broadcast item-icon text-xs w-5 text-center"></i>
<span data-i18n="menu_channels">Channels</span>
<span data-i18n="menu_channels">通道</span>
</a>
<a class="sidebar-item flex items-center gap-3 px-3 py-2 rounded-lg cursor-pointer transition-all duration-150 hover:bg-white/5 hover:text-neutral-200 text-[14px]"
data-view="tasks">
<i class="fas fa-clock item-icon text-xs w-5 text-center"></i>
<span data-i18n="menu_tasks">Tasks</span>
<span data-i18n="menu_tasks">定时</span>
</a>
</div>
</div>
@@ -127,13 +169,13 @@
<div class="menu-group open" data-group="monitor">
<button class="w-full flex items-center gap-2 px-3 py-2 text-xs font-semibold uppercase tracking-wider text-neutral-500 hover:text-neutral-300 cursor-pointer transition-colors duration-150">
<i class="fas fa-chevron-right text-[10px] chevron"></i>
<span data-i18n="nav_monitor">Monitor</span>
<span data-i18n="nav_monitor">监控</span>
</button>
<div class="menu-group-items pl-2">
<a class="sidebar-item flex items-center gap-3 px-3 py-2 rounded-lg cursor-pointer transition-all duration-150 hover:bg-white/5 hover:text-neutral-200 text-[14px]"
data-view="logs">
<i class="fas fa-terminal item-icon text-xs w-5 text-center"></i>
<span data-i18n="menu_logs">Logs</span>
<span data-i18n="menu_logs">日志</span>
</a>
</div>
</div>
@@ -154,6 +196,26 @@
<!-- Mobile Overlay -->
<div id="sidebar-overlay" class="fixed inset-0 bg-black/50 z-40 hidden lg:hidden cursor-pointer" onclick="toggleSidebar()"></div>
<!-- ================================================================ -->
<!-- SESSION PANEL (collapsible) -->
<!-- ================================================================ -->
<aside id="session-panel" class="session-panel hidden">
<div class="session-panel-header">
<span class="session-panel-title" data-i18n="session_history">历史会话</span>
<button class="session-panel-close" onclick="toggleSessionPanel()" title="Close">
<i class="fas fa-times"></i>
</button>
</div>
<button class="session-panel-new" onclick="newChat()">
<i class="fas fa-plus"></i>
<span data-i18n="new_chat">新对话</span>
</button>
<div id="session-list" class="session-list"></div>
</aside>
<!-- Mobile overlay for session panel (click to close) -->
<div id="session-panel-overlay" class="session-panel-overlay hidden" onclick="closeSessionPanel()"></div>
<!-- ================================================================ -->
<!-- MAIN CONTENT -->
<!-- ================================================================ -->
@@ -166,11 +228,17 @@
<i class="fas fa-bars text-slate-600 dark:text-slate-300"></i>
</button>
<!-- Session panel toggle -->
<button id="session-toggle-btn" class="p-2 rounded-lg hover:bg-slate-100 dark:hover:bg-white/10 cursor-pointer transition-colors duration-150"
onclick="toggleSessionPanel()">
<i class="fas fa-clock-rotate-left text-slate-500 dark:text-slate-400"></i>
</button>
<!-- Breadcrumb (hidden on mobile) -->
<div class="hidden lg:flex items-center gap-2 text-sm min-w-0">
<span id="breadcrumb-group" class="text-slate-400 dark:text-slate-500 truncate" data-i18n="nav_chat">Chat</span>
<span id="breadcrumb-group" class="text-slate-400 dark:text-slate-500 truncate" data-i18n="nav_chat">对话</span>
<i class="fas fa-chevron-right text-[10px] text-slate-300 dark:text-slate-600"></i>
<span id="breadcrumb-page" class="font-medium text-slate-700 dark:text-slate-200 truncate" data-i18n="menu_chat">Chat</span>
<span id="breadcrumb-page" class="font-medium text-slate-700 dark:text-slate-200 truncate" data-i18n="menu_chat">对话</span>
</div>
<div class="flex-1"></div>
@@ -220,26 +288,26 @@
<!-- ====================================================== -->
<!-- VIEW: Chat -->
<!-- ====================================================== -->
<div id="view-chat" class="view active">
<div id="view-chat" class="view active relative">
<!-- Messages -->
<div id="chat-messages" class="flex-1 overflow-y-auto">
<!-- Welcome Screen -->
<div id="welcome-screen" class="flex flex-col items-center justify-center h-full px-6 py-12">
<div id="welcome-screen" class="flex flex-col items-center justify-center h-full px-6 pb-16" style="padding-top: 6vh">
<img src="assets/logo.jpg" alt="CowAgent" class="w-16 h-16 rounded-2xl mb-6 shadow-lg shadow-primary-500/20">
<h1 id="welcome-title" class="text-2xl font-bold text-slate-800 dark:text-slate-100 mb-3">CowAgent</h1>
<p id="welcome-subtitle" class="text-slate-500 dark:text-slate-400 text-center max-w-lg mb-10 leading-relaxed"
data-i18n-html="welcome_subtitle">I can help you answer questions, manage your computer, create and execute skills,<br>and keep growing through long-term memory.</p>
data-i18n-html="welcome_subtitle">我可以帮你解答问题、管理计算机、创造和执行技能,并通过<br>长期记忆和知识库不断成长</p>
<div class="grid grid-cols-1 sm:grid-cols-3 gap-4 w-full max-w-2xl">
<div class="grid grid-cols-2 sm:grid-cols-3 gap-3 w-full max-w-2xl">
<div class="example-card group bg-white dark:bg-[#1A1A1A] border border-slate-200 dark:border-white/10 rounded-xl p-4
cursor-pointer hover:border-primary-300 dark:hover:border-primary-600 hover:shadow-md transition-all duration-200">
<div class="flex items-center gap-2 mb-2">
<div class="w-7 h-7 rounded-lg bg-blue-50 dark:bg-blue-900/30 flex items-center justify-center">
<i class="fas fa-folder-open text-blue-500 text-xs"></i>
</div>
<span class="font-medium text-sm text-slate-700 dark:text-slate-200" data-i18n="example_sys_title">System</span>
<span class="font-medium text-sm text-slate-700 dark:text-slate-200" data-i18n="example_sys_title">系统管理</span>
</div>
<p class="text-sm text-slate-500 dark:text-slate-400 leading-relaxed" data-i18n="example_sys_text">Show me the files in the workspace</p>
<p class="text-sm text-slate-500 dark:text-slate-400 leading-relaxed" data-i18n="example_sys_text">查看工作空间里有哪些文件</p>
</div>
<div class="example-card group bg-white dark:bg-[#1A1A1A] border border-slate-200 dark:border-white/10 rounded-xl p-4
cursor-pointer hover:border-primary-300 dark:hover:border-primary-600 hover:shadow-md transition-all duration-200">
@@ -247,9 +315,9 @@
<div class="w-7 h-7 rounded-lg bg-amber-50 dark:bg-amber-900/30 flex items-center justify-center">
<i class="fas fa-clock text-amber-500 text-xs"></i>
</div>
<span class="font-medium text-sm text-slate-700 dark:text-slate-200" data-i18n="example_task_title">Smart Task</span>
<span class="font-medium text-sm text-slate-700 dark:text-slate-200" data-i18n="example_task_title">定时任务</span>
</div>
<p class="text-sm text-slate-500 dark:text-slate-400 leading-relaxed" data-i18n="example_task_text">Remind me to check the server in 5 minutes</p>
<p class="text-sm text-slate-500 dark:text-slate-400 leading-relaxed" data-i18n="example_task_text">1分钟后提醒我检查服务器</p>
</div>
<div class="example-card group bg-white dark:bg-[#1A1A1A] border border-slate-200 dark:border-white/10 rounded-xl p-4
cursor-pointer hover:border-primary-300 dark:hover:border-primary-600 hover:shadow-md transition-all duration-200">
@@ -257,14 +325,57 @@
<div class="w-7 h-7 rounded-lg bg-emerald-50 dark:bg-emerald-900/30 flex items-center justify-center">
<i class="fas fa-code text-emerald-500 text-xs"></i>
</div>
<span class="font-medium text-sm text-slate-700 dark:text-slate-200" data-i18n="example_code_title">Coding</span>
<span class="font-medium text-sm text-slate-700 dark:text-slate-200" data-i18n="example_code_title">编程助手</span>
</div>
<p class="text-sm text-slate-500 dark:text-slate-400 leading-relaxed" data-i18n="example_code_text">Write a Python web scraper script</p>
<p class="text-sm text-slate-500 dark:text-slate-400 leading-relaxed" data-i18n="example_code_text">搜索AI资讯并生成可视化网页报告</p>
</div>
<div class="example-card group bg-white dark:bg-[#1A1A1A] border border-slate-200 dark:border-white/10 rounded-xl p-4
cursor-pointer hover:border-primary-300 dark:hover:border-primary-600 hover:shadow-md transition-all duration-200">
<div class="flex items-center gap-2 mb-2">
<div class="w-7 h-7 rounded-lg bg-violet-50 dark:bg-violet-900/30 flex items-center justify-center">
<i class="fas fa-book text-violet-500 text-xs"></i>
</div>
<span class="font-medium text-sm text-slate-700 dark:text-slate-200" data-i18n="example_knowledge_title">知识库</span>
</div>
<p class="text-sm text-slate-500 dark:text-slate-400 leading-relaxed" data-i18n="example_knowledge_text">查看知识库当前文档情况</p>
</div>
<div class="example-card group bg-white dark:bg-[#1A1A1A] border border-slate-200 dark:border-white/10 rounded-xl p-4
cursor-pointer hover:border-primary-300 dark:hover:border-primary-600 hover:shadow-md transition-all duration-200">
<div class="flex items-center gap-2 mb-2">
<div class="w-7 h-7 rounded-lg bg-rose-50 dark:bg-rose-900/30 flex items-center justify-center">
<i class="fas fa-puzzle-piece text-rose-500 text-xs"></i>
</div>
<span class="font-medium text-sm text-slate-700 dark:text-slate-200" data-i18n="example_skill_title">技能系统</span>
</div>
<p class="text-sm text-slate-500 dark:text-slate-400 leading-relaxed" data-i18n="example_skill_text">查看所有支持的工具和技能</p>
</div>
<div class="example-card group bg-white dark:bg-[#1A1A1A] border border-slate-200 dark:border-white/10 rounded-xl p-4
cursor-pointer hover:border-primary-300 dark:hover:border-primary-600 hover:shadow-md transition-all duration-200"
data-send="/help">
<div class="flex items-center gap-2 mb-2">
<div class="w-7 h-7 rounded-lg bg-slate-100 dark:bg-slate-800 flex items-center justify-center">
<i class="fas fa-terminal text-slate-500 text-xs"></i>
</div>
<span class="font-medium text-sm text-slate-700 dark:text-slate-200" data-i18n="example_web_title">指令中心</span>
</div>
<p class="text-sm text-slate-500 dark:text-slate-400 leading-relaxed" data-i18n="example_web_text">查看全部命令</p>
</div>
</div>
</div>
</div>
<!-- Scroll-to-bottom FAB -->
<button id="scroll-to-bottom-btn"
class="hidden absolute right-5 bottom-[80px] z-10
w-9 h-9 rounded-full shadow-lg
bg-white dark:bg-[#2A2A2A] border border-slate-200 dark:border-white/15
text-slate-500 dark:text-slate-400 hover:text-primary-500 dark:hover:text-primary-400
flex items-center justify-center cursor-pointer transition-all duration-200
hover:shadow-xl hover:scale-105"
onclick="_autoScrollEnabled = true; scrollChatToBottom(true);">
<i class="fas fa-chevron-down text-sm"></i>
</button>
<!-- Chat Input -->
<div class="flex-shrink-0 border-t border-slate-200 dark:border-white/10 bg-white dark:bg-[#1A1A1A] px-4 py-3">
<div class="max-w-3xl mx-auto">
@@ -274,14 +385,20 @@
<div class="flex items-center flex-shrink-0">
<button id="new-chat-btn" class="w-9 h-10 flex items-center justify-center rounded-lg
text-slate-400 hover:text-primary-500 hover:bg-primary-50 dark:hover:bg-primary-900/20
cursor-pointer transition-colors duration-150" title="New Chat"
cursor-pointer transition-colors duration-150"
onclick="newChat()">
<i class="fas fa-plus text-base"></i>
</button>
<button id="clear-context-btn" class="w-9 h-10 flex items-center justify-center rounded-lg
text-slate-400 hover:text-amber-500 hover:bg-amber-50 dark:hover:bg-amber-900/20
cursor-pointer transition-colors duration-150"
onclick="clearContext()">
<i class="fas fa-trash-can text-base"></i>
</button>
<button id="attach-btn" class="w-9 h-10 flex items-center justify-center rounded-lg
text-slate-400 hover:text-primary-500 hover:bg-primary-50 dark:hover:bg-primary-900/20
cursor-pointer transition-colors duration-150"
title="Attach file" onclick="document.getElementById('file-input').click()">
onclick="document.getElementById('file-input').click()">
<i class="fas fa-paperclip text-base"></i>
</button>
</div>
@@ -296,7 +413,7 @@
text-sm leading-relaxed"
rows="1"
data-i18n-placeholder="input_placeholder"
placeholder="Type a message, or press / for commands"></textarea>
placeholder="输入消息,或输入 / 使用指令"></textarea>
<button id="send-btn"
class="flex-shrink-0 w-10 h-10 flex items-center justify-center rounded-lg
bg-primary-400 text-white hover:bg-primary-500
@@ -318,8 +435,8 @@
<div class="max-w-4xl mx-auto">
<div class="flex items-center justify-between mb-6">
<div>
<h2 class="text-xl font-bold text-slate-800 dark:text-slate-100" data-i18n="config_title">Configuration</h2>
<p class="text-sm text-slate-500 dark:text-slate-400 mt-1" data-i18n="config_desc">Manage model and agent settings</p>
<h2 class="text-xl font-bold text-slate-800 dark:text-slate-100" data-i18n="config_title">配置管理</h2>
<p class="text-sm text-slate-500 dark:text-slate-400 mt-1" data-i18n="config_desc">管理模型和 Agent 配置</p>
</div>
</div>
<div class="grid gap-6">
@@ -330,12 +447,12 @@
<div class="w-9 h-9 rounded-lg bg-primary-50 dark:bg-primary-900/30 flex items-center justify-center">
<i class="fas fa-microchip text-primary-500 text-sm"></i>
</div>
<h3 class="font-semibold text-slate-800 dark:text-slate-100" data-i18n="config_model">Model Configuration</h3>
<h3 class="font-semibold text-slate-800 dark:text-slate-100" data-i18n="config_model">模型配置</h3>
</div>
<div class="space-y-5">
<!-- Provider -->
<div>
<label class="block text-sm font-medium text-slate-600 dark:text-slate-400 mb-1.5" data-i18n="config_provider">Provider</label>
<label class="block text-sm font-medium text-slate-600 dark:text-slate-400 mb-1.5" data-i18n="config_provider">模型厂商</label>
<div id="cfg-provider" class="cfg-dropdown" tabindex="0">
<div class="cfg-dropdown-selected">
<span class="cfg-dropdown-text">--</span>
@@ -343,10 +460,13 @@
</div>
<div class="cfg-dropdown-menu"></div>
</div>
<div id="cfg-custom-tip" class="mt-1.5 text-xs text-slate-400 dark:text-slate-500 hidden">
<i class="fas fa-info-circle mr-1"></i><span data-i18n="config_custom_tip">接口需遵循 OpenAI API 协议</span>
</div>
</div>
<!-- Model -->
<div>
<label class="block text-sm font-medium text-slate-600 dark:text-slate-400 mb-1.5" data-i18n="config_model_name">Model</label>
<label class="block text-sm font-medium text-slate-600 dark:text-slate-400 mb-1.5" data-i18n="config_model_name">模型</label>
<div id="cfg-model-select" class="cfg-dropdown" tabindex="0">
<div class="cfg-dropdown-selected">
<span class="cfg-dropdown-text">--</span>
@@ -359,7 +479,7 @@
class="w-full px-3 py-2 rounded-lg border border-slate-200 dark:border-slate-600
bg-slate-50 dark:bg-white/5 text-sm text-slate-800 dark:text-slate-100
focus:outline-none focus:border-primary-500 font-mono transition-colors"
data-i18n-placeholder="config_custom_model_hint" placeholder="Enter custom model name">
data-i18n-placeholder="config_custom_model_hint" placeholder="输入自定义模型名称">
</div>
</div>
<!-- API Key -->
@@ -394,7 +514,7 @@
<button id="cfg-model-save"
class="px-4 py-2 rounded-lg bg-primary-500 hover:bg-primary-600 text-white text-sm font-medium
cursor-pointer transition-colors duration-150 disabled:opacity-50 disabled:cursor-not-allowed"
onclick="saveModelConfig()" data-i18n="config_save">Save</button>
onclick="saveModelConfig()" data-i18n="config_save">保存</button>
</div>
</div>
</div>
@@ -405,36 +525,86 @@
<div class="w-9 h-9 rounded-lg bg-emerald-50 dark:bg-emerald-900/30 flex items-center justify-center">
<i class="fas fa-robot text-emerald-500 text-sm"></i>
</div>
<h3 class="font-semibold text-slate-800 dark:text-slate-100" data-i18n="config_agent">Agent Configuration</h3>
<h3 class="font-semibold text-slate-800 dark:text-slate-100" data-i18n="config_agent">Agent 配置</h3>
</div>
<div class="space-y-4">
<div>
<label class="block text-sm font-medium text-slate-600 dark:text-slate-400 mb-1.5" data-i18n="config_max_tokens">Max Context Tokens</label>
<label class="flex items-center gap-1.5 text-sm font-medium text-slate-600 dark:text-slate-400 mb-1.5">
<span data-i18n="config_max_tokens">最大上下文 Token</span>
<span class="cfg-tip" data-tip-key="config_max_tokens_hint"><i class="fas fa-circle-question"></i></span>
</label>
<input id="cfg-max-tokens" type="number" min="1000" max="200000" step="1000"
class="w-full px-3 py-2 rounded-lg border border-slate-200 dark:border-slate-600
bg-slate-50 dark:bg-white/5 text-sm text-slate-800 dark:text-slate-100
focus:outline-none focus:border-primary-500 font-mono transition-colors">
</div>
<div>
<label class="block text-sm font-medium text-slate-600 dark:text-slate-400 mb-1.5" data-i18n="config_max_turns">Max Context Turns</label>
<label class="flex items-center gap-1.5 text-sm font-medium text-slate-600 dark:text-slate-400 mb-1.5">
<span data-i18n="config_max_turns">最大记忆轮次</span>
<span class="cfg-tip" data-tip-key="config_max_turns_hint"><i class="fas fa-circle-question"></i></span>
</label>
<input id="cfg-max-turns" type="number" min="1" max="100" step="1"
class="w-full px-3 py-2 rounded-lg border border-slate-200 dark:border-slate-600
bg-slate-50 dark:bg-white/5 text-sm text-slate-800 dark:text-slate-100
focus:outline-none focus:border-primary-500 font-mono transition-colors">
</div>
<div>
<label class="block text-sm font-medium text-slate-600 dark:text-slate-400 mb-1.5" data-i18n="config_max_steps">Max Steps</label>
<label class="flex items-center gap-1.5 text-sm font-medium text-slate-600 dark:text-slate-400 mb-1.5">
<span data-i18n="config_max_steps">最大执行步数</span>
<span class="cfg-tip" data-tip-key="config_max_steps_hint"><i class="fas fa-circle-question"></i></span>
</label>
<input id="cfg-max-steps" type="number" min="1" max="50" step="1"
class="w-full px-3 py-2 rounded-lg border border-slate-200 dark:border-slate-600
bg-slate-50 dark:bg-white/5 text-sm text-slate-800 dark:text-slate-100
focus:outline-none focus:border-primary-500 font-mono transition-colors">
</div>
<div class="flex items-center justify-between">
<label class="flex items-center gap-1.5 text-sm font-medium text-slate-600 dark:text-slate-400">
<span data-i18n="config_enable_thinking">Deep Thinking</span>
<span class="cfg-tip" data-tip-key="config_enable_thinking_hint"><i class="fas fa-circle-question"></i></span>
</label>
<label class="relative inline-flex items-center cursor-pointer">
<input id="cfg-enable-thinking" type="checkbox" class="sr-only peer">
<div class="w-9 h-5 bg-slate-200 dark:bg-slate-700 peer-checked:bg-primary-400 rounded-full
after:content-[''] after:absolute after:top-[2px] after:left-[2px] after:bg-white
after:rounded-full after:h-4 after:w-4 after:transition-all peer-checked:after:translate-x-full"></div>
</label>
</div>
<div class="flex items-center justify-end gap-3 pt-1">
<span id="cfg-agent-status" class="text-xs text-primary-500 opacity-0 transition-opacity duration-300"></span>
<button id="cfg-agent-save"
class="px-4 py-2 rounded-lg bg-primary-500 hover:bg-primary-600 text-white text-sm font-medium
cursor-pointer transition-colors duration-150 disabled:opacity-50 disabled:cursor-not-allowed"
onclick="saveAgentConfig()" data-i18n="config_save">Save</button>
onclick="saveAgentConfig()" data-i18n="config_save">保存</button>
</div>
</div>
</div>
<!-- Security Config Card -->
<div class="bg-white dark:bg-[#1A1A1A] rounded-xl border border-slate-200 dark:border-white/10 p-6">
<div class="flex items-center gap-3 mb-5">
<div class="w-9 h-9 rounded-lg bg-amber-50 dark:bg-amber-900/30 flex items-center justify-center">
<i class="fas fa-lock text-amber-500 text-sm"></i>
</div>
<h3 class="font-semibold text-slate-800 dark:text-slate-100" data-i18n="config_security">安全设置</h3>
</div>
<div class="space-y-4">
<div>
<label class="block text-sm font-medium text-slate-600 dark:text-slate-400 mb-1.5" data-i18n="config_password">访问密码</label>
<input id="cfg-password" type="password" autocomplete="new-password"
class="w-full px-3 py-2 rounded-lg border border-slate-200 dark:border-slate-600
bg-slate-50 dark:bg-white/5 text-sm text-slate-800 dark:text-slate-100
focus:outline-none focus:border-primary-500 font-mono transition-colors
cfg-key-masked"
data-masked="1">
<p class="text-xs text-slate-400 dark:text-slate-500 mt-1.5" data-i18n="config_password_hint">留空则不启用密码保护</p>
</div>
<div class="flex items-center justify-end gap-3 pt-1">
<span id="cfg-password-status" class="text-xs text-primary-500 opacity-0 transition-opacity duration-300"></span>
<button id="cfg-password-save"
class="px-4 py-2 rounded-lg bg-primary-500 hover:bg-primary-600 text-white text-sm font-medium
cursor-pointer transition-colors duration-150 disabled:opacity-50 disabled:cursor-not-allowed"
onclick="savePasswordConfig()" data-i18n="config_save">保存</button>
</div>
</div>
</div>
@@ -452,20 +622,25 @@
<div class="max-w-4xl mx-auto">
<div class="flex items-center justify-between mb-6">
<div>
<h2 class="text-xl font-bold text-slate-800 dark:text-slate-100" data-i18n="skills_title">Skills</h2>
<p class="text-sm text-slate-500 dark:text-slate-400 mt-1" data-i18n="skills_desc">View, enable, or disable agent skills</p>
<h2 class="text-xl font-bold text-slate-800 dark:text-slate-100" data-i18n="skills_title">技能管理</h2>
<p class="text-sm text-slate-500 dark:text-slate-400 mt-1" data-i18n="skills_desc">查看、启用或禁用 Agent 技能</p>
</div>
<a href="https://skills.cowagent.ai/" target="_blank"
class="inline-flex items-center gap-1.5 px-3 py-1.5 rounded-lg text-xs font-medium text-primary-500 bg-primary-50 dark:bg-primary-900/20 hover:bg-primary-100 dark:hover:bg-primary-900/30 transition-colors">
<i class="fas fa-puzzle-piece text-[10px]"></i>
<span data-i18n="skills_hub_btn">探索技能广场</span>
</a>
</div>
<!-- Built-in Tools Section -->
<div class="mb-8">
<div class="flex items-center gap-2 mb-3">
<span class="text-xs font-semibold uppercase tracking-wider text-slate-400 dark:text-slate-500" data-i18n="tools_section_title">Built-in Tools</span>
<span class="text-xs font-semibold uppercase tracking-wider text-slate-400 dark:text-slate-500" data-i18n="tools_section_title">内置工具</span>
<span id="tools-count-badge" class="hidden px-2 py-0.5 rounded-full text-xs bg-slate-100 dark:bg-white/10 text-slate-500 dark:text-slate-400"></span>
</div>
<div id="tools-empty" class="flex items-center gap-2 py-4 text-slate-400 dark:text-slate-500 text-sm">
<i class="fas fa-spinner fa-spin text-xs"></i>
<span data-i18n="tools_loading">Loading tools...</span>
<span data-i18n="tools_loading">加载工具中...</span>
</div>
<div id="tools-list" class="grid gap-3 sm:grid-cols-2 hidden"></div>
</div>
@@ -473,15 +648,15 @@
<!-- Skills Section -->
<div>
<div class="flex items-center gap-2 mb-3">
<span class="text-xs font-semibold uppercase tracking-wider text-slate-400 dark:text-slate-500" data-i18n="skills_section_title">Skills</span>
<span class="text-xs font-semibold uppercase tracking-wider text-slate-400 dark:text-slate-500" data-i18n="skills_section_title">技能</span>
<span id="skills-count-badge" class="hidden px-2 py-0.5 rounded-full text-xs bg-slate-100 dark:bg-white/10 text-slate-500 dark:text-slate-400"></span>
</div>
<div id="skills-empty" class="flex flex-col items-center justify-center py-12">
<div class="w-14 h-14 rounded-2xl bg-amber-50 dark:bg-amber-900/20 flex items-center justify-center mb-3">
<i class="fas fa-bolt text-amber-400 text-lg"></i>
</div>
<p class="text-slate-500 dark:text-slate-400 font-medium" data-i18n="skills_loading">Loading skills...</p>
<p class="text-sm text-slate-400 dark:text-slate-500 mt-1" data-i18n="skills_loading_desc">Skills will be displayed here after loading</p>
<p class="text-slate-500 dark:text-slate-400 font-medium" data-i18n="skills_loading">加载技能中...</p>
<p class="text-sm text-slate-400 dark:text-slate-500 mt-1" data-i18n="skills_loading_desc">技能加载后将显示在此处</p>
</div>
<div id="skills-list" class="grid gap-4 sm:grid-cols-2"></div>
</div>
@@ -500,26 +675,36 @@
<div id="memory-panel-list">
<div class="flex items-center justify-between mb-6">
<div>
<h2 class="text-xl font-bold text-slate-800 dark:text-slate-100" data-i18n="memory_title">Memory</h2>
<p class="text-sm text-slate-500 dark:text-slate-400 mt-1" data-i18n="memory_desc">View agent memory files and contents</p>
<h2 class="text-xl font-bold text-slate-800 dark:text-slate-100" data-i18n="memory_title">记忆管理</h2>
<p class="text-sm text-slate-500 dark:text-slate-400 mt-1" data-i18n="memory_desc">查看 Agent 记忆文件和内容</p>
</div>
<div class="flex items-center bg-slate-100 dark:bg-white/10 rounded-lg p-0.5">
<button id="memory-tab-files" onclick="switchMemoryTab('files')"
class="memory-tab px-3 py-1.5 rounded-md text-xs font-medium cursor-pointer transition-colors duration-150 active">
<i class="fas fa-file-lines mr-1.5"></i><span data-i18n="memory_tab_files">记忆文件</span>
</button>
<button id="memory-tab-dreams" onclick="switchMemoryTab('dreams')"
class="memory-tab px-3 py-1.5 rounded-md text-xs font-medium cursor-pointer transition-colors duration-150">
<i class="fas fa-moon mr-1.5"></i><span data-i18n="memory_tab_dreams">梦境日记</span>
</button>
</div>
</div>
<div id="memory-empty" class="flex flex-col items-center justify-center py-20">
<div class="w-16 h-16 rounded-2xl bg-purple-50 dark:bg-purple-900/20 flex items-center justify-center mb-4">
<i class="fas fa-brain text-purple-400 text-xl"></i>
</div>
<p class="text-slate-500 dark:text-slate-400 font-medium" data-i18n="memory_loading">Loading memory files...</p>
<p class="text-sm text-slate-400 dark:text-slate-500 mt-1" data-i18n="memory_loading_desc">Memory files will be displayed here</p>
<p class="text-slate-500 dark:text-slate-400 font-medium" data-i18n="memory_loading">加载记忆文件中...</p>
<p class="text-sm text-slate-400 dark:text-slate-500 mt-1" data-i18n="memory_loading_desc">记忆文件将显示在此处</p>
</div>
<div id="memory-list" class="hidden">
<div class="bg-white dark:bg-[#1A1A1A] rounded-xl border border-slate-200 dark:border-white/10 overflow-hidden">
<table class="w-full">
<thead>
<tr class="border-b border-slate-200 dark:border-white/10">
<th class="text-left px-4 py-3 text-xs font-semibold uppercase tracking-wider text-slate-500 dark:text-slate-400" data-i18n="memory_col_name">Filename</th>
<th class="text-left px-4 py-3 text-xs font-semibold uppercase tracking-wider text-slate-500 dark:text-slate-400" data-i18n="memory_col_type">Type</th>
<th class="text-left px-4 py-3 text-xs font-semibold uppercase tracking-wider text-slate-500 dark:text-slate-400" data-i18n="memory_col_size">Size</th>
<th class="text-left px-4 py-3 text-xs font-semibold uppercase tracking-wider text-slate-500 dark:text-slate-400" data-i18n="memory_col_updated">Updated</th>
<th class="text-left px-4 py-3 text-xs font-semibold uppercase tracking-wider text-slate-500 dark:text-slate-400" data-i18n="memory_col_name">文件名</th>
<th class="text-left px-4 py-3 text-xs font-semibold uppercase tracking-wider text-slate-500 dark:text-slate-400" data-i18n="memory_col_type">类型</th>
<th class="text-left px-4 py-3 text-xs font-semibold uppercase tracking-wider text-slate-500 dark:text-slate-400" data-i18n="memory_col_size">大小</th>
<th class="text-left px-4 py-3 text-xs font-semibold uppercase tracking-wider text-slate-500 dark:text-slate-400" data-i18n="memory_col_updated">更新时间</th>
</tr>
</thead>
<tbody id="memory-table-body"></tbody>
@@ -537,7 +722,7 @@
text-slate-500 dark:text-slate-400 hover:bg-slate-100 dark:hover:bg-white/10
border border-slate-200 dark:border-white/10 transition-colors cursor-pointer">
<i class="fas fa-arrow-left text-xs"></i>
<span data-i18n="memory_back">Back</span>
<span data-i18n="memory_back">返回列表</span>
</button>
<h2 id="memory-viewer-title"
class="text-base font-semibold text-slate-800 dark:text-slate-100 font-mono truncate"></h2>
@@ -553,6 +738,106 @@
</div>
</div>
<!-- ====================================================== -->
<!-- VIEW: Knowledge -->
<!-- ====================================================== -->
<div id="view-knowledge" class="view">
<div class="flex-1 overflow-y-auto p-4 md:p-8 lg:p-10">
<div class="w-full max-w-[1600px] mx-auto">
<!-- Header -->
<div class="flex flex-col sm:flex-row sm:items-center justify-between gap-3 mb-4 md:mb-6">
<div>
<h2 class="text-xl font-bold text-slate-800 dark:text-slate-100" data-i18n="knowledge_title">知识库</h2>
<p class="text-sm text-slate-500 dark:text-slate-400 mt-1" data-i18n="knowledge_desc">浏览和探索你的知识库</p>
</div>
<div class="flex items-center gap-2">
<span id="knowledge-stats" class="text-xs text-slate-400 dark:text-slate-500 hidden sm:inline"></span>
<div class="flex items-center bg-slate-100 dark:bg-white/10 rounded-lg p-0.5">
<button id="knowledge-tab-docs" onclick="switchKnowledgeTab('docs')"
class="knowledge-tab px-3 py-1.5 rounded-md text-xs font-medium cursor-pointer transition-colors duration-150 active">
<i class="fas fa-folder-tree mr-1.5"></i><span data-i18n="knowledge_tab_docs">文档</span>
</button>
<button id="knowledge-tab-graph" onclick="switchKnowledgeTab('graph')"
class="knowledge-tab px-3 py-1.5 rounded-md text-xs font-medium cursor-pointer transition-colors duration-150">
<i class="fas fa-diagram-project mr-1.5"></i><span data-i18n="knowledge_tab_graph">图谱</span>
</button>
</div>
</div>
</div>
<!-- Empty state -->
<div id="knowledge-empty" class="flex flex-col items-center justify-center py-20">
<div class="w-16 h-16 rounded-2xl bg-emerald-50 dark:bg-emerald-900/20 flex items-center justify-center mb-4">
<i class="fas fa-book text-emerald-400 text-xl"></i>
</div>
<p class="text-slate-500 dark:text-slate-400 font-medium" data-i18n="knowledge_loading">加载知识库中...</p>
<p class="text-sm text-slate-400 dark:text-slate-500 mt-1" data-i18n="knowledge_loading_desc">知识页面将显示在这里</p>
<div id="knowledge-empty-guide" class="hidden mt-6 max-w-sm text-center">
<p class="text-sm text-slate-500 dark:text-slate-400 mb-4" data-i18n="knowledge_empty_guide">在对话中发送文档、链接或主题给 Agent它会自动整理到你的知识库中。</p>
<button onclick="navigateTo('chat')"
class="inline-flex items-center gap-2 px-4 py-2 rounded-lg bg-primary-500 hover:bg-primary-600
text-white text-sm font-medium cursor-pointer transition-colors duration-150">
<i class="fas fa-message text-xs"></i>
<span data-i18n="knowledge_go_chat">开始对话</span>
</button>
</div>
</div>
<!-- Documents panel -->
<div id="knowledge-panel-docs" class="hidden">
<div class="flex flex-col md:flex-row gap-4 md:gap-6" style="min-height: calc(100vh - 220px)">
<!-- File tree -->
<div id="knowledge-sidebar" class="w-full md:w-72 lg:w-80 flex-shrink-0">
<div class="bg-white dark:bg-[#1A1A1A] rounded-xl border border-slate-200 dark:border-white/10 overflow-hidden">
<div class="px-4 py-3 border-b border-slate-200 dark:border-white/10">
<div class="relative">
<i class="fas fa-search absolute left-3 top-1/2 -translate-y-1/2 text-slate-400 text-xs"></i>
<input id="knowledge-search" type="text" placeholder="Search..."
class="w-full pl-8 pr-3 py-1.5 text-xs bg-slate-50 dark:bg-white/5 border border-slate-200 dark:border-white/10 rounded-lg text-slate-700 dark:text-slate-200 placeholder-slate-400 dark:placeholder-slate-500 focus:outline-none focus:ring-1 focus:ring-primary-400/50"
oninput="filterKnowledgeTree(this.value)">
</div>
</div>
<div id="knowledge-tree" class="p-2 overflow-y-auto max-h-[50vh] md:max-h-[calc(100vh-300px)]"></div>
</div>
</div>
<!-- Content viewer -->
<div class="flex-1 min-w-0">
<div id="knowledge-content-placeholder"
class="flex flex-col items-center justify-center py-20 text-slate-400 dark:text-slate-500">
<i class="fas fa-file-lines text-3xl mb-3 opacity-40"></i>
<p class="text-sm" data-i18n="knowledge_select_hint">选择一个文档查看</p>
</div>
<div id="knowledge-content-viewer" class="hidden">
<div class="bg-white dark:bg-[#1A1A1A] rounded-xl border border-slate-200 dark:border-white/10 overflow-hidden">
<div class="flex items-center gap-3 px-4 md:px-5 py-3 border-b border-slate-200 dark:border-white/10">
<button onclick="knowledgeMobileBack()" class="md:hidden p-1 -ml-1 text-slate-400 hover:text-slate-600 dark:hover:text-slate-300 cursor-pointer">
<i class="fas fa-arrow-left text-xs"></i>
</button>
<i class="fas fa-file-lines text-slate-400 text-sm hidden md:inline"></i>
<span id="knowledge-viewer-title" class="text-sm font-medium text-slate-700 dark:text-slate-200 truncate"></span>
<span id="knowledge-viewer-path" class="text-xs text-slate-400 dark:text-slate-500 ml-auto font-mono truncate hidden md:inline"></span>
</div>
<div id="knowledge-viewer-body"
class="p-4 md:p-5 overflow-y-auto text-sm msg-content text-slate-700 dark:text-slate-200"
style="max-height: calc(100vh - 280px)"></div>
</div>
</div>
</div>
</div>
</div>
<!-- Graph panel -->
<div id="knowledge-panel-graph" class="hidden">
<div class="bg-white dark:bg-[#1A1A1A] rounded-xl border border-slate-200 dark:border-white/10 overflow-hidden">
<div id="knowledge-graph-container" class="w-full h-[60vh] md:h-[calc(100vh-220px)]"></div>
</div>
</div>
</div>
</div>
</div>
<!-- ====================================================== -->
<!-- VIEW: Channels -->
<!-- ====================================================== -->
@@ -561,14 +846,14 @@
<div class="max-w-4xl mx-auto">
<div class="flex items-center justify-between mb-6">
<div>
<h2 class="text-xl font-bold text-slate-800 dark:text-slate-100" data-i18n="channels_title">Channels</h2>
<p class="text-sm text-slate-500 dark:text-slate-400 mt-1" data-i18n="channels_desc">View and manage messaging channels</p>
<h2 class="text-xl font-bold text-slate-800 dark:text-slate-100" data-i18n="channels_title">通道管理</h2>
<p class="text-sm text-slate-500 dark:text-slate-400 mt-1" data-i18n="channels_desc">管理已接入的消息通道</p>
</div>
<button id="add-channel-btn" onclick="openAddChannelPanel()"
class="flex items-center gap-2 px-4 py-2 rounded-lg bg-primary-500 hover:bg-primary-600
text-white text-sm font-medium cursor-pointer transition-colors duration-150">
<i class="fas fa-plus text-xs"></i>
<span data-i18n="channels_add">Connect</span>
<span data-i18n="channels_add">接入通道</span>
</button>
</div>
<div id="channels-content" class="grid gap-4"></div>
@@ -585,8 +870,8 @@
<div class="max-w-4xl mx-auto">
<div class="flex items-center justify-between mb-6">
<div>
<h2 class="text-xl font-bold text-slate-800 dark:text-slate-100" data-i18n="tasks_title">Scheduled Tasks</h2>
<p class="text-sm text-slate-500 dark:text-slate-400 mt-1" data-i18n="tasks_desc">View and manage scheduled tasks</p>
<h2 class="text-xl font-bold text-slate-800 dark:text-slate-100" data-i18n="tasks_title">定时任务</h2>
<p class="text-sm text-slate-500 dark:text-slate-400 mt-1" data-i18n="tasks_desc">查看和管理定时任务</p>
</div>
</div>
<div id="tasks-empty" class="flex flex-col items-center justify-center py-20">
@@ -608,8 +893,8 @@
<div class="max-w-5xl mx-auto">
<div class="flex items-center justify-between mb-6">
<div>
<h2 class="text-xl font-bold text-slate-800 dark:text-slate-100" data-i18n="logs_title">Logs</h2>
<p class="text-sm text-slate-500 dark:text-slate-400 mt-1" data-i18n="logs_desc">Real-time log output (run.log)</p>
<h2 class="text-xl font-bold text-slate-800 dark:text-slate-100" data-i18n="logs_title">日志</h2>
<p class="text-sm text-slate-500 dark:text-slate-400 mt-1" data-i18n="logs_desc">实时日志输出 (run.log)</p>
</div>
</div>
<!-- Log Terminal -->
@@ -624,11 +909,11 @@
<div class="flex-1"></div>
<div class="flex items-center gap-1.5">
<span class="w-2 h-2 rounded-full bg-emerald-500 animate-pulse"></span>
<span class="text-xs text-slate-500" data-i18n="logs_live">Live</span>
<span class="text-xs text-slate-500" data-i18n="logs_live">实时</span>
</div>
</div>
<div id="log-output" class="p-4 overflow-y-auto font-mono text-xs leading-relaxed text-slate-300 whitespace-pre-wrap break-all" style="height: calc(100vh - 272px)">
<p class="text-slate-500" data-i18n="logs_coming_msg">Log streaming will be available here. Connects to run.log for real-time output similar to tail -f.</p>
<p class="text-slate-500" data-i18n="logs_coming_msg">日志流即将在此提供。将连接 run.log 实现类似 tail -f 的实时输出。</p>
</div>
</div>
</div>
@@ -665,6 +950,7 @@
</div>
</div>
<script src="https://cdn.jsdelivr.net/npm/d3@7/dist/d3.min.js"></script>
<script src="assets/js/console.js"></script>
</body>
</html>

584
channel/web/static/css/console.css
View File

@@ -17,6 +17,45 @@
.dark ::-webkit-scrollbar-thumb { background: #475569; }
.dark ::-webkit-scrollbar-thumb:hover { background: #64748b; }
/* Generic Tooltip (via data-tooltip attribute) */
[data-tooltip] {
position: relative;
}
[data-tooltip]::after {
content: attr(data-tooltip);
position: absolute;
left: 50%;
bottom: calc(100% + 8px);
transform: translateX(-50%);
padding: 5px 10px;
border-radius: 6px;
font-size: 12px;
font-weight: 400;
line-height: 1.4;
white-space: nowrap;
background: #1e293b;
color: #e2e8f0;
box-shadow: 0 4px 12px rgba(0, 0, 0, 0.15);
opacity: 0;
pointer-events: none;
transition: opacity 0.15s ease;
z-index: 100;
}
[data-tooltip-pos="bottom"]::after {
bottom: auto;
top: calc(100% + 8px);
}
.dark [data-tooltip]::after {
background: #334155;
color: #f1f5f9;
}
[data-tooltip]:hover::after {
opacity: 1;
}
[data-tooltip=""]:hover::after {
display: none;
}
/* Sidebar */
.sidebar-item.active {
background: rgba(255, 255, 255, 0.08);
@@ -24,9 +63,317 @@
}
.sidebar-item.active .item-icon { color: #4ABE6E; }
/* Session Panel */
.session-panel {
width: 220px;
flex-shrink: 0;
display: flex;
flex-direction: column;
background: #fafafa;
border-right: 1px solid #e5e7eb;
height: 100vh;
overflow: hidden;
transition: width 0.2s ease;
}
.dark .session-panel {
background: #111111;
border-right-color: rgba(255, 255, 255, 0.08);
}
.session-panel.hidden { display: none; }
.session-panel-header {
display: flex;
align-items: center;
justify-content: space-between;
padding: 12px 16px;
border-bottom: 1px solid #e5e7eb;
flex-shrink: 0;
}
.dark .session-panel-header { border-bottom-color: rgba(255, 255, 255, 0.08); }
.session-panel-title {
font-size: 14px;
font-weight: 600;
color: #374151;
}
.dark .session-panel-title { color: #d1d5db; }
.session-panel-close {
width: 28px;
height: 28px;
display: flex;
align-items: center;
justify-content: center;
border-radius: 6px;
border: none;
background: none;
color: #9ca3af;
cursor: pointer;
transition: background 0.15s, color 0.15s;
font-size: 12px;
}
.session-panel-close:hover {
background: #f3f4f6;
color: #374151;
}
.dark .session-panel-close:hover {
background: rgba(255, 255, 255, 0.08);
color: #e5e5e5;
}
.session-panel-new {
display: flex;
align-items: center;
gap: 8px;
margin: 10px 12px;
padding: 8px 14px;
border-radius: 8px;
border: 1px dashed #d1d5db;
background: none;
color: #6b7280;
font-size: 13px;
cursor: pointer;
transition: border-color 0.15s, color 0.15s, background 0.15s;
flex-shrink: 0;
}
.session-panel-new:hover {
border-color: #9ca3af;
color: #374151;
background: #f9fafb;
}
.dark .session-panel-new {
border-color: rgba(255, 255, 255, 0.12);
color: #9ca3af;
}
.dark .session-panel-new:hover {
border-color: rgba(255, 255, 255, 0.25);
color: #e5e5e5;
background: rgba(255, 255, 255, 0.04);
}
/* Session List */
.session-list {
flex: 1;
overflow-y: auto;
padding: 4px 8px;
scrollbar-width: none;
}
.session-list:hover { scrollbar-width: thin; }
.session-list::-webkit-scrollbar { width: 4px; background: transparent; }
.session-list::-webkit-scrollbar-thumb { background: transparent; border-radius: 2px; }
.session-list:hover::-webkit-scrollbar-thumb { background: rgba(0,0,0,0.2); }
.dark .session-list:hover::-webkit-scrollbar-thumb { background: rgba(255,255,255,0.15); }
.session-group-label {
padding: 10px 8px 4px;
font-size: 11px;
font-weight: 600;
text-transform: uppercase;
letter-spacing: 0.05em;
color: #9ca3af;
}
.dark .session-group-label { color: #525252; }
.session-empty {
padding: 20px 12px;
text-align: center;
font-size: 13px;
color: #9ca3af;
}
.session-item {
display: flex;
align-items: center;
gap: 8px;
padding: 8px 10px;
margin: 1px 0;
border-radius: 8px;
cursor: pointer;
transition: background 0.15s, color 0.15s;
color: #6b7280;
font-size: 13px;
position: relative;
}
.dark .session-item { color: #a3a3a3; }
.session-item:hover {
background: #f3f4f6;
color: #111827;
}
.dark .session-item:hover {
background: rgba(255, 255, 255, 0.05);
color: #e5e5e5;
}
.session-item.active {
background: #e5e7eb;
color: #111827;
}
.dark .session-item.active {
background: rgba(255, 255, 255, 0.1);
color: #ffffff;
}
.session-icon {
flex-shrink: 0;
font-size: 11px;
color: #9ca3af;
width: 16px;
text-align: center;
}
.dark .session-icon { color: #525252; }
.session-item.active .session-icon { color: #4ABE6E; }
.session-title {
flex: 1;
min-width: 0;
overflow: hidden;
text-overflow: ellipsis;
white-space: nowrap;
}
.session-delete {
flex-shrink: 0;
width: 22px;
height: 22px;
display: flex;
align-items: center;
justify-content: center;
border-radius: 5px;
font-size: 10px;
color: #9ca3af;
opacity: 0;
transition: opacity 0.15s, color 0.15s, background 0.15s;
cursor: pointer;
background: none;
border: none;
padding: 0;
}
.session-item:hover .session-delete { opacity: 1; }
.session-delete:hover {
color: #ef4444;
background: rgba(239, 68, 68, 0.1);
}
.dark .session-delete:hover { background: rgba(239, 68, 68, 0.15); }
/* Context Divider */
.context-divider {
display: flex;
align-items: center;
gap: 12px;
padding: 12px 24px;
color: #9ca3af;
}
.context-divider::before, .context-divider::after {
content: '';
flex: 1;
height: 1px;
background: linear-gradient(to right, transparent, #d1d5db, transparent);
}
.dark .context-divider::before, .dark .context-divider::after {
background: linear-gradient(to right, transparent, rgba(255,255,255,0.12), transparent);
}
.context-divider span {
font-size: 12px;
white-space: nowrap;
color: #9ca3af;
}
/* Confirm Modal */
.confirm-overlay {
position: fixed;
inset: 0;
z-index: 9999;
display: flex;
align-items: center;
justify-content: center;
background: rgba(0, 0, 0, 0.4);
opacity: 0;
transition: opacity 0.2s ease;
}
.confirm-overlay.visible { opacity: 1; }
.confirm-modal {
background: #fff;
border-radius: 14px;
width: 380px;
max-width: 90vw;
padding: 28px 24px 20px;
box-shadow: 0 20px 60px rgba(0, 0, 0, 0.18);
transform: scale(0.92);
transition: transform 0.2s ease;
}
.confirm-overlay.visible .confirm-modal { transform: scale(1); }
.dark .confirm-modal {
background: #1e1e1e;
box-shadow: 0 20px 60px rgba(0, 0, 0, 0.5);
}
.confirm-title {
font-size: 16px;
font-weight: 600;
color: #1f2937;
margin-bottom: 8px;
}
.dark .confirm-title { color: #e5e7eb; }
.confirm-message {
font-size: 14px;
color: #6b7280;
line-height: 1.5;
margin-bottom: 24px;
}
.dark .confirm-message { color: #9ca3af; }
.confirm-actions {
display: flex;
justify-content: flex-end;
gap: 10px;
}
.confirm-btn {
padding: 8px 20px;
border-radius: 8px;
font-size: 14px;
font-weight: 500;
cursor: pointer;
border: none;
transition: all 0.15s ease;
}
.confirm-btn-cancel {
background: #f3f4f6;
color: #374151;
}
.confirm-btn-cancel:hover { background: #e5e7eb; }
.dark .confirm-btn-cancel {
background: rgba(255, 255, 255, 0.08);
color: #d1d5db;
}
.dark .confirm-btn-cancel:hover { background: rgba(255, 255, 255, 0.14); }
.confirm-btn-ok {
background: #ef4444;
color: #fff;
}
.confirm-btn-ok:hover { background: #dc2626; }
/* Session panel overlay (mobile only, click to close) */
.session-panel-overlay {
display: none;
}
@media (max-width: 768px) {
.session-panel-overlay {
display: block;
position: fixed;
inset: 0;
z-index: 44;
background: rgba(0, 0, 0, 0.3);
}
.session-panel-overlay.hidden {
display: none;
}
}
/* Mobile: session panel as overlay */
@media (max-width: 768px) {
.session-panel {
position: fixed;
top: 0;
left: 0;
z-index: 45;
width: 220px;
box-shadow: 4px 0 24px rgba(0, 0, 0, 0.15);
}
.dark .session-panel {
box-shadow: 4px 0 24px rgba(0, 0, 0, 0.4);
}
}
/* Menu Groups */
.menu-group-items { max-height: 0; overflow: hidden; transition: max-height 0.25s ease-out; }
.menu-group.open .menu-group-items { max-height: 500px; transition: max-height 0.35s ease-in; }
.menu-group.open .menu-group-items { max-height: 2000px; transition: max-height 0.35s ease-in; }
.menu-group .chevron { transition: transform 0.25s ease; }
.menu-group.open .chevron { transform: rotate(90deg); }
@@ -45,7 +392,8 @@
.msg-content h1 { font-size: 1.4em; }
.msg-content h2 { font-size: 1.25em; }
.msg-content h3 { font-size: 1.1em; }
.msg-content ul, .msg-content ol { margin: 0.5em 0; padding-left: 1.8em; }
.msg-content ul { margin: 0.5em 0; padding-left: 1.8em; list-style: disc; }
.msg-content ol { margin: 0.5em 0; padding-left: 1.8em; list-style: decimal; }
.msg-content li { margin: 0.25em 0; }
.msg-content pre {
border-radius: 8px; overflow-x: auto; margin: 0.8em 0;
@@ -124,9 +472,8 @@
cursor: pointer;
user-select: none;
}
.agent-thinking-step .thinking-header.no-toggle { cursor: default; }
.agent-thinking-step .thinking-header:not(.no-toggle):hover { color: #64748b; }
.dark .agent-thinking-step .thinking-header:not(.no-toggle):hover { color: #cbd5e1; }
.agent-thinking-step .thinking-header:hover { color: #64748b; }
.dark .agent-thinking-step .thinking-header:hover { color: #cbd5e1; }
.agent-thinking-step .thinking-header i:first-child { font-size: 0.625rem; margin-top: 1px; }
.agent-thinking-step .thinking-chevron {
font-size: 0.5rem;
@@ -146,7 +493,7 @@
font-size: 0.75rem;
line-height: 1.5;
color: #94a3b8;
max-height: 200px;
max-height: 300px;
overflow-y: auto;
}
.dark .agent-thinking-step .thinking-full {
@@ -157,6 +504,41 @@
.agent-thinking-step .thinking-full p { margin: 0.25em 0; }
.agent-thinking-step .thinking-full p:first-child { margin-top: 0; }
.agent-thinking-step .thinking-full p:last-child { margin-bottom: 0; }
.agent-thinking-step .thinking-duration {
font-size: 0.625rem;
color: #b0b8c4;
margin-bottom: 0.375rem;
}
/* Streaming reasoning: render as plain pre to avoid expensive markdown
re-parsing on every chunk. Wrap long lines so the bubble width is
respected and use the same font size/color as the rendered version. */
.agent-thinking-step .thinking-stream-pre {
margin: 0;
padding: 0;
background: transparent;
border: 0;
font-family: inherit;
font-size: inherit;
line-height: 1.5;
color: inherit;
white-space: pre-wrap;
word-break: break-word;
overflow-wrap: anywhere;
}
/* Content step - real text output frozen before tool calls */
.agent-content-step {
font-size: 0.875rem;
line-height: 1.6;
color: inherit;
margin-bottom: 0.5rem;
padding-bottom: 0.5rem;
border-bottom: 1px dashed rgba(0, 0, 0, 0.06);
}
.dark .agent-content-step { border-bottom-color: rgba(255, 255, 255, 0.06); }
.agent-content-step .agent-content-body p { margin: 0.25em 0; }
.agent-content-step .agent-content-body p:first-child { margin-top: 0; }
.agent-content-step .agent-content-body p:last-child { margin-bottom: 0; }
/* Tool step - collapsible */
.agent-tool-step .tool-header {
@@ -535,3 +917,193 @@
.dark .slash-menu-item .desc {
color: #64748b;
}
/* ============================================================
Knowledge View
============================================================ */
/* Tab toggle */
.knowledge-tab, .memory-tab {
color: #64748b;
}
.knowledge-tab.active, .memory-tab.active {
background: #fff;
color: #334155;
box-shadow: 0 1px 3px rgba(0,0,0,0.08);
}
.dark .knowledge-tab.active, .dark .memory-tab.active {
background: rgba(255,255,255,0.1);
color: #e2e8f0;
}
/* File tree */
.knowledge-tree-group {
margin-bottom: 2px;
}
.knowledge-tree-group-btn {
display: flex;
align-items: center;
gap: 6px;
width: 100%;
padding: 6px 8px;
border-radius: 6px;
font-size: 12px;
font-weight: 600;
color: #64748b;
cursor: pointer;
border: none;
background: none;
transition: background 0.15s, color 0.15s;
text-transform: capitalize;
}
.knowledge-tree-group-btn:hover {
background: rgba(0,0,0,0.04);
color: #334155;
}
.dark .knowledge-tree-group-btn:hover {
background: rgba(255,255,255,0.06);
color: #e2e8f0;
}
.knowledge-tree-group-btn i.chevron {
font-size: 8px;
transition: transform 0.15s;
}
.knowledge-tree-group.open > .knowledge-tree-group-btn .chevron {
transform: rotate(90deg);
}
.knowledge-tree-group-items {
display: none;
}
.knowledge-tree-group.open > .knowledge-tree-group-items {
display: block;
}
.knowledge-tree-file {
display: flex;
align-items: center;
gap: 6px;
padding: 5px 8px 5px 24px;
border-radius: 6px;
font-size: 12px;
color: #64748b;
cursor: pointer;
border: none;
background: none;
width: 100%;
text-align: left;
transition: background 0.15s, color 0.15s;
white-space: nowrap;
overflow: hidden;
text-overflow: ellipsis;
}
.knowledge-tree-file:hover {
background: rgba(0,0,0,0.04);
color: #334155;
}
.knowledge-tree-file.active {
background: #EDFDF3;
color: #228547;
}
.dark .knowledge-tree-file:hover {
background: rgba(255,255,255,0.06);
color: #e2e8f0;
}
.dark .knowledge-tree-file.active {
background: rgba(74, 190, 110, 0.1);
color: #4ABE6E;
}
/* Graph legend */
.knowledge-graph-legend {
position: absolute;
top: 12px;
right: 12px;
display: flex;
flex-wrap: wrap;
gap: 8px;
font-size: 11px;
color: #64748b;
z-index: 10;
}
.knowledge-graph-legend-item {
display: flex;
align-items: center;
gap: 4px;
}
.knowledge-graph-legend-dot {
width: 8px;
height: 8px;
border-radius: 50%;
}
/* Graph tooltip */
.knowledge-graph-tooltip {
position: absolute;
padding: 6px 10px;
background: #fff;
border: 1px solid #e2e8f0;
border-radius: 8px;
font-size: 12px;
color: #334155;
box-shadow: 0 4px 12px rgba(0,0,0,0.08);
pointer-events: none;
opacity: 0;
transition: opacity 0.15s;
z-index: 20;
}
.dark .knowledge-graph-tooltip {
background: #1A1A1A;
border-color: rgba(255,255,255,0.1);
color: #e2e8f0;
}
/* Config field tooltip */
.cfg-tip {
position: relative;
display: inline-flex;
align-items: center;
color: #94a3b8;
cursor: help;
font-size: 12px;
}
.cfg-tip:hover { color: #64748b; }
.dark .cfg-tip:hover { color: #cbd5e1; }
/* Floating tooltip portal — appended to <body> by JS so it isn't clipped
by overflow:hidden ancestors. */
.cfg-tip-floating {
position: fixed;
padding: 6px 10px;
border-radius: 8px;
font-size: 12px;
font-weight: 400;
line-height: 1.4;
white-space: nowrap;
background: #1e293b;
color: #e2e8f0;
box-shadow: 0 4px 12px rgba(0,0,0,0.15);
opacity: 0;
pointer-events: none;
transition: opacity 0.15s;
z-index: 9999;
}
.dark .cfg-tip-floating {
background: #334155;
color: #f1f5f9;
}
.cfg-tip-floating.show {
opacity: 1;
}
/* Example cards: equal height via flex stretch + fixed 2-line description area */
.example-card {
display: flex;
flex-direction: column;
}
.example-card > p {
flex: 1;
display: -webkit-box;
-webkit-line-clamp: 2;
-webkit-box-orient: vertical;
overflow: hidden;
min-height: 2.5em; /* ~2 lines at text-sm leading-relaxed */
}

2130
channel/web/static/js/console.js
View File

File diff suppressed because it is too large Load Diff

585
channel/web/web_channel.py
View File

@@ -1,3 +1,5 @@
import hashlib
import hmac
import time
import json
import logging
@@ -23,6 +25,62 @@ from config import conf
IMAGE_EXTENSIONS = {".jpg", ".jpeg", ".png", ".gif", ".webp", ".bmp", ".svg"}
VIDEO_EXTENSIONS = {".mp4", ".webm", ".avi", ".mov", ".mkv"}
def _is_password_enabled():
return bool(conf().get("web_password", ""))
def _session_expire_seconds():
return int(conf().get("web_session_expire_days", 30)) * 86400
def _create_auth_token():
"""Create a stateless signed token: ``<timestamp_hex>.<hmac_hex>``."""
ts = format(int(time.time()), "x")
sig = hmac.new(
conf().get("web_password", "").encode(),
ts.encode(),
hashlib.sha256,
).hexdigest()
return f"{ts}.{sig}"
def _verify_auth_token(token):
"""Verify a signed token is valid and not expired.
The token is derived from the password, so it survives server restarts
and automatically invalidates when the password changes.
"""
if not token or "." not in token:
return False
ts_hex, sig = token.split(".", 1)
try:
ts = int(ts_hex, 16)
except ValueError:
return False
if time.time() - ts > _session_expire_seconds():
return False
expected = hmac.new(
conf().get("web_password", "").encode(),
ts_hex.encode(),
hashlib.sha256,
).hexdigest()
return hmac.compare_digest(sig, expected)
def _check_auth():
"""Return True if request is authenticated or password not enabled."""
if not _is_password_enabled():
return True
return _verify_auth_token(web.cookies().get("cow_auth_token", ""))
def _require_auth():
"""Raise 401 if not authenticated. Call at the top of protected handlers."""
if not _check_auth():
raise web.HTTPError("401 Unauthorized",
{"Content-Type": "application/json; charset=utf-8"},
json.dumps({"status": "error", "message": "Unauthorized"}))
def _get_upload_dir() -> str:
from common.utils import expand_path
@@ -32,6 +90,12 @@ def _get_upload_dir() -> str:
return tmp_dir
def _generate_session_title(user_message: str, assistant_reply: str = "") -> str:
"""Delegate to the shared SessionService implementation."""
from agent.chat.session_service import generate_session_title
return generate_session_title(user_message, assistant_reply)
class WebMessage(ChatMessage):
def __init__(
self,
@@ -126,6 +190,13 @@ class WebChannel(ChatChannel):
logger.debug(f"SSE skipped duplicate file for request {request_id}")
return
# Skip http-URL FILE/IMAGE_URL replies produced by chat_channel's media extraction:
# the text reply (already sent as "done") contains the URL and the frontend will
# render it via renderMarkdown/injectVideoPlayers, so no separate SSE event needed.
if reply.type in (ReplyType.FILE, ReplyType.IMAGE_URL) and content.startswith(("http://", "https://")):
logger.debug(f"SSE skipped http media reply for request {request_id}")
return
self.sse_queues[request_id].put({
"type": "done",
"content": content,
@@ -137,9 +208,24 @@ class WebChannel(ChatChannel):
# Fallback: polling mode
if session_id in self.session_queues:
content = reply.content if reply.content is not None else ""
# Skip file:// IMAGE_URL/FILE replies originating from an SSE-enabled
# request: they were already pushed via the `file_to_send` event during
# agent execution. By the time the chat_channel sends the IMAGE_URL reply,
# the SSE stream has typically closed (after the text "done") and the
# request_id is gone from sse_queues, so we'd otherwise duplicate the file
# as a polling bubble. Scheduler/push tasks have no on_event and must
# still go through polling normally.
if (
reply.type in (ReplyType.IMAGE_URL, ReplyType.FILE)
and content.startswith("file://")
and context.get("on_event") is not None
):
logger.debug(f"Polling skipped duplicate file reply for session {session_id}")
return
response_data = {
"type": str(reply.type),
"content": reply.content,
"content": content,
"timestamp": time.time(),
"request_id": request_id
}
@@ -154,6 +240,17 @@ class WebChannel(ChatChannel):
def _make_sse_callback(self, request_id: str):
"""Build an on_event callback that pushes agent stream events into the SSE queue."""
# Cap reasoning bytes pushed to the frontend per request to avoid
# browser stalls / crashes on very long chains-of-thought. Anything
# beyond the cap is dropped from the stream (DB still persists a
# truncated copy via _truncate_reasoning_for_storage).
# Keep aligned with frontend REASONING_RENDER_CAP and backend
# MAX_STORED_REASONING_CHARS.
MAX_REASONING_STREAM_CHARS = 4 * 1024 # 4 KB
# Use a single-element list as a mutable counter accessible from closure.
reasoning_chars_sent = [0]
reasoning_capped_notified = [False]
def on_event(event: dict):
if request_id not in self.sse_queues:
return
@@ -161,7 +258,25 @@ class WebChannel(ChatChannel):
event_type = event.get("type")
data = event.get("data", {})
if event_type == "message_update":
if event_type == "reasoning_update":
delta = data.get("delta", "")
if not delta:
return
remaining = MAX_REASONING_STREAM_CHARS - reasoning_chars_sent[0]
if remaining <= 0:
if not reasoning_capped_notified[0]:
reasoning_capped_notified[0] = True
q.put({
"type": "reasoning",
"content": "\n\n... [reasoning truncated for display] ...",
})
return
if len(delta) > remaining:
delta = delta[:remaining]
reasoning_chars_sent[0] += len(delta)
q.put({"type": "reasoning", "content": delta})
elif event_type == "message_update":
delta = data.get("delta", "")
if delta:
q.put({"type": "delta", "content": delta})
@@ -188,6 +303,30 @@ class WebChannel(ChatChannel):
"execution_time": round(exec_time, 2)
})
elif event_type == "message_end":
tool_calls = data.get("tool_calls", [])
if tool_calls:
q.put({"type": "message_end", "has_tool_calls": True})
elif event_type == "agent_end":
# Safety net: if the agent finishes with an empty final_response,
# chat_channel skips _send_reply (because reply.content is empty),
# which means no "done" event is ever emitted and the SSE stream
# would hang until the 10-min idle timeout. Push a fallback "done"
# here so the frontend always gets closure.
final_response = data.get("final_response", "")
if not final_response or not str(final_response).strip():
logger.warning(
f"[WebChannel] agent_end with empty final_response for "
f"request {request_id}, sending fallback done"
)
q.put({
"type": "done",
"content": "(模型未返回任何内容,请重试或换一种方式描述你的需求)",
"request_id": request_id,
"timestamp": time.time(),
})
elif event_type == "file_to_send":
file_path = data.get("path", "")
file_name = data.get("file_name", os.path.basename(file_path))
@@ -322,14 +461,18 @@ class WebChannel(ChatChannel):
"""
SSE generator for a given request_id.
Yields UTF-8 encoded bytes to avoid WSGI Latin-1 mangling.
Supports client reconnection: the queue is only removed after a
"done" event is consumed, so a new GET /stream with the same
request_id can resume reading remaining events.
"""
if request_id not in self.sse_queues:
yield b"data: {\"type\": \"error\", \"message\": \"invalid request_id\"}\n\n"
return
q = self.sse_queues[request_id]
timeout = 300 # 5 minutes max
deadline = time.time() + timeout
idle_timeout = 600 # 10 minutes without any real event
deadline = time.time() + idle_timeout
done = False
try:
while time.time() < deadline:
@@ -339,13 +482,18 @@ class WebChannel(ChatChannel):
yield b": keepalive\n\n"
continue
# Real event received, reset idle deadline
deadline = time.time() + idle_timeout
payload = json.dumps(item, ensure_ascii=False)
yield f"data: {payload}\n\n".encode("utf-8")
if item.get("type") == "done":
done = True
break
finally:
self.sse_queues.pop(request_id, None)
if done:
self.sse_queues.pop(request_id, None)
def poll_response(self):
"""
@@ -414,6 +562,9 @@ class WebChannel(ChatChannel):
urls = (
'/', 'RootHandler',
'/auth/login', 'AuthLoginHandler',
'/auth/check', 'AuthCheckHandler',
'/auth/logout', 'AuthLogoutHandler',
'/message', 'MessageHandler',
'/upload', 'UploadHandler',
'/uploads/(.*)', 'UploadsHandler',
@@ -428,7 +579,14 @@ class WebChannel(ChatChannel):
'/api/skills', 'SkillsHandler',
'/api/memory', 'MemoryHandler',
'/api/memory/content', 'MemoryContentHandler',
'/api/knowledge/list', 'KnowledgeListHandler',
'/api/knowledge/read', 'KnowledgeReadHandler',
'/api/knowledge/graph', 'KnowledgeGraphHandler',
'/api/scheduler', 'SchedulerHandler',
'/api/sessions', 'SessionsHandler',
'/api/sessions/(.*)/generate_title', 'SessionTitleHandler',
'/api/sessions/(.*)/clear_context', 'SessionClearContextHandler',
'/api/sessions/(.*)', 'SessionDetailHandler',
'/api/history', 'HistoryHandler',
'/api/logs', 'LogsHandler',
'/api/version', 'VersionHandler',
@@ -447,8 +605,14 @@ class WebChannel(ChatChannel):
func = web.httpserver.StaticMiddleware(app.wsgifunc())
func = web.httpserver.LogMiddleware(func)
server = web.httpserver.WSGIServer(("0.0.0.0", port), func)
# Allow concurrent requests by not blocking on in-flight handler threads
server.daemon_threads = True
# Default request_queue_size(5) / timeout(10s) / numthreads(10) are
# too small: when SSE streams occupy many threads, the backlog fills
# and new connections get refused (ERR_CONNECTION_ABORTED).
server.request_queue_size = 128
server.timeout = 300
server.requests.min = 20
server.requests.max = 80
self._http_server = server
try:
server.start()
@@ -467,24 +631,62 @@ class WebChannel(ChatChannel):
class RootHandler:
def GET(self):
# 重定向到/chat
raise web.seeother('/chat')
class AuthCheckHandler:
def GET(self):
web.header('Content-Type', 'application/json; charset=utf-8')
if not _is_password_enabled():
return json.dumps({"status": "success", "auth_required": False})
if _check_auth():
return json.dumps({"status": "success", "auth_required": True, "authenticated": True})
return json.dumps({"status": "success", "auth_required": True, "authenticated": False})
class AuthLoginHandler:
def POST(self):
web.header('Content-Type', 'application/json; charset=utf-8')
if not _is_password_enabled():
return json.dumps({"status": "success"})
try:
data = json.loads(web.data())
except Exception:
return json.dumps({"status": "error", "message": "Invalid request"})
password = data.get("password", "")
expected = conf().get("web_password", "")
if not hmac.compare_digest(password, expected):
logger.warning("[WebChannel] Invalid login attempt")
return json.dumps({"status": "error", "message": "Wrong password"})
token = _create_auth_token()
web.setcookie("cow_auth_token", token, expires=_session_expire_seconds(),
path="/", httponly=True, samesite="Lax")
return json.dumps({"status": "success"})
class AuthLogoutHandler:
def POST(self):
web.header('Content-Type', 'application/json; charset=utf-8')
web.setcookie("cow_auth_token", "", expires=-1, path="/")
return json.dumps({"status": "success"})
class MessageHandler:
def POST(self):
_require_auth()
return WebChannel().post_message()
class UploadHandler:
def POST(self):
_require_auth()
web.header('Content-Type', 'application/json; charset=utf-8')
return WebChannel().upload_file()
class UploadsHandler:
def GET(self, file_name):
"""Serve uploaded files from workspace/tmp/ for preview."""
_require_auth()
try:
upload_dir = _get_upload_dir()
full_path = os.path.normpath(os.path.join(upload_dir, file_name))
@@ -506,7 +708,7 @@ class UploadsHandler:
class FileServeHandler:
def GET(self):
"""Serve a local file by absolute path (for agent send tool)."""
_require_auth()
try:
params = web.input(path="")
file_path = params.path
@@ -532,11 +734,13 @@ class FileServeHandler:
class PollHandler:
def POST(self):
_require_auth()
return WebChannel().poll_response()
class StreamHandler:
def GET(self):
_require_auth()
params = web.input(request_id='')
request_id = params.request_id
if not request_id:
@@ -552,74 +756,72 @@ class StreamHandler:
class ChatHandler:
def GET(self):
# 正常返回聊天页面
web.header('Cache-Control', 'no-cache, no-store, must-revalidate')
web.header('Pragma', 'no-cache')
file_path = os.path.join(os.path.dirname(__file__), 'chat.html')
with open(file_path, 'r', encoding='utf-8') as f:
return f.read()
html = f.read()
cache_bust = str(int(time.time()))
html = html.replace('assets/js/console.js', f'assets/js/console.js?v={cache_bust}')
html = html.replace('assets/css/console.css', f'assets/css/console.css?v={cache_bust}')
return html
class ConfigHandler:
_RECOMMENDED_MODELS = [
const.MINIMAX_M2_7, const.MINIMAX_M2_5, const.MINIMAX_M2_1, const.MINIMAX_M2_1_LIGHTNING,
const.GLM_5_TURBO, const.GLM_5, const.GLM_4_7,
const.QWEN3_MAX, const.QWEN35_PLUS,
const.KIMI_K2_5, const.KIMI_K2,
const.DOUBAO_SEED_2_PRO, const.DOUBAO_SEED_2_CODE,
const.CLAUDE_4_6_SONNET, const.CLAUDE_4_6_OPUS, const.CLAUDE_4_5_SONNET,
const.DEEPSEEK_V4_FLASH, const.DEEPSEEK_V4_PRO, const.DEEPSEEK_CHAT, const.DEEPSEEK_REASONER,
const.MINIMAX_M2_7_HIGHSPEED, const.MINIMAX_M2_7, const.MINIMAX_M2_5, const.MINIMAX_M2_1, const.MINIMAX_M2_1_LIGHTNING,
const.CLAUDE_4_6_SONNET, const.CLAUDE_4_7_OPUS, const.CLAUDE_4_6_OPUS, const.CLAUDE_4_5_SONNET,
const.GEMINI_31_FLASH_LITE_PRE, const.GEMINI_31_PRO_PRE, const.GEMINI_3_FLASH_PRE,
const.GPT_54, const.GPT_54_MINI, const.GPT_54_NANO, const.GPT_5, const.GPT_41, const.GPT_4o,
const.DEEPSEEK_CHAT, const.DEEPSEEK_REASONER,
const.GLM_5_1, const.GLM_5_TURBO, const.GLM_5, const.GLM_4_7,
const.QWEN36_PLUS, const.QWEN35_PLUS, const.QWEN3_MAX,
const.DOUBAO_SEED_2_PRO, const.DOUBAO_SEED_2_CODE,
const.KIMI_K2_6, const.KIMI_K2_5, const.KIMI_K2,
]
# Generic placeholder hints surfaced in the web console. We deliberately
# show the version-path tail (e.g. "/v1") so users are reminded to type
# the full base URL. The form is intentionally vague (`...../v1`) so it
# never looks like a real default a user might paste verbatim — and we
# never auto-rewrite anything on the server side.
_PLACEHOLDER_V1 = "https://...../v1"
_PLACEHOLDER_ZHIPU = "https://...../api/paas/v4"
_PLACEHOLDER_DOUBAO = "https://...../api/v3"
_PLACEHOLDER_GEMINI = "https://....."
PROVIDER_MODELS = OrderedDict([
("deepseek", {
"label": "DeepSeek",
"api_key_field": "deepseek_api_key",
"api_base_key": "deepseek_api_base",
"api_base_default": "https://api.deepseek.com/v1",
"api_base_placeholder": _PLACEHOLDER_V1,
"models": [const.DEEPSEEK_V4_FLASH, const.DEEPSEEK_V4_PRO, const.DEEPSEEK_CHAT, const.DEEPSEEK_REASONER],
}),
("minimax", {
"label": "MiniMax",
"api_key_field": "minimax_api_key",
"api_base_key": None,
"api_base_default": None,
"models": [const.MINIMAX_M2_7, const.MINIMAX_M2_5, const.MINIMAX_M2_1, const.MINIMAX_M2_1_LIGHTNING],
}),
("zhipu", {
"label": "智谱AI",
"api_key_field": "zhipu_ai_api_key",
"api_base_key": "zhipu_ai_api_base",
"api_base_default": "https://open.bigmodel.cn/api/paas/v4",
"models": [const.GLM_5_TURBO, const.GLM_5, const.GLM_4_7],
}),
("dashscope", {
"label": "通义千问",
"api_key_field": "dashscope_api_key",
"api_base_key": None,
"api_base_default": None,
"models": [const.QWEN3_MAX, const.QWEN35_PLUS],
}),
("moonshot", {
"label": "Kimi",
"api_key_field": "moonshot_api_key",
"api_base_key": "moonshot_base_url",
"api_base_default": "https://api.moonshot.cn/v1",
"models": [const.KIMI_K2_5, const.KIMI_K2],
}),
("doubao", {
"label": "豆包",
"api_key_field": "ark_api_key",
"api_base_key": "ark_base_url",
"api_base_default": "https://ark.cn-beijing.volces.com/api/v3",
"models": [const.DOUBAO_SEED_2_PRO, const.DOUBAO_SEED_2_CODE],
"api_base_placeholder": "",
"models": [const.MINIMAX_M2_7, const.MINIMAX_M2_7_HIGHSPEED, const.MINIMAX_M2_5, const.MINIMAX_M2_1, const.MINIMAX_M2_1_LIGHTNING],
}),
("claudeAPI", {
"label": "Claude",
"api_key_field": "claude_api_key",
"api_base_key": "claude_api_base",
"api_base_default": "https://api.anthropic.com/v1",
"models": [const.CLAUDE_4_6_SONNET, const.CLAUDE_4_6_OPUS, const.CLAUDE_4_5_SONNET],
"api_base_placeholder": _PLACEHOLDER_V1,
"models": [const.CLAUDE_4_6_SONNET, const.CLAUDE_4_7_OPUS, const.CLAUDE_4_6_OPUS, const.CLAUDE_4_5_SONNET],
}),
("gemini", {
"label": "Gemini",
"api_key_field": "gemini_api_key",
"api_base_key": "gemini_api_base",
"api_base_default": "https://generativelanguage.googleapis.com",
"api_base_placeholder": _PLACEHOLDER_GEMINI,
"models": [const.GEMINI_31_FLASH_LITE_PRE, const.GEMINI_31_PRO_PRE, const.GEMINI_3_FLASH_PRE],
}),
("openai", {
@@ -627,20 +829,47 @@ class ConfigHandler:
"api_key_field": "open_ai_api_key",
"api_base_key": "open_ai_api_base",
"api_base_default": "https://api.openai.com/v1",
"api_base_placeholder": _PLACEHOLDER_V1,
"models": [const.GPT_54, const.GPT_54_MINI, const.GPT_54_NANO, const.GPT_5, const.GPT_41, const.GPT_4o],
}),
("deepseek", {
"label": "DeepSeek",
"api_key_field": "deepseek_api_key",
"api_base_key": "deepseek_api_base",
"api_base_default": "https://api.deepseek.com/v1",
"models": [const.DEEPSEEK_CHAT, const.DEEPSEEK_REASONER],
("zhipu", {
"label": "智谱AI",
"api_key_field": "zhipu_ai_api_key",
"api_base_key": "zhipu_ai_api_base",
"api_base_default": "https://open.bigmodel.cn/api/paas/v4",
"api_base_placeholder": _PLACEHOLDER_ZHIPU,
"models": [const.GLM_5_1, const.GLM_5_TURBO, const.GLM_5, const.GLM_4_7],
}),
("dashscope", {
"label": "通义千问",
"api_key_field": "dashscope_api_key",
"api_base_key": None,
"api_base_default": None,
"api_base_placeholder": "",
"models": [const.QWEN36_PLUS, const.QWEN35_PLUS, const.QWEN3_MAX],
}),
("doubao", {
"label": "豆包",
"api_key_field": "ark_api_key",
"api_base_key": "ark_base_url",
"api_base_default": "https://ark.cn-beijing.volces.com/api/v3",
"api_base_placeholder": _PLACEHOLDER_DOUBAO,
"models": [const.DOUBAO_SEED_2_PRO, const.DOUBAO_SEED_2_CODE],
}),
("moonshot", {
"label": "Kimi",
"api_key_field": "moonshot_api_key",
"api_base_key": "moonshot_base_url",
"api_base_default": "https://api.moonshot.cn/v1",
"api_base_placeholder": _PLACEHOLDER_V1,
"models": [const.KIMI_K2_6, const.KIMI_K2_5, const.KIMI_K2],
}),
("modelscope", {
"label": "ModelScope",
"api_key_field": "modelscope_api_key",
"api_base_key": None,
"api_base_default": None,
"api_base_placeholder": "",
"models": [const.QWEN3_5_27B, const.QWEN3_235B_A22B_INSTRUCT_2507],
}),
("linkai", {
@@ -648,18 +877,28 @@ class ConfigHandler:
"api_key_field": "linkai_api_key",
"api_base_key": None,
"api_base_default": None,
"api_base_placeholder": "",
"models": _RECOMMENDED_MODELS,
}),
("custom", {
"label": "自定义",
"api_key_field": "custom_api_key",
"api_base_key": "custom_api_base",
"api_base_default": "",
"api_base_placeholder": _PLACEHOLDER_V1,
"models": [],
}),
])
EDITABLE_KEYS = {
"model", "bot_type", "use_linkai",
"open_ai_api_base", "deepseek_api_base", "claude_api_base", "gemini_api_base",
"zhipu_ai_api_base", "moonshot_base_url", "ark_base_url",
"zhipu_ai_api_base", "moonshot_base_url", "ark_base_url", "custom_api_base",
"open_ai_api_key", "deepseek_api_key", "claude_api_key", "gemini_api_key",
"zhipu_ai_api_key", "dashscope_api_key", "moonshot_api_key",
"ark_api_key", "minimax_api_key", "linkai_api_key",
"ark_api_key", "minimax_api_key", "linkai_api_key", "custom_api_key",
"agent_max_context_tokens", "agent_max_context_turns", "agent_max_steps",
"enable_thinking", "web_password",
}
@staticmethod
@@ -670,7 +909,7 @@ class ConfigHandler:
return value[:4] + "*" * (len(value) - 8) + value[-4:]
def GET(self):
"""Return configuration info and provider/model metadata."""
_require_auth()
web.header('Content-Type', 'application/json; charset=utf-8')
try:
local_config = conf()
@@ -695,9 +934,13 @@ class ConfigHandler:
"models": p["models"],
"api_base_key": p["api_base_key"],
"api_base_default": p["api_base_default"],
"api_base_placeholder": p.get("api_base_placeholder", ""),
"api_key_field": p.get("api_key_field"),
}
raw_pwd = local_config.get("web_password", "")
masked_pwd = ("*" * len(raw_pwd)) if raw_pwd else ""
return json.dumps({
"status": "success",
"use_agent": use_agent,
@@ -708,17 +951,19 @@ class ConfigHandler:
"channel_type": local_config.get("channel_type", ""),
"agent_max_context_tokens": local_config.get("agent_max_context_tokens", 50000),
"agent_max_context_turns": local_config.get("agent_max_context_turns", 20),
"agent_max_steps": local_config.get("agent_max_steps", 15),
"agent_max_steps": local_config.get("agent_max_steps", 20),
"enable_thinking": bool(local_config.get("enable_thinking", False)),
"api_bases": api_bases,
"api_keys": api_keys_masked,
"providers": providers,
"web_password_masked": masked_pwd,
}, ensure_ascii=False)
except Exception as e:
logger.error(f"Error getting config: {e}")
return json.dumps({"status": "error", "message": str(e)})
def POST(self):
"""Update configuration values in memory and persist to config.json."""
_require_auth()
web.header('Content-Type', 'application/json; charset=utf-8')
try:
data = json.loads(web.data())
@@ -733,7 +978,7 @@ class ConfigHandler:
continue
if key in ("agent_max_context_tokens", "agent_max_context_turns", "agent_max_steps"):
value = int(value)
if key == "use_linkai":
if key in ("use_linkai", "enable_thinking"):
value = bool(value)
local_config[key] = value
applied[key] = value
@@ -753,6 +998,19 @@ class ConfigHandler:
json.dump(file_cfg, f, indent=4, ensure_ascii=False)
logger.info(f"[WebChannel] Config updated: {list(applied.keys())}")
# Reset Bridge so that bot routing reflects the new config.
# Without this, Bridge keeps its cached bot instance (e.g. LinkAIBot)
# even after the user switches bot_type / use_linkai / model in UI.
bridge_routing_keys = {"bot_type", "use_linkai", "model"}
if any(k in applied for k in bridge_routing_keys):
try:
from bridge.bridge import Bridge
Bridge().reset_bot()
logger.info("[WebChannel] Bridge bot routing reset due to config change")
except Exception as reset_err:
logger.warning(f"[WebChannel] Failed to reset bridge: {reset_err}")
return json.dumps({"status": "success", "applied": applied}, ensure_ascii=False)
except Exception as e:
logger.error(f"Error updating config: {e}")
@@ -867,6 +1125,7 @@ class ChannelsHandler:
return set(cls._parse_channel_list(conf().get("channel_type", "")))
def GET(self):
_require_auth()
web.header('Content-Type', 'application/json; charset=utf-8')
try:
local_config = conf()
@@ -904,6 +1163,7 @@ class ChannelsHandler:
return json.dumps({"status": "error", "message": str(e)})
def POST(self):
_require_auth()
web.header('Content-Type', 'application/json; charset=utf-8')
try:
body = json.loads(web.data())
@@ -1157,6 +1417,7 @@ class WeixinQrHandler:
return None
def GET(self):
_require_auth()
web.header('Content-Type', 'application/json; charset=utf-8')
try:
running_ch = self._get_running_channel()
@@ -1189,6 +1450,7 @@ class WeixinQrHandler:
return json.dumps({"status": "error", "message": str(e)})
def POST(self):
_require_auth()
web.header('Content-Type', 'application/json; charset=utf-8')
try:
body = json.loads(web.data())
@@ -1276,6 +1538,7 @@ def _get_workspace_root():
class ToolsHandler:
def GET(self):
_require_auth()
web.header('Content-Type', 'application/json; charset=utf-8')
try:
from agent.tools.tool_manager import ToolManager
@@ -1300,6 +1563,7 @@ class ToolsHandler:
class SkillsHandler:
def GET(self):
_require_auth()
web.header('Content-Type', 'application/json; charset=utf-8')
try:
from agent.skills.service import SkillService
@@ -1314,6 +1578,7 @@ class SkillsHandler:
return json.dumps({"status": "error", "message": str(e)})
def POST(self):
_require_auth()
web.header('Content-Type', 'application/json; charset=utf-8')
try:
from agent.skills.service import SkillService
@@ -1340,13 +1605,17 @@ class SkillsHandler:
class MemoryHandler:
def GET(self):
_require_auth()
web.header('Content-Type', 'application/json; charset=utf-8')
try:
from agent.memory.service import MemoryService
params = web.input(page='1', page_size='20')
params = web.input(page='1', page_size='20', category='memory')
workspace_root = _get_workspace_root()
service = MemoryService(workspace_root)
result = service.list_files(page=int(params.page), page_size=int(params.page_size))
result = service.list_files(
page=int(params.page), page_size=int(params.page_size),
category=params.category,
)
return json.dumps({"status": "success", **result}, ensure_ascii=False)
except Exception as e:
logger.error(f"[WebChannel] Memory API error: {e}")
@@ -1355,16 +1624,19 @@ class MemoryHandler:
class MemoryContentHandler:
def GET(self):
_require_auth()
web.header('Content-Type', 'application/json; charset=utf-8')
try:
from agent.memory.service import MemoryService
params = web.input(filename='')
params = web.input(filename='', category='memory')
if not params.filename:
return json.dumps({"status": "error", "message": "filename required"})
workspace_root = _get_workspace_root()
service = MemoryService(workspace_root)
result = service.get_content(params.filename)
result = service.get_content(params.filename, category=params.category)
return json.dumps({"status": "success", **result}, ensure_ascii=False)
except ValueError:
return json.dumps({"status": "error", "message": "invalid filename"})
except FileNotFoundError:
return json.dumps({"status": "error", "message": "file not found"})
except Exception as e:
@@ -1374,6 +1646,7 @@ class MemoryContentHandler:
class SchedulerHandler:
def GET(self):
_require_auth()
web.header('Content-Type', 'application/json; charset=utf-8')
try:
from agent.tools.scheduler.task_store import TaskStore
@@ -1387,16 +1660,138 @@ class SchedulerHandler:
return json.dumps({"status": "error", "message": str(e)})
class SessionsHandler:
def GET(self):
_require_auth()
web.header('Content-Type', 'application/json; charset=utf-8')
try:
params = web.input(page='1', page_size='50')
from agent.memory import get_conversation_store
store = get_conversation_store()
result = store.list_sessions(
channel_type="web",
page=int(params.page),
page_size=int(params.page_size),
)
return json.dumps({"status": "success", **result}, ensure_ascii=False)
except Exception as e:
logger.error(f"[WebChannel] Sessions API error: {e}")
return json.dumps({"status": "error", "message": str(e)})
class SessionDetailHandler:
def DELETE(self, session_id: str):
_require_auth()
web.header('Content-Type', 'application/json; charset=utf-8')
logger.info(f"[WebChannel] DELETE session request: {session_id}")
try:
if not session_id:
return json.dumps({"status": "error", "message": "session_id required"})
from agent.memory import get_conversation_store
store = get_conversation_store()
store.clear_session(session_id)
# Also remove the Agent instance from AgentBridge if exists
try:
from bridge.bridge import Bridge
ab = Bridge().get_agent_bridge()
if session_id in ab.agents:
del ab.agents[session_id]
logger.info(f"[WebChannel] Removed agent instance for session {session_id}")
except Exception:
pass
channel = WebChannel()
channel.session_queues.pop(session_id, None)
logger.info(f"[WebChannel] Session deleted: {session_id}")
return json.dumps({"status": "success"})
except Exception as e:
logger.error(f"[WebChannel] Session delete error: {e}")
return json.dumps({"status": "error", "message": str(e)})
def PUT(self, session_id: str):
_require_auth()
web.header('Content-Type', 'application/json; charset=utf-8')
try:
if not session_id:
return json.dumps({"status": "error", "message": "session_id required"})
body = json.loads(web.data())
title = body.get("title", "").strip()
if not title:
return json.dumps({"status": "error", "message": "title required"})
from agent.memory import get_conversation_store
store = get_conversation_store()
found = store.rename_session(session_id, title)
if not found:
return json.dumps({"status": "error", "message": "session not found"})
return json.dumps({"status": "success"})
except Exception as e:
logger.error(f"[WebChannel] Session rename error: {e}")
return json.dumps({"status": "error", "message": str(e)})
class SessionTitleHandler:
def POST(self, session_id: str):
_require_auth()
web.header('Content-Type', 'application/json; charset=utf-8')
try:
if not session_id:
return json.dumps({"status": "error", "message": "session_id required"})
body = json.loads(web.data())
user_message = body.get("user_message", "")
assistant_reply = body.get("assistant_reply", "")
if not user_message:
return json.dumps({"status": "error", "message": "user_message required"})
title = _generate_session_title(user_message, assistant_reply)
from agent.memory import get_conversation_store
store = get_conversation_store()
updated = store.rename_session(session_id, title)
logger.info(f"[WebChannel] Session title set: sid={session_id}, title='{title}', db_updated={updated}")
return json.dumps({"status": "success", "title": title}, ensure_ascii=False)
except Exception as e:
logger.error(f"[WebChannel] Title generation error: {e}")
return json.dumps({"status": "error", "message": str(e)})
class SessionClearContextHandler:
def POST(self, session_id: str):
_require_auth()
web.header('Content-Type', 'application/json; charset=utf-8')
try:
if not session_id:
return json.dumps({"status": "error", "message": "session_id required"})
from agent.memory import get_conversation_store
store = get_conversation_store()
new_seq = store.clear_context(session_id)
# Delete the agent instance so a fresh one is created on the next message
try:
from bridge.bridge import Bridge
bridge = Bridge()
ab = bridge.get_agent_bridge()
if session_id in ab.agents:
del ab.agents[session_id]
logger.info(f"[WebChannel] Cleared agent instance for session {session_id}")
except Exception:
pass
return json.dumps({"status": "success", "context_start_seq": new_seq})
except Exception as e:
logger.error(f"[WebChannel] Clear context error: {e}")
return json.dumps({"status": "error", "message": str(e)})
class HistoryHandler:
def GET(self):
"""
Return paginated conversation history for a session.
Query params:
session_id (required)
page int, default 1 (1 = most recent messages)
page_size int, default 20
"""
_require_auth()
web.header('Content-Type', 'application/json; charset=utf-8')
web.header('Access-Control-Allow-Origin', '*')
try:
@@ -1420,7 +1815,7 @@ class HistoryHandler:
class LogsHandler:
def GET(self):
"""Stream the last N lines of run.log as SSE, then tail new lines."""
_require_auth()
web.header('Content-Type', 'text/event-stream; charset=utf-8')
web.header('Cache-Control', 'no-cache')
web.header('X-Accel-Buffering', 'no')
@@ -1506,6 +1901,50 @@ class AssetsHandler:
raise web.notfound()
class KnowledgeListHandler:
def GET(self):
_require_auth()
web.header('Content-Type', 'application/json; charset=utf-8')
try:
from agent.knowledge.service import KnowledgeService
svc = KnowledgeService(_get_workspace_root())
result = svc.list_tree()
return json.dumps({"status": "success", **result}, ensure_ascii=False)
except Exception as e:
logger.error(f"[WebChannel] Knowledge list error: {e}")
return json.dumps({"status": "error", "message": str(e)})
class KnowledgeReadHandler:
def GET(self):
_require_auth()
web.header('Content-Type', 'application/json; charset=utf-8')
try:
from agent.knowledge.service import KnowledgeService
params = web.input(path='')
svc = KnowledgeService(_get_workspace_root())
result = svc.read_file(params.path)
return json.dumps({"status": "success", **result}, ensure_ascii=False)
except (ValueError, FileNotFoundError) as e:
return json.dumps({"status": "error", "message": str(e)})
except Exception as e:
logger.error(f"[WebChannel] Knowledge read error: {e}")
return json.dumps({"status": "error", "message": str(e)})
class KnowledgeGraphHandler:
def GET(self):
_require_auth()
web.header('Content-Type', 'application/json; charset=utf-8')
try:
from agent.knowledge.service import KnowledgeService
svc = KnowledgeService(_get_workspace_root())
return json.dumps(svc.build_graph(), ensure_ascii=False)
except Exception as e:
logger.error(f"[WebChannel] Knowledge graph error: {e}")
return json.dumps({"nodes": [], "links": []})
class VersionHandler:
def GET(self):
web.header('Content-Type', 'application/json; charset=utf-8')

14
channel/weixin/weixin_api.py
View File

@@ -37,11 +37,19 @@ def _random_wechat_uin() -> str:
return base64.b64encode(str(val).encode("utf-8")).decode("utf-8")
CHANNEL_VERSION = "2.0.0"
# iLink-App-ClientVersion: uint32 encoded as major<<16 | minor<<8 | patch
# 2.0.0 → 0x00020000 = 131072
CLIENT_VERSION = "131072"
def _build_headers(token: str = "") -> dict:
headers = {
"Content-Type": "application/json",
"AuthorizationType": "ilink_bot_token",
"X-WECHAT-UIN": _random_wechat_uin(),
"iLink-App-Id": "bot",
"iLink-App-ClientVersion": CLIENT_VERSION,
}
if token:
headers["Authorization"] = f"Bearer {token}"
@@ -64,6 +72,7 @@ class WeixinApi:
def _post(self, endpoint: str, body: dict, timeout: int = DEFAULT_API_TIMEOUT) -> dict:
url = _ensure_trailing_slash(self.base_url) + endpoint
headers = _build_headers(self.token)
body.setdefault("base_info", {}).setdefault("channel_version", CHANNEL_VERSION)
try:
resp = requests.post(url, json=body, headers=headers, timeout=timeout)
resp.raise_for_status()
@@ -210,7 +219,10 @@ class WeixinApi:
def poll_qr_status(self, qrcode: str, timeout: int = QR_POLL_TIMEOUT) -> dict:
url = (_ensure_trailing_slash(self.base_url) +
f"ilink/bot/get_qrcode_status?qrcode={requests.utils.quote(qrcode)}")
headers = {"iLink-App-ClientVersion": "1"}
headers = {
"iLink-App-Id": "bot",
"iLink-App-ClientVersion": CLIENT_VERSION,
}
try:
resp = requests.get(url, headers=headers, timeout=timeout)
resp.raise_for_status()

10
channel/weixin/weixin_channel.py
View File

@@ -166,10 +166,18 @@ class WeixinChannel(ChatChannel):
print("=" * 60)
try:
import qrcode as qr_lib
import io
qr = qr_lib.QRCode(error_correction=qr_lib.constants.ERROR_CORRECT_L, box_size=1, border=1)
qr.add_data(qrcode_url)
qr.make(fit=True)
qr.print_ascii(invert=True)
buf = io.StringIO()
qr.print_ascii(out=buf, invert=True)
try:
print(buf.getvalue())
except UnicodeEncodeError:
# Windows GBK terminals cannot render Unicode block characters
print(f"\n (终端不支持显示二维码,请使用链接扫码)")
print(f" 二维码链接: {qrcode_url}\n")
except ImportError:
print(f"\n 二维码链接: {qrcode_url}")
print(" (安装 'qrcode' 包可在终端显示二维码)\n")

2
cli/VERSION
View File

@@ -1 +1 @@
2.0.4
2.0.7

3
cli/cli.py
View File

@@ -6,6 +6,7 @@ from cli.commands.skill import skill
from cli.commands.process import start, stop, restart, update, status, logs
from cli.commands.context import context
from cli.commands.install import install_browser
from cli.commands.knowledge import knowledge
HELP_TEXT = """Usage: cow COMMAND [ARGS]...
@@ -22,6 +23,7 @@ Commands:
status Show CowAgent running status.
logs View CowAgent logs.
skill Manage CowAgent skills.
knowledge Manage knowledge base.
install-browser Install browser tool (Playwright + Chromium).
Tip: You can also send /help, /skill list, etc. in agent chat."""
@@ -69,6 +71,7 @@ main.add_command(update)
main.add_command(status)
main.add_command(logs)
main.add_command(context)
main.add_command(knowledge)
main.add_command(install_browser)

121
cli/commands/knowledge.py Normal file
View File

@@ -0,0 +1,121 @@
"""cow knowledge - Knowledge base management commands."""
import os
import click
from cli.utils import get_project_root
def _get_knowledge_dir():
"""Resolve the knowledge directory path from config or default."""
try:
import sys
sys.path.insert(0, get_project_root())
from config import conf
from common.utils import expand_path
workspace = expand_path(conf().get("agent_workspace", "~/cow"))
except Exception:
workspace = os.path.expanduser("~/cow")
return os.path.join(workspace, "knowledge")
def _get_knowledge_enabled():
try:
import sys
sys.path.insert(0, get_project_root())
from config import conf
return conf().get("knowledge", True)
except Exception:
return True
@click.group(invoke_without_command=True)
@click.pass_context
def knowledge(ctx):
"""Manage CowAgent knowledge base."""
if ctx.invoked_subcommand is None:
click.echo(_stats())
@knowledge.command("list")
def knowledge_list():
"""Display knowledge base file tree."""
click.echo(_tree())
def _stats() -> str:
knowledge_dir = _get_knowledge_dir()
if not os.path.isdir(knowledge_dir):
return "Knowledge base directory not found."
enabled = _get_knowledge_enabled()
total_files = 0
total_bytes = 0
cat_count = {}
for root, dirs, files in os.walk(knowledge_dir):
dirs[:] = [d for d in dirs if not d.startswith(".")]
rel_root = os.path.relpath(root, knowledge_dir)
category = rel_root.split(os.sep)[0] if rel_root != "." else "root"
for f in files:
if f.endswith(".md") and f not in ("index.md", "log.md"):
total_files += 1
total_bytes += os.path.getsize(os.path.join(root, f))
cat_count[category] = cat_count.get(category, 0) + 1
status_icon = click.style("enabled", fg="green") if enabled else click.style("disabled", fg="red")
lines = [
f"\n Knowledge Base [{status_icon}]",
"",
f" Pages: {total_files}",
f" Size: {total_bytes / 1024:.1f} KB",
"",
]
if cat_count:
lines.append(" Categories:")
for cat in sorted(cat_count.keys()):
lines.append(f" {cat}/ ({cat_count[cat]} pages)")
lines.append("")
lines.append(f" Path: {knowledge_dir}")
lines.append("")
return "\n".join(lines)
def _tree() -> str:
knowledge_dir = _get_knowledge_dir()
if not os.path.isdir(knowledge_dir):
return "Knowledge base directory not found."
tree_lines = [" knowledge/"]
subdirs = sorted([
d for d in os.listdir(knowledge_dir)
if os.path.isdir(os.path.join(knowledge_dir, d)) and not d.startswith(".")
])
for i, subdir in enumerate(subdirs):
is_last_dir = (i == len(subdirs) - 1)
branch = "└── " if is_last_dir else "├── "
subdir_path = os.path.join(knowledge_dir, subdir)
md_files = sorted([
f for f in os.listdir(subdir_path)
if f.endswith(".md") and not f.startswith(".")
])
tree_lines.append(f" {branch}{subdir}/ ({len(md_files)})")
child_prefix = " " if is_last_dir else ""
max_show = 15
for j, fname in enumerate(md_files[:max_show]):
is_last_file = (j == len(md_files[:max_show]) - 1) and len(md_files) <= max_show
fb = "└── " if is_last_file else "├── "
name = fname.replace(".md", "")
tree_lines.append(f"{child_prefix}{fb}{name}")
if len(md_files) > max_show:
tree_lines.append(f"{child_prefix}└── ... +{len(md_files) - max_show} more")
if not subdirs:
tree_lines.append(" (empty)")
return "\n" + "\n".join(tree_lines) + "\n"

72
cli/commands/process.py
View File

@@ -178,7 +178,10 @@ def update(ctx):
"""Update CowAgent and restart."""
root = get_project_root()
# 1. Git pull while service is still running
# 1. Stop service first so git pull won't conflict with running code
ctx.invoke(stop)
# 2. Git pull
if os.path.isdir(os.path.join(root, ".git")):
click.echo("Pulling latest code...")
ret = subprocess.call(["git", "pull"], cwd=root)
@@ -188,28 +191,61 @@ def update(ctx):
else:
click.echo("Not a git repository, skipping code update.")
# 2. Stop service
ctx.invoke(stop)
# 3. Install dependencies
python = sys.executable
req_file = os.path.join(root, "requirements.txt")
if os.path.exists(req_file):
click.echo("Installing dependencies...")
subprocess.call(
[python, "-m", "pip", "install", "-r", "requirements.txt", "-q"],
if _IS_WIN:
# On Windows, `cow.exe` (this process) locks the exe file, so
# `pip install -e .` fails with WinError 5. Write a small .bat
# helper that waits for cow.exe to exit, then installs & starts.
bat = os.path.join(root, "_cow_update.bat")
lines = [
"@echo off",
"chcp 65001 >nul",
"echo Waiting for cow.exe to exit...",
"timeout /t 3 /nobreak >nul",
]
if os.path.exists(req_file):
lines.append(f'echo Installing dependencies...')
lines.append(f'"{python}" -m pip install -r requirements.txt -q')
lines += [
"echo Reinstalling cow CLI...",
f'"{python}" -m pip install -e . -q',
"echo Starting CowAgent...",
f'"{python}" -m cli.cli start --no-logs',
"echo.",
"echo Update complete. You can close this window.",
"pause >nul",
"del \"%~f0\"",
]
with open(bat, "w", encoding="utf-8") as f:
f.write("\n".join(lines) + "\n")
subprocess.Popen(
["cmd.exe", "/c", "start", "CowAgent Update", "/wait", bat],
cwd=root,
)
click.echo(click.style(
"✓ Update script launched. Please follow the new window for progress.",
fg="green"))
else:
# 3. Install dependencies
if os.path.exists(req_file):
click.echo("Installing dependencies...")
subprocess.call(
[python, "-m", "pip", "install", "-r", "requirements.txt", "-q"],
cwd=root,
)
click.echo("Reinstalling cow CLI...")
subprocess.call(
[python, "-m", "pip", "install", "-e", ".", "-q"],
cwd=root,
)
click.echo("Reinstalling cow CLI...")
subprocess.call(
[python, "-m", "pip", "install", "-e", ".", "-q"],
cwd=root,
)
# 4. Start service and follow logs
click.echo("")
time.sleep(1)
ctx.invoke(start, no_logs=False)
# 4. Start service
click.echo("")
time.sleep(1)
ctx.invoke(start, no_logs=False)
@click.command()

99
cli/commands/skill.py
View File

@@ -263,8 +263,9 @@ def _scan_skills_in_dir(directory: str) -> list:
return found
def _batch_install_skills(discovered, spec, skills_dir, source, result: InstallResult):
def _batch_install_skills(discovered, spec, skills_dir, source, result: InstallResult, display_name: str = ""):
"""Install a list of discovered skills into skills_dir."""
single = len(discovered) == 1
result.messages.append(f"Found {len(discovered)} skill(s) in {spec}:")
for sname, sdir in discovered:
safe_name = re.sub(r'[^a-zA-Z0-9_\-]', '-', sname)[:64]
@@ -275,7 +276,7 @@ def _batch_install_skills(discovered, spec, skills_dir, source, result: InstallR
if os.path.exists(target_dir):
shutil.rmtree(target_dir)
shutil.copytree(sdir, target_dir)
_register_installed_skill(safe_name, source=source)
_register_installed_skill(safe_name, source=source, display_name=display_name if single else "")
result.installed.append(safe_name)
result.messages.append(f" + {safe_name}")
@@ -517,12 +518,16 @@ def _install_targz_bytes(content: bytes, name: str, skills_dir: str, result: Ins
def _print_install_success(name: str, source: str):
"""Print a unified install success message with description and source."""
skills_dir = get_skills_dir()
config = load_skills_config()
display = config.get(name, {}).get("display_name", "")
desc = _read_skill_description(os.path.join(skills_dir, name))
click.echo(click.style(f"{name}", fg="green"))
if display and display != name:
click.echo(f" 名称: {display}")
if desc:
if len(desc) > 60:
desc = desc[:57] + ""
click.echo(f" {desc}")
click.echo(f" 描述: {desc}")
click.echo(f" 来源: {source}")
@@ -639,32 +644,52 @@ def _list_local():
skills_dir = get_skills_dir()
builtin_dir = get_builtin_skills_dir()
# Merge builtin skills that are on disk but missing from config
_merge_builtin_into_config(config, builtin_dir, skills_dir)
if not config:
# Fallback: scan directories directly
entries = []
for d in [builtin_dir, skills_dir]:
if not os.path.isdir(d):
continue
source = "builtin" if d == builtin_dir else "custom"
for name in sorted(os.listdir(d)):
skill_path = os.path.join(d, name)
if os.path.isdir(skill_path) and not name.startswith("."):
has_skill_md = os.path.exists(os.path.join(skill_path, "SKILL.md"))
if has_skill_md:
entries.append({"name": name, "source": source, "enabled": True, "description": ""})
if not entries:
click.echo("No skills installed.")
return
_print_skill_table(entries)
click.echo("No skills installed.")
return
entries = sorted(config.values(), key=lambda x: x.get("name", ""))
if not entries:
click.echo("No skills installed.")
return
_print_skill_table(entries)
def _merge_builtin_into_config(config: dict, builtin_dir: str, skills_dir: str):
"""Scan builtin and custom dirs, add any new skills into config dict."""
dirty = False
for d, source in [(builtin_dir, "builtin"), (skills_dir, "custom")]:
if not os.path.isdir(d):
continue
for name in os.listdir(d):
if name.startswith(".") or name in ("skills_config.json",):
continue
skill_path = os.path.join(d, name)
if not os.path.isdir(skill_path):
continue
if not os.path.isfile(os.path.join(skill_path, "SKILL.md")):
continue
if name in config:
continue
desc = _read_skill_description(skill_path)
config[name] = {
"name": name,
"description": desc,
"source": source,
"enabled": True,
"category": "skill",
}
dirty = True
if dirty:
config_path = os.path.join(skills_dir, "skills_config.json")
try:
os.makedirs(skills_dir, exist_ok=True)
with open(config_path, "w", encoding="utf-8") as f:
json.dump(config, f, indent=4, ensure_ascii=False)
except Exception:
pass
def _print_skill_table(entries):
"""Print skills as a formatted table."""
def _display_label(e):
@@ -748,7 +773,8 @@ def _list_remote(page: int = 1):
nav_parts.append(f"cow skill list --remote --page {page + 1}")
if nav_parts:
click.echo(f" Navigate: {' | '.join(nav_parts)}")
click.echo(f" Install: cow skill install <name>\n")
click.echo(f" Install: cow skill install <name>")
click.echo(f" Browse: https://skills.cowagent.ai\n")
# ------------------------------------------------------------------
@@ -875,6 +901,15 @@ def _route_install(name: str, result: InstallResult):
_install_hub(skill_name, result, provider="clawhub")
return
# --- linkai: prefix ---
if name.startswith("linkai:"):
skill_code = name[7:]
# LinkAI codes can be mixed-case alphanumeric; validate loosely
if not re.match(r"^[a-zA-Z0-9_\-]{1,128}$", skill_code):
raise SkillInstallError(f"Invalid LinkAI skill code '{skill_code}'.")
_install_hub(skill_code, result, provider="linkai")
return
# --- owner/repo or owner/repo#subpath shorthand ---
if re.match(r"^[a-zA-Z0-9_\-]+/[a-zA-Z0-9_.\-]+(?:#.+)?$", name):
subpath = None
@@ -1006,13 +1041,11 @@ def _install_hub(name, result: InstallResult, provider=None):
expected_checksum = mirror_resp.headers.get("X-Checksum-Sha256")
_check_checksum(mirror_resp.content, expected_checksum)
installed_before = len(result.installed)
_install_zip_bytes(mirror_resp.content, name, skills_dir, result=result, source_label="cowhub")
_install_zip_bytes(mirror_resp.content, name, skills_dir, result=result, source_label="cowhub", display_name=hub_display_name)
if len(result.installed) == installed_before:
_register_installed_skill(name, source="cowhub", display_name=hub_display_name)
result.installed.append(name)
result.messages.append(f"Installed '{name}' from mirror.")
elif hub_display_name:
_register_installed_skill(name, display_name=hub_display_name)
return
if source_type == "registry":
@@ -1043,13 +1076,11 @@ def _install_hub(name, result: InstallResult, provider=None):
if dl_err is None:
_check_checksum(dl_resp.content, expected_checksum)
installed_before = len(result.installed)
_install_zip_bytes(dl_resp.content, name, skills_dir, result=result, source_label=src_provider)
_install_zip_bytes(dl_resp.content, name, skills_dir, result=result, source_label=src_provider, display_name=hub_display_name)
if len(result.installed) == installed_before:
_register_installed_skill(name, source=src_provider, display_name=hub_display_name)
result.installed.append(name)
result.messages.append(f"Installed '{name}' from {src_provider}.")
elif hub_display_name:
_register_installed_skill(name, display_name=hub_display_name)
return
# Fallback: download mirror from Skill Hub
@@ -1073,13 +1104,11 @@ def _install_hub(name, result: InstallResult, provider=None):
expected_checksum = mirror_resp.headers.get("X-Checksum-Sha256")
_check_checksum(mirror_resp.content, expected_checksum)
installed_before = len(result.installed)
_install_zip_bytes(mirror_resp.content, name, skills_dir, result=result, source_label="cowhub")
_install_zip_bytes(mirror_resp.content, name, skills_dir, result=result, source_label="cowhub", display_name=hub_display_name)
if len(result.installed) == installed_before:
_register_installed_skill(name, source="cowhub", display_name=hub_display_name)
result.installed.append(name)
result.messages.append(f"Installed '{name}' from mirror.")
elif hub_display_name:
_register_installed_skill(name, display_name=hub_display_name)
else:
raise SkillInstallError("Unsupported registry provider.")
return
@@ -1264,7 +1293,7 @@ def _install_git_clone(git_url: str, result: InstallResult, display_name: str =
shutil.rmtree(tmp_dir, ignore_errors=True)
def _install_zip_bytes(content, name, skills_dir, result: InstallResult = None, source_label: str = "zip"):
def _install_zip_bytes(content, name, skills_dir, result: InstallResult = None, source_label: str = "zip", display_name: str = ""):
"""Extract a zip archive and install skill(s).
Supports three scenarios:
@@ -1289,7 +1318,7 @@ def _install_zip_bytes(content, name, skills_dir, result: InstallResult = None,
discovered = _scan_skills_in_repo(pkg_root) or _scan_skills_in_dir(pkg_root)
if discovered and len(discovered) > 1 and result is not None:
_batch_install_skills(discovered, name, skills_dir, source_label, result)
_batch_install_skills(discovered, name, skills_dir, source_label, result, display_name=display_name)
return
if discovered and len(discovered) == 1:
@@ -1301,7 +1330,7 @@ def _install_zip_bytes(content, name, skills_dir, result: InstallResult = None,
if os.path.exists(target):
shutil.rmtree(target)
shutil.copytree(sdir, target)
_register_installed_skill(safe_name, source=source_label)
_register_installed_skill(safe_name, source=source_label, display_name=display_name)
if result is not None:
result.installed.append(safe_name)
result.messages.append(f"Installed '{safe_name}' from {source_label}.")

82
common/cloud_client.py
View File

@@ -47,14 +47,16 @@ CREDENTIAL_MAP = {
class CloudClient(LinkAIClient):
def __init__(self, api_key: str, channel, host: str = ""):
super().__init__(api_key, host)
def __init__(self, api_key: str, channel, host: str = "", port=None):
super().__init__(api_key, host, port=port)
self.channel = channel
self.client_type = channel.channel_type
self.channel_mgr = None
self._skill_service = None
self._memory_service = None
self._knowledge_service = None
self._chat_service = None
self._session_service = None
@property
def skill_service(self):
@@ -88,6 +90,21 @@ class CloudClient(LinkAIClient):
logger.error(f"[CloudClient] Failed to init MemoryService: {e}")
return self._memory_service
@property
def knowledge_service(self):
"""Lazy-init KnowledgeService."""
if self._knowledge_service is None:
try:
from agent.knowledge.service import KnowledgeService
from config import conf
from common.utils import expand_path
workspace_root = expand_path(conf().get("agent_workspace", "~/cow"))
self._knowledge_service = KnowledgeService(workspace_root)
logger.debug("[CloudClient] KnowledgeService initialised")
except Exception as e:
logger.error(f"[CloudClient] Failed to init KnowledgeService: {e}")
return self._knowledge_service
@property
def chat_service(self):
"""Lazy-init ChatService (requires AgentBridge via Bridge singleton)."""
@@ -102,6 +119,18 @@ class CloudClient(LinkAIClient):
logger.error(f"[CloudClient] Failed to init ChatService: {e}")
return self._chat_service
@property
def session_service(self):
"""Lazy-init SessionService."""
if self._session_service is None:
try:
from agent.chat.session_service import SessionService
self._session_service = SessionService()
logger.debug("[CloudClient] SessionService initialised")
except Exception as e:
logger.error(f"[CloudClient] Failed to init SessionService: {e}")
return self._session_service
# ------------------------------------------------------------------
# message push callback
# ------------------------------------------------------------------
@@ -468,6 +497,27 @@ class CloudClient(LinkAIClient):
return svc.dispatch(action, payload)
# ------------------------------------------------------------------
# knowledge callback
# ------------------------------------------------------------------
def on_knowledge(self, data: dict) -> dict:
"""
Handle KNOWLEDGE messages from the cloud console.
Delegates to KnowledgeService.dispatch for the actual operations.
:param data: message data with 'action', 'clientId', 'payload'
:return: response dict
"""
action = data.get("action", "")
payload = data.get("payload")
logger.info(f"[CloudClient] on_knowledge: action={action}")
svc = self.knowledge_service
if svc is None:
return {"action": action, "code": 500, "message": "KnowledgeService not available", "payload": None}
return svc.dispatch(action, payload)
# ------------------------------------------------------------------
# chat callback
# ------------------------------------------------------------------
@@ -509,12 +559,23 @@ class CloudClient(LinkAIClient):
# ------------------------------------------------------------------
# history callback
# ------------------------------------------------------------------
# Session-related actions handled via the HISTORY channel
_SESSION_ACTIONS = {
"list_sessions", "delete_session", "rename_session",
"clear_context", "generate_title",
}
def on_history(self, data: dict) -> dict:
"""
Handle HISTORY messages from the cloud console.
Returns paginated conversation history for a session.
:param data: message data with 'action' and 'payload' (session_id, page, page_size)
Supports both history query and session management actions
through a unified HISTORY message channel:
- query: paginated conversation history
- list_sessions / delete_session / rename_session /
clear_context / generate_title: session lifecycle
:param data: message data with 'action' and 'payload'
:return: response dict
"""
action = data.get("action", "query")
@@ -524,8 +585,19 @@ class CloudClient(LinkAIClient):
if action == "query":
return self._query_history(payload)
if action in self._SESSION_ACTIONS:
return self._dispatch_session(action, payload)
return {"action": action, "code": 404, "message": f"unknown action: {action}", "payload": None}
def _dispatch_session(self, action: str, payload: dict) -> dict:
"""Delegate session actions to SessionService."""
svc = self.session_service
if svc is None:
return {"action": action, "code": 500,
"message": "SessionService not available", "payload": None}
return svc.dispatch(action, payload)
def _query_history(self, payload: dict) -> dict:
"""Query paginated conversation history using ConversationStore."""
session_id = payload.get("session_id", "")
@@ -733,7 +805,7 @@ def start(channel, channel_mgr=None):
return
global chat_client
chat_client = CloudClient(api_key=conf().get("linkai_api_key"), host=conf().get("cloud_host", ""), channel=channel)
chat_client = CloudClient(api_key=conf().get("linkai_api_key"), host=conf().get("cloud_host", ""), port=conf().get("cloud_port"), channel=channel)
chat_client.channel_mgr = channel_mgr
chat_client.config = _build_config()
chat_client.start()

63
common/const.py
View File

@@ -7,13 +7,14 @@ XUNFEI = "xunfei"
CHATGPTONAZURE = "chatGPTOnAzure"
LINKAI = "linkai"
CLAUDEAPI= "claudeAPI"
QWEN = "qwen" # 旧版千问接入
QWEN_DASHSCOPE = "dashscope" # 新版千问接入(百炼)
QWEN = "qwen" # 千问 (兼容旧配置,实际走 DashscopeBot)
QWEN_DASHSCOPE = "dashscope" # 千问 DashScope 接入
GEMINI = "gemini"
ZHIPU_AI = "zhipu"
MOONSHOT = "moonshot"
MiniMax = "minimax"
DEEPSEEK = "deepseek"
CUSTOM = "custom" # custom OpenAI-compatible API, bot_type won't auto-switch on model change
MODELSCOPE = "modelscope"
# 模型列表
@@ -27,6 +28,7 @@ CLAUDE_35_SONNET = "claude-3-5-sonnet-latest" # 带 latest 标签的模型名
CLAUDE_35_SONNET_1022 = "claude-3-5-sonnet-20241022" # 带具体日期的模型名称,会固定为该日期发布的模型
CLAUDE_35_SONNET_0620 = "claude-3-5-sonnet-20240620"
CLAUDE_4_OPUS = "claude-opus-4-0"
CLAUDE_4_7_OPUS = "claude-opus-4-7" # Claude Opus 4.7
CLAUDE_4_6_OPUS = "claude-opus-4-6" # Claude Opus 4.6 - Agent推荐模型
CLAUDE_4_SONNET = "claude-sonnet-4-0" # Claude Sonnet 4.0
CLAUDE_4_5_SONNET = "claude-sonnet-4-5" # Claude Sonnet 4.5 - Agent推荐模型
@@ -80,19 +82,22 @@ TTS_1_HD = "tts-1-hd"
# DeepSeek
DEEPSEEK_CHAT = "deepseek-chat" # DeepSeek-V3对话模型
DEEPSEEK_REASONER = "deepseek-reasoner" # DeepSeek-R1模型
DEEPSEEK_V4_FLASH = "deepseek-v4-flash" # DeepSeek V4 Flash - 默认推荐 (思考模式 + 工具调用)
DEEPSEEK_V4_PRO = "deepseek-v4-pro" # DeepSeek V4 Pro - 复杂任务更强 (思考模式 + 工具调用)
# Qwen (通义千问 - 阿里云)
QWEN = "qwen"
# Qwen (通义千问 - 阿里云 DashScope)
QWEN_TURBO = "qwen-turbo"
QWEN_PLUS = "qwen-plus"
QWEN_MAX = "qwen-max"
QWEN_LONG = "qwen-long"
QWEN3_MAX = "qwen3-max" # Qwen3 Max - Agent推荐模型
QWEN35_PLUS = "qwen3.5-plus" # Qwen3.5 Plus - Omni model (MultiModalConversation)
QWEN36_PLUS = "qwen3.6-plus" # Qwen3.6 Plus - Omni model (MultiModalConversation)
QWQ_PLUS = "qwq-plus"
# MiniMax
MINIMAX_M2_7 = "MiniMax-M2.7" # MiniMax M2.7 - Latest
MINIMAX_M2_7_HIGHSPEED = "MiniMax-M2.7-highspeed" # MiniMax M2.7 highspeed
MINIMAX_M2_5 = "MiniMax-M2.5" # MiniMax M2.5
MINIMAX_M2_1 = "MiniMax-M2.1" # MiniMax M2.1
MINIMAX_M2_1_LIGHTNING = "MiniMax-M2.1-lightning" # MiniMax M2.1 极速版
@@ -100,7 +105,8 @@ MINIMAX_M2 = "MiniMax-M2" # MiniMax M2
MINIMAX_ABAB6_5 = "abab6.5-chat" # MiniMax abab6.5
# GLM (智谱AI)
GLM_5_TURBO = "glm-5-turbo" # 智谱 GLM-5-Turbo - Latest
GLM_5_1 = "glm-5.1" # 智谱 GLM-5.1 - Agent recommended model (default)
GLM_5_TURBO = "glm-5-turbo" # 智谱 GLM-5-Turbo
GLM_5 = "glm-5" # 智谱 GLM-5
GLM_4 = "glm-4"
GLM_4_PLUS = "glm-4-plus"
@@ -116,6 +122,7 @@ GLM_4_7 = "glm-4.7" # 智谱 GLM-4.7 - Agent推荐模型
MOONSHOT = "moonshot"
KIMI_K2 = "kimi-k2"
KIMI_K2_5 = "kimi-k2.5"
KIMI_K2_6 = "kimi-k2.6" # Kimi K2.6 - Agent recommended model (default)
# Doubao (Volcengine Ark)
DOUBAO = "doubao"
@@ -149,15 +156,21 @@ MODELSCOPE_MODEL_LIST = ["deepseek-ai/DeepSeek-R1-0528", "deepseek-ai/DeepSeek-R
MODEL_LIST = [
# DeepSeek
DEEPSEEK_V4_FLASH, DEEPSEEK_V4_PRO, DEEPSEEK_CHAT, DEEPSEEK_REASONER,
# MiniMax
MiniMax, MINIMAX_M2_7, MINIMAX_M2_7_HIGHSPEED, MINIMAX_M2_5, MINIMAX_M2_1, MINIMAX_M2_1_LIGHTNING, MINIMAX_M2, MINIMAX_ABAB6_5,
# Claude
CLAUDE3, CLAUDE_4_6_SONNET, CLAUDE_4_6_OPUS, CLAUDE_4_OPUS, CLAUDE_4_5_SONNET, CLAUDE_4_SONNET, CLAUDE_3_OPUS, CLAUDE_3_OPUS_0229,
CLAUDE_35_SONNET, CLAUDE_35_SONNET_1022, CLAUDE_35_SONNET_0620, CLAUDE_3_SONNET, CLAUDE_3_HAIKU,
CLAUDE3, CLAUDE_4_6_SONNET, CLAUDE_4_7_OPUS, CLAUDE_4_6_OPUS, CLAUDE_4_OPUS, CLAUDE_4_5_SONNET, CLAUDE_4_SONNET, CLAUDE_3_OPUS, CLAUDE_3_OPUS_0229,
CLAUDE_35_SONNET, CLAUDE_35_SONNET_1022, CLAUDE_35_SONNET_0620, CLAUDE_3_SONNET, CLAUDE_3_HAIKU,
"claude", "claude-3-haiku", "claude-3-sonnet", "claude-3-opus", "claude-3.5-sonnet",
# Gemini
GEMINI_31_FLASH_LITE_PRE, GEMINI_31_PRO_PRE, GEMINI_3_PRO_PRE, GEMINI_3_FLASH_PRE, GEMINI_25_PRO_PRE, GEMINI_25_FLASH_PRE,
GEMINI_20_FLASH, GEMINI_20_flash_exp, GEMINI_15_PRO, GEMINI_15_flash, GEMINI_PRO, GEMINI,
# OpenAI
GPT35, GPT35_0125, GPT35_1106, "gpt-3.5-turbo-16k",
GPT4, GPT4_06_13, GPT4_32k, GPT4_32k_06_13,
@@ -167,31 +180,29 @@ MODEL_LIST = [
GPT_5, GPT_5_MINI, GPT_5_NANO,
GPT_54, GPT_54_MINI, GPT_54_NANO,
O1, O1_MINI,
# DeepSeek
DEEPSEEK_CHAT, DEEPSEEK_REASONER,
# Qwen
QWEN, QWEN_TURBO, QWEN_PLUS, QWEN_MAX, QWEN_LONG, QWEN3_MAX, QWEN35_PLUS,
# MiniMax
MiniMax, MINIMAX_M2_7, MINIMAX_M2_5, MINIMAX_M2_1, MINIMAX_M2_1_LIGHTNING, MINIMAX_M2, MINIMAX_ABAB6_5,
# GLM
ZHIPU_AI, GLM_5_TURBO, GLM_5, GLM_4, GLM_4_PLUS, GLM_4_flash, GLM_4_LONG, GLM_4_ALLTOOLS,
# GLM (智谱AI)
ZHIPU_AI, GLM_5_1, GLM_5_TURBO, GLM_5, GLM_4, GLM_4_PLUS, GLM_4_flash, GLM_4_LONG, GLM_4_ALLTOOLS,
GLM_4_0520, GLM_4_AIR, GLM_4_AIRX, GLM_4_7,
# Kimi
MOONSHOT, "moonshot-v1-8k", "moonshot-v1-32k", "moonshot-v1-128k",
KIMI_K2, KIMI_K2_5,
# Qwen (通义千问)
QWEN36_PLUS, QWEN35_PLUS, QWEN3_MAX, QWEN_MAX, QWEN_PLUS, QWEN_TURBO, QWEN_LONG,
# Doubao
# Doubao (豆包)
DOUBAO, DOUBAO_SEED_2_CODE, DOUBAO_SEED_2_PRO, DOUBAO_SEED_2_LITE, DOUBAO_SEED_2_MINI,
# Kimi (Moonshot)
MOONSHOT, "moonshot-v1-8k", "moonshot-v1-32k", "moonshot-v1-128k",
KIMI_K2_6, KIMI_K2_5, KIMI_K2,
# ModelScope
MODELSCOPE,
# LinkAI
LINKAI_35, LINKAI_4_TURBO, LINKAI_4o,
# 其他模型
WEN_XIN, WEN_XIN_4, XUNFEI,
LINKAI_35, LINKAI_4_TURBO, LINKAI_4o,
MODELSCOPE
]
MODEL_LIST = MODEL_LIST + GITEE_AI_MODEL_LIST + MODELSCOPE_MODEL_LIST

11
config-template.json
View File

@@ -1,6 +1,8 @@
{
"channel_type": "weixin",
"model": "MiniMax-M2.7",
"model": "deepseek-v4-flash",
"deepseek_api_key": "",
"deepseek_api_base": "https://api.deepseek.com/v1",
"minimax_api_key": "",
"zhipu_ai_api_key": "",
"ark_api_key": "",
@@ -26,8 +28,11 @@
"dingtalk_client_secret":"",
"wecom_bot_id": "",
"wecom_bot_secret": "",
"web_password": "",
"agent": true,
"agent_max_context_tokens": 40000,
"agent_max_context_tokens": 50000,
"agent_max_context_turns": 20,
"agent_max_steps": 15
"agent_max_steps": 20,
"enable_thinking": false,
"knowledge": true
}

60
config.py
View File

@@ -17,10 +17,12 @@ available_setting = {
"open_ai_api_base": "https://api.openai.com/v1",
"claude_api_base": "https://api.anthropic.com/v1", # claude api base
"gemini_api_base": "https://generativelanguage.googleapis.com", # gemini api base
"custom_api_key": "", # custom OpenAI-compatible provider api key (used when bot_type is "custom")
"custom_api_base": "", # custom OpenAI-compatible provider api base (used when bot_type is "custom")
"proxy": "", # openai使用的代理
# chatgpt模型 当use_azure_chatgpt为true时其名称为Azure上model deployment名称
"model": "gpt-3.5-turbo", # 可选择: gpt-4o, pt-4o-mini, gpt-4-turbo, claude-3-sonnet, wenxin, moonshot, qwen-turbo, xunfei, glm-4, minimax, gemini等模型全部可选模型详见common/const.py文件
"bot_type": "", # 可选配置使用兼容openai格式的三方服务时候需填"openai"(历史值"chatGPT"仍兼容。bot具体名称详见common/const.py文件如不填根据model名称判断
"bot_type": "", # 可选配置使用兼容openai格式的三方服务时候需填"openai"或"custom"custom模式下切换模型不会自动切换bot_type。bot具体名称详见common/const.py文件如不填根据model名称判断
"use_azure_chatgpt": False, # 是否使用azure的chatgpt
"azure_deployment_id": "", # azure 模型部署名称
"azure_api_version": "", # azure api版本
@@ -180,25 +182,36 @@ available_setting = {
# 豆包(火山方舟) 平台配置
"ark_api_key": "",
"ark_base_url": "https://ark.cn-beijing.volces.com/api/v3",
#魔搭社区 平台配置
# 魔搭社区 平台配置
"modelscope_api_key": "",
"modelscope_base_url": "https://api-inference.modelscope.cn/v1/chat/completions",
# LinkAI平台配置
"use_linkai": False,
"linkai_api_key": "",
"linkai_app_code": "",
"linkai_api_base": "https://api.link-ai.tech", # linkAI服务地址
"linkai_api_base": "https://api.link-ai.tech",
"cloud_host": "client.link-ai.tech",
"cloud_port": None,
"cloud_deployment_id": "",
"minimax_api_key": "",
"Minimax_group_id": "",
"Minimax_base_url": "",
"deepseek_api_key": "",
"deepseek_api_base": "https://api.deepseek.com/v1",
"web_port": 9899,
"web_password": "", # Web console password; empty means no authentication required
"web_session_expire_days": 30, # Auth session expiry in days
"agent": True, # 是否开启Agent模式
"agent_workspace": "~/cow", # agent工作空间路径用于存储skills、memory等
"agent_max_context_tokens": 50000, # Agent模式下最大上下文tokens
"agent_max_context_turns": 30, # Agent模式下最大上下文记忆轮次
"agent_max_steps": 15, # Agent模式下单次运行最大决策步数
"agent_max_context_turns": 20, # Agent模式下最大上下文记忆轮次
"agent_max_steps": 20, # Agent模式下单次运行最大决策步数
"enable_thinking": False, # Enable deep-thinking mode for thinking-capable models
"knowledge": True, # 是否开启知识库功能
# Per-skill runtime config. Nested keys are flattened to env vars at startup
# using the rule: skill[<name>][<key>] -> SKILL_<NAME>_<KEY>
# (e.g. skill["image-generation"].model -> SKILL_IMAGE_GENERATION_MODEL).
"skill": {},
}
@@ -371,12 +384,16 @@ def load_config():
"gemini_api_base": "GEMINI_API_BASE",
"minimax_api_key": "MINIMAX_API_KEY",
"minimax_api_base": "MINIMAX_API_BASE",
"deepseek_api_key": "DEEPSEEK_API_KEY",
"deepseek_api_base": "DEEPSEEK_API_BASE",
"zhipu_ai_api_key": "ZHIPU_AI_API_KEY",
"zhipu_ai_api_base": "ZHIPU_AI_API_BASE",
"moonshot_api_key": "MOONSHOT_API_KEY",
"moonshot_api_base": "MOONSHOT_API_BASE",
"ark_api_key": "ARK_API_KEY",
"ark_api_base": "ARK_API_BASE",
"dashscope_api_key": "DASHSCOPE_API_KEY",
"dashscope_api_base": "DASHSCOPE_API_BASE",
# Channel credentials (used by skills that check env vars)
"feishu_app_id": "FEISHU_APP_ID",
"feishu_app_secret": "FEISHU_APP_SECRET",
@@ -397,12 +414,45 @@ def load_config():
if val:
os.environ[env_key] = str(val)
injected += 1
injected += _sync_skill_config_to_env(config.get("skill", {}))
if injected:
logger.info("[INIT] Synced {} config values to environment variables".format(injected))
config.load_user_datas()
def _sync_skill_config_to_env(skill_section) -> int:
"""Flatten skill-namespaced config into environment variables.
Mapping rule: ``config["skill"][<name>][<key>]`` -> ``SKILL_<NAME>_<KEY>``
(e.g. ``skill["image-generation"].model`` -> ``SKILL_IMAGE_GENERATION_MODEL``).
This lets subprocess-based skill scripts read their own settings without
importing project code. Existing env vars are NOT overwritten so the
real environment always wins.
Returns the number of variables actually injected.
"""
if not isinstance(skill_section, dict):
return 0
injected = 0
for skill_name, skill_conf in skill_section.items():
if not isinstance(skill_conf, dict):
continue
name_part = str(skill_name).replace("-", "_").upper()
for key, val in skill_conf.items():
if val is None or val == "":
continue
env_key = "SKILL_{}_{}".format(name_part, str(key).upper())
if env_key in os.environ:
continue
os.environ[env_key] = str(val)
injected += 1
return injected
def get_root():
return os.path.dirname(os.path.abspath(__file__))

9
docker/docker-compose.yml
View File

@@ -9,7 +9,9 @@ services:
- "9899:9899"
environment:
CHANNEL_TYPE: 'weixin'
MODEL: 'MiniMax-M2.7'
MODEL: 'deepseek-v4-flash'
DEEPSEEK_API_KEY: ''
DEEPSEEK_API_BASE: 'https://api.deepseek.com/v1'
MINIMAX_API_KEY: ''
ZHIPU_AI_API_KEY: ''
ARK_API_KEY: ''
@@ -35,9 +37,10 @@ services:
DINGTALK_CLIENT_SECRET: ''
WECOM_BOT_ID: ''
WECOM_BOT_SECRET: ''
WEB_PASSWORD: ''
AGENT: 'True'
AGENT_MAX_CONTEXT_TOKENS: 40000
AGENT_MAX_CONTEXT_TOKENS: 50000
AGENT_MAX_CONTEXT_TURNS: 20
AGENT_MAX_STEPS: 15
AGENT_MAX_STEPS: 20
volumes:
- ./cow:/home/agent/cow

185
docs/agent.md
View File

@@ -1,185 +0,0 @@
# CowAgent介绍
## 概述
Cow项目从简单的聊天机器人全面升级为超级智能助理 **CowAgent**能够主动规思考和规划任务、拥有长期记忆、操作计算机和外部资源、创造和执行Skill真正理解你并和你一起成长。CowAgent能够长期运行在个人电脑或服务器中通过飞书、钉钉、企业微信、网页等多种方式进行交互。核心能力如下
- **复杂任务规划**:能够理解复杂任务并自主规划执行,持续思考和调用工具直到完成目标,支持多轮推理和上下文理解
- **工具系统**内置实现10+种工具包括文件读写、bash终端、浏览器、定时任务、记忆管理等通过Agent管理你的计算机或服务器
- **长期记忆**:自动将对话记忆持久化至本地文件和数据库中,包括全局记忆和天级记忆,支持关键词及向量检索
- **Skills系统**新增Skill运行引擎内置多种技能并支持通过自然语言对话完成自定义Skills开发
- **多渠道和多模型支持**支持在Web、飞书、钉钉、企微等多渠道与Agent交互支持Claude、Gemini、OpenAI、GLM、MiniMax、Qwen、Kimi、Doubao 等多种国内外主流模型
- **安全和成本**通过秘钥管理工具、提示词控制、系统权限等手段控制Agent的访问安全通过最大记忆轮次、最大上下文token、工具执行步数对token成本进行限制
## 核心功能
### 1. 长期记忆
> 记忆系统让 Agent 能够长期记住重要信息。Agent 会在用户分享偏好、决策、事实等重要信息时主动存储,也会在对话达到一定长度时自动提取摘要。记忆分为核心记忆、天级记忆,支持语义搜索和向量检索的混合检索模式。
第一次启动Agent会主动向用户获取询问关键信息并记录至工作空间 (默认为 ~/cow) 中的智能体设定、用户身份、记忆文件中。
在后续的长期对话中Agent会在需要的时候智能记录或检索记忆并对自身设定、用户偏好、记忆文件等进行不断更新总结和记录经验和教训真正实现自主思考和不断成长。
<img width="800" src="https://cdn.link-ai.tech/doc/20260203000455.png" />
### 2. 任务规划和工具调用
工具是Agent访问操作系统资源的核心Agent会根据任务需求智能选择和调用工具完成文件读写、命令执行、定时任务等各类操作。内置工具的视线在项目的 `tools` 目录下。
**主要工具:** 文件读写编辑、Bash终端、浏览器、文件发送、定时调度、记忆搜索、环境配置等。
#### 1.1 终端和文件访问能力
针对操作系统的终端和文件的访问能力是最基础和核心的工具其他很多工具或技能都是基于基础工具进行扩展。用户可通过手机端与Agent交互操作个人电脑或服务器上的资源
<img width="800" src="https://cdn.link-ai.tech/doc/20260202181130.png" />
#### 1.2 编程能力
基于编程能力和系统访问能力Agent可以实现从信息搜索、图片等素材生成、编码、测试、部署、Nginx配置修改、发布的 Vibecoding 全流程通过手机端简单的一句命令完成应用的快速demo
<img width="800" src="https://cdn.link-ai.tech/doc/20260203121008.png" />
#### 1.3 定时任务
基于 scheduler 工具实现动态定时任务,支持 **一次性任务、固定时间间隔、Cron表达式** 三种形式,任务触发可选择**固定消息发送** 或 **Agent动态任务** 执行两种模式,有很高灵活性:
<img width="800" src="https://cdn.link-ai.tech/doc/20260202195402.png" />
同时你也可以通过自然语言快速查看和管理已有的定时任务。
#### 1.4 环境变量管理
技能所需要的秘钥存储在环境变量文件中,由 `env_config` 工具进行管理,你可以通过对话的方式更新秘钥,工具内置了安全保护和脱敏策略,会严格保护秘钥安全:
<img width="800" src="https://cdn.link-ai.tech/doc/20260202234939.png" />
### 3. 技能系统
> 技能系统为Agent提供无限的扩展性每个Skill由说明文件、运行脚本 (可选)、资源 (可选) 组成描述如何完成特定类型的任务。通过Skill可以让Agent遵循说明完成复杂流程调用各类工具或对接第三方系统等。
- **内置技能:** 在项目的`skills`目录下包含技能创造器、网络搜索、图像识别openai-image-vision、LinkAI智能体、网页抓取等。内置Skill根据依赖条件 (API Key、系统命令等) 自动判断是否启用。通过技能创造器可以快速创建自定义技能。
- **自定义技能:** 由用户通过对话创建,存放在工作空间中 (`~/cow/skills/`),基于自定义技能可以实现任何复杂的业务流程和第三方系统对接。
#### 3.1 创建技能
通过 `skill-creator` 技能可以通过对话的方式快速创建技能。你可以在与Agent的写作中让他对将某个工作流程固化为技能或者把任意接口文档和示例发送给Agent让他直接完成对接
<img width="800" src="https://cdn.link-ai.tech/doc/20260202202247.png" />
#### 3.2 搜索和图像识别
- **搜索技能:** 系统内置实现了 `bocha-search`(博查搜索)的Skill依赖环境变量 `BOCHA_SEARCH_API_KEY`,可在[控制台](https://open.bochaai.com/)进行创建并发送给Agent完成配置
- **图像识别技能:** 实现了 `openai-image-vision` 插件,可使用 gpt-4.1-mini、gpt-4.1 等图像识别模型。依赖秘钥 `OPENAI_API_KEY`可通过config.json或env_config工具进行维护。
<img width="800" src="https://cdn.link-ai.tech/doc/20260202213219.png" />
#### 3.3 三方知识库和插件
`linkai-agent` 技能可以将 [LinkAI](https://link-ai.tech/) 上的所有智能体作为skill交给Agent使用并实现多智能体决策的效果。
使用方式:需通过对话的方式配置 `LINKAI_API_KEY`或在config.json中添加 `linkai_api_key`。 并在 `skills/linkai-agent/config.json`中添加智能体说明,示例如下:
```json
{
"apps": [
{
"app_code": "G7z6vKwp",
"app_name": "LinkAI客服助手",
"app_description": "当用户需要了解LinkAI平台相关问题时才选择该助手基于LinkAI知识库进行回答"
},
{
"app_code": "SFY5x7JR",
"app_name": "内容创作助手",
"app_description": "当用户需要创作图片或视频时才使用该助手支持Nano Banana、Seedream、即梦、Veo、可灵等多种模型"
}
]
}
```
Agent可根据智能体的名称和描述进行决策并通过 app_code 调用接口访问对应的应用/工作流通过该技能可以灵活访问LinkAI平台上的智能体、知识库、插件等能力实现效果如下
<img width="750" src="https://cdn.link-ai.tech/doc/20260202234350.png" />
注:需通过 `env_config` 配置 `LINKAI_API_KEY`或在config.json中添加 `linkai_api_key` 配置。
## 使用方式
> 详细使用方式参考项目README.md文档进行
### 1.项目运行
在命令行中执行:
```bash
bash <(curl -fsSL https://cdn.link-ai.tech/code/cow/run.sh)
```
详细说明及后续程序管理参考:[项目启动脚本](https://github.com/zhayujie/chatgpt-on-wechat/wiki/CowAgentQuickStart)
### 2.模型选择
Agent模式推荐使用以下模型可根据效果及成本综合选择
- **MiniMax**: `MiniMax-M2.7`
- **GLM**: `glm-5-turbo`
- **Kimi**: `kimi-k2.5`
- **Doubao**: `doubao-seed-2-0-code-preview-260215`
- **Qwen**: `qwen3.5-plus`
- **Claude**: `claude-sonnet-4-6`
- **Gemini**: `gemini-3.1-flash-lite-preview`
- **OpenAI**: `gpt-5.4`
详细模型配置方式参考 [README.md 模型说明](../README.md#模型说明)
### 3.Agent核心配置
Agent模式的核心配置项如下`config.json` 中配置:
```bash
{
"agent": true, # 是否启用Agent模式
"agent_workspace": "~/cow", # Agent工作空间路径
"agent_max_context_tokens": 40000, # 最大上下文tokens
"agent_max_context_turns": 30, # 最大上下文记忆轮次
"agent_max_steps": 15 # 单次任务最大决策步数
}
```
**配置说明:**
- `agent`: 设为 `true` 启用Agent模式获得多轮工具决策、长期记忆、Skills等能力
- `agent_workspace`: 工作空间路径,用于存储 memory、skills、其他系统设定提示词
- `agent_max_context_tokens`: 上下文token上限超出将自动丢弃最早的对话
- `agent_max_context_turns`: 上下文记忆轮次,每轮包括一次提问和回复
- `agent_max_steps`: 单次任务最大工具调用步数,防止无限循环
### 4.渠道接入
Agent支持在多种渠道中使用只需修改 `config.json` 中的 `channel_type` 配置即可切换。
- **Web网页**:默认使用该渠道,运行后监听本地端口,通过浏览器访问
- **飞书接入**[飞书接入文档](https://docs.link-ai.tech/cow/multi-platform/feishu)
- **钉钉接入**[钉钉接入文档](https://docs.link-ai.tech/cow/multi-platform/dingtalk)
- **企业微信应用接入**[企微应用文档](https://docs.link-ai.tech/cow/multi-platform/wechat-com)
- **企微智能机器人**[企微智能机器人文档](https://docs.link-ai.tech/cow/multi-platform/wecom-bot)
- **QQ机器人**[QQ机器人文档](https://docs.link-ai.tech/cow/multi-platform/qq)
更多渠道配置参考:[通道说明](../README.md#通道说明)

21
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View File

@@ -10,7 +10,9 @@ Web 控制台是 CowAgent 的默认通道,启动后会自动运行,通过浏
```json
{
"channel_type": "web",
"web_port": 9899
"web_port": 9899,
"web_password": "",
"enable_thinking": false
}
```
@@ -18,6 +20,11 @@ Web 控制台是 CowAgent 的默认通道,启动后会自动运行,通过浏
| --- | --- | --- |
| `channel_type` | 设为 `web` | `web` |
| `web_port` | Web 服务监听端口 | `9899` |
| `web_password` | 访问密码,留空表示不启用密码保护 | `""` |
| `web_session_expire_days` | 登录会话有效天数 | `30` |
| `enable_thinking` | 是否启用深度思考模式 | `false` |
配置密码后,访问控制台时需先输入密码完成登录。登录状态默认保持 30 天,期间重启服务也无需重新登录。密码也支持在控制台的「配置」页面中在线修改。
## 访问地址
@@ -34,10 +41,20 @@ Web 控制台是 CowAgent 的默认通道,启动后会自动运行,通过浏
### 对话界面
支持流式输出,可实时展示 Agent 的思考过程Reasoning和工具调用过程Tool Calls更直观地观察 Agent 的决策过程
支持流式输出,可实时展示 Agent 的思考过程Reasoning和工具调用过程Tool Calls更直观地观察 Agent 的决策过程。深度思考功能可通过配置或控制台的「Agent 配置」开关控制。
<img width="850" src="https://cdn.link-ai.tech/doc/20260227180120.png" />
#### 多会话管理
对话界面支持多会话Session管理所有会话记录持久化存储在数据库中
- **会话列表**:点击左侧历史会话图标可展开/收起会话列表面板,支持滚动加载全部历史会话
- **AI 生成标题**:新会话在首轮对话完成后,自动调用模型生成简短的会话摘要标题
- **新建会话**:点击会话列表顶部的「新对话」按钮或输入区的 `+` 按钮创建新会话
- **删除会话**:点击会话项的删除按钮,确认后永久删除该会话及其所有消息
- **清除上下文**:点击输入区的清除按钮,在当前会话中插入一条分隔线,分隔线以上的消息仍然展示但不再作为模型的上下文输入
### 模型管理
支持在线管理模型配置,无需手动编辑配置文件:

65
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View File

@@ -9,7 +9,23 @@ description: 将 CowAgent 接入企业微信智能机器人(长连接模式)
智能机器人与企业微信自建应用是两种不同的接入方式。智能机器人使用 WebSocket 长连接,无需服务器公网 IP 和域名,配置更简单。
</Note>
## 一、创建智能机器人
## 一、接入方式
### 方式一:扫码一键接入(推荐)
无需提前创建机器人,启动 Cow 项目后打开 Web 控制台本地链接http://127.0.0.1:9899/),选择 **通道** 菜单,点击**接入通道**,选择**企微智能机器人**,切换到「扫码接入」模式,使用**企业微信**扫码即可自动完成机器人创建和接入。
<img src="https://cdn.link-ai.tech/doc/20260401121213.png" width="800"/>
<Note>
扫码成功后,可在企业微信工作台 - **智能机器人**页面对机器人进行进一步配置,包括修改名称、头像、可见范围等。
</Note>
### 方式二:手动创建接入
需要先在企业微信中创建智能机器人并获取 Bot ID 和 Secret再通过 Web 控制台或配置文件接入。
**步骤一:创建智能机器人**
1. 打开企业微信客户端,进入工作台,点击**智能机器人**
@@ -25,34 +41,35 @@ description: 将 CowAgent 接入企业微信智能机器人(长连接模式)
4. 设置机器人名称、头像、可见范围,并选择**长连接模式**,记录下 **Bot ID** 和 **Secret** 信息后点击保存。
## 二、配置和运行
**步骤二:接入 CowAgent**
### 方式一Web 控制台接入
<Tabs>
<Tab title="Web 控制台">
打开 Web 控制台,选择**通道**菜单,点击**接入通道**,选择**企微智能机器人**,切换到「手动填写」模式,输入 Bot ID 和 Secret点击接入即可。
启动Cow项目后打开 Web 控制台 (本地链接为: http://127.0.0.1:9899/ ),选择 **通道** 菜单,点击 **接入通道**,选择 **企微智能机器人**,填写上一步保存的 Bot ID 和 Secret点击接入即可。
<img src="https://cdn.link-ai.tech/doc/20260316181711.png" width="800"/>
</Tab>
<Tab title="配置文件">
在 `config.json` 中添加以下配置后启动程序:
<img src="https://cdn.link-ai.tech/doc/20260316181711.png" width="800"/>
```json
{
"channel_type": "wecom_bot",
"wecom_bot_id": "YOUR_BOT_ID",
"wecom_bot_secret": "YOUR_SECRET"
}
```
### 方式二:配置文件接入
| 参数 | 说明 |
| --- | --- |
| `wecom_bot_id` | 智能机器人的 BotID |
| `wecom_bot_secret` | 智能机器人的 Secret |
</Tab>
</Tabs>
在 `config.json` 中添加以下配置:
日志显示 `[WecomBot] Subscribe success` 即表示连接成功。
```json
{
"channel_type": "wecom_bot",
"wecom_bot_id": "YOUR_BOT_ID",
"wecom_bot_secret": "YOUR_SECRET"
}
```
| 参数 | 说明 |
| --- | --- |
| `wecom_bot_id` | 智能机器人的 BotID |
| `wecom_bot_secret` | 智能机器人的 Secret |
配置完成后启动程序,日志显示 `[WecomBot] Subscribe success` 即表示连接成功。
## 三、功能说明
## 二、功能说明
| 功能 | 支持情况 |
| --- | --- |
@@ -64,7 +81,7 @@ description: 将 CowAgent 接入企业微信智能机器人(长连接模式)
| 流式回复 | ✅ |
| 定时任务主动推送 | ✅ |
## 、使用
## 、使用
在企业微信中搜索创建的机器人名称,即可开始单聊对话。

5
docs/commands/general.mdx → docs/cli/general.mdx
View File

@@ -58,17 +58,18 @@ Session: 12 messages | 8 skills loaded
**修改配置项:**
```text
/config model deepseek-chat
/config model deepseek-v4-flash
```
**支持修改的配置项:**
| 配置项 | 说明 | 示例值 |
| --- | --- | --- |
| `model` | AI 模型名称 | `deepseek-chat` |
| `model` | AI 模型名称 | `deepseek-v4-flash` |
| `agent_max_context_tokens` | 最大上下文 tokens | `40000` |
| `agent_max_context_turns` | 最大上下文记忆轮次 | `30` |
| `agent_max_steps` | 单次任务最大决策步数 | `15` |
| `enable_thinking` | 是否启用深度思考模式 | `true` / `false` |
<Note>
修改 `model` 时,系统会自动匹配对应的模型调用方式。配置会写入 `config.json` 并持久保存。

10
docs/commands/index.mdx → docs/cli/index.mdx
View File

@@ -40,6 +40,10 @@ Service:
Skills:
skill Manage skills (list / search / install / uninstall ...)
Memory & Knowledge:
memory Memory distillation (dream)
knowledge View knowledge base stats and structure
Others:
help Show this help message
version Show version
@@ -55,6 +59,10 @@ Others:
| `/status` | 查看服务状态和配置 |
| `/config` | 查看或修改运行时配置 |
| `/skill` | 管理技能(安装、卸载、启用、禁用等) |
| `/memory dream [N]` | 手动触发记忆蒸馏(默认 3 天,最大 30 |
| `/knowledge` | 查看知识库统计信息 |
| `/knowledge list` | 查看知识库目录结构 |
| `/knowledge on\|off` | 开启或关闭知识库 |
| `/context` | 查看当前会话上下文信息 |
| `/context clear` | 清空当前会话上下文 |
| `/logs` | 查看最近日志 |
@@ -76,6 +84,8 @@ Others:
| logs | ✓ | ✓ |
| config | ✗ | ✓ |
| context | — | ✓ |
| memory (子命令) | ✗ | ✓ |
| knowledge (子命令) | ✓ | ✓ |
| skill (子命令) | ✓ | ✓ |
| start / stop / restart | ✓ | ✗ |
| update | ✓ | ✗ |

77
docs/cli/memory-knowledge.mdx Normal file
View File

@@ -0,0 +1,77 @@
---
title: 记忆与知识库
description: 记忆蒸馏和知识库管理命令
---
## memory
管理 Agent 的长期记忆系统。
### memory dream
手动触发记忆蒸馏Deep Dream整理近期的天级记忆蒸馏合并到 MEMORY.md并生成梦境日记。
```text
/memory dream [N]
```
- `N`:整理近 N 天的记忆,默认 3 天,最大 30 天
- 蒸馏在后台异步执行,完成后会在对话中通知结果
- 无需等待 Agent 初始化,首次对话前即可使用
**示例:**
```text
/memory dream # 整理近 3 天
/memory dream 7 # 整理近 7 天
/memory dream 30 # 整理近 30 天(全量)
```
蒸馏完成后Web 端会收到带有跳转链接的通知,可直接查看更新后的 MEMORY.md 和梦境日记。
<Tip>
系统每天 23:55 会自动执行一次蒸馏lookback 1 天)。手动触发适用于首次部署后的历史整理,或需要立即更新记忆时使用。
</Tip>
## knowledge
查看和管理个人知识库。默认显示知识库统计信息。
```text
/knowledge
```
输出示例:
```
📚 知识库
- 状态:已开启
- 页面数12
- 总大小45.2 KB
- 分类明细:
- concepts/: 5 篇
- entities/: 4 篇
- sources/: 3 篇
```
### knowledge list
查看知识库目录树结构。
```text
/knowledge list
```
### knowledge on / off
开启或关闭知识库。关闭后不再注入知识提示词和索引知识文件。
```text
/knowledge on
/knowledge off
```
<Note>
终端 CLI 中 `cow knowledge` 和 `cow knowledge list` 可用,但 `on|off` 仅支持在对话中使用(需实时生效)。
</Note>

0
docs/commands/process.mdx → docs/cli/process.mdx
View File

0
docs/commands/skill.mdx → docs/cli/skill.mdx
View File

157
docs/docs.json
View File

@@ -24,13 +24,13 @@
},
{
"label": "GitHub",
"href": "https://github.com/zhayujie/chatgpt-on-wechat"
"href": "https://github.com/zhayujie/CowAgent"
}
]
},
"footer": {
"socials": {
"github": "https://github.com/zhayujie/chatgpt-on-wechat"
"github": "https://github.com/zhayujie/CowAgent"
}
},
"navigation": {
@@ -72,17 +72,18 @@
"group": "模型配置",
"pages": [
"models/index",
"models/deepseek",
"models/minimax",
"models/glm",
"models/qwen",
"models/kimi",
"models/doubao",
"models/claude",
"models/gemini",
"models/openai",
"models/deepseek",
"models/glm",
"models/qwen",
"models/doubao",
"models/kimi",
"models/linkai",
"models/coding-plan"
"models/coding-plan",
"models/custom"
]
}
]
@@ -129,7 +130,16 @@
"pages": [
"skills/index",
"skills/install",
"skills/create"
"skills/create",
"skills/hub"
]
},
{
"group": "内置技能",
"pages": [
"skills/skill-creator",
"skills/knowledge-wiki",
"skills/image-generation"
]
}
]
@@ -141,7 +151,19 @@
"group": "记忆系统",
"pages": [
"memory/index",
"memory/context"
"memory/context",
"memory/deep-dream"
]
}
]
},
{
"tab": "知识",
"groups": [
{
"group": "知识库",
"pages": [
"knowledge/index"
]
}
]
@@ -170,10 +192,11 @@
{
"group": "命令系统",
"pages": [
"commands/index",
"commands/process",
"commands/skill",
"commands/general"
"cli/index",
"cli/process",
"cli/skill",
"cli/memory-knowledge",
"cli/general"
]
}
]
@@ -185,6 +208,9 @@
"group": "发布记录",
"pages": [
"releases/overview",
"releases/v2.0.7",
"releases/v2.0.6",
"releases/v2.0.5",
"releases/v2.0.4",
"releases/v2.0.3",
"releases/v2.0.2",
@@ -231,17 +257,18 @@
"group": "Model Configuration",
"pages": [
"en/models/index",
"en/models/deepseek",
"en/models/minimax",
"en/models/glm",
"en/models/qwen",
"en/models/kimi",
"en/models/doubao",
"en/models/claude",
"en/models/gemini",
"en/models/openai",
"en/models/deepseek",
"en/models/glm",
"en/models/qwen",
"en/models/doubao",
"en/models/kimi",
"en/models/linkai",
"en/models/coding-plan"
"en/models/coding-plan",
"en/models/custom"
]
}
]
@@ -288,7 +315,15 @@
"pages": [
"en/skills/index",
"en/skills/install",
"en/skills/skill-creator"
"en/skills/hub"
]
},
{
"group": "Built-in Skills",
"pages": [
"en/skills/skill-creator",
"en/skills/knowledge-wiki",
"en/skills/image-generation"
]
}
]
@@ -300,7 +335,19 @@
"group": "Memory System",
"pages": [
"en/memory/index",
"en/memory/context"
"en/memory/context",
"en/memory/deep-dream"
]
}
]
},
{
"tab": "Knowledge",
"groups": [
{
"group": "Knowledge Base",
"pages": [
"en/knowledge/index"
]
}
]
@@ -324,15 +371,16 @@
]
},
{
"tab": "Commands",
"tab": "CLI",
"groups": [
{
"group": "Command System",
"pages": [
"en/commands/index",
"en/commands/process",
"en/commands/skill",
"en/commands/chat"
"en/cli/index",
"en/cli/process",
"en/cli/skill",
"en/cli/memory-knowledge",
"en/cli/chat"
]
}
]
@@ -344,6 +392,9 @@
"group": "Release Notes",
"pages": [
"en/releases/overview",
"en/releases/v2.0.7",
"en/releases/v2.0.6",
"en/releases/v2.0.5",
"en/releases/v2.0.4",
"en/releases/v2.0.2",
"en/releases/v2.0.1",
@@ -390,17 +441,18 @@
"group": "モデル設定",
"pages": [
"ja/models/index",
"ja/models/deepseek",
"ja/models/minimax",
"ja/models/glm",
"ja/models/qwen",
"ja/models/kimi",
"ja/models/doubao",
"ja/models/claude",
"ja/models/gemini",
"ja/models/openai",
"ja/models/deepseek",
"ja/models/glm",
"ja/models/qwen",
"ja/models/doubao",
"ja/models/kimi",
"ja/models/linkai",
"ja/models/coding-plan"
"ja/models/coding-plan",
"ja/models/custom"
]
}
]
@@ -447,7 +499,16 @@
"pages": [
"ja/skills/index",
"ja/skills/install",
"ja/skills/create"
"ja/skills/create",
"ja/skills/hub"
]
},
{
"group": "内蔵スキル",
"pages": [
"ja/skills/skill-creator",
"ja/skills/knowledge-wiki",
"ja/skills/image-generation"
]
}
]
@@ -459,7 +520,19 @@
"group": "メモリシステム",
"pages": [
"ja/memory/index",
"ja/memory/context"
"ja/memory/context",
"ja/memory/deep-dream"
]
}
]
},
{
"tab": "ナレッジ",
"groups": [
{
"group": "ナレッジベース",
"pages": [
"ja/knowledge/index"
]
}
]
@@ -483,15 +556,16 @@
]
},
{
"tab": "コマンド",
"tab": "CLI",
"groups": [
{
"group": "コマンドシステム",
"pages": [
"ja/commands/index",
"ja/commands/process",
"ja/commands/skill",
"ja/commands/general"
"ja/cli/index",
"ja/cli/process",
"ja/cli/skill",
"ja/cli/memory-knowledge",
"ja/cli/general"
]
}
]
@@ -503,6 +577,9 @@
"group": "リリースノート",
"pages": [
"ja/releases/overview",
"ja/releases/v2.0.7",
"ja/releases/v2.0.6",
"ja/releases/v2.0.5",
"ja/releases/v2.0.4",
"ja/releases/v2.0.3",
"ja/releases/v2.0.2",

59
docs/en/README.md
View File

@@ -1,18 +1,19 @@
<p align="center"><img src="https://github.com/user-attachments/assets/eca9a9ec-8534-4615-9e0f-96c5ac1d10a3" alt="CowAgent" width="550" /></p>
<p align="center">
<a href="https://github.com/zhayujie/chatgpt-on-wechat/releases/latest"><img src="https://img.shields.io/github/v/release/zhayujie/chatgpt-on-wechat" alt="Latest release"></a>
<a href="https://github.com/zhayujie/chatgpt-on-wechat/blob/master/LICENSE"><img src="https://img.shields.io/github/license/zhayujie/chatgpt-on-wechat" alt="License: MIT"></a>
<a href="https://github.com/zhayujie/chatgpt-on-wechat"><img src="https://img.shields.io/github/stars/zhayujie/chatgpt-on-wechat?style=flat-square" alt="Stars"></a> <br/>
[<a href="https://github.com/zhayujie/chatgpt-on-wechat/blob/master/README.md">中文</a>] | [English] | [<a href="https://github.com/zhayujie/chatgpt-on-wechat/blob/master/docs/ja/README.md">日本語</a>]
<a href="https://github.com/zhayujie/CowAgent/releases/latest"><img src="https://img.shields.io/github/v/release/zhayujie/CowAgent" alt="Latest release"></a>
<a href="https://github.com/zhayujie/CowAgent/blob/master/LICENSE"><img src="https://img.shields.io/github/license/zhayujie/CowAgent" alt="License: MIT"></a>
<a href="https://github.com/zhayujie/CowAgent"><img src="https://img.shields.io/github/stars/zhayujie/CowAgent?style=flat-square" alt="Stars"></a> <br/>
[<a href="https://github.com/zhayujie/CowAgent/blob/master/README.md">中文</a>] | [English] | [<a href="https://github.com/zhayujie/CowAgent/blob/master/docs/ja/README.md">日本語</a>]
</p>
**CowAgent** is an AI super assistant powered by LLMs, capable of autonomous task planning, operating computers and external resources, creating and executing Skills, and continuously growing with long-term memory. It supports flexible model switching, handles text, voice, images, and files, and can be integrated into WeChat, Web, Feishu, DingTalk, WeCom Bot, WeCom App, and WeChat Official Account — running 7×24 hours on your personal computer or server.
**CowAgent** is an AI super assistant powered by LLMs, capable of autonomous task planning, operating computers and external resources, creating and executing Skills, and continuously growing with long-term memory and a personal knowledge base. It supports flexible model switching, handles text, voice, images, and files, and can be integrated into WeChat, Web, Feishu, DingTalk, WeCom Bot, WeCom App, and WeChat Official Account — running 7×24 hours on your personal computer or server.
<p align="center">
<a href="https://cowagent.ai/">🌐 Website</a> &nbsp;·&nbsp;
<a href="https://docs.cowagent.ai/en/intro/index">📖 Docs</a> &nbsp;·&nbsp;
<a href="https://docs.cowagent.ai/en/guide/quick-start">🚀 Quick Start</a> &nbsp;·&nbsp;
<a href="https://skills.cowagent.ai/">🧩 Skill Hub</a> &nbsp;·&nbsp;
<a href="https://link-ai.tech/cowagent/create">☁️ Try Online</a>
</p>
@@ -21,12 +22,13 @@
> CowAgent is both an out-of-the-box AI super assistant and a highly extensible Agent framework. You can extend it with new model interfaces, channels, built-in tools, and the Skills system to flexibly implement various customization needs.
-**Autonomous Task Planning**: Understands complex tasks and autonomously plans execution, continuously thinking and invoking tools until goals are achieved.
-**Long-term Memory**: Automatically persists conversation memory to local files and databases, including core memory and daily memory, with keyword and vector retrieval support.
-**Long-term Memory**: Automatically persists conversation memory to local files and databases, including core memory, daily memory, and Deep Dream distillation, with keyword and vector retrieval support.
-**Personal Knowledge Base**: Automatically organizes structured knowledge with cross-references to build a knowledge graph, with web-based visualization and conversational management.
-**Skills System**: Implements a Skills creation and execution engine, supports installing skills from [Skill Hub](https://skills.cowagent.ai), GitHub, etc., or creating custom Skills through conversation.
-**Tool System**: Built-in tools for file I/O, terminal execution, browser automation, scheduled tasks, messaging, and more — autonomously invoked by the Agent.
-**CLI System**: Provides terminal commands and in-chat commands for process management, skill installation, configuration, and more.
-**Multimodal Messages**: Supports parsing, processing, generating, and sending text, images, voice, files, and other message types.
-**Multiple Model Support**: Supports OpenAI, Claude, Gemini, DeepSeek, MiniMax, GLM, Qwen, Kimi, Doubao, and other mainstream model providers.
-**Multiple Model Support**: Supports DeepSeek, MiniMax, Claude, Gemini, OpenAI, GLM, Qwen, Doubao, Kimi, and other mainstream model providers.
-**Multi-platform Deployment**: Runs on local computers or servers, integrable into WeChat, Web, Feishu, DingTalk, WeChat Official Account, and WeCom applications.
## Disclaimer
@@ -41,17 +43,21 @@ Try online (no deployment needed): [CowAgent](https://link-ai.tech/cowagent/crea
## Changelog
> **2026.02.27:** [v2.0.2](https://github.com/zhayujie/chatgpt-on-wechat/releases/tag/2.0.2) — Web console overhaul (streaming chat, model/skill/memory/channel/scheduler/log management), multi-channel concurrent running, session persistence, new models including Gemini 3.1 Pro / Claude 4.6 Sonnet / Qwen3.5 Plus.
> **2026.04.14:** [v2.0.6](https://github.com/zhayujie/CowAgent/releases/tag/2.0.6) — Knowledge Base, Deep Dream Memory Distillation, Smart Context Compression, Web Console upgrades.
> **2026.02.13:** [v2.0.1](https://github.com/zhayujie/chatgpt-on-wechat/releases/tag/2.0.1) — Built-in Web Search tool, smart context trimming, runtime info dynamic update, Windows compatibility, fixes for scheduler memory loss, Feishu connection issues, and more.
> **2026.04.01:** [v2.0.5](https://github.com/zhayujie/CowAgent/releases/tag/2.0.5) — Cow CLI, Skill Hub open source, Browser tool, WeCom Bot QR scan, and more.
> **2026.02.03:** [v2.0.0](https://github.com/zhayujie/chatgpt-on-wechat/releases/tag/2.0.0) — Full upgrade to AI super assistant with multi-step task planning, long-term memory, built-in tools, Skills framework, new models, and optimized channels.
> **2026.02.27:** [v2.0.2](https://github.com/zhayujie/CowAgent/releases/tag/2.0.2) — Web console overhaul (streaming chat, model/skill/memory/channel/scheduler/log management), multi-channel concurrent running, session persistence, new models including Gemini 3.1 Pro / Claude 4.6 Sonnet / Qwen3.5 Plus.
> **2025.05.23:** [v1.7.6](https://github.com/zhayujie/chatgpt-on-wechat/releases/tag/1.7.6) — Web channel optimization, AgentMesh multi-agent plugin, Baidu TTS, claude-4-sonnet/opus support.
> **2026.02.13:** [v2.0.1](https://github.com/zhayujie/CowAgent/releases/tag/2.0.1) — Built-in Web Search tool, smart context trimming, runtime info dynamic update, Windows compatibility, fixes for scheduler memory loss, Feishu connection issues, and more.
> **2025.04.11:** [v1.7.5](https://github.com/zhayujie/chatgpt-on-wechat/releases/tag/1.7.5) — wechatferry protocol, DeepSeek model, Tencent Cloud voice, ModelScope and Gitee-AI support.
> **2026.02.03:** [v2.0.0](https://github.com/zhayujie/CowAgent/releases/tag/2.0.0) — Full upgrade to AI super assistant with multi-step task planning, long-term memory, built-in tools, Skills framework, new models, and optimized channels.
> **2024.12.13:** [v1.7.4](https://github.com/zhayujie/chatgpt-on-wechat/releases/tag/1.7.4) — Gemini 2.0 model, Web channel, memory leak fix.
> **2025.05.23:** [v1.7.6](https://github.com/zhayujie/CowAgent/releases/tag/1.7.6) — Web channel optimization, AgentMesh multi-agent plugin, Baidu TTS, claude-4-sonnet/opus support.
> **2025.04.11:** [v1.7.5](https://github.com/zhayujie/CowAgent/releases/tag/1.7.5) — wechatferry protocol, DeepSeek model, Tencent Cloud voice, ModelScope and Gitee-AI support.
> **2024.12.13:** [v1.7.4](https://github.com/zhayujie/CowAgent/releases/tag/1.7.4) — Gemini 2.0 model, Web channel, memory leak fix.
Full changelog: [Release Notes](https://docs.cowagent.ai/en/releases/overview)
@@ -73,15 +79,15 @@ irm https://cdn.link-ai.tech/code/cow/run.ps1 | iex
After running, the Web service starts by default. Access `http://localhost:9899/chat` to chat.
Script usage: [One-click Install](https://docs.cowagent.ai/en/guide/quick-start). After installation, you can also use `cow start`, `cow stop`, and other [CLI commands](https://docs.cowagent.ai/en/commands/index) to manage the service.
Script usage: [One-click Install](https://docs.cowagent.ai/en/guide/quick-start). After installation, you can also use `cow start`, `cow stop`, and other [CLI commands](https://docs.cowagent.ai/en/cli/index) to manage the service.
### Manual Installation
**1. Clone the project**
```bash
git clone https://github.com/zhayujie/chatgpt-on-wechat
cd chatgpt-on-wechat/
git clone https://github.com/zhayujie/CowAgent
cd CowAgent/
```
**2. Install dependencies**
@@ -97,7 +103,7 @@ pip3 install -r requirements-optional.txt # optional but recommended
pip3 install -e .
```
After installation, use `cow` commands to manage the service (start, stop, update, etc.) and skills. See [Command Docs](https://docs.cowagent.ai/en/commands/index).
After installation, use `cow` commands to manage the service (start, stop, update, etc.) and skills. See [Command Docs](https://docs.cowagent.ai/en/cli/index).
**4. Install browser (optional)**
@@ -158,15 +164,15 @@ Supports mainstream model providers. Recommended models for Agent mode:
| Provider | Recommended Model |
| --- | --- |
| DeepSeek | `deepseek-v4-flash` |
| MiniMax | `MiniMax-M2.7` |
| GLM | `glm-5-turbo` |
| Kimi | `kimi-k2.5` |
| Doubao | `doubao-seed-2-0-code-preview-260215` |
| Qwen | `qwen3.5-plus` |
| Claude | `claude-sonnet-4-6` |
| Gemini | `gemini-3.1-pro-preview` |
| OpenAI | `gpt-5.4` |
| DeepSeek | `deepseek-chat` |
| GLM | `glm-5.1` |
| Qwen | `qwen3.6-plus` |
| Doubao | `doubao-seed-2-0-code-preview-260215` |
| Kimi | `kimi-k2.6` |
For detailed configuration of each model, see the [Models documentation](https://docs.cowagent.ai/en/models/index).
@@ -223,21 +229,22 @@ Multiple channels can be enabled simultaneously, separated by commas: `"channel_
## 🔗 Related Projects
- [Cow Skill Hub](https://github.com/zhayujie/cow-skill-hub): Open skill marketplace for AI Agents — browse, search, install, and publish skills for CowAgent, OpenClaw, Claude Code, and more.
- [bot-on-anything](https://github.com/zhayujie/bot-on-anything): Lightweight and highly extensible LLM application framework supporting Slack, Telegram, Discord, Gmail, and more.
- [AgentMesh](https://github.com/MinimalFuture/AgentMesh): Open-source Multi-Agent framework for complex problem solving through agent team collaboration.
## 🔎 FAQ
FAQs: <https://github.com/zhayujie/chatgpt-on-wechat/wiki/FAQs>
FAQs: <https://github.com/zhayujie/CowAgent/wiki/FAQs>
## 🛠️ Contributing
Welcome to add new channels, referring to the [Feishu channel](https://github.com/zhayujie/chatgpt-on-wechat/blob/master/channel/feishu/feishu_channel.py) as an example. Also welcome to contribute new Skills, see the [Skill Creation docs](https://docs.cowagent.ai/en/skills/create).
Welcome to add new channels, referring to the [Feishu channel](https://github.com/zhayujie/CowAgent/blob/master/channel/feishu/feishu_channel.py) as an example. Also welcome to contribute new Skills, see the [Skill Creation docs](https://docs.cowagent.ai/en/skills/create), or submit to [Skill Hub](https://skills.cowagent.ai/submit).
## ✉ Contact
Welcome to submit PRs and Issues, and support the project with a 🌟 Star. For questions, check the [FAQ list](https://github.com/zhayujie/chatgpt-on-wechat/wiki/FAQs) or search [Issues](https://github.com/zhayujie/chatgpt-on-wechat/issues).
Welcome to submit PRs and Issues, and support the project with a 🌟 Star. For questions, check the [FAQ list](https://github.com/zhayujie/CowAgent/wiki/FAQs) or search [Issues](https://github.com/zhayujie/CowAgent/issues).
## 🌟 Contributors
![cow contributors](https://contrib.rocks/image?repo=zhayujie/chatgpt-on-wechat&max=1000)
![cow contributors](https://contrib.rocks/image?repo=zhayujie/CowAgent&max=1000)

10
docs/en/channels/web.mdx
View File

@@ -38,6 +38,16 @@ Supports streaming output with real-time display of the Agent's reasoning proces
<img width="850" src="https://cdn.link-ai.tech/doc/20260227180120.png" />
#### Multi-Session Management
The chat interface supports multi-session management. All session records are persistently stored in a SQLite database:
- **Session List**: Click the history icon on the left to expand/collapse the session list panel, with scroll-to-load support for all historical sessions
- **AI-Generated Titles**: After the first exchange in a new session, the model is automatically called to generate a short summary title
- **New Session**: Click the "New Chat" button at the top of the session list or the `+` button in the input area to create a new session
- **Delete Session**: Click the delete button on a session item and confirm to permanently delete the session and all its messages
- **Clear Context**: Click the clear button in the input area to insert a divider in the current session. Messages above the divider are still displayed but no longer included as context for the model
### Model Management
Manage model configurations online without manually editing config files:

5
docs/en/commands/general.mdx → docs/en/cli/general.mdx
View File

@@ -44,17 +44,18 @@ View or modify runtime configuration. Changes take effect immediately without re
**Modify a config item:**
```text
/config model deepseek-chat
/config model deepseek-v4-flash
```
**Configurable items:**
| Item | Description | Example |
| --- | --- | --- |
| `model` | AI model name | `deepseek-chat` |
| `model` | AI model name | `deepseek-v4-flash` |
| `agent_max_context_tokens` | Max context tokens | `40000` |
| `agent_max_context_turns` | Max context memory turns | `30` |
| `agent_max_steps` | Max decision steps per task | `15` |
| `enable_thinking` | Enable deep thinking mode | `true` / `false` |
<Note>
When changing `model`, the system automatically matches the corresponding model API. Configuration is persisted to `config.json`.

10
docs/en/commands/index.mdx → docs/en/cli/index.mdx
View File

@@ -40,6 +40,10 @@ Service:
Skills:
skill Manage skills (list / search / install / uninstall ...)
Memory & Knowledge:
memory Memory distillation (dream)
knowledge View knowledge base stats and structure
Others:
help Show this help message
version Show version
@@ -55,6 +59,10 @@ In the Web console or any connected channel, type `/` to see command suggestions
| `/status` | View service status and configuration |
| `/config` | View or modify runtime configuration |
| `/skill` | Manage skills (install, uninstall, enable, disable, etc.) |
| `/memory dream [N]` | Manually trigger memory distillation (default 3 days, max 30) |
| `/knowledge` | View knowledge base statistics |
| `/knowledge list` | View knowledge base directory structure |
| `/knowledge on\|off` | Enable or disable knowledge base |
| `/context` | View current session context info |
| `/context clear` | Clear current session context |
| `/logs` | View recent logs |
@@ -74,6 +82,8 @@ In the Web console or any connected channel, type `/` to see command suggestions
| logs | ✓ | ✓ |
| config | ✗ | ✓ |
| context | — | ✓ |
| memory (subcommands) | ✗ | ✓ |
| knowledge (subcommands) | ✓ | ✓ |
| skill (subcommands) | ✓ | ✓ |
| start / stop / restart | ✓ | ✗ |
| update | ✓ | ✗ |

63
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@@ -0,0 +1,63 @@
---
title: Memory & Knowledge
description: Memory distillation and knowledge base management commands
---
## memory
Manage the Agent's long-term memory system.
### memory dream
Manually trigger memory distillation (Deep Dream) — consolidate recent daily memories into MEMORY.md and generate a dream diary.
```text
/memory dream [N]
```
- `N`: Consolidate the last N days of memory (default 3, max 30)
- Runs asynchronously in the background; you'll be notified in chat when complete
- Works without Agent initialization — can be used before the first conversation
**Examples:**
```text
/memory dream # Consolidate last 3 days
/memory dream 7 # Consolidate last 7 days
/memory dream 30 # Consolidate last 30 days (full)
```
On the Web console, the completion notification includes clickable links to view the updated MEMORY.md and dream diary.
<Tip>
The system automatically runs distillation daily at 23:55 (lookback 1 day). Manual trigger is useful for consolidating historical memories after first deployment, or when you need an immediate memory update.
</Tip>
## knowledge
View and manage the personal knowledge base. Shows statistics by default.
```text
/knowledge
```
### knowledge list
View the knowledge base directory tree.
```text
/knowledge list
```
### knowledge on / off
Enable or disable the knowledge base. When disabled, knowledge prompts and file indexing are not injected.
```text
/knowledge on
/knowledge off
```
<Note>
In the terminal CLI, `cow knowledge` and `cow knowledge list` are available, but `on|off` is only supported in chat (requires runtime effect).
</Note>

0
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0
docs/en/commands/skill.mdx → docs/en/cli/skill.mdx
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13
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@@ -8,12 +8,12 @@ description: Deploy CowAgent manually (source code / Docker)
### 1. Clone the project
```bash
git clone https://github.com/zhayujie/chatgpt-on-wechat
cd chatgpt-on-wechat/
git clone https://github.com/zhayujie/CowAgent
cd CowAgent/
```
<Tip>
For network issues, use the mirror: https://gitee.com/zhayujie/chatgpt-on-wechat
For network issues, use the mirror: https://gitee.com/zhayujie/CowAgent
</Tip>
### 2. Install dependencies
@@ -121,7 +121,8 @@ sudo docker logs -f chatgpt-on-wechat
```json
{
"channel_type": "web",
"model": "MiniMax-M2.5",
"model": "deepseek-v4-flash",
"deepseek_api_key": "",
"agent": true,
"agent_workspace": "~/cow",
"agent_max_context_tokens": 40000,
@@ -133,7 +134,7 @@ sudo docker logs -f chatgpt-on-wechat
| Parameter | Description | Default |
| --- | --- | --- |
| `channel_type` | Channel type | `web` |
| `model` | Model name | `MiniMax-M2.5` |
| `model` | Model name | `deepseek-v4-flash` |
| `agent` | Enable Agent mode | `true` |
| `agent_workspace` | Agent workspace path | `~/cow` |
| `agent_max_context_tokens` | Max context tokens | `40000` |
@@ -141,5 +142,5 @@ sudo docker logs -f chatgpt-on-wechat
| `agent_max_steps` | Max decision steps per task | `15` |
<Tip>
Full configuration options are in the project [`config.py`](https://github.com/zhayujie/chatgpt-on-wechat/blob/master/config.py).
Full configuration options are in the project [`config.py`](https://github.com/zhayujie/CowAgent/blob/master/config.py).
</Tip>

4
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@@ -26,7 +26,7 @@ The script automatically performs these steps:
1. Check Python environment (requires Python 3.7+)
2. Install required tools (git, curl, etc.)
3. Clone project to `~/chatgpt-on-wechat`
3. Clone project to `~/CowAgent`
4. Install Python dependencies and Cow CLI
5. Guided configuration for AI model and channel
6. Start service
@@ -47,7 +47,7 @@ After installation, use the `cow` command to manage the service:
| `cow update` | Update code and restart |
| `cow install-browser` | Install browser tool dependencies |
See the [Commands documentation](/en/commands/index) for more details.
See the [Commands documentation](/en/cli/index) for more details.
<Note>
If the `cow` command is not available, you can use `./run.sh <command>` (Linux/macOS) or `.\scripts\run.ps1 <command>` (Windows) as a fallback. Both are functionally equivalent.

26
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@@ -9,16 +9,18 @@ CowAgent 2.0 has evolved from a simple chatbot into a super intelligent assistan
CowAgent's architecture consists of the following core modules:
<img src="https://cdn.link-ai.tech/doc/68ef7b212c6f791e0e74314b912149f9-sz_5847990.png" alt="CowAgent Architecture" />
### Core Modules
<img src="https://cdn.link-ai.tech/doc/cow-agent-arch-en.jpg.jpg" alt="CowAgent Architecture" />
| Module | Description |
| --- | --- |
| **Channels** | Message channel layer for receiving and sending messages. Supports Web, Feishu, DingTalk, WeCom, WeChat Official Account, and more |
| **Agent Core** | Agent engine including task planning, memory system, and skills engine |
| **Tools** | Tool layer for Agent to access OS resources. 10+ built-in tools |
| **Models** | Model layer with unified access to mainstream LLMs |
| **Plan** | Understands user intent, decomposes complex tasks into multi-step plans, and iteratively invokes tools until the goal is achieved |
| **Memory** | Automatically persists important information as core memory and daily memory, with hybrid keyword and vector retrieval for cross-session context continuity |
| **Knowledge** | Organizes structured knowledge by topic. The Agent autonomously distills valuable information into Markdown pages, maintaining indexes and cross-references to build a growing knowledge network |
| **Tools** | Core capability for Agent to access OS resources. 10+ built-in tools including file read/write, terminal, browser, scheduler, memory search, web search, and more |
| **Skills** | Loads and manages Skills. Supports one-click installation from Skill Hub, GitHub, and more, or custom skill creation through conversation |
| **Models** | Model layer with unified access to OpenAI, Claude, Gemini, DeepSeek, MiniMax, GLM, Qwen, and other mainstream LLMs |
| **Channels** | Message channel layer for receiving and sending messages. Supports Web console, WeChat, Feishu, DingTalk, WeCom, WeChat Official Account, and more with a unified protocol |
| **CLI** | Command-line system providing terminal commands (`cow`) and chat commands (`/`) for process management, skill installation, configuration, knowledge base management, and more |
## Agent Mode Workflow
@@ -28,7 +30,7 @@ When Agent mode is enabled, CowAgent runs as an autonomous agent with the follow
2. **Understand Intent** — Analyze task requirements and context
3. **Plan Task** — Break complex tasks into multiple steps
4. **Invoke Tools** — Select and execute appropriate tools for each step
5. **Update Memory** — Store important information in long-term memory
5. **Update Memory & Knowledge** — Store important information in long-term memory and organize structured knowledge into the knowledge base
6. **Return Result** — Send execution results back to the user
## Workspace Directory Structure
@@ -39,9 +41,12 @@ The Agent workspace is located at `~/cow` by default and stores system prompts,
~/cow/
├── system.md # Agent system prompt
├── user.md # User profile
├── MEMORY.md # Core memory
├── memory/ # Long-term memory storage
── core.md # Core memory
│ └── daily/ # Daily memory
── YYYY-MM-DD.md # Daily memory
├── knowledge/ # Personal knowledge base
│ ├── index.md # Knowledge index
│ └── <category>/ # Topic-based pages
└── skills/ # Custom skills
├── skill-1/
└── skill-2/
@@ -75,3 +80,4 @@ Configure Agent mode parameters in `config.json`:
| `agent_max_context_tokens` | Max context tokens | `40000` |
| `agent_max_context_turns` | Max context turns | `30` |
| `agent_max_steps` | Max decision steps per task | `15` |
| `knowledge` | Enable personal knowledge base | `true` |

104
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@@ -1,27 +1,46 @@
---
title: Features
description: CowAgent long-term memory, task planning, and skills system in detail
description: CowAgent long-term memory, task planning, skills system, CLI commands, and browser tool in detail
---
## 1. Long-term Memory
The memory system enables the Agent to remember important information over time. The Agent proactively stores information when users share preferences, decisions, or key facts, and automatically extracts summaries when conversations reach a certain length. Memory is divided into core memory and daily memory, with hybrid retrieval supporting both keyword search and vector search.
The memory system enables the Agent to remember important information over time, using a three-tier memory flow: conversation context (short-term) → daily memory (mid-term) → MEMORY.md (long-term), forming a complete memory lifecycle.
On first launch, the Agent proactively asks the user for key information and records it in the workspace (default `~/cow`) — including agent settings, user identity, and memory files.
In subsequent long-term conversations, the Agent intelligently stores or retrieves memory as needed, continuously updating its own settings, user preferences, and memory files, summarizing experiences and lessons learned — truly achieving autonomous thinking and continuous growth.
In subsequent long-term conversations, the Agent intelligently stores or retrieves memory as needed, continuously updating its own settings, user preferences, and memory files. **Deep Dream** distillation runs daily, consolidating scattered daily memories into refined long-term memory and generating a narrative-style dream diary.
<Frame>
<img src="https://cdn.link-ai.tech/doc/20260203000455.png" width="800" />
</Frame>
## 2. Task Planning and Tool Use
See [Long-term Memory](/en/memory) and [Deep Dream](/en/memory/deep-dream) for details.
## 2. Personal Knowledge Base
> The knowledge base system enables the Agent to continuously accumulate and organize structured knowledge. Unlike memory which records along a timeline, the knowledge base is organized by topics, transforming articles, conversation insights, and learning materials into interconnected Markdown pages that form a continuously growing knowledge network.
The Agent automatically organizes valuable information from conversations into knowledge pages, maintaining cross-references and indexes. The Web console provides document browsing and knowledge graph visualization. Knowledge is stored in `~/cow/knowledge/` within the workspace.
- **Auto-organization**: The Agent autonomously extracts and organizes structured knowledge during conversations, maintaining indexes and cross-references
- **Knowledge graph**: Automatically builds a knowledge graph from cross-references between pages, with interactive graph visualization in the Web console
- **Chat integration**: Knowledge document links referenced in Agent replies can be clicked directly in the Web console for viewing
- **CLI management**: Use `/knowledge` commands to view stats, browse directory, and toggle the feature with `/knowledge on|off`
<Frame>
<img src="https://cdn.link-ai.tech/doc/20260413105435.png" width="800" />
</Frame>
See [Personal Knowledge Base](/en/knowledge) for details.
## 3. Task Planning and Tool Use
Tools are the core of how the Agent accesses operating system resources. The Agent intelligently selects and invokes tools based on task requirements, performing file read/write, command execution, scheduled tasks, and more. Built-in tools are implemented in the project's `agent/tools/` directory.
**Key tools:** file read/write/edit, Bash terminal, file send, scheduler, memory search, web search, environment config, and more.
**Key tools:** file read/write/edit, Bash terminal, browser, file send, scheduler, memory search, web search, environment config, and more.
### 2.1 Terminal and File Access
### 3.1 Terminal and File Access
Access to the OS terminal and file system is the most fundamental and core capability. Many other tools and skills build on top of this. Users can interact with the Agent from a mobile device to operate resources on their personal computer or server:
@@ -29,15 +48,15 @@ Access to the OS terminal and file system is the most fundamental and core capab
<img src="https://cdn.link-ai.tech/doc/20260202181130.png" width="800" />
</Frame>
### 2.2 Programming Capability
### 3.2 Programming Capability
Combining programming and system access, the Agent can execute the complete **Vibecoding workflow** — from information search, asset generation, coding, testing, deployment, Nginx configuration, to publishing — all triggered by a single command from your phone:
<Frame>
<img src="https://cdn.link-ai.tech/doc/20260203121008.png" width="800" />
<img src="https://cdn.link-ai.tech/doc/20260318211018.png" width="800" />
</Frame>
### 2.3 Scheduled Tasks
### 3.3 Scheduled Tasks
The `scheduler` tool enables dynamic scheduled tasks, supporting **one-time tasks, fixed intervals, and Cron expressions**. Tasks can be triggered as either a **fixed message send** or an **Agent dynamic task** execution:
@@ -45,7 +64,15 @@ The `scheduler` tool enables dynamic scheduled tasks, supporting **one-time task
<img src="https://cdn.link-ai.tech/doc/20260202195402.png" width="800" />
</Frame>
### 2.4 Environment Variable Management
### 3.4 Browser
The built-in `browser` tool allows the Agent to control a Chromium browser to visit web pages, fill forms, click elements, and take screenshots, with support for dynamic JS-rendered pages. Run `cow install-browser` to install with one command, automatically adapting to server (headless) and desktop environments:
<Frame>
<img src="https://cdn.link-ai.tech/doc/20260401110103.png" width="800" />
</Frame>
### 3.5 Environment Variable Management
Secrets required by skills are stored in an environment variable file, managed by the `env_config` tool. You can update secrets through conversation, with built-in security protection and desensitization:
@@ -53,14 +80,17 @@ Secrets required by skills are stored in an environment variable file, managed b
<img src="https://cdn.link-ai.tech/doc/20260202234939.png" width="800" />
</Frame>
## 3. Skills System
## 4. Skills System
The Skills system provides infinite extensibility for the Agent. Each Skill consists of a description file, execution scripts (optional), and resources (optional), describing how to complete specific types of tasks. Skills allow the Agent to follow instructions for complex workflows, invoke tools, or integrate third-party systems.
- **[Skill Hub](https://skills.cowagent.ai/):** An open skill marketplace featuring official, community, and third-party skills. Install with one command.
- **Built-in skills:** Located in the project's `skills/` directory, including skill creator, image recognition, LinkAI agent, web fetch, and more. Built-in skills are automatically enabled based on dependency conditions (API keys, system commands, etc.).
- **Custom skills:** Created by users through conversation, stored in the workspace (`~/cow/skills/`), capable of implementing any complex business process or third-party integration.
### 3.1 Creating Skills
Install skills: `/skill install <name>` or `cow skill install <name>`, supporting Skill Hub, GitHub, ClawHub, URL, and more.
### 4.1 Creating Skills
The `skill-creator` skill enables rapid skill creation through conversation. You can ask the Agent to codify a workflow as a skill, or send any API documentation and examples for the Agent to complete the integration directly:
@@ -68,7 +98,7 @@ The `skill-creator` skill enables rapid skill creation through conversation. You
<img src="https://cdn.link-ai.tech/doc/20260202202247.png" width="800" />
</Frame>
### 3.2 Web Search and Image Recognition
### 4.2 Web Search and Image Recognition
- **Web search:** Built-in `web_search` tool, supports multiple search engines. Configure `BOCHA_API_KEY` or `LINKAI_API_KEY` to enable.
- **Image recognition:** Built-in `openai-image-vision` skill, supports `gpt-4.1-mini`, `gpt-4.1`, and other models. Requires `OPENAI_API_KEY`.
@@ -77,29 +107,33 @@ The `skill-creator` skill enables rapid skill creation through conversation. You
<img src="https://cdn.link-ai.tech/doc/20260202213219.png" width="800" />
</Frame>
### 3.3 Third-party Knowledge Bases and Plugins
### 4.3 Skill Hub
The `linkai-agent` skill makes all agents on [LinkAI](https://link-ai.tech/) available as Skills for the Agent, enabling multi-agent decision making.
Visit [skills.cowagent.ai](https://skills.cowagent.ai/) to browse all available skills, or use commands in conversation:
Configuration: set `LINKAI_API_KEY` via `env_config`, then add agent descriptions in `skills/linkai-agent/config.json`:
```json
{
"apps": [
{
"app_code": "G7z6vKwp",
"app_name": "LinkAI Customer Support",
"app_description": "Select only when the user needs help with LinkAI platform questions"
},
{
"app_code": "SFY5x7JR",
"app_name": "Content Creator",
"app_description": "Use only when the user needs to create images or videos"
}
]
}
```text
/skill list --remote # Browse Skill Hub
/skill search <keyword> # Search skills
/skill install <name> # Install with one command
```
<Frame>
<img src="https://cdn.link-ai.tech/doc/20260202234350.png" width="750" />
</Frame>
Also supports installing skills from GitHub, ClawHub, LinkAI, and other third-party platforms. See [Install Skills](/en/skills/install) for details.
<img src="https://cdn.link-ai.tech/doc/20260401110103.png" width="750" />
## 5. CLI Command System
CowAgent provides two command interaction methods, covering service management, skill installation, configuration, and more:
- **Terminal CLI:** Run `cow <command>` in the system terminal, supporting `start`, `stop`, `restart`, `update`, `status`, `logs`, `skill`, etc.
- **Chat commands:** Type `/<command>` in conversation. The Web console shows a command menu when you type `/`.
```bash
cow start # Start service
cow stop # Stop service
cow update # Update and restart
cow skill install pptx # Install a skill
cow install-browser # Install browser tool
```
See [Command Overview](https://docs.cowagent.ai/en/cli) for details.

13
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@@ -9,8 +9,8 @@ description: CowAgent - AI Super Assistant powered by LLMs
CowAgent can proactively think and plan tasks, operate computers and external resources, create and execute Skills, and continuously grow with long-term memory. It supports flexible switching between multiple models, handles text, voice, images, files and other multimodal messages, and can be integrated into WeChat, web, Feishu, DingTalk, WeCom, and WeChat Official Account. It runs 7x24 hours on your personal computer or server.
<Card title="GitHub" icon="github" href="https://github.com/zhayujie/chatgpt-on-wechat">
github.com/zhayujie/chatgpt-on-wechat
<Card title="GitHub" icon="github" href="https://github.com/zhayujie/CowAgent">
github.com/zhayujie/CowAgent
</Card>
## Core Capabilities
@@ -20,7 +20,10 @@ CowAgent can proactively think and plan tasks, operate computers and external re
Understands complex tasks and autonomously plans execution, continuously thinking and invoking tools until goals are achieved. Supports accessing file systems, terminals, browsers, schedulers, and other system resources through tools.
</Card>
<Card title="Long-term Memory" icon="database" href="/en/memory">
Automatically persists conversation memory to local files and databases, including core memory and daily memory, with keyword and vector retrieval support.
Three-tier memory flow (context → daily memory → global memory) with daily Deep Dream distillation, keyword and vector retrieval support.
</Card>
<Card title="Knowledge Base" icon="book" href="/en/knowledge">
Automatically organizes structured knowledge with knowledge graph visualization, building a continuously growing knowledge network through cross-references.
</Card>
<Card title="Skills System" icon="puzzle-piece" href="/en/skills/index">
Implements a Skills creation and execution engine with built-in skills, and supports custom Skills development through natural language conversation.
@@ -31,7 +34,7 @@ CowAgent can proactively think and plan tasks, operate computers and external re
<Card title="Tool System" icon="wrench" href="/en/tools/index">
Built-in tools for file I/O, terminal execution, browser automation, scheduled tasks, messaging, and more. The Agent autonomously invokes tools to accomplish complex tasks.
</Card>
<Card title="Command System" icon="terminal" href="/en/commands/index">
<Card title="Command System" icon="terminal" href="/en/cli/index">
Provides terminal CLI and in-chat commands for process management, skill installation, configuration, context inspection, and other common operations.
</Card>
<Card title="Multiple Model Support" icon="microchip" href="/en/models/index">
@@ -72,7 +75,7 @@ By default, the Web service starts after running. Access `http://localhost:9899/
## Disclaimer
1. This project follows the [MIT License](https://github.com/zhayujie/chatgpt-on-wechat/blob/master/LICENSE) and is intended for technical research and learning. Users must comply with local laws, regulations, policies, and corporate bylaws. Any illegal or rights-infringing use is prohibited.
1. This project follows the [MIT License](https://github.com/zhayujie/CowAgent/blob/master/LICENSE) and is intended for technical research and learning. Users must comply with local laws, regulations, policies, and corporate bylaws. Any illegal or rights-infringing use is prohibited.
2. Agent mode consumes more tokens than normal chat mode. Choose models based on effectiveness and cost. Agent has access to the host operating system — deploy with caution.
3. CowAgent focuses on open-source development and does not participate in, authorize, or issue any cryptocurrency.

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@@ -0,0 +1,89 @@
---
title: Personal Knowledge Base
description: CowAgent personal knowledge base — structured knowledge accumulation, automatic organization, and knowledge graph
---
The personal knowledge base is the Agent's long-term structured knowledge store, saved in the `knowledge/` directory within the workspace. Unlike memory, which is organized by timeline, the knowledge base organizes content by topic — articles, conversation insights, and learning materials are structured into interlinked Markdown pages, forming a continuously growing knowledge network.
## Core Concepts
### Knowledge vs Memory
| Dimension | Knowledge Base (knowledge/) | Long-term Memory (memory/) |
| --- | --- | --- |
| Organization | By topic, interlinked | By timeline, dated files |
| Writing | Agent actively structures content | Auto-summarized on context trimming |
| Content | Refined, structured knowledge | Raw conversation summaries |
| Use cases | Study notes, tech docs, project knowledge | Conversation history, event records |
### Directory Structure
```
~/cow/knowledge/
├── index.md # Knowledge index, entry point for all pages
├── log.md # Change log, records each write
├── concepts/ # Conceptual knowledge
│ └── machine-learning.md
├── entities/ # Entity knowledge (people, orgs, tools)
│ └── openai.md
└── sources/ # Source knowledge (articles, papers)
└── llm-wiki.md
```
The directory structure is flexible — the Agent automatically creates appropriate category directories based on actual content. Users can also customize the organization.
## Automatic Organization
Knowledge writing is an autonomous Agent behavior, triggered in these scenarios:
- **User shares an article or document** — The Agent automatically extracts key information and creates a structured knowledge page
- **Conversation produces valuable conclusions** — The Agent organizes insights into knowledge pages and links them to existing knowledge
- **User explicitly requests organization** — Users can guide the Agent to organize and update knowledge through conversation
Each knowledge page includes cross-reference links to related pages, gradually building a knowledge graph.
<Frame>
<img src="https://gist.github.com/user-attachments/assets/3ce92f78-1863-4820-8fa8-660c0f2b7f09" alt="Conversational knowledge ingest" />
</Frame>
## Knowledge Retrieval
The Agent can retrieve knowledge during conversation through:
- **Index lookup** — Quickly locate relevant pages via `knowledge/index.md`
- **Semantic search** — Search knowledge content via the `memory_search` tool
- **Direct read** — Read specific knowledge files via the `memory_get` tool
## Web Console
The web console provides a dedicated "Knowledge" module with:
- **Document browsing** — Tree-style directory structure, searchable and collapsible, click to view content
- **Knowledge graph** — Interactive graph visualizing relationships between knowledge pages
- **Chat integration** — Knowledge document links referenced in Agent replies are clickable for direct navigation
<Frame>
<img src="https://gist.github.com/user-attachments/assets/b7b9d6be-0ac1-4c65-803b-2c6b36bd59a7" alt="Knowledge document browsing" />
</Frame>
<Frame>
<img src="https://gist.github.com/user-attachments/assets/44ae68ca-96cc-40b9-ab33-cdbec34c2379" alt="Knowledge graph visualization" />
</Frame>
## CLI Commands
Manage the knowledge base with the `/knowledge` command:
| Command | Description |
| --- | --- |
| `/knowledge` | Show knowledge base statistics |
| `/knowledge list` | Display file directory as a tree |
| `/knowledge on` | Enable the knowledge base feature |
| `/knowledge off` | Disable the knowledge base feature |
## Configuration
| Parameter | Description | Default |
| --- | --- | --- |
| `knowledge` | Whether to enable the personal knowledge base | `true` |
| `agent_workspace` | Workspace path; knowledge is stored under the `knowledge/` subdirectory | `~/cow` |

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@@ -39,14 +39,15 @@ When conversation turns exceed `agent_max_context_turns`:
- The **oldest half** of complete turns is trimmed (preserving tool call chain integrity)
- Trimmed messages are summarized by LLM and **written to the daily memory file**
- Remaining turns stay intact
- Once the LLM summary is ready, it is also **injected into the first user message** of the retained context, helping the model maintain conversational continuity
- Summary injection runs asynchronously in the background and takes effect from the next turn onward
### 3. Token Budget Trimming
After turn trimming, if tokens still exceed the budget:
- **Fewer than 5 turns**: All turns undergo **text compression** — each turn keeps only the first user text and last Agent reply, removing intermediate tool call chains
- **5 or more turns**: The **first half** of turns is trimmed again, with discarded content also written to memory
- **5 or more turns**: The **first half** of turns is trimmed again, with discarded content written to memory and a context summary injected
### 4. Overflow Emergency Handling

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@@ -0,0 +1,90 @@
---
title: Deep Dream
description: Deep Dream — automatic distillation from conversations to permanent memory
---
Deep Dream is the core consolidation mechanism of CowAgent's memory system, responsible for distilling scattered daily memories into refined long-term memory and generating dream diaries.
## Memory Flow
CowAgent's memory progresses through three stages from short-term to long-term:
```
Conversation context (short-term) → Daily memory (mid-term) → MEMORY.md (long-term)
```
### 1. Conversation → Daily Memory
When conversation context is trimmed or during the daily scheduled summary, the system uses LLM to summarize conversation content into key events, writing them to the daily memory file `memory/YYYY-MM-DD.md`.
Triggers:
- **Context trimming** — Trimmed content is summarized when turn or token limits are exceeded
- **Daily schedule** — Automatically triggered at 23:55
- **API overflow** — Emergency save of current conversation summary
### 2. Daily Memory → MEMORY.md (Distillation)
After the daily summary completes, Deep Dream automatically runs distillation:
1. **Read materials** — Current `MEMORY.md` + today's daily memory
2. **LLM distillation** — Deduplicate, merge, prune, extract new information
3. **Overwrite MEMORY.md** — Output the refined long-term memory
4. **Generate dream diary** — Record discoveries and insights from the consolidation
### 3. Role of MEMORY.md
`MEMORY.md` is injected into the system prompt for every conversation, keeping the Agent aware of user preferences, decisions, and key facts. Therefore it must stay concise — Deep Dream targets approximately 30 entries or fewer.
## Distillation Rules
Deep Dream follows these consolidation rules:
| Operation | Description |
| --- | --- |
| **Merge & refine** | Combine similar entries into single high-density statements |
| **Extract new** | Pull preferences, decisions, people, experiences from daily memory |
| **Conflict update** | When new info contradicts old entries, newer info takes precedence |
| **Clean invalid** | Remove temporary records, blank entries, formatting artifacts |
| **Remove redundancy** | Delete old entries already covered by more refined statements |
## Dream Diary
Each distillation generates a dream diary saved at `memory/dreams/YYYY-MM-DD.md`, written in a narrative style recording:
- Duplications or contradictions found
- New insights extracted from daily memory
- Cleanups and optimizations performed
- Overall observations
Dream diaries can be viewed in the Web console under "Memory → Dream Diary" tab.
<Frame>
<img src="https://cdn.link-ai.tech/doc/20260414110032.png" width="800" />
</Frame>
## Manual Trigger
In addition to the automatic daily run, you can manually trigger distillation in chat:
```text
/memory dream [N]
```
- `N`: Consolidate the last N days of memory (default 3, max 30)
- Runs asynchronously in the background; you'll be notified in chat when complete
- Web notifications include clickable links to view MEMORY.md and dream diary
- Works without Agent initialization — can be used before the first conversation
<Tip>
After first deployment, it's recommended to run `/memory dream 30` once to distill all historical daily memories into MEMORY.md.
</Tip>
## Safety Mechanisms
| Mechanism | Description |
| --- | --- |
| **Skip on no content** | Distillation skipped when no daily memory exists, avoiding empty overwrites |
| **Input dedup** | In scheduled tasks, automatically skipped when input materials haven't changed |
| **Async execution** | Distillation runs in a background thread, never blocking conversation |
| **Sequential guarantee** | In scheduled tasks, daily flush completes before distillation starts |
| **No fabrication** | Prompt explicitly constrains consolidation to existing materials only |

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@@ -5,6 +5,8 @@ description: CowAgent long-term memory system — file persistence, automatic wr
Long-term memory is stored in workspace files, persisting across sessions. The Agent loads historical memory on demand via retrieval tools during conversation, and automatically writes conversation summaries to long-term memory when context is trimmed.
<img src="https://cdn.link-ai.tech/doc/memory-architecture-en.jpg" alt="Memory Architecture" />
## Memory Types
### Core Memory (MEMORY.md)
@@ -15,12 +17,17 @@ Stored in `~/cow/MEMORY.md`, containing long-term user preferences, important de
Stored in `~/cow/memory/` directory, named by date (e.g., `2026-03-08.md`), recording daily conversation summaries and key events. Files are only created on first write to avoid generating empty files.
### Dream Diary (memory/dreams/YYYY-MM-DD.md)
A byproduct of the Deep Dream (memory distillation) process, recording discoveries, deduplication operations, and new insights from each consolidation. Stored in `~/cow/memory/dreams/` directory, named by date.
## Automatic Writing
The Agent automatically persists conversation content to long-term memory through the following mechanisms:
- **On context trimming** — When conversation turns or tokens exceed the configured limit, the oldest half of the context is trimmed, and the discarded content is summarized by LLM into key information and written to the daily memory file
- **On context trimming** — When conversation turns or tokens exceed the configured limit, the oldest half of the context is trimmed, and the discarded content is summarized by LLM into key information and written to the daily memory file. The summary is also asynchronously injected into the retained context for conversational continuity
- **Daily scheduled summary** — A full summary is automatically triggered at 23:55 every day, ensuring memory is preserved even on low-activity days (skipped if content hasn't changed)
- **[Deep Dream (memory distillation)](/en/memory/deep-dream)** — Runs automatically after the daily summary, distilling daily memories into MEMORY.md and generating a dream diary
- **On API context overflow** — When the model API returns a context overflow error, the current conversation summary is saved as an emergency measure
All memory writes run asynchronously in a background thread (LLM summarization + file writing), never blocking normal conversation replies.
@@ -34,19 +41,25 @@ The memory system supports hybrid retrieval modes:
The Agent automatically triggers memory retrieval during conversation as needed, incorporating relevant historical information into context. Results are ranked by a combined score (default: 0.7 vector weight + 0.3 keyword weight). Daily memory scores decay over time (30-day half-life), while core memory does not decay.
## First Launch
## Related Files
On first launch, the Agent will proactively ask the user for key information and save it to the workspace (default `~/cow`):
Files related to memory in the workspace (default `~/cow`):
| File | Description |
| --- | --- |
| `system.md` | Agent system prompt and behavior settings |
| `user.md` | User identity information and preferences |
| `AGENT.md` | Agent personality and behavior settings |
| `USER.md` | User identity information and preferences |
| `RULE.md` | Custom rules and constraints |
| `MEMORY.md` | Core memory (long-term) |
| `memory/YYYY-MM-DD.md` | Daily memory (created on demand) |
| `memory/dreams/YYYY-MM-DD.md` | Dream diary (auto-generated by Deep Dream) |
## Web Console
The memory management page in the Web console allows browsing memory files and dream diaries, with tab switching support:
<Frame>
<img src="https://cdn.link-ai.tech/doc/20260203000455.png" width="800" />
<img src="https://cdn.link-ai.tech/doc/20260414171014.png" width="800" />
</Frame>
## Configuration

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@@ -12,6 +12,6 @@ description: Claude model configuration
| Parameter | Description |
| --- | --- |
| `model` | Options include `claude-sonnet-4-6`, `claude-opus-4-6`, `claude-sonnet-4-5`, `claude-sonnet-4-0`, `claude-3-5-sonnet-latest`, etc. See [official models](https://docs.anthropic.com/en/docs/about-claude/models/overview) |
| `model` | Options include `claude-sonnet-4-6`, `claude-opus-4-7`, `claude-opus-4-6`, `claude-sonnet-4-5`, `claude-sonnet-4-0`, `claude-3-5-sonnet-latest`, etc. See [official models](https://docs.anthropic.com/en/docs/about-claude/models/overview) |
| `claude_api_key` | Create at [Claude Console](https://console.anthropic.com/settings/keys) |
| `claude_api_base` | Optional. Defaults to `https://api.anthropic.com/v1`. Change to use third-party proxy |

12
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@@ -102,18 +102,18 @@ Reference: [China Quick Start](https://docs.bigmodel.cn/cn/coding-plan/quick-sta
```json
{
"bot_type": "openai",
"bot_type": "moonshot",
"model": "kimi-for-coding",
"open_ai_api_base": "https://api.kimi.com/coding/v1",
"open_ai_api_key": "YOUR_API_KEY"
"moonshot_base_url": "https://api.kimi.com/coding/v1",
"moonshot_api_key": "YOUR_API_KEY"
}
```
| Parameter | Description |
| --- | --- |
| `model` | `kimi-for-coding` |
| `open_ai_api_base` | `https://api.kimi.com/coding/v1` |
| `open_ai_api_key` | Coding Plan specific key (not shared with pay-as-you-go) |
| `model` | Use `kimi-for-coding` for auto-updating model, or specify a model such as `kimi-k2.6` |
| `moonshot_base_url` | `https://api.kimi.com/coding/v1` |
| `moonshot_api_key` | Coding Plan specific key (not shared with pay-as-you-go) |
Reference: [Key & Docs](https://www.kimi.com/code/docs/)

62
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View File

@@ -0,0 +1,62 @@
---
title: Custom
description: Custom provider for third-party APIs and local models
---
For models accessed via OpenAI-compatible APIs, such as:
- **Third-party API proxies**: Use a unified API Base to call multiple models
- **Local models**: Models deployed locally via Ollama, vLLM, LocalAI, etc.
- **Private deployments**: Self-hosted model services within your organization
<Note>
Unlike the `openai` provider, switching models under the Custom provider will not auto-switch the provider type. Your custom API address is always preserved.
</Note>
## Configuration
### Third-party API Proxy
```json
{
"bot_type": "custom",
"model": "deepseek-v4-flash",
"custom_api_key": "YOUR_API_KEY",
"custom_api_base": "https://{your-proxy.com}/v1"
}
```
| Parameter | Description |
| --- | --- |
| `bot_type` | Must be set to `custom` |
| `model` | Model name, any model supported by your proxy service |
| `custom_api_key` | API key provided by your proxy service |
| `custom_api_base` | API base URL, must be OpenAI-compatible |
### Local Models
Local models typically don't require an API key — just set the API base:
```json
{
"bot_type": "custom",
"model": "qwen3.5:27b",
"custom_api_base": "http://localhost:11434/v1"
}
```
Common local deployment tools and their default addresses:
| Tool | Default API Base |
| --- | --- |
| [Ollama](https://ollama.com) | `http://localhost:11434/v1` |
| [vLLM](https://docs.vllm.ai) | `http://localhost:8000/v1` |
| [LocalAI](https://localai.io) | `http://localhost:8080/v1` |
## Switching Models
Under the Custom provider, switching models only changes `model` without affecting `bot_type` or the API address:
```
/config model qwen3.5:27b
```

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@@ -7,26 +7,57 @@ Option 1: Native integration (recommended):
```json
{
"model": "deepseek-chat",
"model": "deepseek-v4-flash",
"deepseek_api_key": "YOUR_API_KEY"
}
```
| Parameter | Description |
| --- | --- |
| `model` | `deepseek-chat` (DeepSeek-V3.2, non-thinking mode), `deepseek-reasoner` (DeepSeek-R1, thinking mode) |
| `model` | Supports `deepseek-v4-flash` (default) and `deepseek-v4-pro` |
| `deepseek_api_key` | Create at [DeepSeek Platform](https://platform.deepseek.com/api_keys) |
| `deepseek_api_base` | Optional, defaults to `https://api.deepseek.com/v1`. Can be changed to a third-party proxy |
## Model Selection
| Model | Use Case |
| --- | --- |
| `deepseek-v4-flash` | Default: fast and cost-effective |
| `deepseek-v4-pro` | Stronger on complex tasks |
## Thinking Mode
The V4 series (`deepseek-v4-flash` / `deepseek-v4-pro`) supports an explicit "thinking mode": the model emits a chain-of-thought (`reasoning_content`) before the final answer to improve answer quality.
### Toggle
Controlled by the global `enable_thinking` setting:
```json
{
"enable_thinking": true
}
```
- `true`: thinking is on across all channels. The Web console renders the reasoning trace; IM channels (WeChat / WeCom / DingTalk / Feishu) don't render it but still benefit from higher answer quality.
- `false`: thinking off, faster responses with lower first-token latency.
### Notes
- **Sampling parameters**: under thinking mode, `temperature`, `top_p`, `presence_penalty`, and `frequency_penalty` are silently ignored by the server (no error). CowAgent skips sending them automatically.
- **Multi-turn tool calls**: once the history contains any tool-call turn, DeepSeek requires `reasoning_content` on every assistant message. CowAgent handles the round-trip automatically, including across mid-session toggles of the thinking switch.
<Tip>
Start with `deepseek-v4-flash`; switch to `deepseek-v4-pro` for harder tasks; enable `enable_thinking` when you want deeper reasoning.
</Tip>
Option 2: OpenAI-compatible configuration:
```json
{
"model": "deepseek-chat",
"model": "deepseek-v4-flash",
"bot_type": "openai",
"open_ai_api_key": "YOUR_API_KEY",
"open_ai_api_base": "https://api.deepseek.com/v1"
}
```

6
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@@ -5,14 +5,14 @@ description: Zhipu AI GLM model configuration
```json
{
"model": "glm-5-turbo",
"model": "glm-5.1",
"zhipu_ai_api_key": "YOUR_API_KEY"
}
```
| Parameter | Description |
| --- | --- |
| `model` | Options include `glm-5-turbo`, `glm-5`, `glm-4.7`, `glm-4-plus`, `glm-4-flash`, `glm-4-air`, etc. See [model codes](https://bigmodel.cn/dev/api/normal-model/glm-4) |
| `model` | Options include `glm-5.1`, `glm-5-turbo`, `glm-5`, `glm-4.7`, `glm-4-plus`, `glm-4-flash`, `glm-4-air`, etc. See [model codes](https://bigmodel.cn/dev/api/normal-model/glm-4) |
| `zhipu_ai_api_key` | Create at [Zhipu AI Console](https://www.bigmodel.cn/usercenter/proj-mgmt/apikeys) |
OpenAI-compatible configuration is also supported:
@@ -20,7 +20,7 @@ OpenAI-compatible configuration is also supported:
```json
{
"bot_type": "openai",
"model": "glm-5-turbo",
"model": "glm-5.1",
"open_ai_api_base": "https://open.bigmodel.cn/api/paas/v4",
"open_ai_api_key": "YOUR_API_KEY"
}

32
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@@ -6,7 +6,7 @@ description: Supported models and recommended choices for CowAgent
CowAgent supports mainstream LLMs from domestic and international providers. Model interfaces are implemented in the project's `models/` directory.
<Note>
For Agent mode, the following models are recommended based on quality and cost: MiniMax-M2.7, glm-5-turbo, kimi-k2.5, qwen3.5-plus, claude-sonnet-4-6, gemini-3.1-pro-preview
For Agent mode, the following models are recommended based on quality and cost: deepseek-v4-flash, MiniMax-M2.7, claude-sonnet-4-6, gemini-3.1-pro-preview, glm-5.1, qwen3.6-plus, kimi-k2.6
</Note>
## Configuration
@@ -18,21 +18,12 @@ You can also use the [LinkAI](https://link-ai.tech) platform interface to flexib
## Supported Models
<CardGroup cols={2}>
<Card title="DeepSeek" href="/en/models/deepseek">
deepseek-v4-flash, deepseek-v4-pro, and more
</Card>
<Card title="MiniMax" href="/en/models/minimax">
MiniMax-M2.7 and other series models
</Card>
<Card title="GLM (Zhipu AI)" href="/en/models/glm">
glm-5-turbo, glm-5 and other series models
</Card>
<Card title="Qwen (Tongyi Qianwen)" href="/en/models/qwen">
qwen3.5-plus, qwen3-max and more
</Card>
<Card title="Kimi" href="/en/models/kimi">
kimi-k2.5, kimi-k2 and more
</Card>
<Card title="Doubao (ByteDance)" href="/en/models/doubao">
doubao-seed series models
</Card>
<Card title="Claude" href="/en/models/claude">
claude-sonnet-4-6 and more
</Card>
@@ -42,8 +33,17 @@ You can also use the [LinkAI](https://link-ai.tech) platform interface to flexib
<Card title="OpenAI" href="/en/models/openai">
gpt-5.4, gpt-4.1, o-series and more
</Card>
<Card title="DeepSeek" href="/en/models/deepseek">
deepseek-chat, deepseek-reasoner
<Card title="GLM (Zhipu AI)" href="/en/models/glm">
glm-5.1, glm-5-turbo, glm-5 and other series models
</Card>
<Card title="Qwen (Tongyi Qianwen)" href="/en/models/qwen">
qwen3.6-plus, qwen3-max and more
</Card>
<Card title="Doubao (ByteDance)" href="/en/models/doubao">
doubao-seed series models
</Card>
<Card title="Kimi" href="/en/models/kimi">
kimi-k2.6, kimi-k2.5, kimi-k2 and more
</Card>
<Card title="LinkAI" href="/en/models/linkai">
Unified multi-model interface + knowledge base
@@ -51,5 +51,5 @@ You can also use the [LinkAI](https://link-ai.tech) platform interface to flexib
</CardGroup>
<Tip>
For a full list of model names, refer to the project's [`common/const.py`](https://github.com/zhayujie/chatgpt-on-wechat/blob/master/common/const.py) file.
For a full list of model names, refer to the project's [`common/const.py`](https://github.com/zhayujie/CowAgent/blob/master/common/const.py) file.
</Tip>

6
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@@ -5,14 +5,14 @@ description: Kimi (Moonshot) model configuration
```json
{
"model": "kimi-k2.5",
"model": "kimi-k2.6",
"moonshot_api_key": "YOUR_API_KEY"
}
```
| Parameter | Description |
| --- | --- |
| `model` | Options include `kimi-k2.5`, `kimi-k2`, `moonshot-v1-8k`, `moonshot-v1-32k`, `moonshot-v1-128k` |
| `model` | Options include `kimi-k2.6`, `kimi-k2.5`, `kimi-k2`, `moonshot-v1-8k`, `moonshot-v1-32k`, `moonshot-v1-128k` |
| `moonshot_api_key` | Create at [Moonshot Console](https://platform.moonshot.cn/console/api-keys) |
OpenAI-compatible configuration is also supported:
@@ -20,7 +20,7 @@ OpenAI-compatible configuration is also supported:
```json
{
"bot_type": "openai",
"model": "kimi-k2.5",
"model": "kimi-k2.6",
"open_ai_api_base": "https://api.moonshot.cn/v1",
"open_ai_api_key": "YOUR_API_KEY"
}

2
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View File

@@ -3,7 +3,7 @@ title: LinkAI
description: Unified access to multiple models via LinkAI platform
---
The [LinkAI](https://link-ai.tech) platform lets you flexibly switch between OpenAI, Claude, Gemini, DeepSeek, Qwen, Kimi, and other models, with support for knowledge base, workflows, plugins, and other Agent capabilities.
The [LinkAI](https://link-ai.tech) platform lets you flexibly switch between OpenAI, Claude, Gemini, DeepSeek, MiniMax, Qwen, Kimi, and other models, with support for knowledge base, workflows, plugins, and other Agent capabilities.
```json
{

6
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@@ -5,14 +5,14 @@ description: Tongyi Qianwen model configuration
```json
{
"model": "qwen3.5-plus",
"model": "qwen3.6-plus",
"dashscope_api_key": "YOUR_API_KEY"
}
```
| Parameter | Description |
| --- | --- |
| `model` | Options include `qwen3.5-plus`, `qwen3-max`, `qwen-max`, `qwen-plus`, `qwen-turbo`, `qwq-plus`, etc. |
| `model` | Options include `qwen3.6-plus`, `qwen3.5-plus`, `qwen3-max`, `qwen-max`, `qwen-plus`, `qwen-turbo`, `qwq-plus`, etc. |
| `dashscope_api_key` | Create at [Bailian Console](https://bailian.console.aliyun.com/?tab=model#/api-key). See [official docs](https://bailian.console.aliyun.com/?tab=api#/api) |
OpenAI-compatible configuration is also supported:
@@ -20,7 +20,7 @@ OpenAI-compatible configuration is also supported:
```json
{
"bot_type": "openai",
"model": "qwen3.5-plus",
"model": "qwen3.6-plus",
"open_ai_api_base": "https://dashscope.aliyuncs.com/compatible-mode/v1",
"open_ai_api_key": "YOUR_API_KEY"
}

5
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@@ -5,6 +5,9 @@ description: CowAgent version history
| Version | Date | Description |
| --- | --- | --- |
| [2.0.7](/en/releases/v2.0.7) | 2026.04.22 | Image Generation Skill (6-provider auto-routing), new models (Kimi K2.6, Claude Opus 4.7, GLM 5.1), knowledge base and Web Console improvements |
| [2.0.6](/en/releases/v2.0.6) | 2026.04.14 | Knowledge Base, Deep Dream Memory Distillation, Smart Context Compression, Web Console upgrades |
| [2.0.5](/en/releases/v2.0.5) | 2026.04.01 | Cow CLI, Skill Hub open source, Browser tool, WeCom Bot QR scan, and more |
| [2.0.4](/en/releases/v2.0.4) | 2026.03.22 | Personal WeChat channel, new model support, Japanese docs, script refactoring and bug fixes |
| [2.0.2](/en/releases/v2.0.2) | 2026.02.27 | Web Console upgrade, multi-channel concurrency, session persistence |
| [2.0.1](/en/releases/v2.0.1) | 2026.02.27 | Built-in Web Search tool, smart context management, multiple fixes |
@@ -21,4 +24,4 @@ description: CowAgent version history
| 1.5.0 | 2023.11.10 | gpt-4-turbo, dall-e-3, tts multimodal |
| 1.0.0 | 2022.12.12 | Project created, first ChatGPT integration |
See [GitHub Releases](https://github.com/zhayujie/chatgpt-on-wechat/releases) for full history.
See [GitHub Releases](https://github.com/zhayujie/CowAgent/releases) for full history.

4
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@@ -5,7 +5,7 @@ description: CowAgent 2.0 - Full upgrade from chatbot to AI super assistant
CowAgent 2.0 is a comprehensive upgrade from a chatbot to an **AI super assistant** — capable of autonomous thinking and task planning, long-term memory, operating computers, and creating and executing skills.
**Release Date**: 2026.02.03 | [GitHub Release](https://github.com/zhayujie/chatgpt-on-wechat/releases/tag/2.0.0)
**Release Date**: 2026.02.03 | [GitHub Release](https://github.com/zhayujie/CowAgent/releases/tag/2.0.0)
## Key Updates
@@ -60,4 +60,4 @@ CowAgent 2.0 is a comprehensive upgrade from a chatbot to an **AI super assistan
## Contributing
Welcome to [submit feedback](https://github.com/zhayujie/chatgpt-on-wechat/issues) and [contribute code](https://github.com/zhayujie/chatgpt-on-wechat/pulls).
Welcome to [submit feedback](https://github.com/zhayujie/CowAgent/issues) and [contribute code](https://github.com/zhayujie/CowAgent/pulls).

38
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@@ -3,34 +3,34 @@ title: v2.0.1
description: CowAgent 2.0.1 - Built-in Web Search, smart context management, multiple fixes
---
**Release Date**: 2026.02.27 | [Full Changelog](https://github.com/zhayujie/chatgpt-on-wechat/compare/2.0.0..2.0.1)
**Release Date**: 2026.02.27 | [Full Changelog](https://github.com/zhayujie/CowAgent/compare/2.0.0..2.0.1)
## New Features
- **Built-in Web Search tool**: Integrated web search as a built-in Agent tool, reducing decision cost ([4f0ea5d](https://github.com/zhayujie/chatgpt-on-wechat/commit/4f0ea5d7568d61db91ff69c91c429e785fd1b1c2))
- **Claude Opus 4.6 model support**: Added support for Claude Opus 4.6 model ([#2661](https://github.com/zhayujie/chatgpt-on-wechat/pull/2661))
- **WeCom image recognition**: Support image message recognition in WeCom channel ([#2667](https://github.com/zhayujie/chatgpt-on-wechat/pull/2667))
- **Built-in Web Search tool**: Integrated web search as a built-in Agent tool, reducing decision cost ([4f0ea5d](https://github.com/zhayujie/CowAgent/commit/4f0ea5d7568d61db91ff69c91c429e785fd1b1c2))
- **Claude Opus 4.6 model support**: Added support for Claude Opus 4.6 model ([#2661](https://github.com/zhayujie/CowAgent/pull/2661))
- **WeCom image recognition**: Support image message recognition in WeCom channel ([#2667](https://github.com/zhayujie/CowAgent/pull/2667))
## Improvements
- **Smart context management**: Resolved chat context overflow with intelligent context trimming strategy to prevent token limits ([cea7fb7](https://github.com/zhayujie/chatgpt-on-wechat/commit/cea7fb7490c53454602bf05955a0e9f059bcf0fd), [8acf2db](https://github.com/zhayujie/chatgpt-on-wechat/commit/8acf2dbdfe713b84ad74b761b7f86674b1c1904d)) [#2663](https://github.com/zhayujie/chatgpt-on-wechat/issues/2663)
- **Runtime info dynamic update**: Automatic update of timestamps and other runtime info in system prompts via dynamic functions ([#2655](https://github.com/zhayujie/chatgpt-on-wechat/pull/2655), [#2657](https://github.com/zhayujie/chatgpt-on-wechat/pull/2657))
- **Skill prompt optimization**: Improved Skill system prompt generation, simplified tool descriptions for better Agent performance ([6c21833](https://github.com/zhayujie/chatgpt-on-wechat/commit/6c218331b1f1208ea8be6bf226936d3b556ade3e))
- **GLM custom API Base URL**: Support custom API Base URL for GLM models ([#2660](https://github.com/zhayujie/chatgpt-on-wechat/pull/2660))
- **Startup script optimization**: Improved `run.sh` script interaction and configuration flow ([#2656](https://github.com/zhayujie/chatgpt-on-wechat/pull/2656))
- **Decision step logging**: Added Agent decision step logging for debugging ([cb303e6](https://github.com/zhayujie/chatgpt-on-wechat/commit/cb303e6109c50c8dfef1f5e6c1ec47223bf3cd11))
- **Smart context management**: Resolved chat context overflow with intelligent context trimming strategy to prevent token limits ([cea7fb7](https://github.com/zhayujie/CowAgent/commit/cea7fb7490c53454602bf05955a0e9f059bcf0fd), [8acf2db](https://github.com/zhayujie/CowAgent/commit/8acf2dbdfe713b84ad74b761b7f86674b1c1904d)) [#2663](https://github.com/zhayujie/CowAgent/issues/2663)
- **Runtime info dynamic update**: Automatic update of timestamps and other runtime info in system prompts via dynamic functions ([#2655](https://github.com/zhayujie/CowAgent/pull/2655), [#2657](https://github.com/zhayujie/CowAgent/pull/2657))
- **Skill prompt optimization**: Improved Skill system prompt generation, simplified tool descriptions for better Agent performance ([6c21833](https://github.com/zhayujie/CowAgent/commit/6c218331b1f1208ea8be6bf226936d3b556ade3e))
- **GLM custom API Base URL**: Support custom API Base URL for GLM models ([#2660](https://github.com/zhayujie/CowAgent/pull/2660))
- **Startup script optimization**: Improved `run.sh` script interaction and configuration flow ([#2656](https://github.com/zhayujie/CowAgent/pull/2656))
- **Decision step logging**: Added Agent decision step logging for debugging ([cb303e6](https://github.com/zhayujie/CowAgent/commit/cb303e6109c50c8dfef1f5e6c1ec47223bf3cd11))
## Bug Fixes
- **Scheduler memory loss**: Fixed memory loss caused by Scheduler dispatcher ([a77a874](https://github.com/zhayujie/chatgpt-on-wechat/commit/a77a8741b500a408c6f5c8868856fb4b018fe9db))
- **Empty tool calls & long results**: Fixed handling of empty tool calls and excessively long tool results ([0542700](https://github.com/zhayujie/chatgpt-on-wechat/commit/0542700f9091ebb08c1a56103b0f0f45f24aa621))
- **OpenAI Function Call**: Fixed function call compatibility with OpenAI models ([158c87a](https://github.com/zhayujie/chatgpt-on-wechat/commit/158c87ab8b05bae054cc1b4eacdbb64fc1062ba9))
- **Claude tool name field**: Removed extraneous tool name field from Claude model responses ([eec10cb](https://github.com/zhayujie/chatgpt-on-wechat/commit/eec10cb5db6a3d5bc12ef606606532237d2c5f6e))
- **MiniMax reasoning**: Optimized MiniMax model reasoning content handling, hidden thinking process output ([c72cda3](https://github.com/zhayujie/chatgpt-on-wechat/commit/c72cda33864bd1542012ee6e0a8bd8c6c88cb5ed), [72b1cac](https://github.com/zhayujie/chatgpt-on-wechat/commit/72b1cacea1ba0d1f3dedacbab2e088e98fd7e172))
- **GLM thinking process**: Hidden GLM model thinking process display ([72b1cac](https://github.com/zhayujie/chatgpt-on-wechat/commit/72b1cacea1ba0d1f3dedacbab2e088e98fd7e172))
- **Feishu connection & SSL**: Fixed Feishu channel SSL certificate errors and connection issues ([229b14b](https://github.com/zhayujie/chatgpt-on-wechat/commit/229b14b6fcabe7123d53cab1dea39f38dab26d6d), [8674421](https://github.com/zhayujie/chatgpt-on-wechat/commit/867442155e7f095b4f38b0856f8c1d8312b5fcf7))
- **model_type validation**: Fixed `AttributeError` caused by non-string `model_type` ([#2666](https://github.com/zhayujie/chatgpt-on-wechat/pull/2666))
- **Scheduler memory loss**: Fixed memory loss caused by Scheduler dispatcher ([a77a874](https://github.com/zhayujie/CowAgent/commit/a77a8741b500a408c6f5c8868856fb4b018fe9db))
- **Empty tool calls & long results**: Fixed handling of empty tool calls and excessively long tool results ([0542700](https://github.com/zhayujie/CowAgent/commit/0542700f9091ebb08c1a56103b0f0f45f24aa621))
- **OpenAI Function Call**: Fixed function call compatibility with OpenAI models ([158c87a](https://github.com/zhayujie/CowAgent/commit/158c87ab8b05bae054cc1b4eacdbb64fc1062ba9))
- **Claude tool name field**: Removed extraneous tool name field from Claude model responses ([eec10cb](https://github.com/zhayujie/CowAgent/commit/eec10cb5db6a3d5bc12ef606606532237d2c5f6e))
- **MiniMax reasoning**: Optimized MiniMax model reasoning content handling, hidden thinking process output ([c72cda3](https://github.com/zhayujie/CowAgent/commit/c72cda33864bd1542012ee6e0a8bd8c6c88cb5ed), [72b1cac](https://github.com/zhayujie/CowAgent/commit/72b1cacea1ba0d1f3dedacbab2e088e98fd7e172))
- **GLM thinking process**: Hidden GLM model thinking process display ([72b1cac](https://github.com/zhayujie/CowAgent/commit/72b1cacea1ba0d1f3dedacbab2e088e98fd7e172))
- **Feishu connection & SSL**: Fixed Feishu channel SSL certificate errors and connection issues ([229b14b](https://github.com/zhayujie/CowAgent/commit/229b14b6fcabe7123d53cab1dea39f38dab26d6d), [8674421](https://github.com/zhayujie/CowAgent/commit/867442155e7f095b4f38b0856f8c1d8312b5fcf7))
- **model_type validation**: Fixed `AttributeError` caused by non-string `model_type` ([#2666](https://github.com/zhayujie/CowAgent/pull/2666))
## Platform Compatibility
- **Windows compatibility**: Fixed path handling, file encoding, and `os.getuid()` unavailability on Windows across multiple tool modules ([051ffd7](https://github.com/zhayujie/chatgpt-on-wechat/commit/051ffd78a372f71a967fd3259e37fe19131f83cf), [5264f7c](https://github.com/zhayujie/chatgpt-on-wechat/commit/5264f7ce18360ee4db5dcb4ebe67307977d40014))
- **Windows compatibility**: Fixed path handling, file encoding, and `os.getuid()` unavailability on Windows across multiple tool modules ([051ffd7](https://github.com/zhayujie/CowAgent/commit/051ffd78a372f71a967fd3259e37fe19131f83cf), [5264f7c](https://github.com/zhayujie/CowAgent/commit/5264f7ce18360ee4db5dcb4ebe67307977d40014))

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@@ -3,7 +3,7 @@ title: v2.0.2
description: CowAgent 2.0.2 - Web Console upgrade, multi-channel concurrency, session persistence
---
**Release Date**: 2026.02.27 | [Full Changelog](https://github.com/zhayujie/chatgpt-on-wechat/compare/2.0.1...master)
**Release Date**: 2026.02.27 | [Full Changelog](https://github.com/zhayujie/CowAgent/compare/2.0.1...master)
## Highlights
@@ -53,7 +53,7 @@ View Agent runtime logs in real-time for monitoring and troubleshooting:
<img width="850" src="https://cdn.link-ai.tech/doc/20260227173514.png" />
Related commits: [f1a1413](https://github.com/zhayujie/chatgpt-on-wechat/commit/f1a1413), [c0702c8](https://github.com/zhayujie/chatgpt-on-wechat/commit/c0702c8), [394853c](https://github.com/zhayujie/chatgpt-on-wechat/commit/394853c), [1c71c4e](https://github.com/zhayujie/chatgpt-on-wechat/commit/1c71c4e), [5e3eccb](https://github.com/zhayujie/chatgpt-on-wechat/commit/5e3eccb), [e1dc037](https://github.com/zhayujie/chatgpt-on-wechat/commit/e1dc037), [5edbf4c](https://github.com/zhayujie/chatgpt-on-wechat/commit/5edbf4c), [7d258b5](https://github.com/zhayujie/chatgpt-on-wechat/commit/7d258b5)
Related commits: [f1a1413](https://github.com/zhayujie/CowAgent/commit/f1a1413), [c0702c8](https://github.com/zhayujie/CowAgent/commit/c0702c8), [394853c](https://github.com/zhayujie/CowAgent/commit/394853c), [1c71c4e](https://github.com/zhayujie/CowAgent/commit/1c71c4e), [5e3eccb](https://github.com/zhayujie/CowAgent/commit/5e3eccb), [e1dc037](https://github.com/zhayujie/CowAgent/commit/e1dc037), [5edbf4c](https://github.com/zhayujie/CowAgent/commit/5edbf4c), [7d258b5](https://github.com/zhayujie/CowAgent/commit/7d258b5)
### 🔀 Multi-Channel Concurrency
@@ -67,24 +67,24 @@ Configuration: Set multiple channels in `config.json` via `channel_type` separat
}
```
Related commits: [4694594](https://github.com/zhayujie/chatgpt-on-wechat/commit/4694594), [7cce224](https://github.com/zhayujie/chatgpt-on-wechat/commit/7cce224), [7d258b5](https://github.com/zhayujie/chatgpt-on-wechat/commit/7d258b5), [c9adddb](https://github.com/zhayujie/chatgpt-on-wechat/commit/c9adddb)
Related commits: [4694594](https://github.com/zhayujie/CowAgent/commit/4694594), [7cce224](https://github.com/zhayujie/CowAgent/commit/7cce224), [7d258b5](https://github.com/zhayujie/CowAgent/commit/7d258b5), [c9adddb](https://github.com/zhayujie/CowAgent/commit/c9adddb)
### 💾 Session Persistence
Session history is now persisted to a local SQLite database. Conversation context is automatically restored after service restarts. Historical conversations in the Web Console are also restored.
Related commits: [29bfbec](https://github.com/zhayujie/chatgpt-on-wechat/commit/29bfbec), [9917552](https://github.com/zhayujie/chatgpt-on-wechat/commit/9917552), [925d728](https://github.com/zhayujie/chatgpt-on-wechat/commit/925d728)
Related commits: [29bfbec](https://github.com/zhayujie/CowAgent/commit/29bfbec), [9917552](https://github.com/zhayujie/CowAgent/commit/9917552), [925d728](https://github.com/zhayujie/CowAgent/commit/925d728)
## New Models
- **Gemini 3.1 Pro Preview**: Added `gemini-3.1-pro-preview` model support ([52d7cad](https://github.com/zhayujie/chatgpt-on-wechat/commit/52d7cad))
- **Claude 4.6 Sonnet**: Added `claude-4.6-sonnet` model support ([52d7cad](https://github.com/zhayujie/chatgpt-on-wechat/commit/52d7cad))
- **Qwen3.5 Plus**: Added `qwen3.5-plus` model support ([e59a289](https://github.com/zhayujie/chatgpt-on-wechat/commit/e59a289))
- **MiniMax M2.5**: Added `Minimax-M2.5` model support ([48db538](https://github.com/zhayujie/chatgpt-on-wechat/commit/48db538))
- **GLM-5**: Added `glm-5` model support ([48db538](https://github.com/zhayujie/chatgpt-on-wechat/commit/48db538))
- **Kimi K2.5**: Added `kimi-k2.5` model support ([48db538](https://github.com/zhayujie/chatgpt-on-wechat/commit/48db538))
- **Doubao 2.0 Code**: Added `doubao-2.0-code` coding-specialized model ([ab28ee5](https://github.com/zhayujie/chatgpt-on-wechat/commit/ab28ee5))
- **DashScope Models**: Added Alibaba Cloud DashScope model name support ([ce58f23](https://github.com/zhayujie/chatgpt-on-wechat/commit/ce58f23))
- **Gemini 3.1 Pro Preview**: Added `gemini-3.1-pro-preview` model support ([52d7cad](https://github.com/zhayujie/CowAgent/commit/52d7cad))
- **Claude 4.6 Sonnet**: Added `claude-4.6-sonnet` model support ([52d7cad](https://github.com/zhayujie/CowAgent/commit/52d7cad))
- **Qwen3.5 Plus**: Added `qwen3.5-plus` model support ([e59a289](https://github.com/zhayujie/CowAgent/commit/e59a289))
- **MiniMax M2.5**: Added `Minimax-M2.5` model support ([48db538](https://github.com/zhayujie/CowAgent/commit/48db538))
- **GLM-5**: Added `glm-5` model support ([48db538](https://github.com/zhayujie/CowAgent/commit/48db538))
- **Kimi K2.5**: Added `kimi-k2.5` model support ([48db538](https://github.com/zhayujie/CowAgent/commit/48db538))
- **Doubao 2.0 Code**: Added `doubao-2.0-code` coding-specialized model ([ab28ee5](https://github.com/zhayujie/CowAgent/commit/ab28ee5))
- **DashScope Models**: Added Alibaba Cloud DashScope model name support ([ce58f23](https://github.com/zhayujie/CowAgent/commit/ce58f23))
## Website & Documentation
@@ -93,6 +93,6 @@ Related commits: [29bfbec](https://github.com/zhayujie/chatgpt-on-wechat/commit/
## Bug Fixes
- **Gemini DingTalk image recognition**: Fixed Gemini unable to process image markers in DingTalk channel ([05a3304](https://github.com/zhayujie/chatgpt-on-wechat/commit/05a3304)) ([#2670](https://github.com/zhayujie/chatgpt-on-wechat/pull/2670)) Thanks [@SgtPepper114](https://github.com/SgtPepper114)
- **Startup script dependencies**: Fixed dependency installation issue in `run.sh` script ([b6fc9fa](https://github.com/zhayujie/chatgpt-on-wechat/commit/b6fc9fa))
- **Bare except cleanup**: Replaced `bare except` with `except Exception` for better exception handling ([adca89b](https://github.com/zhayujie/chatgpt-on-wechat/commit/adca89b)) ([#2674](https://github.com/zhayujie/chatgpt-on-wechat/pull/2674)) Thanks [@haosenwang1018](https://github.com/haosenwang1018)
- **Gemini DingTalk image recognition**: Fixed Gemini unable to process image markers in DingTalk channel ([05a3304](https://github.com/zhayujie/CowAgent/commit/05a3304)) ([#2670](https://github.com/zhayujie/CowAgent/pull/2670)) Thanks [@SgtPepper114](https://github.com/SgtPepper114)
- **Startup script dependencies**: Fixed dependency installation issue in `run.sh` script ([b6fc9fa](https://github.com/zhayujie/CowAgent/commit/b6fc9fa))
- **Bare except cleanup**: Replaced `bare except` with `except Exception` for better exception handling ([adca89b](https://github.com/zhayujie/CowAgent/commit/adca89b)) ([#2674](https://github.com/zhayujie/CowAgent/pull/2674)) Thanks [@haosenwang1018](https://github.com/haosenwang1018)

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@@ -16,40 +16,40 @@ Added personal WeChat (`weixin`) channel — the most important update in this r
Documentation: [WeChat Channel](https://docs.cowagent.ai/channels/weixin).
Related commits: [ce89869](https://github.com/zhayujie/chatgpt-on-wechat/commit/ce89869), [a483ec0](https://github.com/zhayujie/chatgpt-on-wechat/commit/a483ec0), [c1421e0](https://github.com/zhayujie/chatgpt-on-wechat/commit/c1421e0)
Related commits: [ce89869](https://github.com/zhayujie/CowAgent/commit/ce89869), [a483ec0](https://github.com/zhayujie/CowAgent/commit/a483ec0), [c1421e0](https://github.com/zhayujie/CowAgent/commit/c1421e0)
## 🤖 New Models
- **MiniMax-M2.7**: Added MiniMax-M2.7 model support
- **GLM-5-Turbo**: Added Zhipu glm-5-turbo model support
Related commits: [9192f6f](https://github.com/zhayujie/chatgpt-on-wechat/commit/9192f6f)
Related commits: [9192f6f](https://github.com/zhayujie/CowAgent/commit/9192f6f)
## 🔧 Script Refactoring
- **run.sh Refactoring**: Extracted shared logic and eliminated duplication, reducing from 600+ lines to 177 lines ([49d8707](https://github.com/zhayujie/chatgpt-on-wechat/commit/49d8707))
- **Executable Permission**: Fixed `run.sh` file permission issue ([652156e](https://github.com/zhayujie/chatgpt-on-wechat/commit/652156e))
- **run.sh Refactoring**: Extracted shared logic and eliminated duplication, reducing from 600+ lines to 177 lines ([49d8707](https://github.com/zhayujie/CowAgent/commit/49d8707))
- **Executable Permission**: Fixed `run.sh` file permission issue ([652156e](https://github.com/zhayujie/CowAgent/commit/652156e))
## ⚡ Improvements
- **Unified Request Headers**: Added identification headers to external requests across Agent services (Chat, Embedding, Vision, WebSearch, etc.) ([b4e711f](https://github.com/zhayujie/chatgpt-on-wechat/commit/b4e711f))
- **Auto-Repair Messages**: Enhanced message protocol fault tolerance with automatic repair of malformed message sequences ([b8b57e3](https://github.com/zhayujie/chatgpt-on-wechat/commit/b8b57e3))
- **Unified Request Headers**: Added identification headers to external requests across Agent services (Chat, Embedding, Vision, WebSearch, etc.) ([b4e711f](https://github.com/zhayujie/CowAgent/commit/b4e711f))
- **Auto-Repair Messages**: Enhanced message protocol fault tolerance with automatic repair of malformed message sequences ([b8b57e3](https://github.com/zhayujie/CowAgent/commit/b8b57e3))
## 🌍 Japanese Documentation
Added complete Japanese documentation covering getting started guide, channel integration, model configuration and other major sections. Thanks [@Ikko Ashimine](https://github.com/ikoamu)
Related commits: [5487c0b](https://github.com/zhayujie/chatgpt-on-wechat/commit/5487c0b)
Related commits: [5487c0b](https://github.com/zhayujie/CowAgent/commit/5487c0b)
## 🐛 Bug Fixes
- **WeCom Bot Compatibility**: Fixed compatibility with older `websocket-client` versions, added unified WebSocket compatibility layer ([bc7f627](https://github.com/zhayujie/chatgpt-on-wechat/commit/bc7f627))
- **run.sh PID**: Fixed process PID retrieval error in `run.sh` ([9febb07](https://github.com/zhayujie/chatgpt-on-wechat/commit/9febb07))
- **Feishu Encoding**: Fixed message and log encoding issue in Feishu channel ([7d0e156](https://github.com/zhayujie/chatgpt-on-wechat/commit/7d0e156))
- **Feishu Config**: Removed redundant `feishu_bot_name` dependency in `run.sh` ([1b5be1b](https://github.com/zhayujie/chatgpt-on-wechat/commit/1b5be1b))
- **WeCom Bot Compatibility**: Fixed compatibility with older `websocket-client` versions, added unified WebSocket compatibility layer ([bc7f627](https://github.com/zhayujie/CowAgent/commit/bc7f627))
- **run.sh PID**: Fixed process PID retrieval error in `run.sh` ([9febb07](https://github.com/zhayujie/CowAgent/commit/9febb07))
- **Feishu Encoding**: Fixed message and log encoding issue in Feishu channel ([7d0e156](https://github.com/zhayujie/CowAgent/commit/7d0e156))
- **Feishu Config**: Removed redundant `feishu_bot_name` dependency in `run.sh` ([1b5be1b](https://github.com/zhayujie/CowAgent/commit/1b5be1b))
## 📦 Upgrade
Run `./run.sh update` for a one-click upgrade, or manually pull the latest code and restart. See [Upgrade Guide](https://docs.cowagent.ai/guide/upgrade) for details.
**Release Date**: 2026.03.22 | [Full Changelog](https://github.com/zhayujie/chatgpt-on-wechat/compare/2.0.3...master)
**Release Date**: 2026.03.22 | [Full Changelog](https://github.com/zhayujie/CowAgent/compare/2.0.3...master)

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@@ -0,0 +1,77 @@
---
title: v2.0.5
description: CowAgent 2.0.5 - Cow CLI, Skill Hub open source, Browser tool, WeCom Bot QR scan, and more
---
## 🖥️ Cow CLI
New CLI command system for managing CowAgent from terminal and chat:
- **Terminal commands**: Run `cow <command>` for `start`, `stop`, `restart`, `update`, `status`, `logs`, etc.
- **Chat commands**: Type `/<command>` in conversation for `/help`, `/status`, `/config`, `/skill`, `/context`, `/logs`, `/version`, etc.
- **Web console**: Type `/` in the input box to open a slash command menu, with arrow-key input history
- **Windows support**: New PowerShell script `scripts/run.ps1` with `cow` command support
Docs: [Command Overview](https://docs.cowagent.ai/en/cli)
<img src="https://cdn.link-ai.tech/doc/20260401114549.png" width="750" />
## 🧩 Cow Skill Hub Open Source
[Cow Skill Hub](https://skills.cowagent.ai) is now open source and live — browse, search, install, and publish AI Agent skills:
- **One-command install**: `/skill install <name>` in chat or `cow skill install <name>` in terminal
- **Multi-source**: Install from Skill Hub, GitHub, ClawHub, LinkAI, and more
- **Search**: `/skill search` and `/skill list --remote` to browse the hub
- **Publish**: Submit your own skills at [skills.cowagent.ai/submit](https://skills.cowagent.ai/submit)
- **Mirror**: Mirror acceleration for faster downloads in China
Open source repo: [cow-skill-hub](https://github.com/zhayujie/cow-skill-hub)
Docs: [Skill Hub](https://docs.cowagent.ai/en/skills/hub), [Install Skills](https://docs.cowagent.ai/en/skills/install)
<img src="https://cdn.link-ai.tech/doc/20260401110103.png" width="750" />
## 🌐 Browser Tool
New Browser tool — Agent can control a Chromium browser to visit and interact with web pages:
- **Navigation & interaction**: `navigate`, `click`, `fill`, `select`, `scroll`, `press`, etc.
- **Page snapshot**: Compact DOM snapshot for efficient page understanding, auto-snapshot after navigation
- **Screenshot**: Save page screenshots to workspace
- **JavaScript execution**: Run custom scripts on pages
- **CLI install**: `cow install-browser` for one-command setup
- **Docker support**: Browser install built into Docker image
Docs: [Browser Tool](https://docs.cowagent.ai/en/tools/browser)
<img src="https://cdn.link-ai.tech/doc/20260401115728.png" width="750" />
## 🤖 WeCom Bot QR Code Setup
WeCom Bot channel now supports QR code scan for one-click bot creation:
- **QR scan in Web console**: Select "Scan QR" mode, scan with WeCom to auto-create and connect a bot — no manual configuration needed
- **Manual mode**: Still supports manual Bot ID and Secret input
- **Stream push optimization**: Throttled push to avoid WebSocket congestion
Docs: [WeCom Bot](https://docs.cowagent.ai/en/channels/wecom-bot)
PR: [#2735](https://github.com/zhayujie/CowAgent/pull/2735). Thanks [@WecomTeam](https://github.com/WecomTeam)
## 🐛 Other Improvements & Fixes
- **DeepSeek module**: Independent DeepSeek Bot with dedicated `deepseek_api_key` config ([#2719](https://github.com/zhayujie/CowAgent/pull/2719)). Thanks [@6vision](https://github.com/6vision)
- **Web console**: Slash command menu, input history, new model options, mobile optimization ([#2731](https://github.com/zhayujie/CowAgent/pull/2731)). Thanks [@zkjqd](https://github.com/zkjqd)
- **Context loss**: Fix context loss after trimming ([393f0c0](https://github.com/zhayujie/CowAgent/commit/393f0c0))
- **System prompt**: Fix system prompt not rebuilding on every turn ([13f5fde](https://github.com/zhayujie/CowAgent/commit/13f5fde))
- **Gemini**: Fix missing model attribute in GoogleGeminiBot ([#2716](https://github.com/zhayujie/CowAgent/pull/2716)). Thanks [@cowagent](https://github.com/cowagent)
- **WeChat channel**: Fix file send failures and filename loss ([6d9b7ba](https://github.com/zhayujie/CowAgent/commit/6d9b7ba), [45faa9c](https://github.com/zhayujie/CowAgent/commit/45faa9c))
- **Docker**: Fix volume permissions, reduce image size ([3eb8348](https://github.com/zhayujie/CowAgent/commit/3eb8348), [4470d4c](https://github.com/zhayujie/CowAgent/commit/4470d4c))
- **Security**: Fix Memory Content path traversal risk. Thanks [@August829](https://github.com/August829)
## 📦 Upgrade
Run `cow update` or `./run.sh update` to upgrade, or pull the latest code and restart. See [Upgrade Guide](https://docs.cowagent.ai/en/guide/upgrade).
**Release Date**: 2026.04.01 | [Full Changelog](https://github.com/zhayujie/CowAgent/compare/2.0.4...master)

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---
title: v2.0.6
description: CowAgent 2.0.6 - Knowledge Base, Deep Dream Memory Distillation, Smart Context Compression, Web Console Multi-Session and More
---
## Project Renamed to CowAgent
The repository has been officially renamed from `chatgpt-on-wechat` to **CowAgent**, evolving into a full-featured AI Agent assistant.
- New URL: [github.com/zhayujie/CowAgent](https://github.com/zhayujie/CowAgent) — GitHub auto-redirects the old URL
- CLI commands, config files, and documentation links remain compatible — no extra steps needed
## 📚 Knowledge Base
New personal knowledge base system — Agent can autonomously build and maintain structured knowledge, retrieving it on demand during conversations:
- **Index-driven self-organizing structure**: Knowledge is stored in `knowledge/` directory, auto-organized by category, with each knowledge page as an independent Markdown file
- **Auto-write**: Send files, links, or other knowledge to the Agent, or it will automatically create/update knowledge pages when valuable information is identified in conversation
- **Hybrid retrieval**: Supports keyword full-text search and vector semantic retrieval, loading relevant knowledge on demand during conversations
- **Visualization**: File tree browsing and knowledge graph visualization, with in-document links for direct navigation
- **Command management**: `/knowledge` for stats, `/knowledge list` for directory structure, `/knowledge on|off` to toggle
<img src="https://cdn.link-ai.tech/doc/20260413105435.png" width="750" />
Docs: [Knowledge Base](https://docs.cowagent.ai/en/knowledge)
## 🌙 Deep Dream Memory Distillation
A new memory consolidation mechanism that automatically distills scattered conversation memories into refined long-term memory daily:
- **Three-tier memory flow**: Conversation context (short-term) → Daily memory (mid-term) → MEMORY.md (long-term), forming a complete memory lifecycle
- **Auto-distillation**: Runs daily at 23:55, reads the day's daily memory and MEMORY.md, performs deduplication, merging, and pruning via LLM, outputting a refined MEMORY.md
- **Dream diary**: Each distillation generates a narrative-style dream diary recording discoveries and insights, stored in `memory/dreams/`
- **Manual trigger**: `/memory dream [N]` to manually trigger with configurable lookback days (default 3, max 30), with chat notification on completion
- **Web console**: Memory management page now includes a "Dream Diary" tab for browsing all dream diaries
Docs: [Deep Dream](https://docs.cowagent.ai/en/memory/deep-dream)
<img src="https://cdn.link-ai.tech/doc/20260414120158.png" width="750" />
## 🧠 Smart Context Compression
When context exceeds limits, trimmed portions are summarized by LLM and asynchronously injected to maintain conversation continuity:
- **Async LLM summary**: Trimmed messages are summarized into key information by LLM, written to daily memory files and injected into retained context
- **Multi-model compatible**: Uses the primary model for summarization, compatible with Claude, OpenAI, MiniMax and other model message format requirements
Docs: [Short-term Memory](https://docs.cowagent.ai/en/memory/context)
## 💬 Web Console Upgrades
Multiple enhancements to the Web console:
- **Multi-session management**: Create and switch between independent sessions, sidebar session list with auto-generated and manually editable titles
- **Password protection**: Set a login password via `web_console_password` config option
- **Deep thinking**: Display model thinking process in Web console, controlled by `enable_thinking` config option
- **Scheduled push**: Scheduled task results can be pushed to Web console
- **Message copy**: One-click copy of raw Markdown content from AI reply bubbles
- **Language toggle**: Top language switch button now shows current language for more intuitive interaction
## 🤖 Model Updates
- **Vision optimization**: Image recognition tool prefers the primary model with automatic multi-provider fallback. Docs: [Vision Tool](https://docs.cowagent.ai/en/tools/vision)
- **MiniMax new model**: Added MiniMax-M2.7-highspeed model and MiniMax TTS voice synthesis support. Thanks @octo-patch
- **Qwen**: Added qwen3.6-plus model support
## 🐛 Other Improvements & Fixes
- **Memory prompts**: `MEMORY.md` injected into system prompt by default, with refined memory retrieval and write trigger conditions for enhanced proactive writing
- **System prompt**: Optimized system prompt style and tone guidance
- **Browser tool**: Enhanced implicit interactive element detection
- **File send**: Fixed common file types (tar.gz, zip, etc.) not being sent correctly. Thanks @6vision
- **macOS compatibility**: Fixed network pre-check timeout compatibility issue. Thanks @Moliang Zhou
- **Windows compatibility**: Fixed PowerShell compatibility, process updates, terminal encoding and other issues on Windows
- **Python 3.13+**: Fixed missing `legacy-cgi` dependency for Python 3.13+
- **WeChat channel**: Updated personal WeChat channel version
## 📦 Upgrade
Run `cow update` or `./run.sh update` to upgrade, or pull the latest code and restart. See [Upgrade Guide](https://docs.cowagent.ai/en/guide/upgrade).
**Release Date**: 2026.04.14 | [Full Changelog](https://github.com/zhayujie/CowAgent/compare/2.0.5...master)

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---
title: v2.0.7
description: CowAgent 2.0.7 - Image Generation Skill (6-provider auto-routing), new models, knowledge base enhancements, Web Console improvements and bug fixes
---
## 🎨 Image Generation Skill
New built-in `image-generation` skill supporting text-to-image, image-to-image, and multi-image fusion across six major providers:
- **6-provider auto-routing**: OpenAI (GPT-Image-2) → Gemini (Nano Banana) → Seedream (Volcengine Ark) → Qwen (DashScope) → MiniMax → LinkAI — automatically selects from configured providers in fixed priority order, with automatic fallback on failure
- **Zero model selection**: Just configure an API key and it works — no need to manually specify a model. You can also name a specific model in conversation (e.g. "draw a cat with seedream")
- **Flexible control**: Supports `quality`, `size` (512/1K4K), and `aspect_ratio` parameters, with each provider automatically mapping to its supported values
- **Image editing**: Pass existing images for editing, style transfer, or multi-image fusion (Seedream supports up to 14 reference images)
- **Skill-level config**: Pin a default model via `skill.image-generation.model` in `config.json`
- **Image lightbox**: All images in the Web console now support click-to-enlarge preview
Docs: [Image Generation Skill](https://docs.cowagent.ai/en/skills/image-generation)
## 🤖 New Model Support
- **Kimi K2.6**: Added `kimi-k2.6` model support
- **Claude Opus 4.7**: Added `claude-opus-4-7` model support
- **GLM 5.1**: Added `glm-5.1` model support
- **Kimi Coding Plan**: Support for Kimi Coding Plan mode
- **Custom model providers**: New custom model provider configuration for easier integration with additional vendors
## 💬 Web Console Improvements
- **Smart auto-scroll**: Improved chat scroll behaviour — no longer forces scroll to bottom while the user is reading earlier messages
- **Reasoning content cap**: Deep thinking content capped at 4 KB to prevent frontend lag
- **Mobile optimisation**: Session sidebar hidden by default on mobile, with overlay dismiss support
- **Session title fix**: Fixed title auto-generation fallback logic and Bridge reset on config change
- **Image preview dedup**: Fixed duplicate image rendering within the same message
## 📚 Knowledge Base Enhancements
- **Nested directory support**: Knowledge base listing and display now support multi-level nested directories
- **Root-level file display**: Show `index.md`, `log.md` and other root-level files in the knowledge tree
- **Empty state stats fix**: Root-level files no longer interfere with empty-state detection
## 🌙 Dream Memory Improvements
- **Structured organisation**: Dream memory files are now auto-archived by date with a cleaner directory structure
- **Schedule jitter**: Daily dream trigger includes random jitter to avoid concurrency conflicts in cluster deployments
## 🛠 Skill System Improvements
- **Skill manager refresh**: `/skill` commands now automatically refresh the skill manager to keep state in sync
- **Installation sources**: Skill installation supports multiple source formats (URL, zip, local file, etc.) with automatic target directory handling
## 🐛 Other Fixes
- **Gemini fix**: Fixed Gemini tool calls not returning results
- **Agent retry**: Empty-response retries no longer drop `tool_calls`
- **Docker env sync**: Fixed environment variables not syncing after config update in Docker environments
- **Python 3.7 compat**: Deferred `Literal` import for Python 3.7 compatibility
- **Model switch notification**: Fixed bot_type change notification not showing after model switch. Thanks @6vision
- **Config command**: `/config` now supports setting `enable_thinking`
- **Thinking display**: Deep thinking display disabled by default
## 📦 Upgrade
Run `cow update` or `./run.sh update` to upgrade, or pull the latest code and restart. See [Upgrade Guide](https://docs.cowagent.ai/en/guide/upgrade).
**Release Date**: 2026.04.22 | [Full Changelog](https://github.com/zhayujie/CowAgent/compare/2.0.6...master)

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| `metadata.always` | Always load (default false) |
<Tip>
See the [Skill Creator documentation](https://github.com/zhayujie/chatgpt-on-wechat/blob/master/skills/skill-creator/SKILL.md) for details.
See the [Skill Creator documentation](https://github.com/zhayujie/CowAgent/blob/master/skills/skill-creator/SKILL.md) for details.
</Tip>

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---
title: image-generation - Image Generation
description: Text-to-image / image-to-image / multi-image fusion with automatic multi-provider routing and fallback
---
A general-purpose image generation and editing skill supporting six providers: OpenAI, Gemini, Seedream (Volcengine Ark), Qwen (DashScope), MiniMax, and LinkAI. No need to choose a model manually — the script automatically selects a configured provider based on a fixed priority order.
## Model Selection
`image-generation` uses a "fixed priority + automatic fallback" strategy — just configure your keys and it works:
1. **Priority order**: `OpenAI → Gemini → Seedream → Qwen → MiniMax → LinkAI`
2. **Unconfigured providers are skipped**: only providers with an API key participate
3. **Automatic fallback on failure**: on errors like 401, model not enabled, or network issues, the next provider is tried
4. **Specified model goes first**: if a specific model name is provided, its provider is promoted to the front
### Supported Models
| Provider | Models / Aliases | Notes |
| --- | --- | --- |
| OpenAI | `gpt-image-2`, `gpt-image-1` | General-purpose, high quality, supports `quality` parameter |
| Gemini Nano Banana | `nano-banana-2`, `nano-banana-pro`, `nano-banana` | Corresponds to `gemini-3.1-flash`, `gemini-3-pro`, `gemini-2.5-flash` image variants |
| Seedream (Volcengine Ark) | `seedream-5.0-lite`, `seedream-4.5` | Native 2K4K, up to 14 reference images for fusion |
| Qwen (DashScope) | `qwen-image-2.0`, `qwen-image-2.0-pro` | Strong with Chinese text rendering and text-image layouts |
| MiniMax | `image-01` | Fast and simple image generation |
| LinkAI | Any model | Universal proxy, used as fallback |
<Note>
By default, the Agent does not pick a model — it uses automatic routing. If you want a specific model, just say so in the conversation, e.g. "use seedream to draw a cat" or "generate a poster with gpt-image-2". You can also pin a default model via the "Custom Configuration" section below.
</Note>
## Custom Configuration
### API Key Setup
You need **at least one** provider key. Configuring multiple providers enables automatic fallback. There are three ways to set up keys:
#### Option 1: Automatic Reuse of Existing Keys
If you have already configured model keys in the web console or `config.json` (e.g. `openai_api_key`, `gemini_api_key`, etc.), these keys are **automatically synced** to the corresponding environment variables at startup. In other words, if your chat model works, image generation can use the same key with zero extra configuration.
#### Option 2: Configure in config.json
Add the key fields directly to `config.json`:
```json
{
"openai_api_key": "sk-xxx",
"openai_api_base": "https://api.openai.com/v1",
"gemini_api_key": "AIza-xxx",
"ark_api_key": "xxx",
"dashscope_api_key": "sk-xxx",
"minimax_api_key": "xxx",
"linkai_api_key": "xxx"
}
```
A restart is required after changes. Each key also has a corresponding `*_api_base` field for custom endpoints.
#### Option 3: Configure via Conversation
Send an API key in the chat and the Agent will save it to `~/cow/.env` using the `env_config` tool — **no restart needed**. For example:
```
Set OPENAI_API_KEY to sk-xxx
```
Or:
```
Configure ARK_API_KEY as xxx
```
### API Key Reference
| Environment Variable | config.json Field | Provider | Default Base URL |
| --- | --- | --- | --- |
| `OPENAI_API_KEY` | `openai_api_key` | OpenAI | `https://api.openai.com/v1` |
| `GEMINI_API_KEY` | `gemini_api_key` | Gemini | `https://generativelanguage.googleapis.com` |
| `ARK_API_KEY` | `ark_api_key` | Volcengine Ark (Seedream) | `https://ark.cn-beijing.volces.com/api/v3` |
| `DASHSCOPE_API_KEY` | `dashscope_api_key` | Alibaba DashScope (Qwen) | `https://dashscope.aliyuncs.com` |
| `MINIMAX_API_KEY` | `minimax_api_key` | MiniMax | `https://api.minimaxi.com` |
| `LINKAI_API_KEY` | `linkai_api_key` | LinkAI | `https://api.link-ai.tech` |
### Pinning a Default Model
To force all image generation through a specific provider's model, add this to `config.json`:
```json
"skill": {
"image-generation": {
"model": "seedream-5.0-lite"
}
}
```
At startup, this is automatically converted to the environment variable `SKILL_IMAGE_GENERATION_MODEL`, and the script will always use this model's provider for generation.
## Enabling and Disabling
`image-generation` is a built-in skill that **automatically adjusts its status based on API keys**:
- **Key configured**: the skill is active — the Agent will invoke it when asked to draw
- **Key not configured**: the skill still appears in context (marked as "needs configuration") — the Agent will guide the user to set up a key rather than failing silently
To control it manually:
```text
/skill disable image-generation # Disable (won't be invoked even if keys are present)
/skill enable image-generation # Re-enable
```
In the terminal: `cow skill disable image-generation` / `cow skill enable image-generation`.
## Parameters
| Parameter | Type | Required | Default | Description |
| --- | --- | --- | --- | --- |
| `prompt` | string | Yes | — | Image description |
| `image_url` | string / list | No | null | Input image(s) for editing — local path or URL. Pass multiple for multi-image fusion |
| `quality` | string | No | auto | `low` / `medium` / `high` — only some providers support this |
| `size` | string | No | auto | `512` / `1K` / `2K` / `3K` / `4K`, or pixel value like `1024x1024` |
| `aspect_ratio` | string | No | null | `1:1` / `3:2` / `2:3` / `16:9` / `9:16` / `21:9`; Gemini also supports `1:4` / `4:1` / `1:8` / `8:1` |
<Warning>
**Higher quality and larger size cost more and take longer.**
- For everyday conversations and quick previews, use the defaults (`auto`) or `quality=low` + `size=1K` — roughly 20 seconds
- For posters or when the user explicitly asks for high resolution, use `quality=high` + `size=2K/4K` — may take 15 minutes depending on the model
</Warning>
## Output
On success:
```json
{
"model": "doubao-seedream-5-0-260128",
"images": [
{"url": "/path/to/output.png"}
]
}
```
On failure: `{ "error": "..." }`. After an error, **do not retry directly** — it is almost always a configuration issue (wrong key, incorrect API base, model not enabled). Have the user fix the configuration first.
## Common Use Cases
- **Text-to-image**: generate illustrations, posters, icons, avatars, storyboards, etc. from a description
- **Image-to-image**: change styles, swap elements, add decorations or text on an existing image
- **Multi-image fusion**: combine multiple reference images into one (outfit swaps, character group photos, etc.)
<Note>
- Bash timeout should be set to 600 seconds. Each provider has a 300-second HTTP timeout, but the script may try multiple providers sequentially
- Input images are automatically compressed to ≤ 4 MB with the longest edge ≤ 4096 px
- Gemini / Seedream / Qwen / MiniMax do not support the `quality` parameter — passing it has no effect
- Seedream defaults to 2K; `seedream-5.0-lite` supports up to 3K; `seedream-4.5` supports up to 4K
</Note>

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- **URL** — Install from zip archives or SKILL.md links
- **Conversational creation** — Let the Agent create skills through natural language conversation
See [Install Skills](/en/skills/install) and [Skill Management Commands](/en/commands/skill) for details. You can also [create skills](/en/skills/create) through conversation.
See [Install Skills](/en/skills/install) and [Skill Management Commands](/en/cli/skill) for details. You can also [create skills](/en/skills/create) through conversation.
## Skill Loading Priority

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```
<Tip>
All commands above work in the terminal by replacing `/skill` with `cow skill`. See [Skill Management Commands](/en/commands/skill) for full documentation.
All commands above work in the terminal by replacing `/skill` with `cow skill`. See [Skill Management Commands](/en/cli/skill) for full documentation.
</Tip>

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---
title: knowledge-wiki - Knowledge Base
description: Maintain a local structured knowledge base with automatic archiving, categorisation, and cross-referencing
---
Organises notes, insights, and reference materials from your conversations into a structured local knowledge base, automatically maintaining an index and cross-references between pages.
`knowledge-wiki` maintains a `knowledge/` directory in your workspace — essentially the Agent's "second brain". The skill is marked `always: true`, so it is **always loaded** and requires no external dependencies.
## When It Triggers
- You share an article, document, or URL that you want to keep for future reference
- A conversation produces conclusions worth retaining long-term
- You want to look up something you accumulated earlier
## Directory Structure
```
knowledge/
├── index.md # Global index (must be maintained)
├── log.md # Operation log (append-only)
└── <category>/ # Category subdirectories (grouped by content)
└── <slug>.md # Knowledge page (lowercase-hyphenated filename)
```
## Three Core Operations
### 1. Ingest
When you share some material, the Agent will:
1. Read and understand the original content, extracting key information
2. Decide which category it belongs to — check `index.md` first; create a new category if none fits
3. Generate a knowledge page at `knowledge/<category>/<slug>.md`
4. Update the index `index.md` and the log `log.md`
### 2. Synthesise
When a conversation produces new conclusions or insights:
1. Create a new knowledge page under an appropriate category
2. Add cross-links to and from related existing pages
3. Update the index and log
### 3. Query
When you ask about previously accumulated knowledge:
1. Search `index.md` for potentially relevant pages
2. Open specific pages with the `read` tool
3. Supplement with `memory_search` if needed
4. Include links to knowledge pages in the answer so you can click through to the source
## Page Format
```markdown
# Page Title
> Source: <source URL or brief description>
Body content. Link between pages using relative paths:
[Related Page](../category/related-page.md)
## Key Points
- ...
## Related Pages
- [Page A](../category/page-a.md) — why it's related
```
<Note>
- `> Source:` records where this knowledge came from. Always include it when there is a clear source
- Cross-references are important: when creating or updating a page, remember to add back-links in the related pages too
- **Only link to pages that already exist.** If a concept deserves its own page, create it first, then add the link
</Note>
## Index Format
`knowledge/index.md` uses a flat list grouped by category, one knowledge page per line:
```markdown
# Knowledge Index
## Category A
- [Page Title](category-a/page-slug.md) — one-line summary
## Category B
- [Page Title](category-b/page-slug.md) — one-line summary
```
No tables, no emojis. Category names and organisation can be adjusted freely.
## Log Format
`knowledge/log.md` is append-only — newest entries go at the bottom:
```markdown
## [YYYY-MM-DD] ingest | Page Title
## [YYYY-MM-DD] synthesize | Page Title
```
## Writing Guidelines
- **Filenames**: lowercase with hyphens, e.g. `machine-learning.md`
- **One topic per page** — link related content across pages
- **Update, don't duplicate** — if a page already exists, update it rather than creating a new one
- **Always update the index** `knowledge/index.md` after any change
- **Distill, don't copy** — capture the key points, not the entire source
- **Use full paths when referencing knowledge pages in conversations**, e.g. `[Title](knowledge/<category>/<slug>.md)`. Use relative paths only for inter-page links
- **Include links when answering questions based on knowledge pages** so users can dig deeper

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---
title: skill-creator - Skill Creator
description: Create, install, and update skills — standardises SKILL.md format and directory structure
---
`skill-creator` is a "meta-skill" that helps the Agent create, install, and update other skills, ensuring every skill follows a consistent `SKILL.md` format and directory layout.
## When It Triggers
- The user wants to install a skill from a URL or remote repository
- The user wants to create a brand-new skill from scratch
- An existing skill needs upgrading or restructuring
## What Is a Skill?
A skill is a reusable instruction set plus optional scripts and assets. It injects domain expertise into the Agent so it can handle specific tasks like a specialist.
A skill typically contains:
1. **Specialised workflow** — step-by-step instructions for a category of tasks
2. **Tool usage** — how to call a particular API or process a particular file format
3. **Domain knowledge** — team conventions, business rules, data schemas, etc.
4. **Attached resources** — scripts, reference docs, templates, etc.
<Note>
**Core principle: less is more.** Only write what the Agent wouldn't figure out on its own. For every line you add, ask yourself: is it worth the tokens?
</Note>
## Directory Structure
```
skill-name/
├── SKILL.md # Required: skill definition
│ ├── YAML frontmatter (name / description are mandatory)
│ └── Markdown body (instructions + examples)
└── Optional resources
├── scripts/ # Executable scripts (Python / Bash, etc.)
├── references/ # Large reference docs the Agent reads on demand
└── assets/ # Templates, icons, etc. used directly in output
```
## SKILL.md Specification
Frontmatter fields in the SKILL.md header:
| Field | Description |
| --- | --- |
| `name` | Skill name — lowercase with hyphens, must match the directory name |
| `description` | **The most important field.** Clearly state what the skill does and when to use it. The Agent reads this to decide whether to invoke it. All trigger-related descriptions go here, not in the body |
| `metadata.cowagent.requires.bins` | System CLI tools that must be installed |
| `metadata.cowagent.requires.env` | Required environment variables (all must be present) |
| `metadata.cowagent.requires.anyEnv` | Multiple API keys — at least one must be set |
| `metadata.cowagent.requires.anyBins` | Multiple tools — at least one must be installed |
| `metadata.cowagent.always` | Set to `true` to always load, skipping dependency checks |
| `metadata.cowagent.emoji` | Display emoji (optional) |
| `metadata.cowagent.os` | OS restriction, e.g. `["darwin", "linux"]` |
<Note>
The `category` field does not need to be set manually — the system automatically sets it to `skill`.
</Note>
Two ways to declare API key dependencies:
```yaml
metadata:
cowagent:
requires:
env: ["MYAPI_KEY"] # Must be present
```
```yaml
metadata:
cowagent:
requires:
anyEnv: ["OPENAI_API_KEY", "LINKAI_API_KEY"] # At least one
```
**Skills are auto-enabled/disabled based on dependencies**: they activate when all required environment variables are present and deactivate when any are missing — no need for manual `/skill enable`.
## Resource Directories
| Directory | What goes here | What does NOT go here |
| --- | --- | --- |
| `scripts/` | Code that needs to run repeatedly, or scripts that produce deterministic results | Demo-only code snippets |
| `references/` | Documents **over 500 lines** that genuinely won't fit in SKILL.md (e.g. a full DB schema) | General API docs, tutorials, examples |
| `assets/` | Files that appear in the final output (templates, icons, boilerplate, etc.) | Explanatory documentation |
<Warning>
**In principle, everything goes in `SKILL.md`** — only split into resource directories when it truly won't fit.
Do not add `README.md`, `CHANGELOG.md`, or `INSTALLATION_GUIDE.md` to a skill — put everything in `SKILL.md`. Resource directories should only contain scripts that actually run or assets that are actually used.
</Warning>
## Installing External Skills
After installation, the skill lands in `<workspace>/skills/<name>/`.
| Source | How to install |
| --- | --- |
| URL (single file) | curl / web_fetch |
| URL (zip archive) | Download and extract |
| Local SKILL.md | Read directly |
| Local zip archive | Extract |
Installation steps:
1. Locate the `SKILL.md` (may be at the root or in a subdirectory of the archive)
2. Read the `name` from the frontmatter
3. Copy the **entire skill directory** (including `SKILL.md`, `scripts/`, `assets/`, etc.) to `<workspace>/skills/<name>/`
4. If the archive contains an `INSTALL.md` or similar setup script, run it — but the final result must still reside under `<workspace>/skills/<name>/`
## Creating a Skill from Scratch
Recommended order:
1. **Clarify requirements** — ask the user for a few concrete use cases (don't ask too many at once)
2. **Plan the structure** — does this skill need scripts? Reference docs? Template assets?
3. **Scaffold** — use the init script:
```bash
scripts/init_skill.py <skill-name> --path <workspace>/skills [--resources scripts,references,assets] [--examples]
```
4. **Fill in content** — write SKILL.md, add scripts and resources. Always test scripts after writing them
5. **Validate** (optional):
```bash
scripts/quick_validate.py <workspace>/skills/<skill-name>
```
6. **Iterate** — keep improving based on real-world usage feedback
## Naming Conventions
- Use only lowercase letters, digits, and hyphens. Normalise user-given names, e.g. `Plan Mode` → `plan-mode`
- Maximum 64 characters
- Keep it short, start with a verb, make it self-explanatory
- Use tool names as prefixes when appropriate, e.g. `gh-address-comments`, `linear-address-issue`
- The directory name and the `name` field must match exactly
## Three-Level Loading
Skills are not loaded into context all at once — they use a three-level progressive loading mechanism:
1. **Metadata** (`name` + `description`) — always in context (~100 words). The Agent uses this to decide whether to invoke the skill
2. **SKILL.md body** — loaded only when the skill is activated; keep it under 500 lines
3. **Resource files** — read on demand by the Agent
For skills with multiple variants (e.g. multi-cloud deployment), organise like this:
```
cloud-deploy/
├── SKILL.md # Main workflow and provider selection logic
└── references/
├── aws.md
├── gcp.md
└── azure.md
```
When the user picks AWS, the Agent only reads `aws.md` — no need to load all three providers.
## Common Design Patterns
**Step-by-step**: numbered steps with corresponding scripts.
```markdown
1. Analyse form structure (run analyze_form.py)
2. Generate field mappings (edit fields.json)
3. Auto-fill the form (run fill_form.py)
```
**Branching**: different flows based on user intent.
```markdown
1. Determine operation type:
**Creating new content?** → follow the "Create" workflow
**Editing existing content?** → follow the "Edit" workflow
```
**Template-based**: when output format has strict requirements, include a template in SKILL.md for the Agent to follow.

19
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@@ -1,9 +1,11 @@
---
title: memory - Memory
description: Search and read long-term memory
title: memory - Memory & Knowledge
description: Search and read long-term memory and knowledge base files
---
The memory tool contains two sub-tools: `memory_search` (search memory) and `memory_get` (read memory files).
The memory tool contains two sub-tools: `memory_search` (search memory) and `memory_get` (read memory or knowledge files).
When the [knowledge base](/en/knowledge) feature is enabled, both tools also support accessing files under the `knowledge/` directory.
## Dependencies
@@ -11,7 +13,7 @@ No extra dependencies, available by default. Managed by the Agent Core memory sy
## memory_search
Search historical memory with hybrid keyword and vector retrieval.
Search historical memory and knowledge base content with hybrid keyword and vector retrieval.
| Parameter | Type | Required | Description |
| --- | --- | --- | --- |
@@ -19,11 +21,11 @@ Search historical memory with hybrid keyword and vector retrieval.
## memory_get
Read the content of a specific memory file.
Read the content of a specific memory or knowledge file.
| Parameter | Type | Required | Description |
| --- | --- | --- | --- |
| `path` | string | Yes | Relative path to memory file (e.g. `MEMORY.md`, `memory/2026-01-01.md`) |
| `path` | string | Yes | Relative path to the file (e.g. `MEMORY.md`, `memory/2026-01-01.md`, `knowledge/concepts/rag.md`) |
| `start_line` | integer | No | Start line number |
| `end_line` | integer | No | End line number |
@@ -34,3 +36,8 @@ The Agent automatically invokes memory tools in these scenarios:
- When the user shares important information → stores to memory
- When historical context is needed → searches relevant memory
- When conversation reaches a certain length → extracts summary for storage
- When discussing domain knowledge → retrieves relevant pages from the knowledge base
<Note>
When `knowledge` is set to `false` in config, the tool descriptions and search scope automatically adjust to include only memory files.
</Note>

72
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View File

@@ -0,0 +1,72 @@
---
title: vision - Image Analysis
description: Analyze image content (recognition, description, OCR, etc.)
---
Analyze local images or image URLs using Vision API. Supports content description, text extraction (OCR), object recognition, and more.
## Model Selection
The vision tool uses a multi-level auto-selection strategy with automatic fallback — no manual configuration required:
1. **Main model** — uses the currently configured main model for image recognition (zero extra cost)
2. **Other configured models** — auto-discovers other models with configured API keys as alternatives
3. **OpenAI** — uses `open_ai_api_key` to call gpt-4.1-mini
4. **LinkAI** — uses `linkai_api_key` to call LinkAI vision service
When `use_linkai=true`, LinkAI is promoted to the highest priority.
If the current provider fails, the tool automatically tries the next one until it succeeds or all fail.
### Supported Models
| Vendor | Vision Model | Notes |
| --- | --- | --- |
| OpenAI / Compatible | Main model | All OpenAI-compatible multimodal models |
| Qwen (DashScope) | Main model | Via MultiModalConversation API |
| Claude | Main model | Anthropic native image format |
| Gemini | Main model | inlineData format |
| Doubao | Main model | doubao-seed-2-0 series natively supported |
| Kimi (Moonshot) | Main model | kimi-k2.6, kimi-k2.5 natively supported |
| ZhipuAI | glm-5v-turbo | Always uses dedicated vision model |
| MiniMax | MiniMax-Text-01 | Always uses dedicated vision model |
<Note>
ZhipuAI and MiniMax text models do not support image understanding, so their dedicated vision models are always used automatically.
</Note>
## Parameters
| Parameter | Type | Required | Description |
| --- | --- | --- | --- |
| `image` | string | Yes | Local file path or HTTP(S) image URL |
| `question` | string | Yes | Question to ask about the image |
Supported image formats: jpg, jpeg, png, gif, webp
## Custom Configuration
To specify a particular model for the vision tool, add to `config.json`:
```json
{
"tool": {
"vision": {
"model": "gpt-4o"
}
}
}
```
In most cases no configuration is needed. The tool works automatically as long as the main model supports multimodal input or any vision-capable API key is configured.
## Use Cases
- Describe image content
- Extract text from images (OCR)
- Identify objects, colors, scenes
- Analyze screenshots and scanned documents
<Note>
Images larger than 1MB are automatically compressed (max edge 1536px). All images (including remote URLs) are converted to base64 for transmission to ensure compatibility with all model backends.
</Note>

18
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View File

@@ -8,12 +8,12 @@ description: 手动部署 CowAgent源码 / Docker
### 1. 克隆项目代码
```bash
git clone https://github.com/zhayujie/chatgpt-on-wechat
cd chatgpt-on-wechat/
git clone https://github.com/zhayujie/CowAgent
cd CowAgent/
```
<Tip>
若遇到网络问题可使用国内仓库地址https://gitee.com/zhayujie/chatgpt-on-wechat
若遇到网络问题可使用国内仓库地址https://gitee.com/zhayujie/CowAgent
</Tip>
### 2. 安装依赖
@@ -139,7 +139,8 @@ sudo docker logs -f chatgpt-on-wechat
```json
{
"channel_type": "web",
"model": "MiniMax-M2.7",
"model": "deepseek-v4-flash",
"deepseek_api_key": "",
"agent": true,
"agent_workspace": "~/cow",
"agent_max_context_tokens": 40000,
@@ -152,8 +153,9 @@ sudo docker logs -f chatgpt-on-wechat
```yaml
environment:
CHANNEL_TYPE: 'web'
MODEL: 'MiniMax-M2.7'
MINIMAX_API_KEY: 'your-api-key'
MODEL: 'deepseek-v4-flash'
DEEPSEEK_API_KEY: 'your-api-key'
DEEPSEEK_API_BASE: 'https://api.deepseek.com/v1'
AGENT: 'True'
AGENT_MAX_CONTEXT_TOKENS: 40000
AGENT_MAX_CONTEXT_TURNS: 30
@@ -165,7 +167,7 @@ sudo docker logs -f chatgpt-on-wechat
| 参数 | 环境变量 | 说明 | 默认值 |
| --- | --- | --- | --- |
| `channel_type` | `CHANNEL_TYPE` | 接入渠道类型 | `web` |
| `model` | `MODEL` | 模型名称 | `MiniMax-M2.5` |
| `model` | `MODEL` | 模型名称 | `deepseek-v4-flash` |
| `agent` | `AGENT` | 是否启用 Agent 模式 | `true` |
| `agent_workspace` | - | Agent 工作空间路径 | `~/cow` |
| `agent_max_context_tokens` | `AGENT_MAX_CONTEXT_TOKENS` | 最大上下文 tokens | `40000` |
@@ -173,5 +175,5 @@ sudo docker logs -f chatgpt-on-wechat
| `agent_max_steps` | `AGENT_MAX_STEPS` | 单次任务最大决策步数 | `15` |
<Tip>
全部配置项可在项目 [`config.py`](https://github.com/zhayujie/chatgpt-on-wechat/blob/master/config.py) 文件中查看。Docker 部署时,配置项名称需转为大写环境变量格式。
全部配置项可在项目 [`config.py`](https://github.com/zhayujie/CowAgent/blob/master/config.py) 文件中查看。Docker 部署时,配置项名称需转为大写环境变量格式。
</Tip>

4
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View File

@@ -26,7 +26,7 @@ description: 使用脚本一键安装和管理 CowAgent
1. 检查 Python 环境(需要 Python 3.7+
2. 安装必要工具git、curl 等)
3. 克隆项目代码到 `~/chatgpt-on-wechat`
3. 克隆项目代码到 `~/CowAgent`
4. 安装 Python 依赖和 Cow CLI
5. 引导配置 AI 模型和通信渠道
6. 启动服务
@@ -47,7 +47,7 @@ description: 使用脚本一键安装和管理 CowAgent
| `cow update` | 更新代码并重启 |
| `cow install-browser` | 安装浏览器工具依赖 |
更多命令和用法参考 [命令文档](/commands/index)。
更多命令和用法参考 [命令文档](/cli/index)。
<Note>
如果 `cow` 命令不可用,也可以使用 `./run.sh <命令>`Linux/macOS或 `.\scripts\run.ps1 <命令>`Windows作为替代功能等效。

2
docs/guide/upgrade.mdx
View File

@@ -36,7 +36,7 @@ pip3 install -e .
更新完成后重启服务:
```bash
# 使用 Cow CLI
# 使用 Cow CLI (推荐)
cow restart
# 或使用 run.sh

50
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View File

@@ -9,27 +9,29 @@ CowAgent 2.0 从简单的聊天机器人全面升级为超级智能助理,采
CowAgent 的整体架构由以下核心模块组成:
<img src="https://cdn.link-ai.tech/doc/68ef7b212c6f791e0e74314b912149f9-sz_5847990.png" alt="CowAgent Architecture" />
### 核心模块说明
<img src="https://cdn.link-ai.tech/doc/cow-agent-arch-zh.jpg" alt="CowAgent Architecture" />
| 模块 | 说明 |
| --- | --- |
| **Channels** | 消息通道层,负责接收和发送消息,支持 Web、飞书、钉钉、企微、公众号等 |
| **Agent Core** | 智能体核心引擎,包括任务规划、记忆系统和技能引擎 |
| **Tools** | 工具层Agent 通过工具访问操作系统资源,内置 10+ 种工具 |
| **Models** | 模型层,支持国内外主流大语言模型的统一接入 |
| **Plan** | 理解用户意图,将复杂任务分解为多步骤计划,循环调用工具直到完成目标 |
| **Memory** | 自动将重要信息持久化为核心记忆和日级记忆,支持关键词和向量混合检索,跨会话保持上下文连续性 |
| **Knowledge** | 以主题维度组织结构化知识Agent 自主整理有价值信息为 Markdown 页面,维护索引和交叉引用,构建持续增长的知识网络 |
| **Tools** | Agent 访问操作系统资源的核心能力,内置文件读写、终端执行、浏览器操作、定时调度、记忆检索、联网搜索等 10+ 种工具 |
| **Skills** | 加载和管理 Skills支持从 Skill Hub、GitHub 等一键安装,或通过对话创建自定义技能 |
| **Models** | 模型层,统一接入 OpenAI、Claude、Gemini、DeepSeek、MiniMax、GLM、Qwen 等国内外主流大语言模型 |
| **Channels** | 消息通道层,负责接收和发送消息,支持 Web 控制台、微信、飞书、钉钉、企微、公众号等,统一消息协议 |
| **CLI** | 命令行系统,提供终端命令(`cow`)和对话命令(`/`),支持进程管理、技能安装、配置修改、知识库管理等操作 |
## Agent 模式
启用 Agent 模式后CowAgent 会以自主智能体的方式运行,核心工作流如下:
1. **接收消息** - 通过通道接收用户输入
2. **理解意图** - 分析任务需求和上下文
3. **规划任务** - 将复杂任务分解为多个步骤
4. **调用工具** - 选择合适的工具执行每个步骤
5. **记忆更新** - 将重要信息存入长期记忆
6. **返回结果** - 将执行结果发送回用户
1. **接收消息** 通过通道接收用户输入
2. **理解意图** 分析任务需求和上下文
3. **规划任务** 将复杂任务分解为多个步骤
4. **调用工具** 选择合适的工具执行每个步骤
5. **记忆与知识更新** 将重要信息存入长期记忆,将结构化知识整理至知识库
6. **返回结果** 将执行结果发送回用户
## 工作空间
@@ -37,11 +39,14 @@ Agent 的工作空间默认位于 `~/cow` 目录,用于存储系统提示词
```
~/cow/
├── system.md # Agent system prompt
├── user.md # User profile
├── SYSTEM.md # Agent system prompt
├── USER.md # User profile
├── MEMORY.md # Core memory
├── memory/ # Long-term memory storage
── core.md # Core memory
│ └── daily/ # Daily memory
── YYYY-MM-DD.md # Daily memory
├── knowledge/ # Personal knowledge base
│ ├── index.md # Knowledge index
│ └── <category>/ # Topic-based pages
└── skills/ # Custom skills
├── skill-1/
└── skill-2/
@@ -64,7 +69,8 @@ Agent 的工作空间默认位于 `~/cow` 目录,用于存储系统提示词
"agent_workspace": "~/cow",
"agent_max_context_tokens": 40000,
"agent_max_context_turns": 30,
"agent_max_steps": 15
"agent_max_steps": 15,
"enable_thinking": false
}
```
@@ -72,6 +78,8 @@ Agent 的工作空间默认位于 `~/cow` 目录,用于存储系统提示词
| --- | --- | --- |
| `agent` | 是否启用 Agent 模式 | `true` |
| `agent_workspace` | 工作空间路径 | `~/cow` |
| `agent_max_context_tokens` | 最大上下文 token 数 | `40000` |
| `agent_max_context_turns` | 最大上下文记忆轮次 | `30` |
| `agent_max_steps` | 单次任务最大决策步数 | `15` |
| `agent_max_context_tokens` | 最大上下文 token 数 | `50000` |
| `agent_max_context_turns` | 最大上下文记忆轮次 | `20` |
| `agent_max_steps` | 单次任务最大决策步数 | `20` |
| `enable_thinking` | 是否启用深度思考模式 | `false` |
| `knowledge` | 是否启用个人知识库 | `true` |

107
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View File

@@ -1,27 +1,46 @@
---
title: 功能介绍
description: CowAgent 长期记忆、任务规划、技能系统详细说明
description: CowAgent 长期记忆、个人知识库、任务规划、技能系统、CLI 命令、浏览器工具详细说明
---
## 1. 长期记忆
> 记忆系统让 Agent 能够长期记住重要信息。Agent 会在用户分享偏好、决策、事实等重要信息时主动存储,也会在对话达到一定长度时自动提取摘要。记忆分为核心记忆、天级记忆,支持语义搜索和向量检索的混合检索模式
> 记忆系统让 Agent 能够长期记住重要信息,采用三层记忆流转架构:对话上下文(短期)→ 天级记忆(中期)→ MEMORY.md长期形成完整的记忆生命周期
第一次启动 Agent 时Agent 会主动询问关键信息,并记录至工作空间(默认 `~/cow`)中的智能体设定、用户身份、记忆文件中。
在后续的长期对话中Agent 会在需要时智能记录或检索记忆,并对自身设定、用户偏好、记忆文件等进行不断更新,总结和记录经验和教训,真正实现自主思考和不断成长
在后续的长期对话中Agent 会在需要时智能记录或检索记忆,并对自身设定、用户偏好、记忆文件等进行不断更新。每日自动执行 **梦境蒸馏Deep Dream**,将分散的天级记忆整合为精炼的长期记忆,同时生成叙事风格的梦境日记
<Frame>
<img src="https://cdn.link-ai.tech/doc/20260203000455.png" width="800" />
</Frame>
## 2. 任务规划和工具调用
详细说明请参考 [长期记忆](/memory) 和 [梦境蒸馏](/memory/deep-dream)。
## 2. 个人知识库
> 知识库系统让 Agent 能够持续积累和组织结构化知识。与按时间线记录的记忆不同,知识库以主题为维度,将文章、对话洞察、学习材料等整理为互相关联的 Markdown 页面,形成持续增长的知识网络。
Agent 会在对话中自动将有价值的信息整理为知识页面,维护交叉引用和索引,通过 Web 控制台可浏览文档和查看知识图谱。知识库存储在工作空间的 `~/cow/knowledge/` 目录下。
- **自动整理**Agent 在对话中自主提取和整理结构化知识,维护索引和交叉引用
- **知识图谱**基于页面间的交叉引用自动构建知识图谱Web 控制台提供可视化关系图浏览
- **对话联动**Agent 回复中引用的知识文档链接可在 Web 控制台中直接点击跳转查看
- **CLI 管理**:通过 `/knowledge` 命令查看统计、浏览目录,通过 `/knowledge on|off` 开关功能
<Frame>
<img src="https://cdn.link-ai.tech/doc/20260413105435.png" width="800" />
</Frame>
详细说明请参考 [个人知识库](/knowledge)。
## 3. 任务规划和工具调用
工具是 Agent 访问操作系统资源的核心Agent 会根据任务需求智能选择和调用工具,完成文件读写、命令执行、定时任务等各类操作。内置工具的实现在项目的 `agent/tools/` 目录下。
**主要工具:** 文件读写编辑、Bash 终端、文件发送、定时调度、记忆搜索、联网搜索、环境配置等。
**主要工具:** 文件读写编辑、Bash 终端、浏览器操作、文件发送、定时调度、记忆搜索、联网搜索、环境配置等。
### 2.1 终端和文件访问
### 3.1 终端和文件访问
针对操作系统的终端和文件的访问能力,是最基础和核心的工具,其他很多工具或技能都是基于此进行扩展。用户可通过手机端与 Agent 交互,操作个人电脑或服务器上的资源:
@@ -29,15 +48,15 @@ description: CowAgent 长期记忆、任务规划、技能系统详细说明
<img src="https://cdn.link-ai.tech/doc/20260202181130.png" width="800" />
</Frame>
### 2.2 编程能力
### 3.2 编程能力
基于编程能力和系统访问能力Agent 可以实现从信息搜索、图片等素材生成、编码、测试、部署、Nginx 配置修改、发布的 **Vibecoding 全流程**,通过手机端简单的一句命令完成应用的快速 demo
<Frame>
<img src="https://cdn.link-ai.tech/doc/20260203121008.png" width="800" />
<img src="https://cdn.link-ai.tech/doc/20260318211018.png" width="800" />
</Frame>
### 2.3 定时任务
### 3.3 定时任务
基于 `scheduler` 工具实现动态定时任务,支持**一次性任务、固定时间间隔、Cron 表达式**三种形式,任务触发可选择**固定消息发送**或 **Agent 动态任务**执行两种模式:
@@ -45,7 +64,15 @@ description: CowAgent 长期记忆、任务规划、技能系统详细说明
<img src="https://cdn.link-ai.tech/doc/20260202195402.png" width="800" />
</Frame>
### 2.4 环境变量管理
### 3.4 浏览器操作
内置 `browser` 工具Agent 可控制浏览器访问网页、填写表单、点击元素、截图,支持动态 JS 渲染页面。运行 `cow install-browser` 一键安装,自动适配服务器(无头模式)和桌面环境:
<Frame>
<img src="https://cdn.link-ai.tech/doc/20260401115728.png" width="750" />
</Frame>
### 3.5 环境变量管理
技能所需的秘钥存储在环境变量文件中,由 `env_config` 工具进行管理,你可以通过对话的方式更新秘钥,工具内置安全保护和脱敏策略:
@@ -53,14 +80,17 @@ description: CowAgent 长期记忆、任务规划、技能系统详细说明
<img src="https://cdn.link-ai.tech/doc/20260202234939.png" width="800" />
</Frame>
## 3. 技能系统
## 4. 技能系统
技能系统为 Agent 提供无限的扩展性,每个 Skill 由说明文件、运行脚本(可选)、资源(可选)组成,描述如何完成特定类型的任务。通过 Skill 可以让 Agent 遵循说明完成复杂流程、调用各类工具或对接第三方系统。
- **[Skill Hub](https://skills.cowagent.ai/)** 开放的技能广场,汇集官方推荐、社区贡献和第三方技能,支持一键安装。
- **内置技能:** 在项目的 `skills/` 目录下包含技能创造器、图像识别、LinkAI 智能体、网页抓取等。内置 Skill 根据依赖条件API Key、系统命令等自动判断是否启用。
- **自定义技能:** 由用户通过对话创建,存放在工作空间中(`~/cow/skills/`),可实现任何复杂的业务流程和第三方系统对接。
### 3.1 创建技能
安装技能:`/skill install <名称>` 或 `cow skill install <名称>`,支持从 Skill Hub、GitHub、ClawHub、URL 等来源安装。
### 4.1 创建技能
通过 `skill-creator` 技能可以通过对话的方式快速创建技能。你可以让 Agent 将某个工作流程固化为技能,或者把任意接口文档和示例发送给 Agent让他直接完成对接
@@ -68,7 +98,7 @@ description: CowAgent 长期记忆、任务规划、技能系统详细说明
<img src="https://cdn.link-ai.tech/doc/20260202202247.png" width="800" />
</Frame>
### 3.2 搜索和图像识别
### 4.2 搜索和图像识别
- **联网搜索:** 内置 `web_search` 工具,支持多种搜索引擎,配置 `BOCHA_API_KEY` 或 `LINKAI_API_KEY` 后启用。
- **图像识别:** 内置 `openai-image-vision` 技能,可使用 `gpt-4.1-mini`、`gpt-4.1` 等模型,依赖 `OPENAI_API_KEY`。
@@ -77,29 +107,36 @@ description: CowAgent 长期记忆、任务规划、技能系统详细说明
<img src="https://cdn.link-ai.tech/doc/20260202213219.png" width="800" />
</Frame>
### 3.3 三方知识库和插件
### 4.3 技能广场
`linkai-agent` 技能可以将 [LinkAI](https://link-ai.tech/) 上的所有智能体作为 Skill 交给 Agent 使用,实现多智能体决策效果。
访问 [skills.cowagent.ai](https://skills.cowagent.ai/) 浏览所有可用技能,或在对话中执行:
配置方式:通过 `env_config` 配置 `LINKAI_API_KEY`,并在 `skills/linkai-agent/config.json` 中添加智能体说明:
```json
{
"apps": [
{
"app_code": "G7z6vKwp",
"app_name": "LinkAI客服助手",
"app_description": "当用户需要了解LinkAI平台相关问题时才选择该助手"
},
{
"app_code": "SFY5x7JR",
"app_name": "内容创作助手",
"app_description": "当用户需要创作图片或视频时才使用该助手"
}
]
}
```text
/skill list --remote # 浏览技能广场
/skill search <关键词> # 搜索技能
/skill install <名称> # 一键安装
```
<Frame>
<img src="https://cdn.link-ai.tech/doc/20260202234350.png" width="750" />
</Frame>
同时还支持安装Github、ClawHub、LinkAI等第三方平台上的所有技能详情查看 [技能安装](/skills/install)
<img src="https://cdn.link-ai.tech/doc/20260401110103.png" width="750" />
## 5. CLI 命令系统
CowAgent 提供两种命令交互方式,覆盖服务管理、技能安装、配置调整等日常运维操作:
- **终端 CLI** 在系统终端执行 `cow <命令>`,支持 `start`、`stop`、`restart`、`update`、`status`、`logs`、`skill` 等
- **对话命令:** 在对话中输入 `/<命令>`Web 控制台输入 `/` 可弹出指令菜单快速选择
```bash
cow start # 启动服务
cow stop # 停止服务
cow update # 更新并重启
cow skill install pptx # 安装技能
cow install-browser # 安装浏览器工具
```
详细命令参考 [命令总览](https://docs.cowagent.ai/cli)。
<img src="https://cdn.link-ai.tech/doc/20260401114549.png" width="750" />

14
docs/intro/index.mdx
View File

@@ -5,12 +5,12 @@ description: CowAgent - 基于大模型的超级AI助理
<img src="https://cdn.link-ai.tech/doc/78c5dd674e2c828642ecc0406669fed7.png" alt="CowAgent" width="450px"/>
**CowAgent** 是基于大模型的超级AI助理能够主动思考和任务规划、操作计算机和外部资源、创造和执行Skills、拥有长期记忆并不断成长。
**CowAgent** 是基于大模型的超级AI助理能够主动思考和任务规划、操作计算机和外部资源、创造和执行Skills、拥有长期记忆和知识库并不断成长。
CowAgent 支持灵活切换多种模型能处理文本、语音、图片、文件等多模态消息可接入微信、飞书、钉钉、企业微信应用、微信公众号、网页中使用7×24小时运行于你的个人电脑或服务器中。
<CardGroup cols={2}>
<Card title="GitHub" icon="github" href="https://github.com/zhayujie/chatgpt-on-wechat">
<Card title="GitHub" icon="github" href="https://github.com/zhayujie/CowAgent">
开源代码仓库,欢迎 Star 和贡献
</Card>
<Card title="免部署在线体验" icon="cloud" href="https://link-ai.tech/cowagent/create">
@@ -25,18 +25,18 @@ CowAgent 支持灵活切换多种模型,能处理文本、语音、图片、
能够理解复杂任务并自主规划执行,持续思考和调用各类工具和技能直到完成目标。
</Card>
<Card title="长期记忆" icon="database" href="/memory">
自动将对话记忆持久化至本地文件和数据库中,包括全局记忆和天级记忆,支持关键词及向量检索。
三层记忆流转(上下文→天级记忆→全局记忆),每日梦境蒸馏整理,支持关键词及向量检索。
</Card>
<Card title="个人知识库" icon="book" href="/knowledge">
自动整理结构化知识,支持知识图谱可视化,通过交叉引用构建持续增长的知识网络。
</Card>
<Card title="技能系统" icon="puzzle-piece" href="/skills/index">
实现了Skills创建和运行的引擎内置多种技能并支持通过自然语言对话完成自定义Skills开发。
</Card>
<Card title="多模态消息" icon="image" href="/channels/web">
支持对文本、图片、语音、文件等多类型消息进行解析、处理、生成、发送等操作。
</Card>
<Card title="工具系统" icon="wrench" href="/tools/index">
内置文件读写、终端执行、浏览器操作、定时任务、消息发送等工具Agent 可自主调用工具完成复杂任务。
</Card>
<Card title="命令系统" icon="terminal" href="/commands/index">
<Card title="命令系统" icon="terminal" href="/cli/index">
提供终端 CLI 和对话中的命令,支持进程管理、技能安装、配置修改、上下文查看等常用操作。
</Card>
<Card title="多模型支持" icon="microchip" href="/models/index">

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