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Enhanced ChatGPT Clone: Features Agents, MCP, DeepSeek, Anthropic, AWS, OpenAI, Responses API, Azure, Groq, o1, GPT-5, Mistral, OpenRouter, Vertex AI, Gemini, Artifacts, AI model switching, message search, Code Interpreter, langchain, DALL-E-3, OpenAPI Actions, Functions, Secure Multi-User Auth, Presets, open-source for self-hosting. Active.
https://librechat.ai/
aianthropicartifactsawsazurechatgptchatgpt-cloneclaudeclonedeepseekgeminigooglegpt-5librechatmcpo1openairesponses-apivisionwebui
b03b2a0a29
* 💾 feat: Persist Context Breakdown & Branch/Total Usage Cost Persist the granular context breakdown and per-response usage/cost on the response message metadata, and re-derive branch + total usage/cost from a per-message index so the popover survives reloads and is branch-aware live. - Add aggregateEmittedUsage + buildPersistedContextUsage helpers in packages/api; capture the latest visible snapshot and every emitted on_token_usage payload via contextUsageSink/usageEmitSink. - Attach metadata.contextUsage (Part A) and metadata.usage (Part B) on the agents response message in sendCompletion. - Carry per-message usage on the token index; add sumTotalUsage/setEntryUsage and branch-scoped usage on sumBranch. - Repurpose the session accumulator into a single in-flight pending holder; flush it into the index at finalize; hydrate breakdowns on load. - Render branch cost with a conditional all-branches total in the breakdown. * 🧹 chore: Remove orphaned com_ui_session_cost i18n key * 🩹 fix: Address Codex review — normalize usage server-side, fix reload deltas - Persist per-event-normalized display units in metadata.usage (TResponseUsage) so reloaded mixed-provider turns match the live session; client reads them directly instead of re-normalizing with a single stamped provider (P2). - Persist completedOutputTokens (final call output) on metadata.contextUsage so a reloaded multi-call turn adds the post-snapshot delta, not the full tokenCount the snapshot already counts (P2). - buildIndex preserves a prior entry's immutable usage when a rebuilt cache message lacks metadata.usage, so a mid-session rebuild (regenerate) keeps a sibling branch's flushed cost (fixes the e2e regenerate failure). - Track costKnown so turns saved with contextCost off don't render $0.00 when cost display is later enabled (P3). - Use an epsilon for the all-branches cost comparison to avoid a spurious total row from float summation order (P3). - Update unit/integration/e2e tests for the new shapes; regenerate e2e asserts the all-branches total after reload (deterministic via persisted metadata). * 🩹 fix: Address Codex round 2 — pending leak, cost coverage, reload delta - Clear the in-flight pending usage on terminal abort/error (resetLive), so a stopped generation's tokens no longer merge into the next response (P2). - costKnown now means COMPLETE coverage (ANDed): a branch mixing cost-bearing and cost-less turns is flagged incomplete and the cost row is hidden rather than rendering an under-reported total (P2). - Drop the tokenCount fallback for completedOutputTokens on reload: only the persisted post-snapshot delta is used, so a multi-call turn whose provider emitted no usage_metadata no longer double-counts earlier output (P2). - Update tokens.spec for AND coverage semantics + incomplete-cost case. * 🩹 fix: Address Codex round 3 — no-usage snapshots, total coverage, provider-less cache - Skip persisting metadata.contextUsage when the response emitted no primary usage event: without a known post-snapshot output the granular gauge would undercount the reply on reload, so fall back to the coarse per-message estimate instead (P2). - Gate the all-branches cost row on totalUsage.costKnown so an incomplete total (a sibling saved without cost) never renders an under-reported figure (P2). - aggregateEmittedUsage/finalCallOutputTokens now normalize per-event with the client's magnitude fallback (normalizeEventUnits) instead of billing splitUsage, so provider-less cached events match live on reload (P2). - Add backend test for the provider-less cached case. * 🩹 fix: Address Codex round 4 — abort attribution, complete cost coverage - aggregateEmittedUsage persists cost only when EVERY call was priced; a partial pricing failure now omits cost so the client treats coverage as unknown rather than reading an under-reported sum as authoritative (P2). - finalizeUsage flushes pending into the response entry only when events were folded this session (eventCount > 0), so a late/second resumable subscriber carrying persisted metadata.usage keeps it instead of being overwritten with an empty pending record (P2). - On user stop, attribute the in-flight pending usage to the partial response (new attributePending handler) instead of discarding it in resetLive — the stopped reply's billed tokens are kept and still can't leak into the next response; resetLive's discard remains for the error path (P2). * 🐛 fix: Persist branch cost across branch switches via sticky usage history Branch cost vanished on switching to a sibling branch (until a new turn) — the cost analog of the granularity bug. buildIndex rebuilds the token index from the messages cache; a sibling generated this session whose cache message lacks metadata.usage (and is transiently dropped from the cache during regenerate) lost its live-flushed usage, so sumBranch found none and the cost row hid. Fix: a sticky per-response usage map (conversationId → messageId → usage), written by setEntryUsage and never rebuilt from the cache — the usage counterpart of snapshotsByAnchorFamily for the breakdown. buildIndex/upsertEntries restore an entry's usage from it when the message carries none; cleared on convo switch and migrated with the index. Add unit coverage for the drop-then-readd regression and an e2e assertion that branch cost survives a branch switch. * 🐛 fix: Re-index on branch switch so branch cost survives the switch The sticky usage history alone didn't fix the reported branch-switch cost drop: on a branch switch no cache `updated` event fires, so the index subscriber never re-ran, and the post-regenerate rebuild was skipped while `isSubmitting` was still true — leaving the index stale and missing the now-viewed branch's response entirely (sticky can only restore entries present in a rebuild). Re-index from the messages cache on every tail change (created/finalize AND branch switch), not just while submitting. The cache holds the full message set at switch time, so the viewed branch's response is re-added and its usage restored from metadata.usage or the sticky history → sumBranch finds it and the branch cost renders. Verified locally: the branch-switch e2e now passes (the cost section shows both the branch row and the all-branches total). Also fixed that e2e assertion to target a single cost value (strict-mode safe). * 🩹 fix: Handle stopped-stream usage — reset pending + persist abort metadata Codex round (stop/abort edges): - Resumable explicit-stop (intentional SSE close) reset UI state but never cleared pendingUsageFamily, so usage folded before the stop leaked into the next response in the conversation. Discard pending on intentional close (resetLive); a resume re-folds via backfillUsage, so nothing is lost. - The abort save path (abortMiddleware) persisted the stopped response without metadata.usage/contextUsage, so its cost + breakdown vanished on reload. Rebuild both from the job's persisted tokenUsage (emitted payloads incl. cost) and contextUsage snapshot — parity with the normal sendCompletion path; breakdown gated on a primary usage event like buildResponseMetadata. Deferred (per scope decision): mid-stream branch-switch transiently shows the streaming branch's pending on the viewed sibling (cosmetic, until finalize). * 🩹 fix: Persist abort metadata on the real agents route + tighten snapshot gate Codex round (corrects last round's wrong-path fixes): - Stopped AGENTS responses are saved by routes/agents/index.js (/chat/abort), not abortMiddleware — so last round's metadata fix never ran for them. Moved the rollup/snapshot builder into packages/api as buildAbortedResponseMetadata (shared, unit-tested) and applied it in BOTH abort save paths, so a stopped agent reply keeps its cost + breakdown on reload. - Persist the breakdown only when the FINAL visible call emitted usage: track a per-response snapshot count and require primaryUsageCount >= snapshotCount. Previously any earlier primary usage event passed the gate, so a multi-call turn whose final call emitted no usage_metadata used an earlier call's output as completedOutputTokens (already counted by the latest snapshot) → reload over-reported. Now it falls back to the coarse estimate. Resumable stop pending-reset (prior round, 3cde6fe035) already flows through clearAllSubmissions → SSE close → the intentional-close handler's resetLive. Deferred per scope: mid-stream branch-switch pending attribution (tracked). * 🩹 fix: Abort breakdown over-count + resume re-fold after pending discard Codex round (on the re-applied abort/snapshot work): - buildAbortedResponseMetadata now persists ONLY the usage/cost rollup, not the context breakdown. The abort path can't tell whether the final call emitted usage (the job stores only the latest snapshot, not a count), so persisting the breakdown risked reusing an earlier call's output as completedOutputTokens (already in the snapshot) → reload over-count. Stopped/incomplete responses now fall back to the coarse gauge estimate, which is safe and apt. - resetLive now also forgets the conversation's folded usage-event identities (clearUsageFolded). Discarding pending on a terminal/intentional close left the folded keys set, so a later resume's backfillUsage saw the persisted events as duplicates and never rebuilt pending — leaving the response's usage missing until a full reload. Clearing them lets the resume re-fold. |
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LibreChat
English · 中文
✨ Features
-
🖥️ UI & Experience inspired by ChatGPT with enhanced design and features
-
🤖 AI Model Selection:
- Anthropic (Claude), AWS Bedrock, OpenAI, Azure OpenAI, Google, Vertex AI, OpenAI Responses API (incl. Azure)
- Custom Endpoints: Use any OpenAI-compatible API with LibreChat, no proxy required
- Compatible with Local & Remote AI Providers:
- Ollama, groq, Cohere, Mistral AI, Apple MLX, koboldcpp, together.ai,
- OpenRouter, Helicone, Perplexity, ShuttleAI, Deepseek, Qwen, and more
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- Secure, Sandboxed Execution in Python, Node.js (JS/TS), Go, C/C++, Java, PHP, Rust, and Fortran
- Seamless File Handling: Upload, process, and download files directly
- No Privacy Concerns: Fully isolated and secure execution
-
🔦 Agents & Tools Integration:
- LibreChat Agents:
- No-Code Custom Assistants: Build specialized, AI-driven helpers
- Agent Marketplace: Discover and deploy community-built agents
- Collaborative Sharing: Share agents with specific users and groups
- Flexible & Extensible: Use MCP Servers, tools, file search, code execution, and more
- Skills: Create reusable
SKILL.mdinstruction bundles for manual, automatic, or always-on agent workflows - Subagents: Delegate focused work to isolated child agent runs with their own context windows
- Compatible with Custom Endpoints, OpenAI, Azure, Anthropic, AWS Bedrock, Google, Vertex AI, Responses API, and more
- Model Context Protocol (MCP) Support for Tools
- LibreChat Agents:
-
🔍 Web Search:
- Search the internet and retrieve relevant information to enhance your AI context
- Combines search providers, content scrapers, and result rerankers for optimal results
- Customizable Jina Reranking: Configure custom Jina API URLs for reranking services
- Learn More →
-
🪄 Generative UI with Code Artifacts:
- Code Artifacts allow creation of React, HTML, and Mermaid diagrams directly in chat
-
🎨 Image Generation & Editing
- Text-to-image and image-to-image with GPT-Image-1
- Text-to-image with DALL-E (3/2), Stable Diffusion, Flux, or any MCP server
- Produce stunning visuals from prompts or refine existing images with a single instruction
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💾 Presets & Context Management:
- Create, Save, & Share Custom Presets
- Switch between AI Endpoints and Presets mid-chat
- Edit, Resubmit, and Continue Messages with Conversation branching
- Create and share prompts with specific users and groups
- Fork Messages & Conversations for Advanced Context control
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💬 Multimodal & File Interactions:
- Upload and analyze images with Claude 3, GPT-4.5, GPT-4o, o1, Llama-Vision, and Gemini 📸
- Chat with Files using Custom Endpoints, OpenAI, Azure, Anthropic, AWS Bedrock, & Google 🗃️
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🌎 Multilingual UI:
- English, 中文 (简体), 中文 (繁體), العربية, Deutsch, Español, Français, Italiano
- Polski, Português (PT), Português (BR), Русский, 日本語, Svenska, 한국어, Tiếng Việt
- Türkçe, Nederlands, עברית, Català, Čeština, Dansk, Eesti, فارسی
- Suomi, Magyar, Հայերեն, Bahasa Indonesia, ქართული, Latviešu, ไทย, ئۇيغۇرچە
-
🧠 Reasoning UI:
- Dynamic Reasoning UI for Chain-of-Thought/Reasoning AI models like DeepSeek-R1
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🎨 Customizable Interface:
- Customizable Dropdown & Interface that adapts to both power users and newcomers
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- Never lose a response: AI responses automatically reconnect and resume if your connection drops
- Multi-Tab & Multi-Device Sync: Open the same chat in multiple tabs or pick up on another device
- Production-Ready: Works from single-server setups to horizontally scaled deployments with Redis
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🗣️ Speech & Audio:
- Chat hands-free with Speech-to-Text and Text-to-Speech
- Automatically send and play Audio
- Supports OpenAI, Azure OpenAI, and Elevenlabs
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📥 Import & Export Conversations:
- Import Conversations from LibreChat, ChatGPT, Chatbot UI
- Export conversations as screenshots, markdown, text, json
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🔍 Search & Discovery:
- Search all messages/conversations
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👥 Multi-User & Secure Access:
- Multi-User, Secure Authentication with OAuth2, LDAP, & Email Login Support
- Built-in Moderation, and Token spend tools
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⚙️ Configuration & Deployment:
- Configure Proxy, Reverse Proxy, Docker, & many Deployment options
- Use S3 with CloudFront for stable media links, edge delivery, signed cookies, and secured downloads
- Use completely local or deploy on the cloud
-
📖 Open-Source & Community:
- Completely Open-Source & Built in Public
- Community-driven development, support, and feedback
For a thorough review of our features, see our docs here 📚
🪶 All-In-One AI Conversations with LibreChat
LibreChat is a self-hosted AI chat platform that unifies all major AI providers in a single, privacy-focused interface.
Beyond chat, LibreChat provides AI Agents, Model Context Protocol (MCP) support, Artifacts, Code Interpreter, custom actions, conversation search, and enterprise-ready multi-user authentication.
Open source, actively developed, and built for anyone who values control over their AI infrastructure.
🌐 Resources
GitHub Repo:
- RAG API: github.com/danny-avila/rag_api
- Website: github.com/LibreChat-AI/librechat.ai
Other:
- Website: librechat.ai
- Documentation: librechat.ai/docs
- Blog: librechat.ai/blog
📝 Changelog
Keep up with the latest updates by visiting the releases page and notes:
⚠️ Please consult the changelog for breaking changes before updating.
⭐ Star History
✨ Contributions
Contributions, suggestions, bug reports and fixes are welcome!
For new features, components, or extensions, please open an issue and discuss before sending a PR.
If you'd like to help translate LibreChat into your language, we'd love your contribution! Improving our translations not only makes LibreChat more accessible to users around the world but also enhances the overall user experience. Please check out our Translation Guide.
💖 This project exists in its current state thanks to all the people who contribute
🎉 Special Thanks
We thank Locize for their translation management tools that support multiple languages in LibreChat.